Index: head/tests/sys/fs/fusefs/access.cc =================================================================== --- head/tests/sys/fs/fusefs/access.cc (revision 350989) +++ head/tests/sys/fs/fusefs/access.cc (revision 350990) @@ -1,119 +1,121 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Access: public FuseTest { public: void expect_lookup(const char *relpath, uint64_t ino) { FuseTest::expect_lookup(relpath, ino, S_IFREG | 0644, 0, 1); } }; class RofsAccess: public Access { public: virtual void SetUp() { m_ro = true; Access::SetUp(); } }; /* The error case of FUSE_ACCESS. */ TEST_F(Access, eaccess) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; mode_t access_mode = X_OK; expect_access(FUSE_ROOT_ID, X_OK, 0); expect_lookup(RELPATH, ino); expect_access(ino, access_mode, EACCES); ASSERT_NE(0, access(FULLPATH, access_mode)); ASSERT_EQ(EACCES, errno); } /* * If the filesystem returns ENOSYS, then it is treated as a permanent success, * and subsequent VOP_ACCESS calls will succeed automatically without querying * the daemon. */ TEST_F(Access, enosys) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; mode_t access_mode = R_OK; expect_access(FUSE_ROOT_ID, X_OK, ENOSYS); FuseTest::expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 2); ASSERT_EQ(0, access(FULLPATH, access_mode)) << strerror(errno); ASSERT_EQ(0, access(FULLPATH, access_mode)) << strerror(errno); } TEST_F(RofsAccess, erofs) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; mode_t access_mode = W_OK; expect_access(FUSE_ROOT_ID, X_OK, 0); expect_lookup(RELPATH, ino); ASSERT_NE(0, access(FULLPATH, access_mode)); ASSERT_EQ(EROFS, errno); } /* The successful case of FUSE_ACCESS. */ TEST_F(Access, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; mode_t access_mode = R_OK; expect_access(FUSE_ROOT_ID, X_OK, 0); expect_lookup(RELPATH, ino); expect_access(ino, access_mode, 0); ASSERT_EQ(0, access(FULLPATH, access_mode)) << strerror(errno); } Index: head/tests/sys/fs/fusefs/allow_other.cc =================================================================== --- head/tests/sys/fs/fusefs/allow_other.cc (revision 350989) +++ head/tests/sys/fs/fusefs/allow_other.cc (revision 350990) @@ -1,303 +1,305 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ /* * Tests for the "allow_other" mount option. They must be in their own * file so they can be run as root */ extern "C" { #include #include #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; const static char FULLPATH[] = "mountpoint/some_file.txt"; const static char RELPATH[] = "some_file.txt"; class NoAllowOther: public FuseTest { public: /* Unprivileged user id */ int m_uid; virtual void SetUp() { if (geteuid() != 0) { GTEST_SKIP() << "This test must be run as root"; } FuseTest::SetUp(); } }; class AllowOther: public NoAllowOther { public: virtual void SetUp() { m_allow_other = true; NoAllowOther::SetUp(); } }; TEST_F(AllowOther, allowed) { int status; fork(true, &status, [&] { uint64_t ino = 42; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_open(ino, 0, 1); expect_flush(ino, 1, ReturnErrno(0)); expect_release(ino, FH); }, []() { int fd; fd = open(FULLPATH, O_RDONLY); if (fd < 0) { perror("open"); return(1); } return 0; } ); ASSERT_EQ(0, WEXITSTATUS(status)); } /* Check that fusefs uses the correct credentials for FUSE operations */ TEST_F(AllowOther, creds) { int status; uid_t uid; gid_t gid; get_unprivileged_id(&uid, &gid); fork(true, &status, [=] { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_LOOKUP && in.header.uid == uid && in.header.gid == gid); }, Eq(true)), _) ).Times(1) .WillOnce(Invoke(ReturnErrno(ENOENT))); }, []() { eaccess(FULLPATH, F_OK); return 0; } ); ASSERT_EQ(0, WEXITSTATUS(status)); } /* * A variation of the Open.multiple_creds test showing how the bug can lead to a * privilege elevation. The first process is privileged and opens a file only * visible to root. The second process is unprivileged and shouldn't be able * to open the file, but does thanks to the bug */ TEST_F(AllowOther, privilege_escalation) { int fd1, status; const static uint64_t ino = 42; const static uint64_t fh = 100; /* Fork a child to open the file with different credentials */ fork(true, &status, [&] { expect_lookup(RELPATH, ino, S_IFREG | 0600, 0, 2); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_OPEN && in.header.pid == (uint32_t)getpid() && in.header.uid == (uint32_t)geteuid() && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke( ReturnImmediate([](auto in __unused, auto& out) { out.body.open.fh = fh; out.header.len = sizeof(out.header); SET_OUT_HEADER_LEN(out, open); }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_OPEN && in.header.pid != (uint32_t)getpid() && in.header.uid != (uint32_t)geteuid() && in.header.nodeid == ino); }, Eq(true)), _) ).Times(AnyNumber()) .WillRepeatedly(Invoke(ReturnErrno(EPERM))); fd1 = open(FULLPATH, O_RDONLY); EXPECT_LE(0, fd1) << strerror(errno); }, [] { int fd0; fd0 = open(FULLPATH, O_RDONLY); if (fd0 >= 0) { fprintf(stderr, "Privilege escalation!\n"); return 1; } if (errno != EPERM) { fprintf(stderr, "Unexpected error %s\n", strerror(errno)); return 1; } leak(fd0); return 0; } ); ASSERT_EQ(0, WEXITSTATUS(status)); leak(fd1); } TEST_F(NoAllowOther, disallowed) { int status; fork(true, &status, [] { }, []() { int fd; fd = open(FULLPATH, O_RDONLY); if (fd >= 0) { fprintf(stderr, "open should've failed\n"); return(1); } else if (errno != EPERM) { fprintf(stderr, "Unexpected error: %s\n", strerror(errno)); return(1); } return 0; } ); ASSERT_EQ(0, WEXITSTATUS(status)); } /* * When -o allow_other is not used, users other than the owner aren't allowed * to open anything inside of the mount point, not just the mountpoint itself * This is a regression test for bug 237052 */ TEST_F(NoAllowOther, disallowed_beneath_root) { const static char RELPATH2[] = "other_dir"; const static uint64_t ino = 42; const static uint64_t ino2 = 43; int dfd, status; expect_lookup(RELPATH, ino, S_IFDIR | 0755, 0, 1); EXPECT_LOOKUP(ino, RELPATH2) .WillRepeatedly(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = ino2; out.body.entry.attr.nlink = 1; out.body.entry.attr_valid = UINT64_MAX; }))); expect_opendir(ino); dfd = open(FULLPATH, O_DIRECTORY); ASSERT_LE(0, dfd) << strerror(errno); fork(true, &status, [] { }, [&]() { int fd; fd = openat(dfd, RELPATH2, O_RDONLY); if (fd >= 0) { fprintf(stderr, "openat should've failed\n"); return(1); } else if (errno != EPERM) { fprintf(stderr, "Unexpected error: %s\n", strerror(errno)); return(1); } return 0; } ); ASSERT_EQ(0, WEXITSTATUS(status)); } /* * Provide coverage for the extattr methods, which have a slightly different * code path */ TEST_F(NoAllowOther, setextattr) { int ino = 42, status; fork(true, &status, [&] { EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke( ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = ino; }))); /* * lookup the file to get it into the cache. * Otherwise, the unprivileged lookup will fail with * EACCES */ ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); }, [&]() { const char value[] = "whatever"; ssize_t value_len = strlen(value) + 1; int ns = EXTATTR_NAMESPACE_USER; ssize_t r; r = extattr_set_file(FULLPATH, ns, "foo", (const void*)value, value_len); if (r >= 0) { fprintf(stderr, "should've failed\n"); return(1); } else if (errno != EPERM) { fprintf(stderr, "Unexpected error: %s\n", strerror(errno)); return(1); } return 0; } ); ASSERT_EQ(0, WEXITSTATUS(status)); } Index: head/tests/sys/fs/fusefs/bmap.cc =================================================================== --- head/tests/sys/fs/fusefs/bmap.cc (revision 350989) +++ head/tests/sys/fs/fusefs/bmap.cc (revision 350990) @@ -1,159 +1,161 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; const static char FULLPATH[] = "mountpoint/foo"; const static char RELPATH[] = "foo"; class Bmap: public FuseTest { public: virtual void SetUp() { m_maxreadahead = UINT32_MAX; FuseTest::SetUp(); } void expect_bmap(uint64_t ino, uint64_t lbn, uint32_t blocksize, uint64_t pbn) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_BMAP && in.header.nodeid == ino && in.body.bmap.block == lbn && in.body.bmap.blocksize == blocksize); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, bmap); out.body.bmap.block = pbn; }))); } void expect_lookup(const char *relpath, uint64_t ino, off_t size) { FuseTest::expect_lookup(relpath, ino, S_IFREG | 0644, size, 1, UINT64_MAX); } }; /* * Test FUSE_BMAP * XXX The FUSE protocol does not include the runp and runb variables, so those * must be guessed in-kernel. */ TEST_F(Bmap, bmap) { struct fiobmap2_arg arg; const off_t filesize = 1 << 20; const ino_t ino = 42; int64_t lbn = 10; int64_t pbn = 12345; int fd; expect_lookup(RELPATH, 42, filesize); expect_open(ino, 0, 1); expect_bmap(ino, lbn, m_maxbcachebuf, pbn); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); arg.bn = lbn; arg.runp = -1; arg.runb = -1; ASSERT_EQ(0, ioctl(fd, FIOBMAP2, &arg)) << strerror(errno); EXPECT_EQ(arg.bn, pbn); EXPECT_EQ(arg.runp, m_maxphys / m_maxbcachebuf - 1); EXPECT_EQ(arg.runb, m_maxphys / m_maxbcachebuf - 1); } /* * If the daemon does not implement VOP_BMAP, fusefs should return sensible * defaults. */ TEST_F(Bmap, default_) { struct fiobmap2_arg arg; const off_t filesize = 1 << 20; const ino_t ino = 42; int64_t lbn; int fd; expect_lookup(RELPATH, 42, filesize); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_BMAP); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(ENOSYS))); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); /* First block */ lbn = 0; arg.bn = lbn; arg.runp = -1; arg.runb = -1; ASSERT_EQ(0, ioctl(fd, FIOBMAP2, &arg)) << strerror(errno); EXPECT_EQ(arg.bn, 0); EXPECT_EQ(arg.runp, m_maxphys / m_maxbcachebuf - 1); EXPECT_EQ(arg.runb, 0); /* In the middle */ lbn = filesize / m_maxbcachebuf / 2; arg.bn = lbn; arg.runp = -1; arg.runb = -1; ASSERT_EQ(0, ioctl(fd, FIOBMAP2, &arg)) << strerror(errno); EXPECT_EQ(arg.bn, lbn * m_maxbcachebuf / DEV_BSIZE); EXPECT_EQ(arg.runp, m_maxphys / m_maxbcachebuf - 1); EXPECT_EQ(arg.runb, m_maxphys / m_maxbcachebuf - 1); /* Last block */ lbn = filesize / m_maxbcachebuf - 1; arg.bn = lbn; arg.runp = -1; arg.runb = -1; ASSERT_EQ(0, ioctl(fd, FIOBMAP2, &arg)) << strerror(errno); EXPECT_EQ(arg.bn, lbn * m_maxbcachebuf / DEV_BSIZE); EXPECT_EQ(arg.runp, 0); EXPECT_EQ(arg.runb, m_maxphys / m_maxbcachebuf - 1); } Index: head/tests/sys/fs/fusefs/create.cc =================================================================== --- head/tests/sys/fs/fusefs/create.cc (revision 350989) +++ head/tests/sys/fs/fusefs/create.cc (revision 350990) @@ -1,449 +1,451 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Create: public FuseTest { public: void expect_create(const char *relpath, mode_t mode, ProcessMockerT r) { mode_t mask = umask(0); (void)umask(mask); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes + sizeof(fuse_create_in); return (in.header.opcode == FUSE_CREATE && in.body.create.mode == mode && in.body.create.umask == mask && (0 == strcmp(relpath, name))); }, Eq(true)), _) ).WillOnce(Invoke(r)); } }; /* FUSE_CREATE operations for a protocol 7.8 server */ class Create_7_8: public Create { public: virtual void SetUp() { m_kernel_minor_version = 8; Create::SetUp(); } void expect_create(const char *relpath, mode_t mode, ProcessMockerT r) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes + sizeof(fuse_open_in); return (in.header.opcode == FUSE_CREATE && in.body.create.mode == mode && (0 == strcmp(relpath, name))); }, Eq(true)), _) ).WillOnce(Invoke(r)); } }; /* FUSE_CREATE operations for a server built at protocol <= 7.11 */ class Create_7_11: public FuseTest { public: virtual void SetUp() { m_kernel_minor_version = 11; FuseTest::SetUp(); } void expect_create(const char *relpath, mode_t mode, ProcessMockerT r) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes + sizeof(fuse_open_in); return (in.header.opcode == FUSE_CREATE && in.body.create.mode == mode && (0 == strcmp(relpath, name))); }, Eq(true)), _) ).WillOnce(Invoke(r)); } }; /* * If FUSE_CREATE sets attr_valid, then subsequent GETATTRs should use the * attribute cache */ TEST_F(Create, attr_cache) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; mode_t mode = S_IFREG | 0755; uint64_t ino = 42; int fd; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_create(RELPATH, mode, ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, create); out.body.create.entry.attr.mode = mode; out.body.create.entry.nodeid = ino; out.body.create.entry.entry_valid = UINT64_MAX; out.body.create.entry.attr_valid = UINT64_MAX; })); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).Times(0); fd = open(FULLPATH, O_CREAT | O_EXCL, mode); EXPECT_LE(0, fd) << strerror(errno); leak(fd); } /* A successful CREATE operation should purge the parent dir's attr cache */ TEST_F(Create, clear_attr_cache) { const char FULLPATH[] = "mountpoint/src"; const char RELPATH[] = "src"; mode_t mode = S_IFREG | 0755; uint64_t ino = 42; int fd; struct stat sb; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == FUSE_ROOT_ID); }, Eq(true)), _) ).Times(2) .WillRepeatedly(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = FUSE_ROOT_ID; out.body.attr.attr.mode = S_IFDIR | 0755; out.body.attr.attr_valid = UINT64_MAX; }))); expect_create(RELPATH, mode, ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, create); out.body.create.entry.attr.mode = mode; out.body.create.entry.nodeid = ino; out.body.create.entry.entry_valid = UINT64_MAX; out.body.create.entry.attr_valid = UINT64_MAX; })); EXPECT_EQ(0, stat("mountpoint", &sb)) << strerror(errno); fd = open(FULLPATH, O_CREAT | O_EXCL, mode); EXPECT_LE(0, fd) << strerror(errno); EXPECT_EQ(0, stat("mountpoint", &sb)) << strerror(errno); leak(fd); } /* * The fuse daemon fails the request with EEXIST. This usually indicates a * race condition: some other FUSE client created the file in between when the * kernel checked for it with lookup and tried to create it with create */ TEST_F(Create, eexist) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; mode_t mode = S_IFREG | 0755; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_create(RELPATH, mode, ReturnErrno(EEXIST)); EXPECT_NE(0, open(FULLPATH, O_CREAT | O_EXCL, mode)); EXPECT_EQ(EEXIST, errno); } /* * If the daemon doesn't implement FUSE_CREATE, then the kernel should fallback * to FUSE_MKNOD/FUSE_OPEN */ TEST_F(Create, Enosys) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; mode_t mode = S_IFREG | 0755; uint64_t ino = 42; int fd; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_create(RELPATH, mode, ReturnErrno(ENOSYS)); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes + sizeof(fuse_mknod_in); return (in.header.opcode == FUSE_MKNOD && in.body.mknod.mode == (S_IFREG | mode) && in.body.mknod.rdev == 0 && (0 == strcmp(RELPATH, name))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.entry_valid = UINT64_MAX; out.body.entry.attr_valid = UINT64_MAX; }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_OPEN && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([](auto in __unused, auto& out) { out.header.len = sizeof(out.header); SET_OUT_HEADER_LEN(out, open); }))); fd = open(FULLPATH, O_CREAT | O_EXCL, mode); EXPECT_LE(0, fd) << strerror(errno); leak(fd); } /* * Creating a new file after FUSE_LOOKUP returned a negative cache entry */ TEST_F(Create, entry_cache_negative) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; mode_t mode = S_IFREG | 0755; uint64_t ino = 42; int fd; /* * Set entry_valid = 0 because this test isn't concerned with whether * or not we actually cache negative entries, only with whether we * interpret negative cache responses correctly. */ struct timespec entry_valid = {.tv_sec = 0, .tv_nsec = 0}; /* create will first do a LOOKUP, adding a negative cache entry */ EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(ReturnNegativeCache(&entry_valid)); expect_create(RELPATH, mode, ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, create); out.body.create.entry.attr.mode = mode; out.body.create.entry.nodeid = ino; out.body.create.entry.entry_valid = UINT64_MAX; out.body.create.entry.attr_valid = UINT64_MAX; })); fd = open(FULLPATH, O_CREAT | O_EXCL, mode); ASSERT_LE(0, fd) << strerror(errno); leak(fd); } /* * Creating a new file should purge any negative namecache entries */ TEST_F(Create, entry_cache_negative_purge) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; mode_t mode = S_IFREG | 0755; uint64_t ino = 42; int fd; struct timespec entry_valid = {.tv_sec = TIME_T_MAX, .tv_nsec = 0}; /* create will first do a LOOKUP, adding a negative cache entry */ EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH).Times(1) .WillOnce(Invoke(ReturnNegativeCache(&entry_valid))) .RetiresOnSaturation(); /* Then the CREATE should purge the negative cache entry */ expect_create(RELPATH, mode, ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, create); out.body.create.entry.attr.mode = mode; out.body.create.entry.nodeid = ino; out.body.create.entry.attr_valid = UINT64_MAX; })); fd = open(FULLPATH, O_CREAT | O_EXCL, mode); ASSERT_LE(0, fd) << strerror(errno); /* Finally, a subsequent lookup should query the daemon */ expect_lookup(RELPATH, ino, S_IFREG | mode, 0, 1); ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); leak(fd); } /* * The daemon is responsible for checking file permissions (unless the * default_permissions mount option was used) */ TEST_F(Create, eperm) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; mode_t mode = S_IFREG | 0755; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_create(RELPATH, mode, ReturnErrno(EPERM)); EXPECT_NE(0, open(FULLPATH, O_CREAT | O_EXCL, mode)); EXPECT_EQ(EPERM, errno); } TEST_F(Create, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; mode_t mode = S_IFREG | 0755; uint64_t ino = 42; int fd; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_create(RELPATH, mode, ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, create); out.body.create.entry.attr.mode = mode; out.body.create.entry.nodeid = ino; out.body.create.entry.entry_valid = UINT64_MAX; out.body.create.entry.attr_valid = UINT64_MAX; })); fd = open(FULLPATH, O_CREAT | O_EXCL, mode); EXPECT_LE(0, fd) << strerror(errno); leak(fd); } /* * A regression test for a bug that affected old FUSE implementations: * open(..., O_WRONLY | O_CREAT, 0444) should work despite the seeming * contradiction between O_WRONLY and 0444 * * For example: * https://bugs.launchpad.net/ubuntu/+source/sshfs-fuse/+bug/44886 */ TEST_F(Create, wronly_0444) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; mode_t mode = S_IFREG | 0444; uint64_t ino = 42; int fd; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_create(RELPATH, mode, ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, create); out.body.create.entry.attr.mode = mode; out.body.create.entry.nodeid = ino; out.body.create.entry.entry_valid = UINT64_MAX; out.body.create.entry.attr_valid = UINT64_MAX; })); fd = open(FULLPATH, O_CREAT | O_WRONLY, mode); EXPECT_LE(0, fd) << strerror(errno); leak(fd); } TEST_F(Create_7_8, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; mode_t mode = S_IFREG | 0755; uint64_t ino = 42; int fd; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_create(RELPATH, mode, ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, create_7_8); out.body.create.entry.attr.mode = mode; out.body.create.entry.nodeid = ino; out.body.create.entry.entry_valid = UINT64_MAX; out.body.create.entry.attr_valid = UINT64_MAX; })); fd = open(FULLPATH, O_CREAT | O_EXCL, mode); EXPECT_LE(0, fd) << strerror(errno); leak(fd); } TEST_F(Create_7_11, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; mode_t mode = S_IFREG | 0755; uint64_t ino = 42; int fd; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_create(RELPATH, mode, ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, create); out.body.create.entry.attr.mode = mode; out.body.create.entry.nodeid = ino; out.body.create.entry.entry_valid = UINT64_MAX; out.body.create.entry.attr_valid = UINT64_MAX; })); fd = open(FULLPATH, O_CREAT | O_EXCL, mode); EXPECT_LE(0, fd) << strerror(errno); leak(fd); } Index: head/tests/sys/fs/fusefs/default_permissions.cc =================================================================== --- head/tests/sys/fs/fusefs/default_permissions.cc (revision 350989) +++ head/tests/sys/fs/fusefs/default_permissions.cc (revision 350990) @@ -1,1305 +1,1307 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ /* * Tests for the "default_permissions" mount option. They must be in their own * file so they can be run as an unprivileged user */ extern "C" { #include #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class DefaultPermissions: public FuseTest { virtual void SetUp() { m_default_permissions = true; FuseTest::SetUp(); if (HasFatalFailure() || IsSkipped()) return; if (geteuid() == 0) { GTEST_SKIP() << "This test requires an unprivileged user"; } /* With -o default_permissions, FUSE_ACCESS should never be called */ EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_ACCESS); }, Eq(true)), _) ).Times(0); } public: void expect_chmod(uint64_t ino, mode_t mode, uint64_t size = 0) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && in.body.setattr.valid == FATTR_MODE && in.body.setattr.mode == mode); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | mode; out.body.attr.attr.size = size; out.body.attr.attr_valid = UINT64_MAX; }))); } void expect_create(const char *relpath, uint64_t ino) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes + sizeof(fuse_create_in); return (in.header.opcode == FUSE_CREATE && (0 == strcmp(relpath, name))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, create); out.body.create.entry.attr.mode = S_IFREG | 0644; out.body.create.entry.nodeid = ino; out.body.create.entry.entry_valid = UINT64_MAX; out.body.create.entry.attr_valid = UINT64_MAX; }))); } void expect_getattr(uint64_t ino, mode_t mode, uint64_t attr_valid, int times, uid_t uid = 0, gid_t gid = 0) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).Times(times) .WillRepeatedly(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = mode; out.body.attr.attr.size = 0; out.body.attr.attr.uid = uid; out.body.attr.attr.uid = gid; out.body.attr.attr_valid = attr_valid; }))); } void expect_lookup(const char *relpath, uint64_t ino, mode_t mode, uint64_t attr_valid, uid_t uid = 0, gid_t gid = 0) { FuseTest::expect_lookup(relpath, ino, mode, 0, 1, attr_valid, uid, gid); } }; class Access: public DefaultPermissions {}; class Chown: public DefaultPermissions {}; class Chgrp: public DefaultPermissions {}; class Lookup: public DefaultPermissions {}; class Open: public DefaultPermissions {}; class Setattr: public DefaultPermissions {}; class Unlink: public DefaultPermissions {}; class Utimensat: public DefaultPermissions {}; class Write: public DefaultPermissions {}; /* * Test permission handling during create, mkdir, mknod, link, symlink, and * rename vops (they all share a common path for permission checks in * VOP_LOOKUP) */ class Create: public DefaultPermissions {}; class Deleteextattr: public DefaultPermissions { public: void expect_removexattr() { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_REMOVEXATTR); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(0))); } }; class Getextattr: public DefaultPermissions { public: void expect_getxattr(ProcessMockerT r) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETXATTR); }, Eq(true)), _) ).WillOnce(Invoke(r)); } }; class Listextattr: public DefaultPermissions { public: void expect_listxattr() { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_LISTXATTR); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([](auto i __unused, auto& out) { out.body.listxattr.size = 0; SET_OUT_HEADER_LEN(out, listxattr); }))); } }; class Rename: public DefaultPermissions { public: /* * Expect a rename and respond with the given error. Don't both to * validate arguments; the tests in rename.cc do that. */ void expect_rename(int error) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_RENAME); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(error))); } }; class Setextattr: public DefaultPermissions { public: void expect_setxattr(int error) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_SETXATTR); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(error))); } }; /* Return a group to which this user does not belong */ static gid_t excluded_group() { int i, ngroups = 64; gid_t newgid, groups[ngroups]; getgrouplist(getlogin(), getegid(), groups, &ngroups); for (newgid = 0; ; newgid++) { bool belongs = false; for (i = 0; i < ngroups; i++) { if (groups[i] == newgid) belongs = true; } if (!belongs) break; } /* newgid is now a group to which the current user does not belong */ return newgid; } TEST_F(Access, eacces) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; mode_t access_mode = X_OK; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0644, UINT64_MAX); ASSERT_NE(0, access(FULLPATH, access_mode)); ASSERT_EQ(EACCES, errno); } TEST_F(Access, eacces_no_cached_attrs) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; mode_t access_mode = X_OK; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, 0, 1); expect_lookup(RELPATH, ino, S_IFREG | 0644, 0); expect_getattr(ino, S_IFREG | 0644, 0, 1); /* * Once default_permissions is properly implemented, there might be * another FUSE_GETATTR or something in here. But there should not be * a FUSE_ACCESS */ ASSERT_NE(0, access(FULLPATH, access_mode)); ASSERT_EQ(EACCES, errno); } TEST_F(Access, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; mode_t access_mode = R_OK; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0644, UINT64_MAX); /* * Once default_permissions is properly implemented, there might be * another FUSE_GETATTR or something in here. */ ASSERT_EQ(0, access(FULLPATH, access_mode)) << strerror(errno); } /* Unprivileged users may chown a file to their own uid */ TEST_F(Chown, chown_to_self) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const mode_t mode = 0755; uid_t uid; uid = geteuid(); expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1, uid); expect_lookup(RELPATH, ino, S_IFREG | mode, UINT64_MAX, uid); /* The OS may optimize chown by omitting the redundant setattr */ EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_SETATTR); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnImmediate([=](auto in __unused, auto& out){ SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.mode = S_IFREG | mode; out.body.attr.attr.uid = uid; }))); EXPECT_EQ(0, chown(FULLPATH, uid, -1)) << strerror(errno); } /* * A successful chown by a non-privileged non-owner should clear a file's SUID * bit */ TEST_F(Chown, clear_suid) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; const mode_t oldmode = 06755; const mode_t newmode = 0755; uid_t uid = geteuid(); uint32_t valid = FATTR_UID | FATTR_MODE; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1, uid); expect_lookup(RELPATH, ino, S_IFREG | oldmode, UINT64_MAX, uid); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && in.body.setattr.valid == valid && in.body.setattr.mode == newmode); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | newmode; out.body.attr.attr_valid = UINT64_MAX; }))); EXPECT_EQ(0, chown(FULLPATH, uid, -1)) << strerror(errno); } /* Only root may change a file's owner */ TEST_F(Chown, eperm) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const mode_t mode = 0755; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1, geteuid()); expect_lookup(RELPATH, ino, S_IFREG | mode, UINT64_MAX, geteuid()); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_SETATTR); }, Eq(true)), _) ).Times(0); EXPECT_NE(0, chown(FULLPATH, 0, -1)); EXPECT_EQ(EPERM, errno); } /* * A successful chgrp by a non-privileged non-owner should clear a file's SUID * bit */ TEST_F(Chgrp, clear_suid) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; const mode_t oldmode = 06755; const mode_t newmode = 0755; uid_t uid = geteuid(); gid_t gid = getegid(); uint32_t valid = FATTR_GID | FATTR_MODE; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1, uid); expect_lookup(RELPATH, ino, S_IFREG | oldmode, UINT64_MAX, uid, gid); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && in.body.setattr.valid == valid && in.body.setattr.mode == newmode); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | newmode; out.body.attr.attr_valid = UINT64_MAX; }))); EXPECT_EQ(0, chown(FULLPATH, -1, gid)) << strerror(errno); } /* non-root users may only chgrp a file to a group they belong to */ TEST_F(Chgrp, eperm) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const mode_t mode = 0755; uid_t uid; gid_t gid, newgid; uid = geteuid(); gid = getegid(); newgid = excluded_group(); expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1, uid, gid); expect_lookup(RELPATH, ino, S_IFREG | mode, UINT64_MAX, uid, gid); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_SETATTR); }, Eq(true)), _) ).Times(0); EXPECT_NE(0, chown(FULLPATH, -1, newgid)); EXPECT_EQ(EPERM, errno); } TEST_F(Chgrp, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const mode_t mode = 0755; uid_t uid; gid_t gid, newgid; uid = geteuid(); gid = 0; newgid = getegid(); expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1, uid, gid); expect_lookup(RELPATH, ino, S_IFREG | mode, UINT64_MAX, uid, gid); /* The OS may optimize chgrp by omitting the redundant setattr */ EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnImmediate([=](auto in __unused, auto& out){ SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.mode = S_IFREG | mode; out.body.attr.attr.uid = uid; out.body.attr.attr.gid = newgid; }))); EXPECT_EQ(0, chown(FULLPATH, -1, newgid)) << strerror(errno); } TEST_F(Create, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0777, UINT64_MAX, 1); EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_create(RELPATH, ino); fd = open(FULLPATH, O_CREAT | O_EXCL, 0644); EXPECT_LE(0, fd) << strerror(errno); leak(fd); } TEST_F(Create, eacces) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_EQ(-1, open(FULLPATH, O_CREAT | O_EXCL, 0644)); EXPECT_EQ(EACCES, errno); } TEST_F(Deleteextattr, eacces) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0644, UINT64_MAX, 0); ASSERT_EQ(-1, extattr_delete_file(FULLPATH, ns, "foo")); ASSERT_EQ(EACCES, errno); } TEST_F(Deleteextattr, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0644, UINT64_MAX, geteuid()); expect_removexattr(); ASSERT_EQ(0, extattr_delete_file(FULLPATH, ns, "foo")) << strerror(errno); } /* Delete system attributes requires superuser privilege */ TEST_F(Deleteextattr, system) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_SYSTEM; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0666, UINT64_MAX, geteuid()); ASSERT_EQ(-1, extattr_delete_file(FULLPATH, ns, "foo")); ASSERT_EQ(EPERM, errno); } /* Anybody with write permission can set both timestamps to UTIME_NOW */ TEST_F(Utimensat, utime_now) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; /* Write permissions for everybody */ const mode_t mode = 0666; uid_t owner = 0; const timespec times[2] = { {.tv_sec = 0, .tv_nsec = UTIME_NOW}, {.tv_sec = 0, .tv_nsec = UTIME_NOW}, }; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | mode, UINT64_MAX, owner); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && in.body.setattr.valid & FATTR_ATIME && in.body.setattr.valid & FATTR_MTIME); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.mode = S_IFREG | mode; }))); ASSERT_EQ(0, utimensat(AT_FDCWD, FULLPATH, ×[0], 0)) << strerror(errno); } /* Anybody can set both timestamps to UTIME_OMIT */ TEST_F(Utimensat, utime_omit) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; /* Write permissions for no one */ const mode_t mode = 0444; uid_t owner = 0; const timespec times[2] = { {.tv_sec = 0, .tv_nsec = UTIME_OMIT}, {.tv_sec = 0, .tv_nsec = UTIME_OMIT}, }; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | mode, UINT64_MAX, owner); ASSERT_EQ(0, utimensat(AT_FDCWD, FULLPATH, ×[0], 0)) << strerror(errno); } /* Deleting user attributes merely requires WRITE privilege */ TEST_F(Deleteextattr, user) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0666, UINT64_MAX, 0); expect_removexattr(); ASSERT_EQ(0, extattr_delete_file(FULLPATH, ns, "foo")) << strerror(errno); } TEST_F(Getextattr, eacces) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; char data[80]; int ns = EXTATTR_NAMESPACE_USER; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0600, UINT64_MAX, 0); ASSERT_EQ(-1, extattr_get_file(FULLPATH, ns, "foo", data, sizeof(data))); ASSERT_EQ(EACCES, errno); } TEST_F(Getextattr, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; char data[80]; const char value[] = "whatever"; ssize_t value_len = strlen(value) + 1; int ns = EXTATTR_NAMESPACE_USER; ssize_t r; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); /* Getting user attributes only requires read access */ expect_lookup(RELPATH, ino, S_IFREG | 0444, UINT64_MAX, 0); expect_getxattr( ReturnImmediate([&](auto in __unused, auto& out) { memcpy((void*)out.body.bytes, value, value_len); out.header.len = sizeof(out.header) + value_len; }) ); r = extattr_get_file(FULLPATH, ns, "foo", data, sizeof(data)); ASSERT_EQ(value_len, r) << strerror(errno); EXPECT_STREQ(value, data); } /* Getting system attributes requires superuser privileges */ TEST_F(Getextattr, system) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; char data[80]; int ns = EXTATTR_NAMESPACE_SYSTEM; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0666, UINT64_MAX, geteuid()); ASSERT_EQ(-1, extattr_get_file(FULLPATH, ns, "foo", data, sizeof(data))); ASSERT_EQ(EPERM, errno); } TEST_F(Listextattr, eacces) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0777, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0600, UINT64_MAX, 0); ASSERT_EQ(-1, extattr_list_file(FULLPATH, ns, NULL, 0)); ASSERT_EQ(EACCES, errno); } TEST_F(Listextattr, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0777, UINT64_MAX, 1); /* Listing user extended attributes merely requires read access */ expect_lookup(RELPATH, ino, S_IFREG | 0644, UINT64_MAX, 0); expect_listxattr(); ASSERT_EQ(0, extattr_list_file(FULLPATH, ns, NULL, 0)) << strerror(errno); } /* Listing system xattrs requires superuser privileges */ TEST_F(Listextattr, system) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_SYSTEM; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0777, UINT64_MAX, 1); /* Listing user extended attributes merely requires read access */ expect_lookup(RELPATH, ino, S_IFREG | 0644, UINT64_MAX, geteuid()); ASSERT_EQ(-1, extattr_list_file(FULLPATH, ns, NULL, 0)); ASSERT_EQ(EPERM, errno); } /* A component of the search path lacks execute permissions */ TEST_F(Lookup, eacces) { const char FULLPATH[] = "mountpoint/some_dir/some_file.txt"; const char RELDIRPATH[] = "some_dir"; uint64_t dir_ino = 42; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELDIRPATH, dir_ino, S_IFDIR | 0700, UINT64_MAX, 0); EXPECT_EQ(-1, access(FULLPATH, F_OK)); EXPECT_EQ(EACCES, errno); } TEST_F(Open, eacces) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0644, UINT64_MAX); EXPECT_NE(0, open(FULLPATH, O_RDWR)); EXPECT_EQ(EACCES, errno); } TEST_F(Open, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0644, UINT64_MAX); expect_open(ino, 0, 1); fd = open(FULLPATH, O_RDONLY); EXPECT_LE(0, fd) << strerror(errno); leak(fd); } TEST_F(Rename, eacces_on_srcdir) { const char FULLDST[] = "mountpoint/d/dst"; const char RELDST[] = "d/dst"; const char FULLSRC[] = "mountpoint/src"; const char RELSRC[] = "src"; uint64_t ino = 42; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1, 0); expect_lookup(RELSRC, ino, S_IFREG | 0644, UINT64_MAX); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDST) .Times(AnyNumber()) .WillRepeatedly(Invoke(ReturnErrno(ENOENT))); ASSERT_EQ(-1, rename(FULLSRC, FULLDST)); ASSERT_EQ(EACCES, errno); } TEST_F(Rename, eacces_on_dstdir_for_creating) { const char FULLDST[] = "mountpoint/d/dst"; const char RELDSTDIR[] = "d"; const char RELDST[] = "dst"; const char FULLSRC[] = "mountpoint/src"; const char RELSRC[] = "src"; uint64_t src_ino = 42; uint64_t dstdir_ino = 43; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0777, UINT64_MAX, 1, 0); expect_lookup(RELSRC, src_ino, S_IFREG | 0644, UINT64_MAX); expect_lookup(RELDSTDIR, dstdir_ino, S_IFDIR | 0755, UINT64_MAX); EXPECT_LOOKUP(dstdir_ino, RELDST).WillOnce(Invoke(ReturnErrno(ENOENT))); ASSERT_EQ(-1, rename(FULLSRC, FULLDST)); ASSERT_EQ(EACCES, errno); } TEST_F(Rename, eacces_on_dstdir_for_removing) { const char FULLDST[] = "mountpoint/d/dst"; const char RELDSTDIR[] = "d"; const char RELDST[] = "dst"; const char FULLSRC[] = "mountpoint/src"; const char RELSRC[] = "src"; uint64_t src_ino = 42; uint64_t dstdir_ino = 43; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0777, UINT64_MAX, 1, 0); expect_lookup(RELSRC, src_ino, S_IFREG | 0644, UINT64_MAX); expect_lookup(RELDSTDIR, dstdir_ino, S_IFDIR | 0755, UINT64_MAX); EXPECT_LOOKUP(dstdir_ino, RELDST).WillOnce(Invoke(ReturnErrno(ENOENT))); ASSERT_EQ(-1, rename(FULLSRC, FULLDST)); ASSERT_EQ(EACCES, errno); } TEST_F(Rename, eperm_on_sticky_srcdir) { const char FULLDST[] = "mountpoint/d/dst"; const char FULLSRC[] = "mountpoint/src"; const char RELSRC[] = "src"; uint64_t ino = 42; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 01777, UINT64_MAX, 1, 0); expect_lookup(RELSRC, ino, S_IFREG | 0644, UINT64_MAX); ASSERT_EQ(-1, rename(FULLSRC, FULLDST)); ASSERT_EQ(EPERM, errno); } /* * A user cannot move out a subdirectory that he does not own, because that * would require changing the subdirectory's ".." dirent */ TEST_F(Rename, eperm_for_subdirectory) { const char FULLDST[] = "mountpoint/d/dst"; const char FULLSRC[] = "mountpoint/src"; const char RELDSTDIR[] = "d"; const char RELDST[] = "dst"; const char RELSRC[] = "src"; uint64_t ino = 42; uint64_t dstdir_ino = 43; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0777, UINT64_MAX, 1, 0); expect_lookup(RELSRC, ino, S_IFDIR | 0755, UINT64_MAX, 0); expect_lookup(RELDSTDIR, dstdir_ino, S_IFDIR | 0777, UINT64_MAX, 0); EXPECT_LOOKUP(dstdir_ino, RELDST).WillOnce(Invoke(ReturnErrno(ENOENT))); ASSERT_EQ(-1, rename(FULLSRC, FULLDST)); ASSERT_EQ(EACCES, errno); } /* * A user _can_ rename a subdirectory to which he lacks write permissions, if * it will keep the same parent */ TEST_F(Rename, subdirectory_to_same_dir) { const char FULLDST[] = "mountpoint/dst"; const char FULLSRC[] = "mountpoint/src"; const char RELDST[] = "dst"; const char RELSRC[] = "src"; uint64_t ino = 42; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0777, UINT64_MAX, 1, 0); expect_lookup(RELSRC, ino, S_IFDIR | 0755, UINT64_MAX, 0); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDST) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_rename(0); ASSERT_EQ(0, rename(FULLSRC, FULLDST)) << strerror(errno); } TEST_F(Rename, eperm_on_sticky_dstdir) { const char FULLDST[] = "mountpoint/d/dst"; const char RELDSTDIR[] = "d"; const char RELDST[] = "dst"; const char FULLSRC[] = "mountpoint/src"; const char RELSRC[] = "src"; uint64_t src_ino = 42; uint64_t dstdir_ino = 43; uint64_t dst_ino = 44; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0777, UINT64_MAX, 1, 0); expect_lookup(RELSRC, src_ino, S_IFREG | 0644, UINT64_MAX); expect_lookup(RELDSTDIR, dstdir_ino, S_IFDIR | 01777, UINT64_MAX); EXPECT_LOOKUP(dstdir_ino, RELDST) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = dst_ino; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; out.body.entry.attr.uid = 0; }))); ASSERT_EQ(-1, rename(FULLSRC, FULLDST)); ASSERT_EQ(EPERM, errno); } /* Successfully rename a file, overwriting the destination */ TEST_F(Rename, ok) { const char FULLDST[] = "mountpoint/dst"; const char RELDST[] = "dst"; const char FULLSRC[] = "mountpoint/src"; const char RELSRC[] = "src"; // The inode of the already-existing destination file uint64_t dst_ino = 2; uint64_t ino = 42; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0777, UINT64_MAX, 1, geteuid()); expect_lookup(RELSRC, ino, S_IFREG | 0644, UINT64_MAX); expect_lookup(RELDST, dst_ino, S_IFREG | 0644, UINT64_MAX); expect_rename(0); ASSERT_EQ(0, rename(FULLSRC, FULLDST)) << strerror(errno); } TEST_F(Rename, ok_to_remove_src_because_of_stickiness) { const char FULLDST[] = "mountpoint/dst"; const char RELDST[] = "dst"; const char FULLSRC[] = "mountpoint/src"; const char RELSRC[] = "src"; uint64_t ino = 42; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 01777, UINT64_MAX, 1, 0); expect_lookup(RELSRC, ino, S_IFREG | 0644, UINT64_MAX, geteuid()); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDST) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_rename(0); ASSERT_EQ(0, rename(FULLSRC, FULLDST)) << strerror(errno); } TEST_F(Setattr, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const mode_t oldmode = 0755; const mode_t newmode = 0644; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | oldmode, UINT64_MAX, geteuid()); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && in.body.setattr.mode == newmode); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.mode = S_IFREG | newmode; }))); EXPECT_EQ(0, chmod(FULLPATH, newmode)) << strerror(errno); } TEST_F(Setattr, eacces) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const mode_t oldmode = 0755; const mode_t newmode = 0644; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | oldmode, UINT64_MAX, 0); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_SETATTR); }, Eq(true)), _) ).Times(0); EXPECT_NE(0, chmod(FULLPATH, newmode)); EXPECT_EQ(EPERM, errno); } /* * ftruncate() of a file without writable permissions should succeed as long as * the file descriptor is writable. This is important when combined with * O_CREAT */ TEST_F(Setattr, ftruncate_of_newly_created_file) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const mode_t mode = 0000; int fd; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0777, UINT64_MAX, 1); EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_create(RELPATH, ino); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && (in.body.setattr.valid & FATTR_SIZE)); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; out.body.attr.attr.mode = S_IFREG | mode; out.body.attr.attr_valid = UINT64_MAX; }))); fd = open(FULLPATH, O_CREAT | O_RDWR, 0); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(0, ftruncate(fd, 100)) << strerror(errno); leak(fd); } /* * Setting the sgid bit should fail for an unprivileged user who doesn't belong * to the file's group */ TEST_F(Setattr, sgid_by_non_group_member) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const mode_t oldmode = 0755; const mode_t newmode = 02755; uid_t uid = geteuid(); gid_t gid = excluded_group(); expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | oldmode, UINT64_MAX, uid, gid); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_SETATTR); }, Eq(true)), _) ).Times(0); EXPECT_NE(0, chmod(FULLPATH, newmode)); EXPECT_EQ(EPERM, errno); } /* Only the superuser may set the sticky bit on a non-directory */ TEST_F(Setattr, sticky_regular_file) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const mode_t oldmode = 0644; const mode_t newmode = 01644; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | oldmode, UINT64_MAX, geteuid()); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_SETATTR); }, Eq(true)), _) ).Times(0); EXPECT_NE(0, chmod(FULLPATH, newmode)); EXPECT_EQ(EFTYPE, errno); } TEST_F(Setextattr, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; const char value[] = "whatever"; ssize_t value_len = strlen(value) + 1; int ns = EXTATTR_NAMESPACE_USER; ssize_t r; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0644, UINT64_MAX, geteuid()); expect_setxattr(0); r = extattr_set_file(FULLPATH, ns, "foo", (const void*)value, value_len); ASSERT_EQ(value_len, r) << strerror(errno); } TEST_F(Setextattr, eacces) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; const char value[] = "whatever"; ssize_t value_len = strlen(value) + 1; int ns = EXTATTR_NAMESPACE_USER; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0644, UINT64_MAX, 0); ASSERT_EQ(-1, extattr_set_file(FULLPATH, ns, "foo", (const void*)value, value_len)); ASSERT_EQ(EACCES, errno); } // Setting system attributes requires superuser privileges TEST_F(Setextattr, system) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; const char value[] = "whatever"; ssize_t value_len = strlen(value) + 1; int ns = EXTATTR_NAMESPACE_SYSTEM; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0666, UINT64_MAX, geteuid()); ASSERT_EQ(-1, extattr_set_file(FULLPATH, ns, "foo", (const void*)value, value_len)); ASSERT_EQ(EPERM, errno); } // Setting user attributes merely requires write privileges TEST_F(Setextattr, user) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; const char value[] = "whatever"; ssize_t value_len = strlen(value) + 1; int ns = EXTATTR_NAMESPACE_USER; ssize_t r; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0666, UINT64_MAX, 0); expect_setxattr(0); r = extattr_set_file(FULLPATH, ns, "foo", (const void*)value, value_len); ASSERT_EQ(value_len, r) << strerror(errno); } TEST_F(Unlink, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0777, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0644, UINT64_MAX, geteuid()); expect_unlink(FUSE_ROOT_ID, RELPATH, 0); ASSERT_EQ(0, unlink(FULLPATH)) << strerror(errno); } /* * Ensure that a cached name doesn't cause unlink to bypass permission checks * in VOP_LOOKUP. * * This test should pass because lookup(9) purges the namecache entry by doing * a vfs_cache_lookup with ~MAKEENTRY when nameiop == DELETE. */ TEST_F(Unlink, cached_unwritable_directory) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .Times(AnyNumber()) .WillRepeatedly(Invoke( ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = ino; out.body.entry.entry_valid = UINT64_MAX; })) ); /* Fill name cache */ ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); /* Despite cached name , unlink should fail */ ASSERT_EQ(-1, unlink(FULLPATH)); ASSERT_EQ(EACCES, errno); } TEST_F(Unlink, unwritable_directory) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0644, UINT64_MAX, geteuid()); ASSERT_EQ(-1, unlink(FULLPATH)); ASSERT_EQ(EACCES, errno); } TEST_F(Unlink, sticky_directory) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 01777, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | 0644, UINT64_MAX, 0); ASSERT_EQ(-1, unlink(FULLPATH)); ASSERT_EQ(EPERM, errno); } /* A write by a non-owner should clear a file's SUID bit */ TEST_F(Write, clear_suid) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; struct stat sb; uint64_t ino = 42; mode_t oldmode = 04777; mode_t newmode = 0777; char wbuf[1] = {'x'}; int fd; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | oldmode, UINT64_MAX); expect_open(ino, 0, 1); expect_write(ino, 0, sizeof(wbuf), sizeof(wbuf), 0, 0, wbuf); expect_chmod(ino, newmode, sizeof(wbuf)); fd = open(FULLPATH, O_WRONLY); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(1, write(fd, wbuf, sizeof(wbuf))) << strerror(errno); ASSERT_EQ(0, fstat(fd, &sb)) << strerror(errno); EXPECT_EQ(S_IFREG | newmode, sb.st_mode); leak(fd); } /* A write by a non-owner should clear a file's SGID bit */ TEST_F(Write, clear_sgid) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; struct stat sb; uint64_t ino = 42; mode_t oldmode = 02777; mode_t newmode = 0777; char wbuf[1] = {'x'}; int fd; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | oldmode, UINT64_MAX); expect_open(ino, 0, 1); expect_write(ino, 0, sizeof(wbuf), sizeof(wbuf), 0, 0, wbuf); expect_chmod(ino, newmode, sizeof(wbuf)); fd = open(FULLPATH, O_WRONLY); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(1, write(fd, wbuf, sizeof(wbuf))) << strerror(errno); ASSERT_EQ(0, fstat(fd, &sb)) << strerror(errno); EXPECT_EQ(S_IFREG | newmode, sb.st_mode); leak(fd); } /* Regression test for a specific recurse-of-nonrecursive-lock panic * * With writeback caching, we can't call vtruncbuf from fuse_io_strategy, or it * may panic. That happens if the FUSE_SETATTR response indicates that the * file's size has changed since the write. */ TEST_F(Write, recursion_panic_while_clearing_suid) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; mode_t oldmode = 04777; mode_t newmode = 0777; char wbuf[1] = {'x'}; int fd; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | oldmode, UINT64_MAX); expect_open(ino, 0, 1); expect_write(ino, 0, sizeof(wbuf), sizeof(wbuf), 0, 0, wbuf); /* XXX Return a smaller file size than what we just wrote! */ expect_chmod(ino, newmode, 0); fd = open(FULLPATH, O_WRONLY); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(1, write(fd, wbuf, sizeof(wbuf))) << strerror(errno); leak(fd); } Index: head/tests/sys/fs/fusefs/default_permissions_privileged.cc =================================================================== --- head/tests/sys/fs/fusefs/default_permissions_privileged.cc (revision 350989) +++ head/tests/sys/fs/fusefs/default_permissions_privileged.cc (revision 350990) @@ -1,124 +1,126 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ /* * Tests for the "default_permissions" mount option that require a privileged * user. */ extern "C" { #include #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class DefaultPermissionsPrivileged: public FuseTest { virtual void SetUp() { m_default_permissions = true; FuseTest::SetUp(); if (HasFatalFailure() || IsSkipped()) return; if (geteuid() != 0) { GTEST_SKIP() << "This test requires a privileged user"; } /* With -o default_permissions, FUSE_ACCESS should never be called */ EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_ACCESS); }, Eq(true)), _) ).Times(0); } public: void expect_getattr(uint64_t ino, mode_t mode, uint64_t attr_valid, int times, uid_t uid = 0, gid_t gid = 0) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).Times(times) .WillRepeatedly(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = mode; out.body.attr.attr.size = 0; out.body.attr.attr.uid = uid; out.body.attr.attr.uid = gid; out.body.attr.attr_valid = attr_valid; }))); } void expect_lookup(const char *relpath, uint64_t ino, mode_t mode, uint64_t attr_valid, uid_t uid = 0, gid_t gid = 0) { FuseTest::expect_lookup(relpath, ino, mode, 0, 1, attr_valid, uid, gid); } }; class Setattr: public DefaultPermissionsPrivileged {}; TEST_F(Setattr, sticky_regular_file) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const mode_t oldmode = 0644; const mode_t newmode = 01644; expect_getattr(1, S_IFDIR | 0755, UINT64_MAX, 1); expect_lookup(RELPATH, ino, S_IFREG | oldmode, UINT64_MAX, geteuid()); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_SETATTR); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.mode = S_IFREG | newmode; }))); EXPECT_EQ(0, chmod(FULLPATH, newmode)) << strerror(errno); } Index: head/tests/sys/fs/fusefs/destroy.cc =================================================================== --- head/tests/sys/fs/fusefs/destroy.cc (revision 350989) +++ head/tests/sys/fs/fusefs/destroy.cc (revision 350990) @@ -1,158 +1,160 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; /* Tests for orderly unmounts */ class Destroy: public FuseTest {}; /* Tests for unexpected deaths of the server */ class Death: public FuseTest{}; static void* open_th(void* arg) { int fd; const char *path = (const char*)arg; fd = open(path, O_RDONLY); EXPECT_EQ(-1, fd); EXPECT_EQ(ENOTCONN, errno); return 0; } /* * The server dies with unsent operations still on the message queue. * Check for any memory leaks like this: * 1) kldunload fusefs, if necessary * 2) kldload fusefs * 3) ./destroy --gtest_filter=Destroy.unsent_operations * 4) kldunload fusefs * 5) check /var/log/messages for anything like this: Freed UMA keg (fuse_ticket) was not empty (31 items). Lost 2 pages of memory. Warning: memory type fuse_msgbuf leaked memory on destroy (68 allocations, 428800 bytes leaked). */ TEST_F(Death, unsent_operations) { const char FULLPATH0[] = "mountpoint/some_file.txt"; const char FULLPATH1[] = "mountpoint/other_file.txt"; const char RELPATH0[] = "some_file.txt"; const char RELPATH1[] = "other_file.txt"; pthread_t th0, th1; ino_t ino0 = 42, ino1 = 43; sem_t sem; mode_t mode = S_IFREG | 0644; sem_init(&sem, 0, 0); EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH0) .WillRepeatedly(Invoke( ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino0; out.body.entry.attr.nlink = 1; }))); EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH1) .WillRepeatedly(Invoke( ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino1; out.body.entry.attr.nlink = 1; }))); EXPECT_CALL(*m_mock, process( ResultOf([&](auto in) { return (in.header.opcode == FUSE_OPEN); }, Eq(true)), _) ).WillOnce(Invoke([&](auto in __unused, auto &out __unused) { sem_post(&sem); pause(); })); /* * One thread's operation will be sent to the daemon and block, and the * other's will be stuck in the message queue. */ ASSERT_EQ(0, pthread_create(&th0, NULL, open_th, __DECONST(void*, FULLPATH0))) << strerror(errno); ASSERT_EQ(0, pthread_create(&th1, NULL, open_th, __DECONST(void*, FULLPATH1))) << strerror(errno); /* Wait for the first thread to block */ sem_wait(&sem); /* Give the second thread time to block */ nap(); m_mock->kill_daemon(); pthread_join(th0, NULL); pthread_join(th1, NULL); sem_destroy(&sem); } /* * On unmount the kernel should send a FUSE_DESTROY operation. It should also * send FUSE_FORGET operations for all inodes with lookup_count > 0. */ TEST_F(Destroy, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 2); expect_forget(FUSE_ROOT_ID, 1); expect_forget(ino, 2); expect_destroy(0); /* * access(2) the file to force a lookup. Access it twice to double its * lookup count. */ ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); /* * Unmount, triggering a FUSE_DESTROY and also causing a VOP_RECLAIM * for every vnode on this mp, triggering FUSE_FORGET for each of them. */ m_mock->unmount(); } Index: head/tests/sys/fs/fusefs/dev_fuse_poll.cc =================================================================== --- head/tests/sys/fs/fusefs/dev_fuse_poll.cc (revision 350989) +++ head/tests/sys/fs/fusefs/dev_fuse_poll.cc (revision 350990) @@ -1,227 +1,229 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ /* * This file tests different polling methods for the /dev/fuse device */ extern "C" { #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const mode_t access_mode = R_OK; /* * Translate a poll method's string representation to the enum value. * Using strings with ::testing::Values gives better output with * --gtest_list_tests */ enum poll_method poll_method_from_string(const char *s) { if (0 == strcmp("BLOCKING", s)) return BLOCKING; else if (0 == strcmp("KQ", s)) return KQ; else if (0 == strcmp("POLL", s)) return POLL; else return SELECT; } class DevFusePoll: public FuseTest, public WithParamInterface { virtual void SetUp() { m_pm = poll_method_from_string(GetParam()); FuseTest::SetUp(); } }; class Kqueue: public FuseTest { virtual void SetUp() { m_pm = KQ; FuseTest::SetUp(); } }; TEST_P(DevFusePoll, access) { expect_access(FUSE_ROOT_ID, X_OK, 0); expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_access(ino, access_mode, 0); ASSERT_EQ(0, access(FULLPATH, access_mode)) << strerror(errno); } /* Ensure that we wake up pollers during unmount */ TEST_P(DevFusePoll, destroy) { expect_forget(FUSE_ROOT_ID, 1); expect_destroy(0); m_mock->unmount(); } INSTANTIATE_TEST_CASE_P(PM, DevFusePoll, ::testing::Values("BLOCKING", "KQ", "POLL", "SELECT")); static void* statter(void* arg) { const char *name; struct stat sb; name = (const char*)arg; stat(name, &sb); return 0; } /* * A kevent's data field should contain the number of operations available to * be immediately rea. */ TEST_F(Kqueue, data) { pthread_t th0, th1, th2; sem_t sem0, sem1; int nready0, nready1, nready2; uint64_t foo_ino = 42; uint64_t bar_ino = 43; uint64_t baz_ino = 44; Sequence seq; ASSERT_EQ(0, sem_init(&sem0, 0, 0)) << strerror(errno); ASSERT_EQ(0, sem_init(&sem1, 0, 0)) << strerror(errno); EXPECT_LOOKUP(FUSE_ROOT_ID, "foo") .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.entry_valid = UINT64_MAX; out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = foo_ino; }))); EXPECT_LOOKUP(FUSE_ROOT_ID, "bar") .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.entry_valid = UINT64_MAX; out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = bar_ino; }))); EXPECT_LOOKUP(FUSE_ROOT_ID, "baz") .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.entry_valid = UINT64_MAX; out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = baz_ino; }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == foo_ino); }, Eq(true)), _) ) .WillOnce(Invoke(ReturnImmediate([&](auto in, auto& out) { nready0 = m_mock->m_nready; sem_post(&sem0); // Block the daemon so we can accumulate a few more ops sem_wait(&sem1); out.header.unique = in.header.unique; out.header.error = -EIO; out.header.len = sizeof(out.header); }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && (in.header.nodeid == bar_ino || in.header.nodeid == baz_ino)); }, Eq(true)), _) ).InSequence(seq) .WillOnce(Invoke(ReturnImmediate([&](auto in, auto& out) { nready1 = m_mock->m_nready; out.header.unique = in.header.unique; out.header.error = -EIO; out.header.len = sizeof(out.header); }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && (in.header.nodeid == bar_ino || in.header.nodeid == baz_ino)); }, Eq(true)), _) ).InSequence(seq) .WillOnce(Invoke(ReturnImmediate([&](auto in, auto& out) { nready2 = m_mock->m_nready; out.header.unique = in.header.unique; out.header.error = -EIO; out.header.len = sizeof(out.header); }))); /* * Create cached lookup entries for these files. It seems that only * one thread at a time can be in VOP_LOOKUP for a given directory */ access("mountpoint/foo", F_OK); access("mountpoint/bar", F_OK); access("mountpoint/baz", F_OK); ASSERT_EQ(0, pthread_create(&th0, NULL, statter, __DECONST(void*, "mountpoint/foo"))) << strerror(errno); EXPECT_EQ(0, sem_wait(&sem0)) << strerror(errno); ASSERT_EQ(0, pthread_create(&th1, NULL, statter, __DECONST(void*, "mountpoint/bar"))) << strerror(errno); ASSERT_EQ(0, pthread_create(&th2, NULL, statter, __DECONST(void*, "mountpoint/baz"))) << strerror(errno); nap(); // Allow th1 and th2 to send their ops to the daemon EXPECT_EQ(0, sem_post(&sem1)) << strerror(errno); pthread_join(th0, NULL); pthread_join(th1, NULL); pthread_join(th2, NULL); EXPECT_EQ(1, nready0); EXPECT_EQ(2, nready1); EXPECT_EQ(1, nready2); sem_destroy(&sem0); sem_destroy(&sem1); } Index: head/tests/sys/fs/fusefs/fifo.cc =================================================================== --- head/tests/sys/fs/fusefs/fifo.cc (revision 350989) +++ head/tests/sys/fs/fusefs/fifo.cc (revision 350990) @@ -1,207 +1,209 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; const char FULLPATH[] = "mountpoint/some_fifo"; const char RELPATH[] = "some_fifo"; const char MESSAGE[] = "Hello, World!\n"; const int msgsize = sizeof(MESSAGE); class Fifo: public FuseTest { public: pthread_t m_child; Fifo(): m_child(NULL) {}; void TearDown() { if (m_child != NULL) { pthread_join(m_child, NULL); } FuseTest::TearDown(); } }; class Socket: public Fifo {}; /* Writer thread */ static void* writer(void* arg) { ssize_t sent = 0; int fd; fd = *(int*)arg; while (sent < msgsize) { ssize_t r; r = write(fd, MESSAGE + sent, msgsize - sent); if (r < 0) return (void*)(intptr_t)errno; else sent += r; } return 0; } /* * Reading and writing FIFOs works. None of the I/O actually goes through FUSE */ TEST_F(Fifo, read_write) { mode_t mode = S_IFIFO | 0755; const int bufsize = 80; char message[bufsize]; ssize_t recvd = 0, r; uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino, mode, 0, 1); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(0, pthread_create(&m_child, NULL, writer, &fd)) << strerror(errno); while (recvd < msgsize) { r = read(fd, message + recvd, bufsize - recvd); ASSERT_LE(0, r) << strerror(errno); ASSERT_LT(0, r) << "unexpected EOF"; recvd += r; } ASSERT_STREQ(message, MESSAGE); leak(fd); } /* Writer thread */ static void* socket_writer(void* arg __unused) { ssize_t sent = 0; int fd, err; struct sockaddr_un sa; fd = socket(AF_UNIX, SOCK_STREAM, 0); if (fd < 0) { perror("socket"); return (void*)(intptr_t)errno; } sa.sun_family = AF_UNIX; strlcpy(sa.sun_path, FULLPATH, sizeof(sa.sun_path)); err = connect(fd, (struct sockaddr*)&sa, sizeof(sa)); if (err < 0) { perror("connect"); return (void*)(intptr_t)errno; } while (sent < msgsize) { ssize_t r; r = write(fd, MESSAGE + sent, msgsize - sent); if (r < 0) return (void*)(intptr_t)errno; else sent += r; } return 0; } /* * Reading and writing unix-domain sockets works. None of the I/O actually * goes through FUSE. */ TEST_F(Socket, read_write) { mode_t mode = S_IFSOCK | 0755; const int bufsize = 80; char message[bufsize]; struct sockaddr_un sa; ssize_t recvd = 0, r; uint64_t ino = 42; int fd, connected; Sequence seq; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_MKNOD); }, Eq(true)), _) ).InSequence(seq) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.entry_valid = UINT64_MAX; out.body.entry.attr_valid = UINT64_MAX; }))); EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .InSequence(seq) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.attr.nlink = 1; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; }))); fd = socket(AF_UNIX, SOCK_STREAM, 0); ASSERT_LE(0, fd) << strerror(errno); sa.sun_family = AF_UNIX; strlcpy(sa.sun_path, FULLPATH, sizeof(sa.sun_path)); ASSERT_EQ(0, bind(fd, (struct sockaddr*)&sa, sizeof(sa))) << strerror(errno); listen(fd, 5); ASSERT_EQ(0, pthread_create(&m_child, NULL, socket_writer, NULL)) << strerror(errno); connected = accept(fd, 0, 0); ASSERT_LE(0, connected) << strerror(errno); while (recvd < msgsize) { r = read(connected, message + recvd, bufsize - recvd); ASSERT_LE(0, r) << strerror(errno); ASSERT_LT(0, r) << "unexpected EOF"; recvd += r; } ASSERT_STREQ(message, MESSAGE); leak(fd); } Index: head/tests/sys/fs/fusefs/flush.cc =================================================================== --- head/tests/sys/fs/fusefs/flush.cc (revision 350989) +++ head/tests/sys/fs/fusefs/flush.cc (revision 350990) @@ -1,232 +1,234 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Flush: public FuseTest { public: void expect_flush(uint64_t ino, int times, pid_t lo, ProcessMockerT r) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_FLUSH && in.header.nodeid == ino && in.body.flush.lock_owner == (uint64_t)lo && in.body.flush.fh == FH); }, Eq(true)), _) ).Times(times) .WillRepeatedly(Invoke(r)); } void expect_lookup(const char *relpath, uint64_t ino, int times) { FuseTest::expect_lookup(relpath, ino, S_IFREG | 0644, 0, times); } /* * When testing FUSE_FLUSH, the FUSE_RELEASE calls are uninteresting. This * expectation will silence googlemock warnings */ void expect_release() { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_RELEASE); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnErrno(0))); } }; class FlushWithLocks: public Flush { virtual void SetUp() { m_init_flags = FUSE_POSIX_LOCKS; Flush::SetUp(); } }; /* * If multiple file descriptors refer to the same file handle, closing each * should send FUSE_FLUSH */ TEST_F(Flush, open_twice) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd, fd2; expect_lookup(RELPATH, ino, 2); expect_open(ino, 0, 1); expect_flush(ino, 2, getpid(), ReturnErrno(0)); expect_release(); fd = open(FULLPATH, O_WRONLY); EXPECT_LE(0, fd) << strerror(errno); fd2 = open(FULLPATH, O_WRONLY); EXPECT_LE(0, fd2) << strerror(errno); EXPECT_EQ(0, close(fd2)) << strerror(errno); EXPECT_EQ(0, close(fd)) << strerror(errno); } /* * Some FUSE filesystem cache data internally and flush it on release. Such * filesystems may generate errors during release. On Linux, these get * returned by close(2). However, POSIX does not require close(2) to return * this error. FreeBSD's fuse(4) should return EIO if it returns an error at * all. */ /* http://pubs.opengroup.org/onlinepubs/9699919799/functions/close.html */ TEST_F(Flush, eio) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino, 1); expect_open(ino, 0, 1); expect_flush(ino, 1, getpid(), ReturnErrno(EIO)); expect_release(); fd = open(FULLPATH, O_WRONLY); EXPECT_LE(0, fd) << strerror(errno); ASSERT_TRUE(0 == close(fd) || errno == EIO) << strerror(errno); } /* * If the filesystem returns ENOSYS, it will be treated as success and * no more FUSE_FLUSH operations will be sent to the daemon */ TEST_F(Flush, enosys) { const char FULLPATH0[] = "mountpoint/some_file.txt"; const char RELPATH0[] = "some_file.txt"; const char FULLPATH1[] = "mountpoint/other_file.txt"; const char RELPATH1[] = "other_file.txt"; uint64_t ino0 = 42; uint64_t ino1 = 43; int fd0, fd1; expect_lookup(RELPATH0, ino0, 1); expect_open(ino0, 0, 1); /* On the 2nd close, FUSE_FLUSH won't be sent at all */ expect_flush(ino0, 1, getpid(), ReturnErrno(ENOSYS)); expect_release(); expect_lookup(RELPATH1, ino1, 1); expect_open(ino1, 0, 1); /* On the 2nd close, FUSE_FLUSH won't be sent at all */ expect_release(); fd0 = open(FULLPATH0, O_WRONLY); ASSERT_LE(0, fd0) << strerror(errno); fd1 = open(FULLPATH1, O_WRONLY); ASSERT_LE(0, fd1) << strerror(errno); EXPECT_EQ(0, close(fd0)) << strerror(errno); EXPECT_EQ(0, close(fd1)) << strerror(errno); } /* A FUSE_FLUSH should be sent on close(2) */ TEST_F(Flush, flush) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino, 1); expect_open(ino, 0, 1); expect_flush(ino, 1, getpid(), ReturnErrno(0)); expect_release(); fd = open(FULLPATH, O_WRONLY); EXPECT_LE(0, fd) << strerror(errno); ASSERT_TRUE(0 == close(fd)) << strerror(errno); } /* * When closing a file with a POSIX file lock, flush should release the lock, * _even_if_ it's not the process's last file descriptor for this file. */ TEST_F(FlushWithLocks, unlock_on_close) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd, fd2; struct flock fl; pid_t pid = getpid(); expect_lookup(RELPATH, ino, 2); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_SETLK && in.header.nodeid == ino && in.body.setlk.fh == FH); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(0))); expect_flush(ino, 1, pid, ReturnErrno(0)); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); fl.l_start = 0; fl.l_len = 0; fl.l_pid = pid; fl.l_type = F_RDLCK; fl.l_whence = SEEK_SET; fl.l_sysid = 0; ASSERT_NE(-1, fcntl(fd, F_SETLKW, &fl)) << strerror(errno); fd2 = open(FULLPATH, O_WRONLY); ASSERT_LE(0, fd2) << strerror(errno); ASSERT_EQ(0, close(fd2)) << strerror(errno); leak(fd); leak(fd2); } Index: head/tests/sys/fs/fusefs/forget.cc =================================================================== --- head/tests/sys/fs/fusefs/forget.cc (revision 350989) +++ head/tests/sys/fs/fusefs/forget.cc (revision 350990) @@ -1,154 +1,156 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; const char reclaim_mib[] = "debug.try_reclaim_vnode"; class Forget: public FuseTest { public: void SetUp() { if (geteuid() != 0) GTEST_SKIP() << "Only root may use " << reclaim_mib; if (-1 == sysctlbyname(reclaim_mib, NULL, 0, NULL, 0) && errno == ENOENT) GTEST_SKIP() << reclaim_mib << " is not available"; FuseTest::SetUp(); } }; /* * When a fusefs vnode is reclaimed, it should send a FUSE_FORGET operation. */ TEST_F(Forget, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; mode_t mode = S_IFREG | 0755; sem_t sem; int err; ASSERT_EQ(0, sem_init(&sem, 0, 0)) << strerror(errno); EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .Times(3) .WillRepeatedly(Invoke( ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.attr.nlink = 1; out.body.entry.attr_valid = UINT64_MAX; }))); expect_forget(ino, 3, &sem); /* * access(2) the file to force a lookup. Access it twice to double its * lookup count. */ ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); err = sysctlbyname(reclaim_mib, NULL, 0, FULLPATH, sizeof(FULLPATH)); ASSERT_EQ(0, err) << strerror(errno); sem_wait(&sem); sem_destroy(&sem); } /* * When a directory is reclaimed, the names of its entries vanish from the * namecache */ TEST_F(Forget, invalidate_names) { const char FULLFPATH[] = "mountpoint/some_dir/some_file.txt"; const char FULLDPATH[] = "mountpoint/some_dir"; const char DNAME[] = "some_dir"; const char FNAME[] = "some_file.txt"; uint64_t dir_ino = 42; uint64_t file_ino = 43; int err; EXPECT_LOOKUP(FUSE_ROOT_ID, DNAME) .WillRepeatedly(Invoke( ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFDIR | 0755; out.body.entry.nodeid = dir_ino; out.body.entry.attr.nlink = 2; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; }))); /* * Even though we don't reclaim FNAME and its entry is cacheable, we * should get two lookups because the reclaim of DNAME will invalidate * the cached FNAME entry. */ EXPECT_LOOKUP(dir_ino, FNAME) .Times(2) .WillRepeatedly(Invoke( ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = file_ino; out.body.entry.attr.nlink = 1; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; }))); expect_forget(dir_ino, 2); /* Access the file to cache its name */ ASSERT_EQ(0, access(FULLFPATH, F_OK)) << strerror(errno); /* Reclaim the directory, invalidating its children from namecache */ err = sysctlbyname(reclaim_mib, NULL, 0, FULLDPATH, sizeof(FULLDPATH)); ASSERT_EQ(0, err) << strerror(errno); /* Access the file again, causing another lookup */ ASSERT_EQ(0, access(FULLFPATH, F_OK)) << strerror(errno); } Index: head/tests/sys/fs/fusefs/fsync.cc =================================================================== --- head/tests/sys/fs/fusefs/fsync.cc (revision 350989) +++ head/tests/sys/fs/fusefs/fsync.cc (revision 350990) @@ -1,249 +1,251 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; /* * TODO: remove FUSE_FSYNC_FDATASYNC definition when upgrading to protocol 7.28. * This bit was actually part of kernel protocol version 5.2, but never * documented until after 7.28 */ #ifndef FUSE_FSYNC_FDATASYNC #define FUSE_FSYNC_FDATASYNC 1 #endif class Fsync: public FuseTest { public: void expect_fsync(uint64_t ino, uint32_t flags, int error) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_FSYNC && in.header.nodeid == ino && /* * TODO: reenable pid check after fixing * bug 236379 */ //(pid_t)in.header.pid == getpid() && in.body.fsync.fh == FH && in.body.fsync.fsync_flags == flags); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(error))); } void expect_lookup(const char *relpath, uint64_t ino) { FuseTest::expect_lookup(relpath, ino, S_IFREG | 0644, 0, 1); } void expect_write(uint64_t ino, uint64_t size, const void *contents) { FuseTest::expect_write(ino, 0, size, size, 0, 0, contents); } }; /* https://bugs.freebsd.org/bugzilla/show_bug.cgi?id=236379 */ TEST_F(Fsync, aio_fsync) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; ssize_t bufsize = strlen(CONTENTS); uint64_t ino = 42; struct aiocb iocb, *piocb; int fd; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); expect_write(ino, bufsize, CONTENTS); expect_fsync(ino, 0, 0); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); bzero(&iocb, sizeof(iocb)); iocb.aio_fildes = fd; ASSERT_EQ(0, aio_fsync(O_SYNC, &iocb)) << strerror(errno); ASSERT_EQ(0, aio_waitcomplete(&piocb, NULL)) << strerror(errno); leak(fd); } /* * fuse(4) should NOT fsync during VOP_RELEASE or VOP_INACTIVE * * This test only really make sense in writeback caching mode, but it should * still pass in any cache mode. */ TEST_F(Fsync, close) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; ssize_t bufsize = strlen(CONTENTS); uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); expect_write(ino, bufsize, CONTENTS); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_SETATTR); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_FSYNC); }, Eq(true)), _) ).Times(0); expect_flush(ino, 1, ReturnErrno(0)); expect_release(ino, FH); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); close(fd); } TEST_F(Fsync, eio) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; ssize_t bufsize = strlen(CONTENTS); uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); expect_write(ino, bufsize, CONTENTS); expect_fsync(ino, FUSE_FSYNC_FDATASYNC, EIO); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); ASSERT_NE(0, fdatasync(fd)); ASSERT_EQ(EIO, errno); leak(fd); } /* * If the filesystem returns ENOSYS, it will be treated as success and * subsequent calls to VOP_FSYNC will succeed automatically without being sent * to the filesystem daemon */ TEST_F(Fsync, enosys) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; ssize_t bufsize = strlen(CONTENTS); uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); expect_write(ino, bufsize, CONTENTS); expect_fsync(ino, FUSE_FSYNC_FDATASYNC, ENOSYS); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); EXPECT_EQ(0, fdatasync(fd)); /* Subsequent calls shouldn't query the daemon*/ EXPECT_EQ(0, fdatasync(fd)); leak(fd); } TEST_F(Fsync, fdatasync) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; ssize_t bufsize = strlen(CONTENTS); uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); expect_write(ino, bufsize, CONTENTS); expect_fsync(ino, FUSE_FSYNC_FDATASYNC, 0); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); ASSERT_EQ(0, fdatasync(fd)) << strerror(errno); leak(fd); } TEST_F(Fsync, fsync) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; ssize_t bufsize = strlen(CONTENTS); uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); expect_write(ino, bufsize, CONTENTS); expect_fsync(ino, 0, 0); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); ASSERT_EQ(0, fsync(fd)) << strerror(errno); leak(fd); } Index: head/tests/sys/fs/fusefs/fsyncdir.cc =================================================================== --- head/tests/sys/fs/fusefs/fsyncdir.cc (revision 350989) +++ head/tests/sys/fs/fusefs/fsyncdir.cc (revision 350990) @@ -1,186 +1,188 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; /* * TODO: remove FUSE_FSYNC_FDATASYNC definition when upgrading to protocol 7.28. * This bit was actually part of kernel protocol version 5.2, but never * documented until after 7.28 */ #ifndef FUSE_FSYNC_FDATASYNC #define FUSE_FSYNC_FDATASYNC 1 #endif class FsyncDir: public FuseTest { public: void expect_fsyncdir(uint64_t ino, uint32_t flags, int error) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_FSYNCDIR && in.header.nodeid == ino && /* * TODO: reenable pid check after fixing * bug 236379 */ //(pid_t)in.header.pid == getpid() && in.body.fsyncdir.fh == FH && in.body.fsyncdir.fsync_flags == flags); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(error))); } void expect_lookup(const char *relpath, uint64_t ino) { FuseTest::expect_lookup(relpath, ino, S_IFDIR | 0755, 0, 1); } }; /* https://bugs.freebsd.org/bugzilla/show_bug.cgi?id=236379 */ TEST_F(FsyncDir, aio_fsync) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; struct aiocb iocb, *piocb; int fd; expect_lookup(RELPATH, ino); expect_opendir(ino); expect_fsyncdir(ino, 0, 0); fd = open(FULLPATH, O_DIRECTORY); ASSERT_LE(0, fd) << strerror(errno); bzero(&iocb, sizeof(iocb)); iocb.aio_fildes = fd; ASSERT_EQ(0, aio_fsync(O_SYNC, &iocb)) << strerror(errno); ASSERT_EQ(0, aio_waitcomplete(&piocb, NULL)) << strerror(errno); leak(fd); } TEST_F(FsyncDir, eio) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino); expect_opendir(ino); expect_fsyncdir(ino, 0, EIO); fd = open(FULLPATH, O_DIRECTORY); ASSERT_LE(0, fd) << strerror(errno); ASSERT_NE(0, fsync(fd)); ASSERT_EQ(EIO, errno); leak(fd); } /* * If the filesystem returns ENOSYS, it will be treated as success and * subsequent calls to VOP_FSYNC will succeed automatically without being sent * to the filesystem daemon */ TEST_F(FsyncDir, enosys) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino); expect_opendir(ino); expect_fsyncdir(ino, 0, ENOSYS); fd = open(FULLPATH, O_DIRECTORY); ASSERT_LE(0, fd) << strerror(errno); EXPECT_EQ(0, fsync(fd)) << strerror(errno); /* Subsequent calls shouldn't query the daemon*/ EXPECT_EQ(0, fsync(fd)) << strerror(errno); leak(fd); } TEST_F(FsyncDir, fsyncdata) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino); expect_opendir(ino); expect_fsyncdir(ino, FUSE_FSYNC_FDATASYNC, 0); fd = open(FULLPATH, O_DIRECTORY); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(0, fdatasync(fd)) << strerror(errno); leak(fd); } /* * Unlike regular files, the kernel doesn't know whether a directory is or * isn't dirty, so fuse(4) should always send FUSE_FSYNCDIR on fsync(2) */ TEST_F(FsyncDir, fsync) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino); expect_opendir(ino); expect_fsyncdir(ino, 0, 0); fd = open(FULLPATH, O_DIRECTORY); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(0, fsync(fd)) << strerror(errno); leak(fd); } Index: head/tests/sys/fs/fusefs/getattr.cc =================================================================== --- head/tests/sys/fs/fusefs/getattr.cc (revision 350989) +++ head/tests/sys/fs/fusefs/getattr.cc (revision 350990) @@ -1,300 +1,302 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Getattr : public FuseTest { public: void expect_lookup(const char *relpath, uint64_t ino, mode_t mode, uint64_t size, int times, uint64_t attr_valid, uint32_t attr_valid_nsec) { EXPECT_LOOKUP(FUSE_ROOT_ID, relpath) .Times(times) .WillRepeatedly(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.attr.nlink = 1; out.body.entry.attr_valid = attr_valid; out.body.entry.attr_valid_nsec = attr_valid_nsec; out.body.entry.attr.size = size; out.body.entry.entry_valid = UINT64_MAX; }))); } }; class Getattr_7_8: public FuseTest { public: virtual void SetUp() { m_kernel_minor_version = 8; FuseTest::SetUp(); } }; /* * If getattr returns a non-zero cache timeout, then subsequent VOP_GETATTRs * should use the cached attributes, rather than query the daemon */ TEST_F(Getattr, attr_cache) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; struct stat sb; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillRepeatedly(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = ino; out.body.entry.entry_valid = UINT64_MAX; }))); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr_valid = UINT64_MAX; out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | 0644; }))); EXPECT_EQ(0, stat(FULLPATH, &sb)); /* The second stat(2) should use cached attributes */ EXPECT_EQ(0, stat(FULLPATH, &sb)); } /* * If getattr returns a finite but non-zero cache timeout, then we should * discard the cached attributes and requery the daemon after the timeout * period passes. */ TEST_F(Getattr, attr_cache_timeout) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; struct stat sb; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1, 0, 0); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).Times(2) .WillRepeatedly(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr_valid_nsec = NAP_NS / 2; out.body.attr.attr_valid = 0; out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | 0644; }))); EXPECT_EQ(0, stat(FULLPATH, &sb)); nap(); /* Timeout has expired. stat(2) should requery the daemon */ EXPECT_EQ(0, stat(FULLPATH, &sb)); } /* * If attr.blksize is zero, then the kernel should use a default value for * st_blksize */ TEST_F(Getattr, blksize_zero) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; struct stat sb; expect_lookup(RELPATH, ino, S_IFREG | 0644, 1, 1, 0, 0); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.mode = S_IFREG | 0644; out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.blksize = 0; }))); ASSERT_EQ(0, stat(FULLPATH, &sb)) << strerror(errno); EXPECT_EQ((blksize_t)PAGE_SIZE, sb.st_blksize); } TEST_F(Getattr, enoent) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; struct stat sb; const uint64_t ino = 42; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1, 0, 0); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_NE(0, stat(FULLPATH, &sb)); EXPECT_EQ(ENOENT, errno); } TEST_F(Getattr, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; struct stat sb; expect_lookup(RELPATH, ino, S_IFREG | 0644, 1, 1, 0, 0); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | 0644; out.body.attr.attr.size = 1; out.body.attr.attr.blocks = 2; out.body.attr.attr.atime = 3; out.body.attr.attr.mtime = 4; out.body.attr.attr.ctime = 5; out.body.attr.attr.atimensec = 6; out.body.attr.attr.mtimensec = 7; out.body.attr.attr.ctimensec = 8; out.body.attr.attr.nlink = 9; out.body.attr.attr.uid = 10; out.body.attr.attr.gid = 11; out.body.attr.attr.rdev = 12; out.body.attr.attr.blksize = 12345; }))); ASSERT_EQ(0, stat(FULLPATH, &sb)) << strerror(errno); EXPECT_EQ(1, sb.st_size); EXPECT_EQ(2, sb.st_blocks); EXPECT_EQ(3, sb.st_atim.tv_sec); EXPECT_EQ(6, sb.st_atim.tv_nsec); EXPECT_EQ(4, sb.st_mtim.tv_sec); EXPECT_EQ(7, sb.st_mtim.tv_nsec); EXPECT_EQ(5, sb.st_ctim.tv_sec); EXPECT_EQ(8, sb.st_ctim.tv_nsec); EXPECT_EQ(9ull, sb.st_nlink); EXPECT_EQ(10ul, sb.st_uid); EXPECT_EQ(11ul, sb.st_gid); EXPECT_EQ(12ul, sb.st_rdev); EXPECT_EQ((blksize_t)12345, sb.st_blksize); EXPECT_EQ(ino, sb.st_ino); EXPECT_EQ(S_IFREG | 0644, sb.st_mode); //st_birthtim and st_flags are not supported by protocol 7.8. They're //only supported as OS-specific extensions to OSX. //EXPECT_EQ(, sb.st_birthtim); //EXPECT_EQ(, sb.st_flags); //FUSE can't set st_blksize until protocol 7.9 } TEST_F(Getattr_7_8, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; struct stat sb; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry_7_8); out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = ino; out.body.entry.attr.nlink = 1; out.body.entry.attr.size = 1; }))); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr_7_8); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | 0644; out.body.attr.attr.size = 1; out.body.attr.attr.blocks = 2; out.body.attr.attr.atime = 3; out.body.attr.attr.mtime = 4; out.body.attr.attr.ctime = 5; out.body.attr.attr.atimensec = 6; out.body.attr.attr.mtimensec = 7; out.body.attr.attr.ctimensec = 8; out.body.attr.attr.nlink = 9; out.body.attr.attr.uid = 10; out.body.attr.attr.gid = 11; out.body.attr.attr.rdev = 12; }))); ASSERT_EQ(0, stat(FULLPATH, &sb)) << strerror(errno); EXPECT_EQ(1, sb.st_size); EXPECT_EQ(2, sb.st_blocks); EXPECT_EQ(3, sb.st_atim.tv_sec); EXPECT_EQ(6, sb.st_atim.tv_nsec); EXPECT_EQ(4, sb.st_mtim.tv_sec); EXPECT_EQ(7, sb.st_mtim.tv_nsec); EXPECT_EQ(5, sb.st_ctim.tv_sec); EXPECT_EQ(8, sb.st_ctim.tv_nsec); EXPECT_EQ(9ull, sb.st_nlink); EXPECT_EQ(10ul, sb.st_uid); EXPECT_EQ(11ul, sb.st_gid); EXPECT_EQ(12ul, sb.st_rdev); EXPECT_EQ(ino, sb.st_ino); EXPECT_EQ(S_IFREG | 0644, sb.st_mode); //st_birthtim and st_flags are not supported by protocol 7.8. They're //only supported as OS-specific extensions to OSX. } Index: head/tests/sys/fs/fusefs/interrupt.cc =================================================================== --- head/tests/sys/fs/fusefs/interrupt.cc (revision 350989) +++ head/tests/sys/fs/fusefs/interrupt.cc (revision 350990) @@ -1,790 +1,792 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include #include #include #include #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; /* Initial size of files used by these tests */ const off_t FILESIZE = 1000; /* Access mode used by all directories in these tests */ const mode_t MODE = 0755; const char FULLDIRPATH0[] = "mountpoint/some_dir"; const char RELDIRPATH0[] = "some_dir"; const char FULLDIRPATH1[] = "mountpoint/other_dir"; const char RELDIRPATH1[] = "other_dir"; static sem_t *blocked_semaphore; static sem_t *signaled_semaphore; static bool killer_should_sleep = false; /* Don't do anything; all we care about is that the syscall gets interrupted */ void sigusr2_handler(int __unused sig) { if (verbosity > 1) { printf("Signaled! thread %p\n", pthread_self()); } } void* killer(void* target) { /* Wait until the main thread is blocked in fdisp_wait_answ */ if (killer_should_sleep) nap(); else sem_wait(blocked_semaphore); if (verbosity > 1) printf("Signalling! thread %p\n", target); pthread_kill((pthread_t)target, SIGUSR2); if (signaled_semaphore != NULL) sem_post(signaled_semaphore); return(NULL); } class Interrupt: public FuseTest { public: pthread_t m_child; Interrupt(): m_child(NULL) {}; void expect_lookup(const char *relpath, uint64_t ino) { FuseTest::expect_lookup(relpath, ino, S_IFREG | 0644, FILESIZE, 1); } /* * Expect a FUSE_MKDIR but don't reply. Instead, just record the unique value * to the provided pointer */ void expect_mkdir(uint64_t *mkdir_unique) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_MKDIR); }, Eq(true)), _) ).WillOnce(Invoke([=](auto in, auto &out __unused) { *mkdir_unique = in.header.unique; sem_post(blocked_semaphore); })); } /* * Expect a FUSE_READ but don't reply. Instead, just record the unique value * to the provided pointer */ void expect_read(uint64_t ino, uint64_t *read_unique) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READ && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke([=](auto in, auto &out __unused) { *read_unique = in.header.unique; sem_post(blocked_semaphore); })); } /* * Expect a FUSE_WRITE but don't reply. Instead, just record the unique value * to the provided pointer */ void expect_write(uint64_t ino, uint64_t *write_unique) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_WRITE && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke([=](auto in, auto &out __unused) { *write_unique = in.header.unique; sem_post(blocked_semaphore); })); } void setup_interruptor(pthread_t target, bool sleep = false) { ASSERT_NE(SIG_ERR, signal(SIGUSR2, sigusr2_handler)) << strerror(errno); killer_should_sleep = sleep; ASSERT_EQ(0, pthread_create(&m_child, NULL, killer, (void*)target)) << strerror(errno); } void SetUp() { const int mprot = PROT_READ | PROT_WRITE; const int mflags = MAP_ANON | MAP_SHARED; signaled_semaphore = NULL; blocked_semaphore = (sem_t*)mmap(NULL, sizeof(*blocked_semaphore), mprot, mflags, -1, 0); ASSERT_NE(MAP_FAILED, blocked_semaphore) << strerror(errno); ASSERT_EQ(0, sem_init(blocked_semaphore, 1, 0)) << strerror(errno); ASSERT_EQ(0, siginterrupt(SIGUSR2, 1)); FuseTest::SetUp(); } void TearDown() { struct sigaction sa; if (m_child != NULL) { pthread_join(m_child, NULL); } bzero(&sa, sizeof(sa)); sa.sa_handler = SIG_DFL; sigaction(SIGUSR2, &sa, NULL); sem_destroy(blocked_semaphore); munmap(blocked_semaphore, sizeof(*blocked_semaphore)); FuseTest::TearDown(); } }; class Intr: public Interrupt {}; class Nointr: public Interrupt { void SetUp() { m_nointr = true; Interrupt::SetUp(); } }; static void* mkdir0(void* arg __unused) { ssize_t r; r = mkdir(FULLDIRPATH0, MODE); if (r >= 0) return 0; else return (void*)(intptr_t)errno; } static void* read1(void* arg) { const size_t bufsize = FILESIZE; char buf[bufsize]; int fd = (int)(intptr_t)arg; ssize_t r; r = read(fd, buf, bufsize); if (r >= 0) return 0; else return (void*)(intptr_t)errno; } /* * An interrupt operation that gets received after the original command is * complete should generate an EAGAIN response. */ /* https://bugs.freebsd.org/bugzilla/show_bug.cgi?id=236530 */ TEST_F(Intr, already_complete) { uint64_t ino = 42; pthread_t self; uint64_t mkdir_unique = 0; Sequence seq; self = pthread_self(); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH0) .InSequence(seq) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_mkdir(&mkdir_unique); EXPECT_CALL(*m_mock, process( ResultOf([&](auto in) { return (in.header.opcode == FUSE_INTERRUPT && in.body.interrupt.unique == mkdir_unique); }, Eq(true)), _) ).WillOnce(Invoke([&](auto in, auto &out) { // First complete the mkdir request std::unique_ptr out0(new mockfs_buf_out); out0->header.unique = mkdir_unique; SET_OUT_HEADER_LEN(*out0, entry); out0->body.create.entry.attr.mode = S_IFDIR | MODE; out0->body.create.entry.nodeid = ino; out.push_back(std::move(out0)); // Then, respond EAGAIN to the interrupt request std::unique_ptr out1(new mockfs_buf_out); out1->header.unique = in.header.unique; out1->header.error = -EAGAIN; out1->header.len = sizeof(out1->header); out.push_back(std::move(out1)); })); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH0) .InSequence(seq) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFDIR | MODE; out.body.entry.nodeid = ino; out.body.entry.attr.nlink = 2; }))); setup_interruptor(self); EXPECT_EQ(0, mkdir(FULLDIRPATH0, MODE)) << strerror(errno); /* * The final syscall simply ensures that the test's main thread doesn't * end before the daemon finishes responding to the FUSE_INTERRUPT. */ EXPECT_EQ(0, access(FULLDIRPATH0, F_OK)) << strerror(errno); } /* * If a FUSE file system returns ENOSYS for a FUSE_INTERRUPT operation, the * kernel should not attempt to interrupt any other operations on that mount * point. */ TEST_F(Intr, enosys) { uint64_t ino0 = 42, ino1 = 43;; uint64_t mkdir_unique; pthread_t self, th0; sem_t sem0, sem1; void *thr0_value; Sequence seq; self = pthread_self(); ASSERT_EQ(0, sem_init(&sem0, 0, 0)) << strerror(errno); ASSERT_EQ(0, sem_init(&sem1, 0, 0)) << strerror(errno); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH1) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH0) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_mkdir(&mkdir_unique); EXPECT_CALL(*m_mock, process( ResultOf([&](auto in) { return (in.header.opcode == FUSE_INTERRUPT && in.body.interrupt.unique == mkdir_unique); }, Eq(true)), _) ).InSequence(seq) .WillOnce(Invoke([&](auto in, auto &out) { // reject FUSE_INTERRUPT and respond to the FUSE_MKDIR std::unique_ptr out0(new mockfs_buf_out); std::unique_ptr out1(new mockfs_buf_out); out0->header.unique = in.header.unique; out0->header.error = -ENOSYS; out0->header.len = sizeof(out0->header); out.push_back(std::move(out0)); SET_OUT_HEADER_LEN(*out1, entry); out1->body.create.entry.attr.mode = S_IFDIR | MODE; out1->body.create.entry.nodeid = ino1; out1->header.unique = mkdir_unique; out.push_back(std::move(out1)); })); EXPECT_CALL(*m_mock, process( ResultOf([&](auto in) { return (in.header.opcode == FUSE_MKDIR); }, Eq(true)), _) ).InSequence(seq) .WillOnce(Invoke([&](auto in, auto &out) { std::unique_ptr out0(new mockfs_buf_out); sem_post(&sem0); sem_wait(&sem1); SET_OUT_HEADER_LEN(*out0, entry); out0->body.create.entry.attr.mode = S_IFDIR | MODE; out0->body.create.entry.nodeid = ino0; out0->header.unique = in.header.unique; out.push_back(std::move(out0)); })); setup_interruptor(self); /* First mkdir operation should finish synchronously */ ASSERT_EQ(0, mkdir(FULLDIRPATH1, MODE)) << strerror(errno); ASSERT_EQ(0, pthread_create(&th0, NULL, mkdir0, NULL)) << strerror(errno); sem_wait(&sem0); /* * th0 should be blocked waiting for the fuse daemon thread. * Signal it. No FUSE_INTERRUPT should result */ pthread_kill(th0, SIGUSR1); /* Allow the daemon thread to proceed */ sem_post(&sem1); pthread_join(th0, &thr0_value); /* Second mkdir should've finished without error */ EXPECT_EQ(0, (intptr_t)thr0_value); } /* * A FUSE filesystem is legally allowed to ignore INTERRUPT operations, and * complete the original operation whenever it damn well pleases. */ /* https://bugs.freebsd.org/bugzilla/show_bug.cgi?id=236530 */ TEST_F(Intr, ignore) { uint64_t ino = 42; pthread_t self; uint64_t mkdir_unique; self = pthread_self(); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH0) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_mkdir(&mkdir_unique); EXPECT_CALL(*m_mock, process( ResultOf([&](auto in) { return (in.header.opcode == FUSE_INTERRUPT && in.body.interrupt.unique == mkdir_unique); }, Eq(true)), _) ).WillOnce(Invoke([&](auto in __unused, auto &out) { // Ignore FUSE_INTERRUPT; respond to the FUSE_MKDIR std::unique_ptr out0(new mockfs_buf_out); out0->header.unique = mkdir_unique; SET_OUT_HEADER_LEN(*out0, entry); out0->body.create.entry.attr.mode = S_IFDIR | MODE; out0->body.create.entry.nodeid = ino; out.push_back(std::move(out0)); })); setup_interruptor(self); ASSERT_EQ(0, mkdir(FULLDIRPATH0, MODE)) << strerror(errno); } /* * A restartable operation (basically, anything except write or setextattr) * that hasn't yet been sent to userland can be interrupted without sending * FUSE_INTERRUPT, and will be automatically restarted. */ TEST_F(Intr, in_kernel_restartable) { const char FULLPATH1[] = "mountpoint/other_file.txt"; const char RELPATH1[] = "other_file.txt"; uint64_t ino0 = 42, ino1 = 43; int fd1; pthread_t self, th0, th1; sem_t sem0, sem1; void *thr0_value, *thr1_value; ASSERT_EQ(0, sem_init(&sem0, 0, 0)) << strerror(errno); ASSERT_EQ(0, sem_init(&sem1, 0, 0)) << strerror(errno); self = pthread_self(); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH0) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_lookup(RELPATH1, ino1); expect_open(ino1, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_MKDIR); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([&](auto in __unused, auto& out) { /* Let the next write proceed */ sem_post(&sem1); /* Pause the daemon thread so it won't read the next op */ sem_wait(&sem0); SET_OUT_HEADER_LEN(out, entry); out.body.create.entry.attr.mode = S_IFDIR | MODE; out.body.create.entry.nodeid = ino0; }))); FuseTest::expect_read(ino1, 0, FILESIZE, 0, NULL); fd1 = open(FULLPATH1, O_RDONLY); ASSERT_LE(0, fd1) << strerror(errno); /* Use a separate thread for each operation */ ASSERT_EQ(0, pthread_create(&th0, NULL, mkdir0, NULL)) << strerror(errno); sem_wait(&sem1); /* Sequence the two operations */ ASSERT_EQ(0, pthread_create(&th1, NULL, read1, (void*)(intptr_t)fd1)) << strerror(errno); setup_interruptor(self, true); pause(); /* Wait for signal */ /* Unstick the daemon */ ASSERT_EQ(0, sem_post(&sem0)) << strerror(errno); /* Wait awhile to make sure the signal generates no FUSE_INTERRUPT */ nap(); pthread_join(th1, &thr1_value); pthread_join(th0, &thr0_value); EXPECT_EQ(0, (intptr_t)thr1_value); EXPECT_EQ(0, (intptr_t)thr0_value); sem_destroy(&sem1); sem_destroy(&sem0); } /* * An operation that hasn't yet been sent to userland can be interrupted * without sending FUSE_INTERRUPT. If it's a non-restartable operation (write * or setextattr) it will return EINTR. */ TEST_F(Intr, in_kernel_nonrestartable) { const char FULLPATH1[] = "mountpoint/other_file.txt"; const char RELPATH1[] = "other_file.txt"; const char value[] = "whatever"; ssize_t value_len = strlen(value) + 1; uint64_t ino0 = 42, ino1 = 43; int ns = EXTATTR_NAMESPACE_USER; int fd1; pthread_t self, th0; sem_t sem0, sem1; void *thr0_value; ssize_t r; ASSERT_EQ(0, sem_init(&sem0, 0, 0)) << strerror(errno); ASSERT_EQ(0, sem_init(&sem1, 0, 0)) << strerror(errno); self = pthread_self(); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH0) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_lookup(RELPATH1, ino1); expect_open(ino1, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_MKDIR); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([&](auto in __unused, auto& out) { /* Let the next write proceed */ sem_post(&sem1); /* Pause the daemon thread so it won't read the next op */ sem_wait(&sem0); SET_OUT_HEADER_LEN(out, entry); out.body.create.entry.attr.mode = S_IFDIR | MODE; out.body.create.entry.nodeid = ino0; }))); fd1 = open(FULLPATH1, O_WRONLY); ASSERT_LE(0, fd1) << strerror(errno); /* Use a separate thread for the first write */ ASSERT_EQ(0, pthread_create(&th0, NULL, mkdir0, NULL)) << strerror(errno); sem_wait(&sem1); /* Sequence the two operations */ setup_interruptor(self, true); r = extattr_set_fd(fd1, ns, "foo", (const void*)value, value_len); EXPECT_NE(0, r); EXPECT_EQ(EINTR, errno); /* Unstick the daemon */ ASSERT_EQ(0, sem_post(&sem0)) << strerror(errno); /* Wait awhile to make sure the signal generates no FUSE_INTERRUPT */ nap(); pthread_join(th0, &thr0_value); EXPECT_EQ(0, (intptr_t)thr0_value); sem_destroy(&sem1); sem_destroy(&sem0); } /* * A syscall that gets interrupted while blocking on FUSE I/O should send a * FUSE_INTERRUPT command to the fuse filesystem, which should then send EINTR * in response to the _original_ operation. The kernel should ultimately * return EINTR to userspace */ /* https://bugs.freebsd.org/bugzilla/show_bug.cgi?id=236530 */ TEST_F(Intr, in_progress) { pthread_t self; uint64_t mkdir_unique; self = pthread_self(); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH0) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_mkdir(&mkdir_unique); EXPECT_CALL(*m_mock, process( ResultOf([&](auto in) { return (in.header.opcode == FUSE_INTERRUPT && in.body.interrupt.unique == mkdir_unique); }, Eq(true)), _) ).WillOnce(Invoke([&](auto in __unused, auto &out) { std::unique_ptr out0(new mockfs_buf_out); out0->header.error = -EINTR; out0->header.unique = mkdir_unique; out0->header.len = sizeof(out0->header); out.push_back(std::move(out0)); })); setup_interruptor(self); ASSERT_EQ(-1, mkdir(FULLDIRPATH0, MODE)); EXPECT_EQ(EINTR, errno); } /* Reads should also be interruptible */ TEST_F(Intr, in_progress_read) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const size_t bufsize = 80; char buf[bufsize]; uint64_t ino = 42; int fd; pthread_t self; uint64_t read_unique; self = pthread_self(); expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); expect_read(ino, &read_unique); EXPECT_CALL(*m_mock, process( ResultOf([&](auto in) { return (in.header.opcode == FUSE_INTERRUPT && in.body.interrupt.unique == read_unique); }, Eq(true)), _) ).WillOnce(Invoke([&](auto in __unused, auto &out) { std::unique_ptr out0(new mockfs_buf_out); out0->header.error = -EINTR; out0->header.unique = read_unique; out0->header.len = sizeof(out0->header); out.push_back(std::move(out0)); })); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); setup_interruptor(self); ASSERT_EQ(-1, read(fd, buf, bufsize)); EXPECT_EQ(EINTR, errno); } /* * When mounted with -o nointr, fusefs will block signals while waiting for the * server. */ TEST_F(Nointr, block) { uint64_t ino = 42; pthread_t self; sem_t sem0; ASSERT_EQ(0, sem_init(&sem0, 0, 0)) << strerror(errno); signaled_semaphore = &sem0; self = pthread_self(); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH0) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_MKDIR); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([&](auto in __unused, auto& out) { /* Let the killer proceed */ sem_post(blocked_semaphore); /* Wait until after the signal has been sent */ sem_wait(signaled_semaphore); /* Allow time for the mkdir thread to receive the signal */ nap(); /* Finally, complete the original op */ SET_OUT_HEADER_LEN(out, entry); out.body.create.entry.attr.mode = S_IFDIR | MODE; out.body.create.entry.nodeid = ino; }))); EXPECT_CALL(*m_mock, process( ResultOf([&](auto in) { return (in.header.opcode == FUSE_INTERRUPT); }, Eq(true)), _) ).Times(0); setup_interruptor(self); ASSERT_EQ(0, mkdir(FULLDIRPATH0, MODE)) << strerror(errno); sem_destroy(&sem0); } /* FUSE_INTERRUPT operations should take priority over other pending ops */ TEST_F(Intr, priority) { Sequence seq; uint64_t ino1 = 43; uint64_t mkdir_unique; pthread_t th0; sem_t sem0, sem1; ASSERT_EQ(0, sem_init(&sem0, 0, 0)) << strerror(errno); ASSERT_EQ(0, sem_init(&sem1, 0, 0)) << strerror(errno); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH0) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH1) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_MKDIR); }, Eq(true)), _) ).InSequence(seq) .WillOnce(Invoke(ReturnImmediate([&](auto in, auto& out) { mkdir_unique = in.header.unique; /* Let the next mkdir proceed */ sem_post(&sem1); /* Pause the daemon thread so it won't read the next op */ sem_wait(&sem0); /* Finally, interrupt the original op */ out.header.error = -EINTR; out.header.unique = mkdir_unique; out.header.len = sizeof(out.header); }))); /* * FUSE_INTERRUPT should be received before the second FUSE_MKDIR, * even though it was generated later */ EXPECT_CALL(*m_mock, process( ResultOf([&](auto in) { return (in.header.opcode == FUSE_INTERRUPT && in.body.interrupt.unique == mkdir_unique); }, Eq(true)), _) ).InSequence(seq) .WillOnce(Invoke(ReturnErrno(EAGAIN))); EXPECT_CALL(*m_mock, process( ResultOf([&](auto in) { return (in.header.opcode == FUSE_MKDIR); }, Eq(true)), _) ).InSequence(seq) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.create.entry.attr.mode = S_IFDIR | MODE; out.body.create.entry.nodeid = ino1; }))); /* Use a separate thread for the first mkdir */ ASSERT_EQ(0, pthread_create(&th0, NULL, mkdir0, NULL)) << strerror(errno); signaled_semaphore = &sem0; sem_wait(&sem1); /* Sequence the two mkdirs */ setup_interruptor(th0, true); ASSERT_EQ(0, mkdir(FULLDIRPATH1, MODE)) << strerror(errno); pthread_join(th0, NULL); sem_destroy(&sem1); sem_destroy(&sem0); } /* * If the FUSE filesystem receives the FUSE_INTERRUPT operation before * processing the original, then it should wait for "some timeout" for the * original operation to arrive. If not, it should send EAGAIN to the * INTERRUPT operation, and the kernel should requeue the INTERRUPT. * * In this test, we'll pretend that the INTERRUPT arrives too soon, gets * EAGAINed, then the kernel requeues it, and the second time around it * successfully interrupts the original */ /* https://bugs.freebsd.org/bugzilla/show_bug.cgi?id=236530 */ TEST_F(Intr, too_soon) { Sequence seq; pthread_t self; uint64_t mkdir_unique; self = pthread_self(); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH0) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_mkdir(&mkdir_unique); EXPECT_CALL(*m_mock, process( ResultOf([&](auto in) { return (in.header.opcode == FUSE_INTERRUPT && in.body.interrupt.unique == mkdir_unique); }, Eq(true)), _) ).InSequence(seq) .WillOnce(Invoke(ReturnErrno(EAGAIN))); EXPECT_CALL(*m_mock, process( ResultOf([&](auto in) { return (in.header.opcode == FUSE_INTERRUPT && in.body.interrupt.unique == mkdir_unique); }, Eq(true)), _) ).InSequence(seq) .WillOnce(Invoke([&](auto in __unused, auto &out __unused) { std::unique_ptr out0(new mockfs_buf_out); out0->header.error = -EINTR; out0->header.unique = mkdir_unique; out0->header.len = sizeof(out0->header); out.push_back(std::move(out0)); })); setup_interruptor(self); ASSERT_EQ(-1, mkdir(FULLDIRPATH0, MODE)); EXPECT_EQ(EINTR, errno); } // TODO: add a test where write returns EWOULDBLOCK Index: head/tests/sys/fs/fusefs/io.cc =================================================================== --- head/tests/sys/fs/fusefs/io.cc (revision 350989) +++ head/tests/sys/fs/fusefs/io.cc (revision 350990) @@ -1,543 +1,545 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include #include #include #include #include } #include "mockfs.hh" #include "utils.hh" /* * For testing I/O like fsx does, but deterministically and without a real * underlying file system * * TODO: after fusefs gains the options to select cache mode for each mount * point, run each of these tests for all cache modes. */ using namespace testing; enum cache_mode { Uncached, Writethrough, Writeback, WritebackAsync }; const char *cache_mode_to_s(enum cache_mode cm) { switch (cm) { case Uncached: return "Uncached"; case Writethrough: return "Writethrough"; case Writeback: return "Writeback"; case WritebackAsync: return "WritebackAsync"; default: return "Unknown"; } } const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; static void compare(const void *tbuf, const void *controlbuf, off_t baseofs, ssize_t size) { int i; for (i = 0; i < size; i++) { if (((const char*)tbuf)[i] != ((const char*)controlbuf)[i]) { off_t ofs = baseofs + i; FAIL() << "miscompare at offset " << std::hex << std::showbase << ofs << ". expected = " << std::setw(2) << (unsigned)((const uint8_t*)controlbuf)[i] << " got = " << (unsigned)((const uint8_t*)tbuf)[i]; } } } typedef tuple IoParam; class Io: public FuseTest, public WithParamInterface { public: int m_backing_fd, m_control_fd, m_test_fd; off_t m_filesize; bool m_direct_io; Io(): m_backing_fd(-1), m_control_fd(-1), m_direct_io(false) {}; void SetUp() { m_filesize = 0; m_backing_fd = open("backing_file", O_RDWR | O_CREAT | O_TRUNC, 0644); if (m_backing_fd < 0) FAIL() << strerror(errno); m_control_fd = open("control", O_RDWR | O_CREAT | O_TRUNC, 0644); if (m_control_fd < 0) FAIL() << strerror(errno); srandom(22'9'1982); // Seed with my birthday if (get<0>(GetParam())) m_init_flags |= FUSE_ASYNC_READ; m_maxwrite = get<1>(GetParam()); switch (get<2>(GetParam())) { case Uncached: m_direct_io = true; break; case WritebackAsync: m_async = true; /* FALLTHROUGH */ case Writeback: m_init_flags |= FUSE_WRITEBACK_CACHE; /* FALLTHROUGH */ case Writethrough: break; default: FAIL() << "Unknown cache mode"; } FuseTest::SetUp(); if (IsSkipped()) return; if (verbosity > 0) { printf("Test Parameters: init_flags=%#x maxwrite=%#x " "%sasync cache=%s\n", m_init_flags, m_maxwrite, m_async? "" : "no", cache_mode_to_s(get<2>(GetParam()))); } expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_open(ino, m_direct_io ? FOPEN_DIRECT_IO : 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_WRITE && in.header.nodeid == ino); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnImmediate([=](auto in, auto& out) { const char *buf = (const char*)in.body.bytes + sizeof(struct fuse_write_in); ssize_t isize = in.body.write.size; off_t iofs = in.body.write.offset; ASSERT_EQ(isize, pwrite(m_backing_fd, buf, isize, iofs)) << strerror(errno); SET_OUT_HEADER_LEN(out, write); out.body.write.size = isize; }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READ && in.header.nodeid == ino); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnImmediate([=](auto in, auto& out) { ssize_t isize = in.body.write.size; off_t iofs = in.body.write.offset; void *buf = out.body.bytes; ssize_t osize; osize = pread(m_backing_fd, buf, isize, iofs); ASSERT_LE(0, osize) << strerror(errno); out.header.len = sizeof(struct fuse_out_header) + osize; }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && (in.body.setattr.valid & FATTR_SIZE)); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnImmediate([=](auto in, auto& out) { ASSERT_EQ(0, ftruncate(m_backing_fd, in.body.setattr.size)) << strerror(errno); SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; out.body.attr.attr.mode = S_IFREG | 0755; out.body.attr.attr.size = in.body.setattr.size; out.body.attr.attr_valid = UINT64_MAX; }))); /* Any test that close()s will send FUSE_FLUSH and FUSE_RELEASE */ EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_FLUSH && in.header.nodeid == ino); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnErrno(0))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_RELEASE && in.header.nodeid == ino); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnErrno(0))); m_test_fd = open(FULLPATH, O_RDWR ); EXPECT_LE(0, m_test_fd) << strerror(errno); } void TearDown() { if (m_test_fd >= 0) close(m_test_fd); if (m_backing_fd >= 0) close(m_backing_fd); if (m_control_fd >= 0) close(m_control_fd); FuseTest::TearDown(); leak(m_test_fd); } void do_closeopen() { ASSERT_EQ(0, close(m_test_fd)) << strerror(errno); m_test_fd = open("backing_file", O_RDWR); ASSERT_LE(0, m_test_fd) << strerror(errno); ASSERT_EQ(0, close(m_control_fd)) << strerror(errno); m_control_fd = open("control", O_RDWR); ASSERT_LE(0, m_control_fd) << strerror(errno); } void do_ftruncate(off_t offs) { ASSERT_EQ(0, ftruncate(m_test_fd, offs)) << strerror(errno); ASSERT_EQ(0, ftruncate(m_control_fd, offs)) << strerror(errno); m_filesize = offs; } void do_mapread(ssize_t size, off_t offs) { void *control_buf, *p; off_t pg_offset, page_mask; size_t map_size; page_mask = getpagesize() - 1; pg_offset = offs & page_mask; map_size = pg_offset + size; p = mmap(NULL, map_size, PROT_READ, MAP_FILE | MAP_SHARED, m_test_fd, offs - pg_offset); ASSERT_NE(p, MAP_FAILED) << strerror(errno); control_buf = malloc(size); ASSERT_NE(nullptr, control_buf) << strerror(errno); ASSERT_EQ(size, pread(m_control_fd, control_buf, size, offs)) << strerror(errno); compare((void*)((char*)p + pg_offset), control_buf, offs, size); ASSERT_EQ(0, munmap(p, map_size)) << strerror(errno); free(control_buf); } void do_read(ssize_t size, off_t offs) { void *test_buf, *control_buf; ssize_t r; test_buf = malloc(size); ASSERT_NE(nullptr, test_buf) << strerror(errno); control_buf = malloc(size); ASSERT_NE(nullptr, control_buf) << strerror(errno); errno = 0; r = pread(m_test_fd, test_buf, size, offs); ASSERT_NE(-1, r) << strerror(errno); ASSERT_EQ(size, r) << "unexpected short read"; r = pread(m_control_fd, control_buf, size, offs); ASSERT_NE(-1, r) << strerror(errno); ASSERT_EQ(size, r) << "unexpected short read"; compare(test_buf, control_buf, offs, size); free(control_buf); free(test_buf); } void do_mapwrite(ssize_t size, off_t offs) { char *buf; void *p; off_t pg_offset, page_mask; size_t map_size; long i; page_mask = getpagesize() - 1; pg_offset = offs & page_mask; map_size = pg_offset + size; buf = (char*)malloc(size); ASSERT_NE(nullptr, buf) << strerror(errno); for (i=0; i < size; i++) buf[i] = random(); if (offs + size > m_filesize) { /* * Must manually extend. vm_mmap_vnode will not implicitly * extend a vnode */ do_ftruncate(offs + size); } p = mmap(NULL, map_size, PROT_READ | PROT_WRITE, MAP_FILE | MAP_SHARED, m_test_fd, offs - pg_offset); ASSERT_NE(p, MAP_FAILED) << strerror(errno); bcopy(buf, (char*)p + pg_offset, size); ASSERT_EQ(size, pwrite(m_control_fd, buf, size, offs)) << strerror(errno); free(buf); ASSERT_EQ(0, munmap(p, map_size)) << strerror(errno); } void do_write(ssize_t size, off_t offs) { char *buf; long i; buf = (char*)malloc(size); ASSERT_NE(nullptr, buf) << strerror(errno); for (i=0; i < size; i++) buf[i] = random(); ASSERT_EQ(size, pwrite(m_test_fd, buf, size, offs )) << strerror(errno); ASSERT_EQ(size, pwrite(m_control_fd, buf, size, offs)) << strerror(errno); m_filesize = std::max(m_filesize, offs + size); free(buf); } }; class IoCacheable: public Io { public: virtual void SetUp() { Io::SetUp(); } }; /* * Extend a file with dirty data in the last page of the last block. * * fsx -WR -P /tmp -S8 -N3 fsx.bin */ TEST_P(Io, extend_from_dirty_page) { off_t wofs = 0x21a0; ssize_t wsize = 0xf0a8; off_t rofs = 0xb284; ssize_t rsize = 0x9b22; off_t truncsize = 0x28702; do_write(wsize, wofs); do_ftruncate(truncsize); do_read(rsize, rofs); } /* * mapwrite into a newly extended part of a file. * * fsx -c 100 -i 100 -l 524288 -o 131072 -N5 -P /tmp -S19 fsx.bin */ TEST_P(IoCacheable, extend_by_mapwrite) { do_mapwrite(0x849e, 0x29a3a); /* [0x29a3a, 0x31ed7] */ do_mapwrite(0x3994, 0x3c7d8); /* [0x3c7d8, 0x4016b] */ do_read(0xf556, 0x30c16); /* [0x30c16, 0x4016b] */ } /* * When writing the last page of a file, it must be written synchronously. * Otherwise the cached page can become invalid by a subsequent extend * operation. * * fsx -WR -P /tmp -S642 -N3 fsx.bin */ TEST_P(Io, last_page) { do_write(0xcc77, 0x1134f); /* [0x1134f, 0x1dfc5] */ do_write(0xdfa7, 0x2096a); /* [0x2096a, 0x2e910] */ do_read(0xb5b7, 0x1a3aa); /* [0x1a3aa, 0x25960] */ } /* * Read a hole using mmap * * fsx -c 100 -i 100 -l 524288 -o 131072 -N11 -P /tmp -S14 fsx.bin */ TEST_P(IoCacheable, mapread_hole) { do_write(0x123b7, 0xf205); /* [0xf205, 0x215bb] */ do_mapread(0xeeea, 0x2f4c); /* [0x2f4c, 0x11e35] */ } /* * Read a hole from a block that contains some cached data. * * fsx -WR -P /tmp -S55 fsx.bin */ TEST_P(Io, read_hole_from_cached_block) { off_t wofs = 0x160c5; ssize_t wsize = 0xa996; off_t rofs = 0x472e; ssize_t rsize = 0xd8d5; do_write(wsize, wofs); do_read(rsize, rofs); } /* * Truncating a file into a dirty buffer should not causing anything untoward * to happen when that buffer is eventually flushed. * * fsx -WR -P /tmp -S839 -d -N6 fsx.bin */ TEST_P(Io, truncate_into_dirty_buffer) { off_t wofs0 = 0x3bad7; ssize_t wsize0 = 0x4529; off_t wofs1 = 0xc30d; ssize_t wsize1 = 0x5f77; off_t truncsize0 = 0x10916; off_t rofs = 0xdf17; ssize_t rsize = 0x29ff; off_t truncsize1 = 0x152b4; do_write(wsize0, wofs0); do_write(wsize1, wofs1); do_ftruncate(truncsize0); do_read(rsize, rofs); do_ftruncate(truncsize1); close(m_test_fd); } /* * Truncating a file into a dirty buffer should not causing anything untoward * to happen when that buffer is eventually flushed, even when the buffer's * dirty_off is > 0. * * Based on this command with a few steps removed: * fsx -WR -P /tmp -S677 -d -N8 fsx.bin */ TEST_P(Io, truncate_into_dirty_buffer2) { off_t truncsize0 = 0x344f3; off_t wofs = 0x2790c; ssize_t wsize = 0xd86a; off_t truncsize1 = 0x2de38; off_t rofs2 = 0x1fd7a; ssize_t rsize2 = 0xc594; off_t truncsize2 = 0x31e71; /* Sets the file size to something larger than the next write */ do_ftruncate(truncsize0); /* * Creates a dirty buffer. The part in lbn 2 doesn't flush * synchronously. */ do_write(wsize, wofs); /* Truncates part of the dirty buffer created in step 2 */ do_ftruncate(truncsize1); /* XXX ?I don't know why this is necessary? */ do_read(rsize2, rofs2); /* Truncates the dirty buffer */ do_ftruncate(truncsize2); close(m_test_fd); } /* * Regression test for a bug introduced in r348931 * * Sequence of operations: * 1) The first write reads lbn so it can modify it * 2) The first write flushes lbn 3 immediately because it's the end of file * 3) The first write then flushes lbn 4 because it's the end of the file * 4) The second write modifies the cached versions of lbn 3 and 4 * 5) The third write's getblkx invalidates lbn 4's B_CACHE because it's * extending the buffer. Then it flushes lbn 4 because B_DELWRI was set but * B_CACHE was clear. * 6) fuse_write_biobackend erroneously called vfs_bio_clrbuf, putting the * buffer into a weird write-only state. All read operations would return * 0. Writes were apparently still processed, because the buffer's contents * were correct when examined in a core dump. * 7) The third write reads lbn 4 because cache is clear * 9) uiomove dutifully copies new data into the buffer * 10) The buffer's dirty is flushed to lbn 4 * 11) The read returns all zeros because of step 6. * * Based on: * fsx -WR -l 524388 -o 131072 -P /tmp -S6456 -q fsx.bin */ TEST_P(Io, resize_a_valid_buffer_while_extending) { do_write(0x14530, 0x36ee6); /* [0x36ee6, 0x4b415] */ do_write(0x1507c, 0x33256); /* [0x33256, 0x482d1] */ do_write(0x175c, 0x4c03d); /* [0x4c03d, 0x4d798] */ do_read(0xe277, 0x3599c); /* [0x3599c, 0x43c12] */ close(m_test_fd); } INSTANTIATE_TEST_CASE_P(Io, Io, Combine(Bool(), /* async read */ Values(0x1000, 0x10000, 0x20000), /* m_maxwrite */ Values(Uncached, Writethrough, Writeback, WritebackAsync) ) ); INSTANTIATE_TEST_CASE_P(Io, IoCacheable, Combine(Bool(), /* async read */ Values(0x1000, 0x10000, 0x20000), /* m_maxwrite */ Values(Writethrough, Writeback, WritebackAsync) ) ); Index: head/tests/sys/fs/fusefs/link.cc =================================================================== --- head/tests/sys/fs/fusefs/link.cc (revision 350989) +++ head/tests/sys/fs/fusefs/link.cc (revision 350990) @@ -1,233 +1,235 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Link: public FuseTest { public: void expect_link(uint64_t ino, const char *relpath, mode_t mode, uint32_t nlink) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes + sizeof(struct fuse_link_in); return (in.header.opcode == FUSE_LINK && in.body.link.oldnodeid == ino && (0 == strcmp(name, relpath))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.nodeid = ino; out.body.entry.attr.mode = mode; out.body.entry.attr.nlink = nlink; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; }))); } void expect_lookup(const char *relpath, uint64_t ino) { FuseTest::expect_lookup(relpath, ino, S_IFREG | 0644, 0, 1); } }; class Link_7_8: public FuseTest { public: virtual void SetUp() { m_kernel_minor_version = 8; FuseTest::SetUp(); } void expect_link(uint64_t ino, const char *relpath, mode_t mode, uint32_t nlink) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes + sizeof(struct fuse_link_in); return (in.header.opcode == FUSE_LINK && in.body.link.oldnodeid == ino && (0 == strcmp(name, relpath))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry_7_8); out.body.entry.nodeid = ino; out.body.entry.attr.mode = mode; out.body.entry.attr.nlink = nlink; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; }))); } void expect_lookup(const char *relpath, uint64_t ino) { FuseTest::expect_lookup_7_8(relpath, ino, S_IFREG | 0644, 0, 1); } }; /* * A successful link should clear the parent directory's attribute cache, * because the fuse daemon should update its mtime and ctime */ TEST_F(Link, clear_attr_cache) { const char FULLPATH[] = "mountpoint/src"; const char RELPATH[] = "src"; const char FULLDST[] = "mountpoint/dst"; const char RELDST[] = "dst"; const uint64_t ino = 42; mode_t mode = S_IFREG | 0644; struct stat sb; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == FUSE_ROOT_ID); }, Eq(true)), _) ).Times(2) .WillRepeatedly(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = FUSE_ROOT_ID; out.body.attr.attr.mode = S_IFDIR | 0755; out.body.attr.attr_valid = UINT64_MAX; }))); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDST) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.attr.nlink = 1; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; }))); expect_link(ino, RELPATH, mode, 2); EXPECT_EQ(0, stat("mountpoint", &sb)) << strerror(errno); EXPECT_EQ(0, link(FULLDST, FULLPATH)) << strerror(errno); EXPECT_EQ(0, stat("mountpoint", &sb)) << strerror(errno); } TEST_F(Link, emlink) { const char FULLPATH[] = "mountpoint/lnk"; const char RELPATH[] = "lnk"; const char FULLDST[] = "mountpoint/dst"; const char RELDST[] = "dst"; uint64_t dst_ino = 42; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_lookup(RELDST, dst_ino); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes + sizeof(struct fuse_link_in); return (in.header.opcode == FUSE_LINK && in.body.link.oldnodeid == dst_ino && (0 == strcmp(name, RELPATH))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(EMLINK))); EXPECT_EQ(-1, link(FULLDST, FULLPATH)); EXPECT_EQ(EMLINK, errno); } TEST_F(Link, ok) { const char FULLPATH[] = "mountpoint/src"; const char RELPATH[] = "src"; const char FULLDST[] = "mountpoint/dst"; const char RELDST[] = "dst"; const uint64_t ino = 42; mode_t mode = S_IFREG | 0644; struct stat sb; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDST) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.attr.nlink = 1; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; }))); expect_link(ino, RELPATH, mode, 2); ASSERT_EQ(0, link(FULLDST, FULLPATH)) << strerror(errno); // Check that the original file's nlink count has increased. ASSERT_EQ(0, stat(FULLDST, &sb)) << strerror(errno); EXPECT_EQ(2ul, sb.st_nlink); } TEST_F(Link_7_8, ok) { const char FULLPATH[] = "mountpoint/src"; const char RELPATH[] = "src"; const char FULLDST[] = "mountpoint/dst"; const char RELDST[] = "dst"; const uint64_t ino = 42; mode_t mode = S_IFREG | 0644; struct stat sb; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDST) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry_7_8); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.attr.nlink = 1; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; }))); expect_link(ino, RELPATH, mode, 2); ASSERT_EQ(0, link(FULLDST, FULLPATH)) << strerror(errno); // Check that the original file's nlink count has increased. ASSERT_EQ(0, stat(FULLDST, &sb)) << strerror(errno); EXPECT_EQ(2ul, sb.st_nlink); } Index: head/tests/sys/fs/fusefs/locks.cc =================================================================== --- head/tests/sys/fs/fusefs/locks.cc (revision 350989) +++ head/tests/sys/fs/fusefs/locks.cc (revision 350990) @@ -1,478 +1,480 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include } #include "mockfs.hh" #include "utils.hh" /* This flag value should probably be defined in fuse_kernel.h */ #define OFFSET_MAX 0x7fffffffffffffffLL using namespace testing; /* For testing filesystems without posix locking support */ class Fallback: public FuseTest { public: void expect_lookup(const char *relpath, uint64_t ino) { FuseTest::expect_lookup(relpath, ino, S_IFREG | 0644, 0, 1); } }; /* For testing filesystems with posix locking support */ class Locks: public Fallback { virtual void SetUp() { m_init_flags = FUSE_POSIX_LOCKS; Fallback::SetUp(); } }; class Fcntl: public Locks { public: void expect_setlk(uint64_t ino, pid_t pid, uint64_t start, uint64_t end, uint32_t type, int err) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_SETLK && in.header.nodeid == ino && in.body.setlk.fh == FH && in.body.setlkw.owner == (uint32_t)pid && in.body.setlkw.lk.start == start && in.body.setlkw.lk.end == end && in.body.setlkw.lk.type == type && in.body.setlkw.lk.pid == (uint64_t)pid); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(err))); } }; class Flock: public Locks { public: void expect_setlk(uint64_t ino, uint32_t type, int err) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_SETLK && in.header.nodeid == ino && in.body.setlk.fh == FH && /* * The owner should be set to the address of * the vnode. That's hard to verify. */ /* in.body.setlk.owner == ??? && */ in.body.setlk.lk.type == type); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(err))); } }; class FlockFallback: public Fallback {}; class GetlkFallback: public Fallback {}; class Getlk: public Fcntl {}; class SetlkFallback: public Fallback {}; class Setlk: public Fcntl {}; class SetlkwFallback: public Fallback {}; class Setlkw: public Fcntl {}; /* * If the fuse filesystem does not support flock locks, then the kernel should * fall back to local locks. */ TEST_F(FlockFallback, local) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(0, flock(fd, LOCK_EX)) << strerror(errno); leak(fd); } /* * Even if the fuse file system supports POSIX locks, we must implement flock * locks locally until protocol 7.17. Protocol 7.9 added partial buggy support * but we won't implement that. */ TEST_F(Flock, local) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(0, flock(fd, LOCK_EX)) << strerror(errno); leak(fd); } /* Set a new flock lock with FUSE_SETLK */ /* TODO: enable after upgrading to protocol 7.17 */ TEST_F(Flock, DISABLED_set) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); expect_setlk(ino, F_WRLCK, 0); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(0, flock(fd, LOCK_EX)) << strerror(errno); leak(fd); } /* Fail to set a flock lock in non-blocking mode */ /* TODO: enable after upgrading to protocol 7.17 */ TEST_F(Flock, DISABLED_eagain) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); expect_setlk(ino, F_WRLCK, EAGAIN); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); ASSERT_NE(0, flock(fd, LOCK_EX | LOCK_NB)); ASSERT_EQ(EAGAIN, errno); leak(fd); } /* * If the fuse filesystem does not support posix file locks, then the kernel * should fall back to local locks. */ TEST_F(GetlkFallback, local) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; struct flock fl; int fd; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); fl.l_start = 10; fl.l_len = 1000; fl.l_pid = getpid(); fl.l_type = F_RDLCK; fl.l_whence = SEEK_SET; fl.l_sysid = 0; ASSERT_NE(-1, fcntl(fd, F_GETLK, &fl)) << strerror(errno); leak(fd); } /* * If the filesystem has no locks that fit the description, the filesystem * should return F_UNLCK */ TEST_F(Getlk, no_locks) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; struct flock fl; int fd; pid_t pid = 1234; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETLK && in.header.nodeid == ino && in.body.getlk.fh == FH && in.body.getlk.owner == (uint32_t)pid && in.body.getlk.lk.start == 10 && in.body.getlk.lk.end == 1009 && in.body.getlk.lk.type == F_RDLCK && in.body.getlk.lk.pid == (uint64_t)pid); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in, auto& out) { SET_OUT_HEADER_LEN(out, getlk); out.body.getlk.lk = in.body.getlk.lk; out.body.getlk.lk.type = F_UNLCK; }))); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); fl.l_start = 10; fl.l_len = 1000; fl.l_pid = pid; fl.l_type = F_RDLCK; fl.l_whence = SEEK_SET; fl.l_sysid = 0; ASSERT_NE(-1, fcntl(fd, F_GETLK, &fl)) << strerror(errno); ASSERT_EQ(F_UNLCK, fl.l_type); leak(fd); } /* A different pid does have a lock */ TEST_F(Getlk, lock_exists) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; struct flock fl; int fd; pid_t pid = 1234; pid_t pid2 = 1235; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETLK && in.header.nodeid == ino && in.body.getlk.fh == FH && in.body.getlk.owner == (uint32_t)pid && in.body.getlk.lk.start == 10 && in.body.getlk.lk.end == 1009 && in.body.getlk.lk.type == F_RDLCK && in.body.getlk.lk.pid == (uint64_t)pid); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, getlk); out.body.getlk.lk.start = 100; out.body.getlk.lk.end = 199; out.body.getlk.lk.type = F_WRLCK; out.body.getlk.lk.pid = (uint32_t)pid2;; }))); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); fl.l_start = 10; fl.l_len = 1000; fl.l_pid = pid; fl.l_type = F_RDLCK; fl.l_whence = SEEK_SET; fl.l_sysid = 0; ASSERT_NE(-1, fcntl(fd, F_GETLK, &fl)) << strerror(errno); EXPECT_EQ(100, fl.l_start); EXPECT_EQ(100, fl.l_len); EXPECT_EQ(pid2, fl.l_pid); EXPECT_EQ(F_WRLCK, fl.l_type); EXPECT_EQ(SEEK_SET, fl.l_whence); EXPECT_EQ(0, fl.l_sysid); leak(fd); } /* * If the fuse filesystem does not support posix file locks, then the kernel * should fall back to local locks. */ TEST_F(SetlkFallback, local) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; struct flock fl; int fd; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); fl.l_start = 10; fl.l_len = 1000; fl.l_pid = getpid(); fl.l_type = F_RDLCK; fl.l_whence = SEEK_SET; fl.l_sysid = 0; ASSERT_NE(-1, fcntl(fd, F_SETLK, &fl)) << strerror(errno); leak(fd); } /* Set a new lock with FUSE_SETLK */ TEST_F(Setlk, set) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; struct flock fl; int fd; pid_t pid = 1234; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); expect_setlk(ino, pid, 10, 1009, F_RDLCK, 0); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); fl.l_start = 10; fl.l_len = 1000; fl.l_pid = pid; fl.l_type = F_RDLCK; fl.l_whence = SEEK_SET; fl.l_sysid = 0; ASSERT_NE(-1, fcntl(fd, F_SETLK, &fl)) << strerror(errno); leak(fd); } /* l_len = 0 is a flag value that means to lock until EOF */ TEST_F(Setlk, set_eof) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; struct flock fl; int fd; pid_t pid = 1234; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); expect_setlk(ino, pid, 10, OFFSET_MAX, F_RDLCK, 0); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); fl.l_start = 10; fl.l_len = 0; fl.l_pid = pid; fl.l_type = F_RDLCK; fl.l_whence = SEEK_SET; fl.l_sysid = 0; ASSERT_NE(-1, fcntl(fd, F_SETLK, &fl)) << strerror(errno); leak(fd); } /* Fail to set a new lock with FUSE_SETLK due to a conflict */ TEST_F(Setlk, eagain) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; struct flock fl; int fd; pid_t pid = 1234; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); expect_setlk(ino, pid, 10, 1009, F_RDLCK, EAGAIN); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); fl.l_start = 10; fl.l_len = 1000; fl.l_pid = pid; fl.l_type = F_RDLCK; fl.l_whence = SEEK_SET; fl.l_sysid = 0; ASSERT_EQ(-1, fcntl(fd, F_SETLK, &fl)); ASSERT_EQ(EAGAIN, errno); leak(fd); } /* * If the fuse filesystem does not support posix file locks, then the kernel * should fall back to local locks. */ TEST_F(SetlkwFallback, local) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; struct flock fl; int fd; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); fl.l_start = 10; fl.l_len = 1000; fl.l_pid = getpid(); fl.l_type = F_RDLCK; fl.l_whence = SEEK_SET; fl.l_sysid = 0; ASSERT_NE(-1, fcntl(fd, F_SETLKW, &fl)) << strerror(errno); leak(fd); } /* * Set a new lock with FUSE_SETLK. If the lock is not available, then the * command should block. But to the kernel, that's the same as just being * slow, so we don't need a separate test method */ TEST_F(Setlkw, set) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; struct flock fl; int fd; pid_t pid = 1234; expect_lookup(RELPATH, ino); expect_open(ino, 0, 1); expect_setlk(ino, pid, 10, 1009, F_RDLCK, 0); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); fl.l_start = 10; fl.l_len = 1000; fl.l_pid = pid; fl.l_type = F_RDLCK; fl.l_whence = SEEK_SET; fl.l_sysid = 0; ASSERT_NE(-1, fcntl(fd, F_SETLKW, &fl)) << strerror(errno); leak(fd); } Index: head/tests/sys/fs/fusefs/lookup.cc =================================================================== --- head/tests/sys/fs/fusefs/lookup.cc (revision 350989) +++ head/tests/sys/fs/fusefs/lookup.cc (revision 350990) @@ -1,381 +1,383 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Lookup: public FuseTest {}; class Lookup_7_8: public Lookup { public: virtual void SetUp() { m_kernel_minor_version = 8; Lookup::SetUp(); } }; /* * If lookup returns a non-zero cache timeout, then subsequent VOP_GETATTRs * should use the cached attributes, rather than query the daemon */ TEST_F(Lookup, attr_cache) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const uint64_t generation = 13; struct stat sb; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.nodeid = ino; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.attr.ino = ino; // Must match nodeid out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.attr.size = 1; out.body.entry.attr.blocks = 2; out.body.entry.attr.atime = 3; out.body.entry.attr.mtime = 4; out.body.entry.attr.ctime = 5; out.body.entry.attr.atimensec = 6; out.body.entry.attr.mtimensec = 7; out.body.entry.attr.ctimensec = 8; out.body.entry.attr.nlink = 9; out.body.entry.attr.uid = 10; out.body.entry.attr.gid = 11; out.body.entry.attr.rdev = 12; out.body.entry.generation = generation; }))); /* stat(2) issues a VOP_LOOKUP followed by a VOP_GETATTR */ ASSERT_EQ(0, stat(FULLPATH, &sb)) << strerror(errno); EXPECT_EQ(1, sb.st_size); EXPECT_EQ(2, sb.st_blocks); EXPECT_EQ(3, sb.st_atim.tv_sec); EXPECT_EQ(6, sb.st_atim.tv_nsec); EXPECT_EQ(4, sb.st_mtim.tv_sec); EXPECT_EQ(7, sb.st_mtim.tv_nsec); EXPECT_EQ(5, sb.st_ctim.tv_sec); EXPECT_EQ(8, sb.st_ctim.tv_nsec); EXPECT_EQ(9ull, sb.st_nlink); EXPECT_EQ(10ul, sb.st_uid); EXPECT_EQ(11ul, sb.st_gid); EXPECT_EQ(12ul, sb.st_rdev); EXPECT_EQ(ino, sb.st_ino); EXPECT_EQ(S_IFREG | 0644, sb.st_mode); // fuse(4) does not _yet_ support inode generations //EXPECT_EQ(generation, sb.st_gen); //st_birthtim and st_flags are not supported by protocol 7.8. They're //only supported as OS-specific extensions to OSX. //EXPECT_EQ(, sb.st_birthtim); //EXPECT_EQ(, sb.st_flags); //FUSE can't set st_blksize until protocol 7.9 } /* * If lookup returns a finite but non-zero cache timeout, then we should discard * the cached attributes and requery the daemon. */ TEST_F(Lookup, attr_cache_timeout) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; struct stat sb; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .Times(2) .WillRepeatedly(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.nodeid = ino; out.body.entry.attr_valid_nsec = NAP_NS / 2; out.body.entry.attr.ino = ino; // Must match nodeid out.body.entry.attr.mode = S_IFREG | 0644; }))); /* access(2) will issue a VOP_LOOKUP and fill the attr cache */ ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); /* Next access(2) will use the cached attributes */ nap(); /* The cache has timed out; VOP_GETATTR should query the daemon*/ ASSERT_EQ(0, stat(FULLPATH, &sb)) << strerror(errno); } TEST_F(Lookup, dot) { const char FULLPATH[] = "mountpoint/some_dir/."; const char RELDIRPATH[] = "some_dir"; uint64_t ino = 42; EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFDIR | 0755; out.body.entry.nodeid = ino; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; }))); /* * access(2) is one of the few syscalls that will not (always) follow * up a successful VOP_LOOKUP with another VOP. */ ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); } TEST_F(Lookup, dotdot) { const char FULLPATH[] = "mountpoint/some_dir/.."; const char RELDIRPATH[] = "some_dir"; EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFDIR | 0755; out.body.entry.nodeid = 14; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; }))); /* * access(2) is one of the few syscalls that will not (always) follow * up a successful VOP_LOOKUP with another VOP. */ ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); } TEST_F(Lookup, enoent) { const char FULLPATH[] = "mountpoint/does_not_exist"; const char RELPATH[] = "does_not_exist"; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_NE(0, access(FULLPATH, F_OK)); EXPECT_EQ(ENOENT, errno); } TEST_F(Lookup, enotdir) { const char FULLPATH[] = "mountpoint/not_a_dir/some_file.txt"; const char RELPATH[] = "not_a_dir"; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.entry_valid = UINT64_MAX; out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = 42; }))); ASSERT_EQ(-1, access(FULLPATH, F_OK)); ASSERT_EQ(ENOTDIR, errno); } /* * If lookup returns a non-zero entry timeout, then subsequent VOP_LOOKUPs * should use the cached inode rather than requery the daemon */ TEST_F(Lookup, entry_cache) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.entry_valid = UINT64_MAX; out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = 14; }))); ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); /* The second access(2) should use the cache */ ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); } /* * If the daemon returns an error of 0 and an inode of 0, that's a flag for * "ENOENT and cache it" with the given entry_timeout */ TEST_F(Lookup, entry_cache_negative) { struct timespec entry_valid = {.tv_sec = TIME_T_MAX, .tv_nsec = 0}; EXPECT_LOOKUP(FUSE_ROOT_ID, "does_not_exist") .Times(1) .WillOnce(Invoke(ReturnNegativeCache(&entry_valid))); EXPECT_NE(0, access("mountpoint/does_not_exist", F_OK)); EXPECT_EQ(ENOENT, errno); EXPECT_NE(0, access("mountpoint/does_not_exist", F_OK)); EXPECT_EQ(ENOENT, errno); } /* Negative entry caches should timeout, too */ TEST_F(Lookup, entry_cache_negative_timeout) { const char *RELPATH = "does_not_exist"; const char *FULLPATH = "mountpoint/does_not_exist"; struct timespec entry_valid = {.tv_sec = 0, .tv_nsec = NAP_NS / 2}; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .Times(2) .WillRepeatedly(Invoke(ReturnNegativeCache(&entry_valid))); EXPECT_NE(0, access(FULLPATH, F_OK)); EXPECT_EQ(ENOENT, errno); nap(); /* The cache has timed out; VOP_LOOKUP should requery the daemon*/ EXPECT_NE(0, access(FULLPATH, F_OK)); EXPECT_EQ(ENOENT, errno); } /* * If lookup returns a finite but non-zero entry cache timeout, then we should * discard the cached inode and requery the daemon */ TEST_F(Lookup, entry_cache_timeout) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .Times(2) .WillRepeatedly(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.entry_valid_nsec = NAP_NS / 2; out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = 14; }))); /* access(2) will issue a VOP_LOOKUP and fill the entry cache */ ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); /* Next access(2) will use the cached entry */ ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); nap(); /* The cache has timed out; VOP_LOOKUP should requery the daemon*/ ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); } TEST_F(Lookup, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = 14; }))); /* * access(2) is one of the few syscalls that will not (always) follow * up a successful VOP_LOOKUP with another VOP. */ ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); } // Lookup in a subdirectory of the fuse mount TEST_F(Lookup, subdir) { const char FULLPATH[] = "mountpoint/some_dir/some_file.txt"; const char DIRPATH[] = "some_dir"; const char RELPATH[] = "some_file.txt"; uint64_t dir_ino = 2; uint64_t file_ino = 3; EXPECT_LOOKUP(FUSE_ROOT_ID, DIRPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFDIR | 0755; out.body.entry.nodeid = dir_ino; }))); EXPECT_LOOKUP(dir_ino, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = file_ino; }))); /* * access(2) is one of the few syscalls that will not (always) follow * up a successful VOP_LOOKUP with another VOP. */ ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); } /* * The server returns two different vtypes for the same nodeid. This is a bad * server! But we shouldn't crash. */ TEST_F(Lookup, vtype_conflict) { const char FIRSTFULLPATH[] = "mountpoint/foo"; const char SECONDFULLPATH[] = "mountpoint/bar"; const char FIRSTRELPATH[] = "foo"; const char SECONDRELPATH[] = "bar"; uint64_t ino = 42; expect_lookup(FIRSTRELPATH, ino, S_IFREG | 0644, 0, 1, UINT64_MAX); expect_lookup(SECONDRELPATH, ino, S_IFDIR | 0755, 0, 1, UINT64_MAX); ASSERT_EQ(0, access(FIRSTFULLPATH, F_OK)) << strerror(errno); ASSERT_EQ(-1, access(SECONDFULLPATH, F_OK)); ASSERT_EQ(EAGAIN, errno); } TEST_F(Lookup_7_8, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry_7_8); out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = 14; }))); /* * access(2) is one of the few syscalls that will not (always) follow * up a successful VOP_LOOKUP with another VOP. */ ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); } Index: head/tests/sys/fs/fusefs/mkdir.cc =================================================================== --- head/tests/sys/fs/fusefs/mkdir.cc (revision 350989) +++ head/tests/sys/fs/fusefs/mkdir.cc (revision 350990) @@ -1,222 +1,224 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Mkdir: public FuseTest {}; class Mkdir_7_8: public FuseTest { public: virtual void SetUp() { m_kernel_minor_version = 8; FuseTest::SetUp(); } }; /* * EMLINK is possible on filesystems that limit the number of hard links to a * single file, like early versions of BtrFS */ TEST_F(Mkdir, emlink) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; mode_t mode = 0755; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes + sizeof(fuse_mkdir_in); return (in.header.opcode == FUSE_MKDIR && in.body.mkdir.mode == (S_IFDIR | mode) && (0 == strcmp(RELPATH, name))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(EMLINK))); ASSERT_NE(1, mkdir(FULLPATH, mode)); ASSERT_EQ(EMLINK, errno); } /* * Creating a new directory after FUSE_LOOKUP returned a negative cache entry */ TEST_F(Mkdir, entry_cache_negative) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; mode_t mode = 0755; uint64_t ino = 42; /* * Set entry_valid = 0 because this test isn't concerned with whether * or not we actually cache negative entries, only with whether we * interpret negative cache responses correctly. */ struct timespec entry_valid = {.tv_sec = 0, .tv_nsec = 0}; /* mkdir will first do a LOOKUP, adding a negative cache entry */ EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(ReturnNegativeCache(&entry_valid)); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes + sizeof(fuse_open_in); return (in.header.opcode == FUSE_MKDIR && in.body.mkdir.mode == (S_IFDIR | mode) && (0 == strcmp(RELPATH, name))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.create.entry.attr.mode = S_IFDIR | mode; out.body.create.entry.nodeid = ino; out.body.create.entry.entry_valid = UINT64_MAX; out.body.create.entry.attr_valid = UINT64_MAX; }))); ASSERT_EQ(0, mkdir(FULLPATH, mode)) << strerror(errno); } /* * Creating a new directory should purge any negative namecache entries */ TEST_F(Mkdir, entry_cache_negative_purge) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; mode_t mode = 0755; uint64_t ino = 42; struct timespec entry_valid = {.tv_sec = TIME_T_MAX, .tv_nsec = 0}; /* mkdir will first do a LOOKUP, adding a negative cache entry */ EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .Times(1) .WillOnce(Invoke(ReturnNegativeCache(&entry_valid))) .RetiresOnSaturation(); /* Then the MKDIR should purge the negative cache entry */ EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes + sizeof(fuse_open_in); return (in.header.opcode == FUSE_MKDIR && in.body.mkdir.mode == (S_IFDIR | mode) && (0 == strcmp(RELPATH, name))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFDIR | mode; out.body.entry.nodeid = ino; out.body.entry.attr_valid = UINT64_MAX; }))); ASSERT_EQ(0, mkdir(FULLPATH, mode)) << strerror(errno); /* Finally, a subsequent lookup should query the daemon */ expect_lookup(RELPATH, ino, S_IFDIR | mode, 0, 1); ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); } TEST_F(Mkdir, ok) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; mode_t mode = 0755; uint64_t ino = 42; mode_t mask; mask = umask(0); (void)umask(mask); EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes + sizeof(fuse_mkdir_in); return (in.header.opcode == FUSE_MKDIR && in.body.mkdir.mode == (S_IFDIR | mode) && in.body.mkdir.umask == mask && (0 == strcmp(RELPATH, name))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.create.entry.attr.mode = S_IFDIR | mode; out.body.create.entry.nodeid = ino; out.body.create.entry.entry_valid = UINT64_MAX; out.body.create.entry.attr_valid = UINT64_MAX; }))); ASSERT_EQ(0, mkdir(FULLPATH, mode)) << strerror(errno); } TEST_F(Mkdir_7_8, ok) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; mode_t mode = 0755; uint64_t ino = 42; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes + sizeof(fuse_mkdir_in); return (in.header.opcode == FUSE_MKDIR && in.body.mkdir.mode == (S_IFDIR | mode) && (0 == strcmp(RELPATH, name))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry_7_8); out.body.create.entry.attr.mode = S_IFDIR | mode; out.body.create.entry.nodeid = ino; out.body.create.entry.entry_valid = UINT64_MAX; out.body.create.entry.attr_valid = UINT64_MAX; }))); ASSERT_EQ(0, mkdir(FULLPATH, mode)) << strerror(errno); } Index: head/tests/sys/fs/fusefs/mknod.cc =================================================================== --- head/tests/sys/fs/fusefs/mknod.cc (revision 350989) +++ head/tests/sys/fs/fusefs/mknod.cc (revision 350990) @@ -1,238 +1,240 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; #ifndef VNOVAL #define VNOVAL (-1) /* Defined in sys/vnode.h */ #endif const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; class Mknod: public FuseTest { mode_t m_oldmask; const static mode_t c_umask = 022; public: virtual void SetUp() { m_oldmask = umask(c_umask); if (geteuid() != 0) { GTEST_SKIP() << "Only root may use most mknod(2) variations"; } FuseTest::SetUp(); } virtual void TearDown() { FuseTest::TearDown(); (void)umask(m_oldmask); } /* Test an OK creation of a file with the given mode and device number */ void expect_mknod(mode_t mode, dev_t dev) { uint64_t ino = 42; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes + sizeof(fuse_mknod_in); return (in.header.opcode == FUSE_MKNOD && in.body.mknod.mode == mode && in.body.mknod.rdev == (uint32_t)dev && in.body.mknod.umask == c_umask && (0 == strcmp(RELPATH, name))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.entry_valid = UINT64_MAX; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.attr.rdev = dev; }))); } }; class Mknod_7_11: public FuseTest { public: virtual void SetUp() { m_kernel_minor_version = 11; if (geteuid() != 0) { GTEST_SKIP() << "Only root may use most mknod(2) variations"; } FuseTest::SetUp(); } void expect_lookup(const char *relpath, uint64_t ino, uint64_t size) { FuseTest::expect_lookup_7_8(relpath, ino, S_IFREG | 0644, size, 1); } /* Test an OK creation of a file with the given mode and device number */ void expect_mknod(mode_t mode, dev_t dev) { uint64_t ino = 42; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes + FUSE_COMPAT_MKNOD_IN_SIZE; return (in.header.opcode == FUSE_MKNOD && in.body.mknod.mode == mode && in.body.mknod.rdev == (uint32_t)dev && (0 == strcmp(RELPATH, name))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.entry_valid = UINT64_MAX; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.attr.rdev = dev; }))); } }; /* * mknod(2) should be able to create block devices on a FUSE filesystem. Even * though FreeBSD doesn't use block devices, this is useful when copying media * from or preparing media for other operating systems. */ TEST_F(Mknod, blk) { mode_t mode = S_IFBLK | 0755; dev_t rdev = 0xfe00; /* /dev/vda's device number on Linux */ expect_mknod(mode, rdev); EXPECT_EQ(0, mknod(FULLPATH, mode, rdev)) << strerror(errno); } TEST_F(Mknod, chr) { mode_t mode = S_IFCHR | 0755; dev_t rdev = 54; /* /dev/fuse's device number */ expect_mknod(mode, rdev); EXPECT_EQ(0, mknod(FULLPATH, mode, rdev)) << strerror(errno); } /* * The daemon is responsible for checking file permissions (unless the * default_permissions mount option was used) */ TEST_F(Mknod, eperm) { mode_t mode = S_IFIFO | 0755; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes + sizeof(fuse_mknod_in); return (in.header.opcode == FUSE_MKNOD && in.body.mknod.mode == mode && (0 == strcmp(RELPATH, name))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(EPERM))); EXPECT_NE(0, mkfifo(FULLPATH, mode)); EXPECT_EQ(EPERM, errno); } TEST_F(Mknod, fifo) { mode_t mode = S_IFIFO | 0755; dev_t rdev = VNOVAL; /* Fifos don't have device numbers */ expect_mknod(mode, rdev); EXPECT_EQ(0, mkfifo(FULLPATH, mode)) << strerror(errno); } /* * Create a unix-domain socket. * * This test case doesn't actually need root privileges. */ TEST_F(Mknod, socket) { mode_t mode = S_IFSOCK | 0755; struct sockaddr_un sa; int fd; dev_t rdev = -1; /* Really it's a don't care */ expect_mknod(mode, rdev); fd = socket(AF_UNIX, SOCK_STREAM, 0); ASSERT_LE(0, fd) << strerror(errno); sa.sun_family = AF_UNIX; strlcpy(sa.sun_path, FULLPATH, sizeof(sa.sun_path)); ASSERT_EQ(0, bind(fd, (struct sockaddr*)&sa, sizeof(sa))) << strerror(errno); } /* * fusefs(5) lacks VOP_WHITEOUT support. No bugzilla entry, because that's a * feature, not a bug */ TEST_F(Mknod, DISABLED_whiteout) { mode_t mode = S_IFWHT | 0755; dev_t rdev = VNOVAL; /* whiteouts don't have device numbers */ expect_mknod(mode, rdev); EXPECT_EQ(0, mknod(FULLPATH, mode, 0)) << strerror(errno); } /* A server built at protocol version 7.11 or earlier can still use mknod */ TEST_F(Mknod_7_11, fifo) { mode_t mode = S_IFIFO | 0755; dev_t rdev = VNOVAL; expect_mknod(mode, rdev); EXPECT_EQ(0, mkfifo(FULLPATH, mode)) << strerror(errno); } Index: head/tests/sys/fs/fusefs/mockfs.cc =================================================================== --- head/tests/sys/fs/fusefs/mockfs.cc (revision 350989) +++ head/tests/sys/fs/fusefs/mockfs.cc (revision 350990) @@ -1,733 +1,735 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include #include #include #include #include #include #include #include #include #include #include #include #include "mntopts.h" // for build_iovec } #include #include #include "mockfs.hh" using namespace testing; int verbosity = 0; const char* opcode2opname(uint32_t opcode) { const int NUM_OPS = 39; const char* table[NUM_OPS] = { "Unknown (opcode 0)", "LOOKUP", "FORGET", "GETATTR", "SETATTR", "READLINK", "SYMLINK", "Unknown (opcode 7)", "MKNOD", "MKDIR", "UNLINK", "RMDIR", "RENAME", "LINK", "OPEN", "READ", "WRITE", "STATFS", "RELEASE", "Unknown (opcode 19)", "FSYNC", "SETXATTR", "GETXATTR", "LISTXATTR", "REMOVEXATTR", "FLUSH", "INIT", "OPENDIR", "READDIR", "RELEASEDIR", "FSYNCDIR", "GETLK", "SETLK", "SETLKW", "ACCESS", "CREATE", "INTERRUPT", "BMAP", "DESTROY" }; if (opcode >= NUM_OPS) return ("Unknown (opcode > max)"); else return (table[opcode]); } ProcessMockerT ReturnErrno(int error) { return([=](auto in, auto &out) { std::unique_ptr out0(new mockfs_buf_out); out0->header.unique = in.header.unique; out0->header.error = -error; out0->header.len = sizeof(out0->header); out.push_back(std::move(out0)); }); } /* Helper function used for returning negative cache entries for LOOKUP */ ProcessMockerT ReturnNegativeCache(const struct timespec *entry_valid) { return([=](auto in, auto &out) { /* nodeid means ENOENT and cache it */ std::unique_ptr out0(new mockfs_buf_out); out0->body.entry.nodeid = 0; out0->header.unique = in.header.unique; out0->header.error = 0; out0->body.entry.entry_valid = entry_valid->tv_sec; out0->body.entry.entry_valid_nsec = entry_valid->tv_nsec; SET_OUT_HEADER_LEN(*out0, entry); out.push_back(std::move(out0)); }); } ProcessMockerT ReturnImmediate(std::function f) { return([=](auto& in, auto &out) { std::unique_ptr out0(new mockfs_buf_out); out0->header.unique = in.header.unique; f(in, *out0); out.push_back(std::move(out0)); }); } void sigint_handler(int __unused sig) { // Don't do anything except interrupt the daemon's read(2) call } void MockFS::debug_request(const mockfs_buf_in &in) { printf("%-11s ino=%2" PRIu64, opcode2opname(in.header.opcode), in.header.nodeid); if (verbosity > 1) { printf(" uid=%5u gid=%5u pid=%5u unique=%" PRIu64 " len=%u", in.header.uid, in.header.gid, in.header.pid, in.header.unique, in.header.len); } switch (in.header.opcode) { const char *name, *value; case FUSE_ACCESS: printf(" mask=%#x", in.body.access.mask); break; case FUSE_BMAP: printf(" block=%" PRIx64 " blocksize=%#x", in.body.bmap.block, in.body.bmap.blocksize); break; case FUSE_CREATE: if (m_kernel_minor_version >= 12) name = (const char*)in.body.bytes + sizeof(fuse_create_in); else name = (const char*)in.body.bytes + sizeof(fuse_open_in); printf(" flags=%#x name=%s", in.body.open.flags, name); break; case FUSE_FLUSH: printf(" fh=%#" PRIx64 " lock_owner=%" PRIu64, in.body.flush.fh, in.body.flush.lock_owner); break; case FUSE_FORGET: printf(" nlookup=%" PRIu64, in.body.forget.nlookup); break; case FUSE_FSYNC: printf(" flags=%#x", in.body.fsync.fsync_flags); break; case FUSE_FSYNCDIR: printf(" flags=%#x", in.body.fsyncdir.fsync_flags); break; case FUSE_INTERRUPT: printf(" unique=%" PRIu64, in.body.interrupt.unique); break; case FUSE_LINK: printf(" oldnodeid=%" PRIu64, in.body.link.oldnodeid); break; case FUSE_LOOKUP: printf(" %s", in.body.lookup); break; case FUSE_MKDIR: name = (const char*)in.body.bytes + sizeof(fuse_mkdir_in); printf(" name=%s mode=%#o umask=%#o", name, in.body.mkdir.mode, in.body.mkdir.umask); break; case FUSE_MKNOD: if (m_kernel_minor_version >= 12) name = (const char*)in.body.bytes + sizeof(fuse_mknod_in); else name = (const char*)in.body.bytes + FUSE_COMPAT_MKNOD_IN_SIZE; printf(" mode=%#o rdev=%x umask=%#o name=%s", in.body.mknod.mode, in.body.mknod.rdev, in.body.mknod.umask, name); break; case FUSE_OPEN: printf(" flags=%#x", in.body.open.flags); break; case FUSE_OPENDIR: printf(" flags=%#x", in.body.opendir.flags); break; case FUSE_READ: printf(" offset=%" PRIu64 " size=%u", in.body.read.offset, in.body.read.size); if (verbosity > 1) printf(" flags=%#x", in.body.read.flags); break; case FUSE_READDIR: printf(" fh=%#" PRIx64 " offset=%" PRIu64 " size=%u", in.body.readdir.fh, in.body.readdir.offset, in.body.readdir.size); break; case FUSE_RELEASE: printf(" fh=%#" PRIx64 " flags=%#x lock_owner=%" PRIu64, in.body.release.fh, in.body.release.flags, in.body.release.lock_owner); break; case FUSE_SETATTR: if (verbosity <= 1) { printf(" valid=%#x", in.body.setattr.valid); break; } if (in.body.setattr.valid & FATTR_MODE) printf(" mode=%#o", in.body.setattr.mode); if (in.body.setattr.valid & FATTR_UID) printf(" uid=%u", in.body.setattr.uid); if (in.body.setattr.valid & FATTR_GID) printf(" gid=%u", in.body.setattr.gid); if (in.body.setattr.valid & FATTR_SIZE) printf(" size=%" PRIu64, in.body.setattr.size); if (in.body.setattr.valid & FATTR_ATIME) printf(" atime=%" PRIu64 ".%u", in.body.setattr.atime, in.body.setattr.atimensec); if (in.body.setattr.valid & FATTR_MTIME) printf(" mtime=%" PRIu64 ".%u", in.body.setattr.mtime, in.body.setattr.mtimensec); if (in.body.setattr.valid & FATTR_FH) printf(" fh=%" PRIu64 "", in.body.setattr.fh); break; case FUSE_SETLK: printf(" fh=%#" PRIx64 " owner=%" PRIu64 " type=%u pid=%u", in.body.setlk.fh, in.body.setlk.owner, in.body.setlk.lk.type, in.body.setlk.lk.pid); if (verbosity >= 2) { printf(" range=[%" PRIu64 "-%" PRIu64 "]", in.body.setlk.lk.start, in.body.setlk.lk.end); } break; case FUSE_SETXATTR: /* * In theory neither the xattr name and value need be * ASCII, but in this test suite they always are. */ name = (const char*)in.body.bytes + sizeof(fuse_setxattr_in); value = name + strlen(name) + 1; printf(" %s=%s", name, value); break; case FUSE_WRITE: printf(" fh=%#" PRIx64 " offset=%" PRIu64 " size=%u write_flags=%u", in.body.write.fh, in.body.write.offset, in.body.write.size, in.body.write.write_flags); if (verbosity > 1) printf(" flags=%#x", in.body.write.flags); break; default: break; } printf("\n"); } /* * Debug a FUSE response. * * This is mostly useful for asynchronous notifications, which don't correspond * to any request */ void MockFS::debug_response(const mockfs_buf_out &out) { const char *name; if (verbosity == 0) return; switch (out.header.error) { case FUSE_NOTIFY_INVAL_ENTRY: name = (const char*)out.body.bytes + sizeof(fuse_notify_inval_entry_out); printf("<- INVAL_ENTRY parent=%" PRIu64 " %s\n", out.body.inval_entry.parent, name); break; case FUSE_NOTIFY_INVAL_INODE: printf("<- INVAL_INODE ino=%" PRIu64 " off=%" PRIi64 " len=%" PRIi64 "\n", out.body.inval_inode.ino, out.body.inval_inode.off, out.body.inval_inode.len); break; case FUSE_NOTIFY_STORE: printf("<- STORE ino=%" PRIu64 " off=%" PRIu64 " size=%" PRIu32 "\n", out.body.store.nodeid, out.body.store.offset, out.body.store.size); break; default: break; } } MockFS::MockFS(int max_readahead, bool allow_other, bool default_permissions, bool push_symlinks_in, bool ro, enum poll_method pm, uint32_t flags, uint32_t kernel_minor_version, uint32_t max_write, bool async, bool noclusterr, unsigned time_gran, bool nointr) { struct sigaction sa; struct iovec *iov = NULL; int iovlen = 0; char fdstr[15]; const bool trueval = true; m_daemon_id = NULL; m_kernel_minor_version = kernel_minor_version; m_maxreadahead = max_readahead; m_maxwrite = max_write; m_nready = -1; m_pm = pm; m_time_gran = time_gran; m_quit = false; if (m_pm == KQ) m_kq = kqueue(); else m_kq = -1; /* * Kyua sets pwd to a testcase-unique tempdir; no need to use * mkdtemp */ /* * googletest doesn't allow ASSERT_ in constructors, so we must throw * instead. */ if (mkdir("mountpoint" , 0755) && errno != EEXIST) throw(std::system_error(errno, std::system_category(), "Couldn't make mountpoint directory")); switch (m_pm) { case BLOCKING: m_fuse_fd = open("/dev/fuse", O_CLOEXEC | O_RDWR); break; default: m_fuse_fd = open("/dev/fuse", O_CLOEXEC | O_RDWR | O_NONBLOCK); break; } if (m_fuse_fd < 0) throw(std::system_error(errno, std::system_category(), "Couldn't open /dev/fuse")); m_pid = getpid(); m_child_pid = -1; build_iovec(&iov, &iovlen, "fstype", __DECONST(void *, "fusefs"), -1); build_iovec(&iov, &iovlen, "fspath", __DECONST(void *, "mountpoint"), -1); build_iovec(&iov, &iovlen, "from", __DECONST(void *, "/dev/fuse"), -1); sprintf(fdstr, "%d", m_fuse_fd); build_iovec(&iov, &iovlen, "fd", fdstr, -1); if (allow_other) { build_iovec(&iov, &iovlen, "allow_other", __DECONST(void*, &trueval), sizeof(bool)); } if (default_permissions) { build_iovec(&iov, &iovlen, "default_permissions", __DECONST(void*, &trueval), sizeof(bool)); } if (push_symlinks_in) { build_iovec(&iov, &iovlen, "push_symlinks_in", __DECONST(void*, &trueval), sizeof(bool)); } if (ro) { build_iovec(&iov, &iovlen, "ro", __DECONST(void*, &trueval), sizeof(bool)); } if (async) { build_iovec(&iov, &iovlen, "async", __DECONST(void*, &trueval), sizeof(bool)); } if (noclusterr) { build_iovec(&iov, &iovlen, "noclusterr", __DECONST(void*, &trueval), sizeof(bool)); } if (nointr) { build_iovec(&iov, &iovlen, "nointr", __DECONST(void*, &trueval), sizeof(bool)); } else { build_iovec(&iov, &iovlen, "intr", __DECONST(void*, &trueval), sizeof(bool)); } if (nmount(iov, iovlen, 0)) throw(std::system_error(errno, std::system_category(), "Couldn't mount filesystem")); // Setup default handler ON_CALL(*this, process(_, _)) .WillByDefault(Invoke(this, &MockFS::process_default)); init(flags); bzero(&sa, sizeof(sa)); sa.sa_handler = sigint_handler; sa.sa_flags = 0; /* Don't set SA_RESTART! */ if (0 != sigaction(SIGUSR1, &sa, NULL)) throw(std::system_error(errno, std::system_category(), "Couldn't handle SIGUSR1")); if (pthread_create(&m_daemon_id, NULL, service, (void*)this)) throw(std::system_error(errno, std::system_category(), "Couldn't Couldn't start fuse thread")); } MockFS::~MockFS() { kill_daemon(); if (m_daemon_id != NULL) { pthread_join(m_daemon_id, NULL); m_daemon_id = NULL; } ::unmount("mountpoint", MNT_FORCE); rmdir("mountpoint"); if (m_kq >= 0) close(m_kq); } void MockFS::init(uint32_t flags) { std::unique_ptr in(new mockfs_buf_in); std::unique_ptr out(new mockfs_buf_out); read_request(*in); ASSERT_EQ(FUSE_INIT, in->header.opcode); out->header.unique = in->header.unique; out->header.error = 0; out->body.init.major = FUSE_KERNEL_VERSION; out->body.init.minor = m_kernel_minor_version;; out->body.init.flags = in->body.init.flags & flags; out->body.init.max_write = m_maxwrite; out->body.init.max_readahead = m_maxreadahead; if (m_kernel_minor_version < 23) { SET_OUT_HEADER_LEN(*out, init_7_22); } else { out->body.init.time_gran = m_time_gran; SET_OUT_HEADER_LEN(*out, init); } write(m_fuse_fd, out.get(), out->header.len); } void MockFS::kill_daemon() { m_quit = true; if (m_daemon_id != NULL) pthread_kill(m_daemon_id, SIGUSR1); // Closing the /dev/fuse file descriptor first allows unmount to // succeed even if the daemon doesn't correctly respond to commands // during the unmount sequence. close(m_fuse_fd); m_fuse_fd = -1; } void MockFS::loop() { std::vector> out; std::unique_ptr in(new mockfs_buf_in); ASSERT_TRUE(in != NULL); while (!m_quit) { bzero(in.get(), sizeof(*in)); read_request(*in); if (m_quit) break; if (verbosity > 0) debug_request(*in); if (pid_ok((pid_t)in->header.pid)) { process(*in, out); } else { /* * Reject any requests from unknown processes. Because * we actually do mount a filesystem, plenty of * unrelated system daemons may try to access it. */ if (verbosity > 1) printf("\tREJECTED (wrong pid %d)\n", in->header.pid); process_default(*in, out); } for (auto &it: out) write_response(*it); out.clear(); } } int MockFS::notify_inval_entry(ino_t parent, const char *name, size_t namelen) { std::unique_ptr out(new mockfs_buf_out); out->header.unique = 0; /* 0 means asynchronous notification */ out->header.error = FUSE_NOTIFY_INVAL_ENTRY; out->body.inval_entry.parent = parent; out->body.inval_entry.namelen = namelen; strlcpy((char*)&out->body.bytes + sizeof(out->body.inval_entry), name, sizeof(out->body.bytes) - sizeof(out->body.inval_entry)); out->header.len = sizeof(out->header) + sizeof(out->body.inval_entry) + namelen; debug_response(*out); write_response(*out); return 0; } int MockFS::notify_inval_inode(ino_t ino, off_t off, ssize_t len) { std::unique_ptr out(new mockfs_buf_out); out->header.unique = 0; /* 0 means asynchronous notification */ out->header.error = FUSE_NOTIFY_INVAL_INODE; out->body.inval_inode.ino = ino; out->body.inval_inode.off = off; out->body.inval_inode.len = len; out->header.len = sizeof(out->header) + sizeof(out->body.inval_inode); debug_response(*out); write_response(*out); return 0; } int MockFS::notify_store(ino_t ino, off_t off, const void* data, ssize_t size) { std::unique_ptr out(new mockfs_buf_out); out->header.unique = 0; /* 0 means asynchronous notification */ out->header.error = FUSE_NOTIFY_STORE; out->body.store.nodeid = ino; out->body.store.offset = off; out->body.store.size = size; bcopy(data, (char*)&out->body.bytes + sizeof(out->body.store), size); out->header.len = sizeof(out->header) + sizeof(out->body.store) + size; debug_response(*out); write_response(*out); return 0; } bool MockFS::pid_ok(pid_t pid) { if (pid == m_pid) { return (true); } else if (pid == m_child_pid) { return (true); } else { struct kinfo_proc *ki; bool ok = false; ki = kinfo_getproc(pid); if (ki == NULL) return (false); /* * Allow access by the aio daemon processes so that our tests * can use aio functions */ if (0 == strncmp("aiod", ki->ki_comm, 4)) ok = true; free(ki); return (ok); } } void MockFS::process_default(const mockfs_buf_in& in, std::vector> &out) { std::unique_ptr out0(new mockfs_buf_out); out0->header.unique = in.header.unique; out0->header.error = -EOPNOTSUPP; out0->header.len = sizeof(out0->header); out.push_back(std::move(out0)); } void MockFS::read_request(mockfs_buf_in &in) { ssize_t res; int nready = 0; fd_set readfds; pollfd fds[1]; struct kevent changes[1]; struct kevent events[1]; struct timespec timeout_ts; struct timeval timeout_tv; const int timeout_ms = 999; int timeout_int, nfds; switch (m_pm) { case BLOCKING: break; case KQ: timeout_ts.tv_sec = 0; timeout_ts.tv_nsec = timeout_ms * 1'000'000; while (nready == 0) { EV_SET(&changes[0], m_fuse_fd, EVFILT_READ, EV_ADD, 0, 0, 0); nready = kevent(m_kq, &changes[0], 1, &events[0], 1, &timeout_ts); if (m_quit) return; } ASSERT_LE(0, nready) << strerror(errno); ASSERT_EQ(events[0].ident, (uintptr_t)m_fuse_fd); if (events[0].flags & EV_ERROR) FAIL() << strerror(events[0].data); else if (events[0].flags & EV_EOF) FAIL() << strerror(events[0].fflags); m_nready = events[0].data; break; case POLL: timeout_int = timeout_ms; fds[0].fd = m_fuse_fd; fds[0].events = POLLIN; while (nready == 0) { nready = poll(fds, 1, timeout_int); if (m_quit) return; } ASSERT_LE(0, nready) << strerror(errno); ASSERT_TRUE(fds[0].revents & POLLIN); break; case SELECT: timeout_tv.tv_sec = 0; timeout_tv.tv_usec = timeout_ms * 1'000; nfds = m_fuse_fd + 1; while (nready == 0) { FD_ZERO(&readfds); FD_SET(m_fuse_fd, &readfds); nready = select(nfds, &readfds, NULL, NULL, &timeout_tv); if (m_quit) return; } ASSERT_LE(0, nready) << strerror(errno); ASSERT_TRUE(FD_ISSET(m_fuse_fd, &readfds)); break; default: FAIL() << "not yet implemented"; } res = read(m_fuse_fd, &in, sizeof(in)); if (res < 0 && !m_quit) { FAIL() << "read: " << strerror(errno); m_quit = true; } ASSERT_TRUE(res >= static_cast(sizeof(in.header)) || m_quit); } void MockFS::write_response(const mockfs_buf_out &out) { fd_set writefds; pollfd fds[1]; int nready, nfds; ssize_t r; switch (m_pm) { case BLOCKING: case KQ: /* EVFILT_WRITE is not supported */ break; case POLL: fds[0].fd = m_fuse_fd; fds[0].events = POLLOUT; nready = poll(fds, 1, INFTIM); ASSERT_LE(0, nready) << strerror(errno); ASSERT_EQ(1, nready) << "NULL timeout expired?"; ASSERT_TRUE(fds[0].revents & POLLOUT); break; case SELECT: FD_ZERO(&writefds); FD_SET(m_fuse_fd, &writefds); nfds = m_fuse_fd + 1; nready = select(nfds, NULL, &writefds, NULL, NULL); ASSERT_LE(0, nready) << strerror(errno); ASSERT_EQ(1, nready) << "NULL timeout expired?"; ASSERT_TRUE(FD_ISSET(m_fuse_fd, &writefds)); break; default: FAIL() << "not yet implemented"; } r = write(m_fuse_fd, &out, out.header.len); ASSERT_TRUE(r > 0 || errno == EAGAIN) << strerror(errno); } void* MockFS::service(void *pthr_data) { MockFS *mock_fs = (MockFS*)pthr_data; mock_fs->loop(); return (NULL); } void MockFS::unmount() { ::unmount("mountpoint", 0); } Index: head/tests/sys/fs/fusefs/mockfs.hh =================================================================== --- head/tests/sys/fs/fusefs/mockfs.hh (revision 350989) +++ head/tests/sys/fs/fusefs/mockfs.hh (revision 350990) @@ -1,394 +1,396 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include #include "fuse_kernel.h" } #include #define TIME_T_MAX (std::numeric_limits::max()) /* * A pseudo-fuse errno used indicate that a fuse operation should have no * response, at least not immediately */ #define FUSE_NORESPONSE 9999 #define SET_OUT_HEADER_LEN(out, variant) { \ (out).header.len = (sizeof((out).header) + \ sizeof((out).body.variant)); \ } /* * Create an expectation on FUSE_LOOKUP and return it so the caller can set * actions. * * This must be a macro instead of a method because EXPECT_CALL returns a type * with a deleted constructor. */ #define EXPECT_LOOKUP(parent, path) \ EXPECT_CALL(*m_mock, process( \ ResultOf([=](auto in) { \ return (in.header.opcode == FUSE_LOOKUP && \ in.header.nodeid == (parent) && \ strcmp(in.body.lookup, (path)) == 0); \ }, Eq(true)), \ _) \ ) extern int verbosity; /* This struct isn't defined by fuse_kernel.h or libfuse, but it should be */ struct fuse_create_out { struct fuse_entry_out entry; struct fuse_open_out open; }; /* Protocol 7.8 version of struct fuse_attr */ struct fuse_attr_7_8 { uint64_t ino; uint64_t size; uint64_t blocks; uint64_t atime; uint64_t mtime; uint64_t ctime; uint32_t atimensec; uint32_t mtimensec; uint32_t ctimensec; uint32_t mode; uint32_t nlink; uint32_t uid; uint32_t gid; uint32_t rdev; }; /* Protocol 7.8 version of struct fuse_attr_out */ struct fuse_attr_out_7_8 { uint64_t attr_valid; uint32_t attr_valid_nsec; uint32_t dummy; struct fuse_attr_7_8 attr; }; /* Protocol 7.8 version of struct fuse_entry_out */ struct fuse_entry_out_7_8 { uint64_t nodeid; /* Inode ID */ uint64_t generation; /* Inode generation: nodeid:gen must be unique for the fs's lifetime */ uint64_t entry_valid; /* Cache timeout for the name */ uint64_t attr_valid; /* Cache timeout for the attributes */ uint32_t entry_valid_nsec; uint32_t attr_valid_nsec; struct fuse_attr_7_8 attr; }; /* Output struct for FUSE_CREATE for protocol 7.8 servers */ struct fuse_create_out_7_8 { struct fuse_entry_out_7_8 entry; struct fuse_open_out open; }; /* Output struct for FUSE_INIT for protocol 7.22 and earlier servers */ struct fuse_init_out_7_22 { uint32_t major; uint32_t minor; uint32_t max_readahead; uint32_t flags; uint16_t max_background; uint16_t congestion_threshold; uint32_t max_write; }; union fuse_payloads_in { fuse_access_in access; fuse_bmap_in bmap; /* value is from fuse_kern_chan.c in fusefs-libs */ uint8_t bytes[0x21000 - sizeof(struct fuse_in_header)]; fuse_create_in create; fuse_flush_in flush; fuse_fsync_in fsync; fuse_fsync_in fsyncdir; fuse_forget_in forget; fuse_interrupt_in interrupt; fuse_lk_in getlk; fuse_getxattr_in getxattr; fuse_init_in init; fuse_link_in link; fuse_listxattr_in listxattr; char lookup[0]; fuse_mkdir_in mkdir; fuse_mknod_in mknod; fuse_open_in open; fuse_open_in opendir; fuse_read_in read; fuse_read_in readdir; fuse_release_in release; fuse_release_in releasedir; fuse_rename_in rename; char rmdir[0]; fuse_setattr_in setattr; fuse_setxattr_in setxattr; fuse_lk_in setlk; fuse_lk_in setlkw; char unlink[0]; fuse_write_in write; }; struct mockfs_buf_in { fuse_in_header header; union fuse_payloads_in body; }; union fuse_payloads_out { fuse_attr_out attr; fuse_attr_out_7_8 attr_7_8; fuse_bmap_out bmap; fuse_create_out create; fuse_create_out_7_8 create_7_8; /* * The protocol places no limits on the size of bytes. Choose * a size big enough for anything we'll test. */ uint8_t bytes[0x20000]; fuse_entry_out entry; fuse_entry_out_7_8 entry_7_8; fuse_lk_out getlk; fuse_getxattr_out getxattr; fuse_init_out init; fuse_init_out_7_22 init_7_22; /* The inval_entry structure should be followed by the entry's name */ fuse_notify_inval_entry_out inval_entry; fuse_notify_inval_inode_out inval_inode; /* The store structure should be followed by the data to store */ fuse_notify_store_out store; fuse_listxattr_out listxattr; fuse_open_out open; fuse_statfs_out statfs; /* * The protocol places no limits on the length of the string. This is * merely convenient for testing. */ char str[80]; fuse_write_out write; }; struct mockfs_buf_out { fuse_out_header header; union fuse_payloads_out body; /* Default constructor: zero everything */ mockfs_buf_out() { memset(this, 0, sizeof(*this)); } }; /* A function that can be invoked in place of MockFS::process */ typedef std::function> &out)> ProcessMockerT; /* * Helper function used for setting an error expectation for any fuse operation. * The operation will return the supplied error */ ProcessMockerT ReturnErrno(int error); /* Helper function used for returning negative cache entries for LOOKUP */ ProcessMockerT ReturnNegativeCache(const struct timespec *entry_valid); /* Helper function used for returning a single immediate response */ ProcessMockerT ReturnImmediate( std::function f); /* How the daemon should check /dev/fuse for readiness */ enum poll_method { BLOCKING, SELECT, POLL, KQ }; /* * Fake FUSE filesystem * * "Mounts" a filesystem to a temporary directory and services requests * according to the programmed expectations. * * Operates directly on the fusefs(4) kernel API, not the libfuse(3) user api. */ class MockFS { /* * thread id of the fuse daemon thread * * It must run in a separate thread so it doesn't deadlock with the * client test code. */ pthread_t m_daemon_id; /* file descriptor of /dev/fuse control device */ int m_fuse_fd; /* The minor version of the kernel API that this mock daemon targets */ uint32_t m_kernel_minor_version; int m_kq; /* The max_readahead file system option */ uint32_t m_maxreadahead; /* pid of the test process */ pid_t m_pid; /* Method the daemon should use for I/O to and from /dev/fuse */ enum poll_method m_pm; /* Timestamp granularity in nanoseconds */ unsigned m_time_gran; void debug_request(const mockfs_buf_in&); void debug_response(const mockfs_buf_out&); /* Initialize a session after mounting */ void init(uint32_t flags); /* Is pid from a process that might be involved in the test? */ bool pid_ok(pid_t pid); /* Default request handler */ void process_default(const mockfs_buf_in&, std::vector>&); /* Entry point for the daemon thread */ static void* service(void*); /* Read, but do not process, a single request from the kernel */ void read_request(mockfs_buf_in& in); /* Write a single response back to the kernel */ void write_response(const mockfs_buf_out &out); public: /* pid of child process, for two-process test cases */ pid_t m_child_pid; /* Maximum size of a FUSE_WRITE write */ uint32_t m_maxwrite; /* * Number of events that were available from /dev/fuse after the last * kevent call. Only valid when m_pm = KQ. */ int m_nready; /* Tell the daemon to shut down ASAP */ bool m_quit; /* Create a new mockfs and mount it to a tempdir */ MockFS(int max_readahead, bool allow_other, bool default_permissions, bool push_symlinks_in, bool ro, enum poll_method pm, uint32_t flags, uint32_t kernel_minor_version, uint32_t max_write, bool async, bool no_clusterr, unsigned time_gran, bool nointr); virtual ~MockFS(); /* Kill the filesystem daemon without unmounting the filesystem */ void kill_daemon(); /* Process FUSE requests endlessly */ void loop(); /* * Send an asynchronous notification to invalidate a directory entry. * Similar to libfuse's fuse_lowlevel_notify_inval_entry * * This method will block until the client has responded, so it should * generally be run in a separate thread from request processing. * * @param parent Parent directory's inode number * @param name name of dirent to invalidate * @param namelen size of name, including the NUL */ int notify_inval_entry(ino_t parent, const char *name, size_t namelen); /* * Send an asynchronous notification to invalidate an inode's cached * data and/or attributes. Similar to libfuse's * fuse_lowlevel_notify_inval_inode. * * This method will block until the client has responded, so it should * generally be run in a separate thread from request processing. * * @param ino File's inode number * @param off offset at which to begin invalidation. A * negative offset means to invalidate attributes * only. * @param len Size of region of data to invalidate. 0 means * to invalidate all cached data. */ int notify_inval_inode(ino_t ino, off_t off, ssize_t len); /* * Send an asynchronous notification to store data directly into an * inode's cache. Similar to libfuse's fuse_lowlevel_notify_store. * * This method will block until the client has responded, so it should * generally be run in a separate thread from request processing. * * @param ino File's inode number * @param off Offset at which to store data * @param data Pointer to the data to cache * @param len Size of data */ int notify_store(ino_t ino, off_t off, const void* data, ssize_t size); /* * Request handler * * This method is expected to provide the responses to each FUSE * operation. For an immediate response, push one buffer into out. * For a delayed response, push nothing. For an immediate response * plus a delayed response to an earlier operation, push two bufs. * Test cases must define each response using Googlemock expectations */ MOCK_METHOD2(process, void(const mockfs_buf_in&, std::vector>&)); /* Gracefully unmount */ void unmount(); }; Property changes on: head/tests/sys/fs/fusefs/mockfs.hh ___________________________________________________________________ Added: svn:keywords ## -0,0 +1 ## +FreeBSD=%H \ No newline at end of property Index: head/tests/sys/fs/fusefs/mount.cc =================================================================== --- head/tests/sys/fs/fusefs/mount.cc (revision 350989) +++ head/tests/sys/fs/fusefs/mount.cc (revision 350990) @@ -1,152 +1,154 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include #include #include "mntopts.h" // for build_iovec } #include "mockfs.hh" #include "utils.hh" using namespace testing; class UpdateOk: public FuseTest, public WithParamInterface {}; class UpdateErr: public FuseTest, public WithParamInterface {}; int mntflag_from_string(const char *s) { if (0 == strcmp("MNT_RDONLY", s)) return MNT_RDONLY; else if (0 == strcmp("MNT_NOEXEC", s)) return MNT_NOEXEC; else if (0 == strcmp("MNT_NOSUID", s)) return MNT_NOSUID; else if (0 == strcmp("MNT_NOATIME", s)) return MNT_NOATIME; else if (0 == strcmp("MNT_SUIDDIR", s)) return MNT_SUIDDIR; else if (0 == strcmp("MNT_USER", s)) return MNT_USER; else return 0; } /* Some mount options can be changed by mount -u */ TEST_P(UpdateOk, update) { struct statfs statbuf; struct iovec *iov = NULL; int iovlen = 0; int flag; int newflags = MNT_UPDATE | MNT_SYNCHRONOUS; flag = mntflag_from_string(GetParam()); if (flag == MNT_NOSUID && 0 != geteuid()) GTEST_SKIP() << "Only root may clear MNT_NOSUID"; if (flag == MNT_SUIDDIR && 0 != geteuid()) GTEST_SKIP() << "Only root may set MNT_SUIDDIR"; EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_STATFS); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { /* * All of the fields except f_flags are don't care, and f_flags is set by * the VFS */ SET_OUT_HEADER_LEN(out, statfs); }))); ASSERT_EQ(0, statfs("mountpoint", &statbuf)) << strerror(errno); newflags = (statbuf.f_flags | MNT_UPDATE) ^ flag; build_iovec(&iov, &iovlen, "fstype", (void*)statbuf.f_fstypename, -1); build_iovec(&iov, &iovlen, "fspath", (void*)statbuf.f_mntonname, -1); build_iovec(&iov, &iovlen, "from", __DECONST(void *, "/dev/fuse"), -1); ASSERT_EQ(0, nmount(iov, iovlen, newflags)) << strerror(errno); ASSERT_EQ(0, statfs("mountpoint", &statbuf)) << strerror(errno); EXPECT_FALSE((newflags ^ statbuf.f_flags) & flag); } /* Some mount options cannnot be changed by mount -u */ TEST_P(UpdateErr, update) { struct statfs statbuf; struct iovec *iov = NULL; int iovlen = 0; int flag; int newflags = MNT_UPDATE | MNT_SYNCHRONOUS; flag = mntflag_from_string(GetParam()); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_STATFS); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { /* * All of the fields except f_flags are don't care, and f_flags is set by * the VFS */ SET_OUT_HEADER_LEN(out, statfs); }))); ASSERT_EQ(0, statfs("mountpoint", &statbuf)) << strerror(errno); newflags = (statbuf.f_flags | MNT_UPDATE) ^ flag; build_iovec(&iov, &iovlen, "fstype", (void*)statbuf.f_fstypename, -1); build_iovec(&iov, &iovlen, "fspath", (void*)statbuf.f_mntonname, -1); build_iovec(&iov, &iovlen, "from", __DECONST(void *, "/dev/fuse"), -1); /* * Don't check nmount's return value, because vfs_domount may "fix" the * options for us. The important thing is to check the final value of * statbuf.f_flags below. */ (void)nmount(iov, iovlen, newflags); ASSERT_EQ(0, statfs("mountpoint", &statbuf)) << strerror(errno); EXPECT_TRUE((newflags ^ statbuf.f_flags) & flag); } INSTANTIATE_TEST_CASE_P(Mount, UpdateOk, ::testing::Values("MNT_RDONLY", "MNT_NOEXEC", "MNT_NOSUID", "MNT_NOATIME", "MNT_SUIDDIR") ); INSTANTIATE_TEST_CASE_P(Mount, UpdateErr, ::testing::Values( "MNT_USER"); ); Index: head/tests/sys/fs/fusefs/nfs.cc =================================================================== --- head/tests/sys/fs/fusefs/nfs.cc (revision 350989) +++ head/tests/sys/fs/fusefs/nfs.cc (revision 350990) @@ -1,344 +1,346 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ /* This file tests functionality needed by NFS servers */ extern "C" { #include #include #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace std; using namespace testing; class Nfs: public FuseTest { public: virtual void SetUp() { if (geteuid() != 0) GTEST_SKIP() << "This test requires a privileged user"; FuseTest::SetUp(); } }; class Exportable: public Nfs { public: virtual void SetUp() { m_init_flags = FUSE_EXPORT_SUPPORT; Nfs::SetUp(); } }; class Fhstat: public Exportable {}; class FhstatNotExportable: public Nfs {}; class Getfh: public Exportable {}; class Readdir: public Exportable {}; /* If the server returns a different generation number, then file is stale */ TEST_F(Fhstat, estale) { const char FULLPATH[] = "mountpoint/some_dir/."; const char RELDIRPATH[] = "some_dir"; fhandle_t fhp; struct stat sb; const uint64_t ino = 42; const mode_t mode = S_IFDIR | 0755; Sequence seq; EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH) .InSequence(seq) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.generation = 1; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = 0; }))); EXPECT_LOOKUP(ino, ".") .InSequence(seq) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.generation = 2; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = 0; }))); ASSERT_EQ(0, getfh(FULLPATH, &fhp)) << strerror(errno); ASSERT_EQ(-1, fhstat(&fhp, &sb)); EXPECT_EQ(ESTALE, errno); } /* If we must lookup an entry from the server, send a LOOKUP request for "." */ TEST_F(Fhstat, lookup_dot) { const char FULLPATH[] = "mountpoint/some_dir/."; const char RELDIRPATH[] = "some_dir"; fhandle_t fhp; struct stat sb; const uint64_t ino = 42; const mode_t mode = S_IFDIR | 0755; const uid_t uid = 12345; EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.generation = 1; out.body.entry.attr.uid = uid; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = 0; }))); EXPECT_LOOKUP(ino, ".") .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.generation = 1; out.body.entry.attr.uid = uid; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = 0; }))); ASSERT_EQ(0, getfh(FULLPATH, &fhp)) << strerror(errno); ASSERT_EQ(0, fhstat(&fhp, &sb)) << strerror(errno); EXPECT_EQ(uid, sb.st_uid); EXPECT_EQ(mode, sb.st_mode); } /* Use a file handle whose entry is still cached */ TEST_F(Fhstat, cached) { const char FULLPATH[] = "mountpoint/some_dir/."; const char RELDIRPATH[] = "some_dir"; fhandle_t fhp; struct stat sb; const uint64_t ino = 42; const mode_t mode = S_IFDIR | 0755; EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.generation = 1; out.body.entry.attr.ino = ino; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; }))); ASSERT_EQ(0, getfh(FULLPATH, &fhp)) << strerror(errno); ASSERT_EQ(0, fhstat(&fhp, &sb)) << strerror(errno); EXPECT_EQ(ino, sb.st_ino); } /* File handle entries should expire from the cache, too */ TEST_F(Fhstat, cache_expired) { const char FULLPATH[] = "mountpoint/some_dir/."; const char RELDIRPATH[] = "some_dir"; fhandle_t fhp; struct stat sb; const uint64_t ino = 42; const mode_t mode = S_IFDIR | 0755; EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.generation = 1; out.body.entry.attr.ino = ino; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid_nsec = NAP_NS / 2; }))); EXPECT_LOOKUP(ino, ".") .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.generation = 1; out.body.entry.attr.ino = ino; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = 0; }))); ASSERT_EQ(0, getfh(FULLPATH, &fhp)) << strerror(errno); ASSERT_EQ(0, fhstat(&fhp, &sb)) << strerror(errno); EXPECT_EQ(ino, sb.st_ino); nap(); /* Cache should be expired; fuse should issue a FUSE_LOOKUP */ ASSERT_EQ(0, fhstat(&fhp, &sb)) << strerror(errno); EXPECT_EQ(ino, sb.st_ino); } /* * If the server doesn't set FUSE_EXPORT_SUPPORT, then we can't do NFS-style * lookups */ TEST_F(FhstatNotExportable, lookup_dot) { const char FULLPATH[] = "mountpoint/some_dir/."; const char RELDIRPATH[] = "some_dir"; fhandle_t fhp; const uint64_t ino = 42; const mode_t mode = S_IFDIR | 0755; EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.generation = 1; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = 0; }))); ASSERT_EQ(-1, getfh(FULLPATH, &fhp)); ASSERT_EQ(EOPNOTSUPP, errno); } /* FreeBSD's fid struct doesn't have enough space for 64-bit generations */ TEST_F(Getfh, eoverflow) { const char FULLPATH[] = "mountpoint/some_dir/."; const char RELDIRPATH[] = "some_dir"; fhandle_t fhp; uint64_t ino = 42; EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFDIR | 0755; out.body.entry.nodeid = ino; out.body.entry.generation = (uint64_t)UINT32_MAX + 1; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; }))); ASSERT_NE(0, getfh(FULLPATH, &fhp)); EXPECT_EQ(EOVERFLOW, errno); } /* Get an NFS file handle */ TEST_F(Getfh, ok) { const char FULLPATH[] = "mountpoint/some_dir/."; const char RELDIRPATH[] = "some_dir"; fhandle_t fhp; uint64_t ino = 42; EXPECT_LOOKUP(FUSE_ROOT_ID, RELDIRPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFDIR | 0755; out.body.entry.nodeid = ino; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; }))); ASSERT_EQ(0, getfh(FULLPATH, &fhp)) << strerror(errno); } /* * Call readdir via a file handle. * * This is how a userspace nfs server like nfs-ganesha or unfs3 would call * readdir. The in-kernel NFS server never does any equivalent of open. I * haven't discovered a way to mimic nfsd's behavior short of actually running * nfsd. */ TEST_F(Readdir, getdirentries) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; mode_t mode = S_IFDIR | 0755; fhandle_t fhp; int fd; char buf[8192]; ssize_t r; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.generation = 1; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = 0; }))); EXPECT_LOOKUP(ino, ".") .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.generation = 1; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = 0; }))); expect_opendir(ino); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READDIR && in.header.nodeid == ino && in.body.readdir.size == sizeof(buf)); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { out.header.error = 0; out.header.len = sizeof(out.header); }))); ASSERT_EQ(0, getfh(FULLPATH, &fhp)) << strerror(errno); fd = fhopen(&fhp, O_DIRECTORY); ASSERT_LE(0, fd) << strerror(errno); r = getdirentries(fd, buf, sizeof(buf), 0); ASSERT_EQ(0, r) << strerror(errno); leak(fd); } Index: head/tests/sys/fs/fusefs/notify.cc =================================================================== --- head/tests/sys/fs/fusefs/notify.cc (revision 350989) +++ head/tests/sys/fs/fusefs/notify.cc (revision 350990) @@ -1,545 +1,547 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; /* * FUSE asynchonous notification * * FUSE servers can send unprompted notification messages for things like cache * invalidation. This file tests our client's handling of those messages. */ class Notify: public FuseTest { public: /* Ignore an optional FUSE_FSYNC */ void maybe_expect_fsync(uint64_t ino) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_FSYNC && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(0))); } void expect_lookup(uint64_t parent, const char *relpath, uint64_t ino, off_t size, Sequence &seq) { EXPECT_LOOKUP(parent, relpath) .InSequence(seq) .WillOnce(Invoke( ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = ino; out.body.entry.attr.ino = ino; out.body.entry.attr.nlink = 1; out.body.entry.attr.size = size; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; }))); } }; class NotifyWriteback: public Notify { public: virtual void SetUp() { m_init_flags |= FUSE_WRITEBACK_CACHE; m_async = true; Notify::SetUp(); if (IsSkipped()) return; } void expect_write(uint64_t ino, uint64_t offset, uint64_t size, const void *contents) { FuseTest::expect_write(ino, offset, size, size, 0, 0, contents); } }; struct inval_entry_args { MockFS *mock; ino_t parent; const char *name; size_t namelen; }; static void* inval_entry(void* arg) { const struct inval_entry_args *iea = (struct inval_entry_args*)arg; ssize_t r; r = iea->mock->notify_inval_entry(iea->parent, iea->name, iea->namelen); if (r >= 0) return 0; else return (void*)(intptr_t)errno; } struct inval_inode_args { MockFS *mock; ino_t ino; off_t off; ssize_t len; }; struct store_args { MockFS *mock; ino_t nodeid; off_t offset; ssize_t size; const void* data; }; static void* inval_inode(void* arg) { const struct inval_inode_args *iia = (struct inval_inode_args*)arg; ssize_t r; r = iia->mock->notify_inval_inode(iia->ino, iia->off, iia->len); if (r >= 0) return 0; else return (void*)(intptr_t)errno; } static void* store(void* arg) { const struct store_args *sa = (struct store_args*)arg; ssize_t r; r = sa->mock->notify_store(sa->nodeid, sa->offset, sa->data, sa->size); if (r >= 0) return 0; else return (void*)(intptr_t)errno; } /* Invalidate a nonexistent entry */ TEST_F(Notify, inval_entry_nonexistent) { const static char *name = "foo"; struct inval_entry_args iea; void *thr0_value; pthread_t th0; iea.mock = m_mock; iea.parent = FUSE_ROOT_ID; iea.name = name; iea.namelen = strlen(name); ASSERT_EQ(0, pthread_create(&th0, NULL, inval_entry, &iea)) << strerror(errno); pthread_join(th0, &thr0_value); /* It's not an error for an entry to not be cached */ EXPECT_EQ(0, (intptr_t)thr0_value); } /* Invalidate a cached entry */ TEST_F(Notify, inval_entry) { const static char FULLPATH[] = "mountpoint/foo"; const static char RELPATH[] = "foo"; struct inval_entry_args iea; struct stat sb; void *thr0_value; uint64_t ino0 = 42; uint64_t ino1 = 43; Sequence seq; pthread_t th0; expect_lookup(FUSE_ROOT_ID, RELPATH, ino0, 0, seq); expect_lookup(FUSE_ROOT_ID, RELPATH, ino1, 0, seq); /* Fill the entry cache */ ASSERT_EQ(0, stat(FULLPATH, &sb)) << strerror(errno); EXPECT_EQ(ino0, sb.st_ino); /* Now invalidate the entry */ iea.mock = m_mock; iea.parent = FUSE_ROOT_ID; iea.name = RELPATH; iea.namelen = strlen(RELPATH); ASSERT_EQ(0, pthread_create(&th0, NULL, inval_entry, &iea)) << strerror(errno); pthread_join(th0, &thr0_value); EXPECT_EQ(0, (intptr_t)thr0_value); /* The second lookup should return the alternate ino */ ASSERT_EQ(0, stat(FULLPATH, &sb)) << strerror(errno); EXPECT_EQ(ino1, sb.st_ino); } /* * Invalidate a cached entry beneath the root, which uses a slightly different * code path. */ TEST_F(Notify, inval_entry_below_root) { const static char FULLPATH[] = "mountpoint/some_dir/foo"; const static char DNAME[] = "some_dir"; const static char FNAME[] = "foo"; struct inval_entry_args iea; struct stat sb; void *thr0_value; uint64_t dir_ino = 41; uint64_t ino0 = 42; uint64_t ino1 = 43; Sequence seq; pthread_t th0; EXPECT_LOOKUP(FUSE_ROOT_ID, DNAME) .WillOnce(Invoke( ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFDIR | 0755; out.body.entry.nodeid = dir_ino; out.body.entry.attr.nlink = 2; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; }))); expect_lookup(dir_ino, FNAME, ino0, 0, seq); expect_lookup(dir_ino, FNAME, ino1, 0, seq); /* Fill the entry cache */ ASSERT_EQ(0, stat(FULLPATH, &sb)) << strerror(errno); EXPECT_EQ(ino0, sb.st_ino); /* Now invalidate the entry */ iea.mock = m_mock; iea.parent = dir_ino; iea.name = FNAME; iea.namelen = strlen(FNAME); ASSERT_EQ(0, pthread_create(&th0, NULL, inval_entry, &iea)) << strerror(errno); pthread_join(th0, &thr0_value); EXPECT_EQ(0, (intptr_t)thr0_value); /* The second lookup should return the alternate ino */ ASSERT_EQ(0, stat(FULLPATH, &sb)) << strerror(errno); EXPECT_EQ(ino1, sb.st_ino); } /* Invalidating an entry invalidates the parent directory's attributes */ TEST_F(Notify, inval_entry_invalidates_parent_attrs) { const static char FULLPATH[] = "mountpoint/foo"; const static char RELPATH[] = "foo"; struct inval_entry_args iea; struct stat sb; void *thr0_value; uint64_t ino = 42; Sequence seq; pthread_t th0; expect_lookup(FUSE_ROOT_ID, RELPATH, ino, 0, seq); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == FUSE_ROOT_ID); }, Eq(true)), _) ).Times(2) .WillRepeatedly(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.mode = S_IFDIR | 0755; out.body.attr.attr_valid = UINT64_MAX; }))); /* Fill the attr and entry cache */ ASSERT_EQ(0, stat("mountpoint", &sb)) << strerror(errno); ASSERT_EQ(0, stat(FULLPATH, &sb)) << strerror(errno); /* Now invalidate the entry */ iea.mock = m_mock; iea.parent = FUSE_ROOT_ID; iea.name = RELPATH; iea.namelen = strlen(RELPATH); ASSERT_EQ(0, pthread_create(&th0, NULL, inval_entry, &iea)) << strerror(errno); pthread_join(th0, &thr0_value); EXPECT_EQ(0, (intptr_t)thr0_value); /* /'s attribute cache should be cleared */ ASSERT_EQ(0, stat("mountpoint", &sb)) << strerror(errno); } TEST_F(Notify, inval_inode_nonexistent) { struct inval_inode_args iia; ino_t ino = 42; void *thr0_value; pthread_t th0; iia.mock = m_mock; iia.ino = ino; iia.off = 0; iia.len = 0; ASSERT_EQ(0, pthread_create(&th0, NULL, inval_inode, &iia)) << strerror(errno); pthread_join(th0, &thr0_value); /* It's not an error for an inode to not be cached */ EXPECT_EQ(0, (intptr_t)thr0_value); } TEST_F(Notify, inval_inode_with_clean_cache) { const static char FULLPATH[] = "mountpoint/foo"; const static char RELPATH[] = "foo"; const char CONTENTS0[] = "abcdefgh"; const char CONTENTS1[] = "ijklmnopqrstuvwxyz"; struct inval_inode_args iia; struct stat sb; ino_t ino = 42; void *thr0_value; Sequence seq; uid_t uid = 12345; pthread_t th0; ssize_t size0 = sizeof(CONTENTS0); ssize_t size1 = sizeof(CONTENTS1); char buf[80]; int fd; expect_lookup(FUSE_ROOT_ID, RELPATH, ino, size0, seq); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.mode = S_IFREG | 0644; out.body.attr.attr_valid = UINT64_MAX; out.body.attr.attr.size = size1; out.body.attr.attr.uid = uid; }))); expect_read(ino, 0, size0, size0, CONTENTS0); expect_read(ino, 0, size1, size1, CONTENTS1); /* Fill the data cache */ fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(size0, read(fd, buf, size0)) << strerror(errno); EXPECT_EQ(0, memcmp(buf, CONTENTS0, size0)); /* Evict the data cache */ iia.mock = m_mock; iia.ino = ino; iia.off = 0; iia.len = 0; ASSERT_EQ(0, pthread_create(&th0, NULL, inval_inode, &iia)) << strerror(errno); pthread_join(th0, &thr0_value); EXPECT_EQ(0, (intptr_t)thr0_value); /* cache attributes were been purged; this will trigger a new GETATTR */ ASSERT_EQ(0, stat(FULLPATH, &sb)) << strerror(errno); EXPECT_EQ(uid, sb.st_uid); EXPECT_EQ(size1, sb.st_size); /* This read should not be serviced by cache */ ASSERT_EQ(0, lseek(fd, 0, SEEK_SET)) << strerror(errno); ASSERT_EQ(size1, read(fd, buf, size1)) << strerror(errno); EXPECT_EQ(0, memcmp(buf, CONTENTS1, size1)); leak(fd); } /* FUSE_NOTIFY_STORE with a file that's not in the entry cache */ /* disabled because FUSE_NOTIFY_STORE is not yet implemented */ TEST_F(Notify, DISABLED_store_nonexistent) { struct store_args sa; ino_t ino = 42; void *thr0_value; pthread_t th0; sa.mock = m_mock; sa.nodeid = ino; sa.offset = 0; sa.size = 0; ASSERT_EQ(0, pthread_create(&th0, NULL, store, &sa)) << strerror(errno); pthread_join(th0, &thr0_value); /* It's not an error for a file to be unknown to the kernel */ EXPECT_EQ(0, (intptr_t)thr0_value); } /* Store data into for a file that does not yet have anything cached */ /* disabled because FUSE_NOTIFY_STORE is not yet implemented */ TEST_F(Notify, DISABLED_store_with_blank_cache) { const static char FULLPATH[] = "mountpoint/foo"; const static char RELPATH[] = "foo"; const char CONTENTS1[] = "ijklmnopqrstuvwxyz"; struct store_args sa; ino_t ino = 42; void *thr0_value; Sequence seq; pthread_t th0; ssize_t size1 = sizeof(CONTENTS1); char buf[80]; int fd; expect_lookup(FUSE_ROOT_ID, RELPATH, ino, size1, seq); expect_open(ino, 0, 1); /* Fill the data cache */ fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); /* Evict the data cache */ sa.mock = m_mock; sa.nodeid = ino; sa.offset = 0; sa.size = size1; sa.data = (const void*)CONTENTS1; ASSERT_EQ(0, pthread_create(&th0, NULL, store, &sa)) << strerror(errno); pthread_join(th0, &thr0_value); EXPECT_EQ(0, (intptr_t)thr0_value); /* This read should be serviced by cache */ ASSERT_EQ(size1, read(fd, buf, size1)) << strerror(errno); EXPECT_EQ(0, memcmp(buf, CONTENTS1, size1)); leak(fd); } TEST_F(NotifyWriteback, inval_inode_with_dirty_cache) { const static char FULLPATH[] = "mountpoint/foo"; const static char RELPATH[] = "foo"; const char CONTENTS[] = "abcdefgh"; struct inval_inode_args iia; ino_t ino = 42; void *thr0_value; Sequence seq; pthread_t th0; ssize_t bufsize = sizeof(CONTENTS); int fd; expect_lookup(FUSE_ROOT_ID, RELPATH, ino, 0, seq); expect_open(ino, 0, 1); /* Fill the data cache */ fd = open(FULLPATH, O_RDWR); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); expect_write(ino, 0, bufsize, CONTENTS); /* * The FUSE protocol does not require an fsync here, but FreeBSD's * bufobj_invalbuf sends it anyway */ maybe_expect_fsync(ino); /* Evict the data cache */ iia.mock = m_mock; iia.ino = ino; iia.off = 0; iia.len = 0; ASSERT_EQ(0, pthread_create(&th0, NULL, inval_inode, &iia)) << strerror(errno); pthread_join(th0, &thr0_value); EXPECT_EQ(0, (intptr_t)thr0_value); leak(fd); } TEST_F(NotifyWriteback, inval_inode_attrs_only) { const static char FULLPATH[] = "mountpoint/foo"; const static char RELPATH[] = "foo"; const char CONTENTS[] = "abcdefgh"; struct inval_inode_args iia; struct stat sb; uid_t uid = 12345; ino_t ino = 42; void *thr0_value; Sequence seq; pthread_t th0; ssize_t bufsize = sizeof(CONTENTS); int fd; expect_lookup(FUSE_ROOT_ID, RELPATH, ino, 0, seq); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_WRITE); }, Eq(true)), _) ).Times(0); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.mode = S_IFREG | 0644; out.body.attr.attr_valid = UINT64_MAX; out.body.attr.attr.size = bufsize; out.body.attr.attr.uid = uid; }))); /* Fill the data cache */ fd = open(FULLPATH, O_RDWR); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); /* Evict the attributes, but not data cache */ iia.mock = m_mock; iia.ino = ino; iia.off = -1; iia.len = 0; ASSERT_EQ(0, pthread_create(&th0, NULL, inval_inode, &iia)) << strerror(errno); pthread_join(th0, &thr0_value); EXPECT_EQ(0, (intptr_t)thr0_value); /* cache attributes were been purged; this will trigger a new GETATTR */ ASSERT_EQ(0, stat(FULLPATH, &sb)) << strerror(errno); EXPECT_EQ(uid, sb.st_uid); EXPECT_EQ(bufsize, sb.st_size); leak(fd); } Index: head/tests/sys/fs/fusefs/open.cc =================================================================== --- head/tests/sys/fs/fusefs/open.cc (revision 350989) +++ head/tests/sys/fs/fusefs/open.cc (revision 350990) @@ -1,262 +1,264 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Open: public FuseTest { public: /* Test an OK open of a file with the given flags */ void test_ok(int os_flags, int fuse_flags) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; FuseTest::expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_OPEN && in.body.open.flags == (uint32_t)fuse_flags && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([](auto in __unused, auto& out) { out.header.len = sizeof(out.header); SET_OUT_HEADER_LEN(out, open); }))); fd = open(FULLPATH, os_flags); EXPECT_LE(0, fd) << strerror(errno); leak(fd); } }; /* * fusefs(5) does not support I/O on device nodes (neither does UFS). But it * shouldn't crash */ TEST_F(Open, chr) { const char FULLPATH[] = "mountpoint/zero"; const char RELPATH[] = "zero"; uint64_t ino = 42; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillRepeatedly(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFCHR | 0644; out.body.entry.nodeid = ino; out.body.entry.attr.nlink = 1; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.attr.rdev = 44; /* /dev/zero's rdev */ }))); ASSERT_EQ(-1, open(FULLPATH, O_RDONLY)); EXPECT_EQ(EOPNOTSUPP, errno); } /* * The fuse daemon fails the request with enoent. This usually indicates a * race condition: some other FUSE client removed the file in between when the * kernel checked for it with lookup and tried to open it */ TEST_F(Open, enoent) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_OPEN && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_NE(0, open(FULLPATH, O_RDONLY)); EXPECT_EQ(ENOENT, errno); } /* * The daemon is responsible for checking file permissions (unless the * default_permissions mount option was used) */ TEST_F(Open, eperm) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_OPEN && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(EPERM))); EXPECT_NE(0, open(FULLPATH, O_RDONLY)); EXPECT_EQ(EPERM, errno); } /* * fusefs must issue multiple FUSE_OPEN operations if clients with different * credentials open the same file, even if they use the same mode. This is * necessary so that the daemon can validate each set of credentials. */ TEST_F(Open, multiple_creds) { const static char FULLPATH[] = "mountpoint/some_file.txt"; const static char RELPATH[] = "some_file.txt"; int fd1, status; const static uint64_t ino = 42; const static uint64_t fh0 = 100, fh1 = 200; /* Fork a child to open the file with different credentials */ fork(false, &status, [&] { expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 2); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_OPEN && in.header.pid == (uint32_t)getpid() && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke( ReturnImmediate([](auto in __unused, auto& out) { out.body.open.fh = fh0; out.header.len = sizeof(out.header); SET_OUT_HEADER_LEN(out, open); }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_OPEN && in.header.pid != (uint32_t)getpid() && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke( ReturnImmediate([](auto in __unused, auto& out) { out.body.open.fh = fh1; out.header.len = sizeof(out.header); SET_OUT_HEADER_LEN(out, open); }))); expect_flush(ino, 2, ReturnErrno(0)); expect_release(ino, fh0); expect_release(ino, fh1); fd1 = open(FULLPATH, O_RDONLY); EXPECT_LE(0, fd1) << strerror(errno); }, [] { int fd0; fd0 = open(FULLPATH, O_RDONLY); if (fd0 < 0) { perror("open"); return(1); } return 0; } ); ASSERT_EQ(0, WEXITSTATUS(status)); close(fd1); } /* https://bugs.freebsd.org/bugzilla/show_bug.cgi?id=236340 */ TEST_F(Open, DISABLED_o_append) { test_ok(O_WRONLY | O_APPEND, O_WRONLY | O_APPEND); } /* The kernel is supposed to filter out this flag */ TEST_F(Open, o_creat) { test_ok(O_WRONLY | O_CREAT, O_WRONLY); } /* https://bugs.freebsd.org/bugzilla/show_bug.cgi?id=236340 */ TEST_F(Open, DISABLED_o_direct) { test_ok(O_WRONLY | O_DIRECT, O_WRONLY | O_DIRECT); } /* The kernel is supposed to filter out this flag */ TEST_F(Open, o_excl) { test_ok(O_WRONLY | O_EXCL, O_WRONLY); } TEST_F(Open, o_exec) { test_ok(O_EXEC, O_EXEC); } /* The kernel is supposed to filter out this flag */ TEST_F(Open, o_noctty) { test_ok(O_WRONLY | O_NOCTTY, O_WRONLY); } TEST_F(Open, o_rdonly) { test_ok(O_RDONLY, O_RDONLY); } /* https://bugs.freebsd.org/bugzilla/show_bug.cgi?id=236340 */ TEST_F(Open, DISABLED_o_trunc) { test_ok(O_WRONLY | O_TRUNC, O_WRONLY | O_TRUNC); } TEST_F(Open, o_wronly) { test_ok(O_WRONLY, O_WRONLY); } TEST_F(Open, o_rdwr) { test_ok(O_RDWR, O_RDWR); } Index: head/tests/sys/fs/fusefs/opendir.cc =================================================================== --- head/tests/sys/fs/fusefs/opendir.cc (revision 350989) +++ head/tests/sys/fs/fusefs/opendir.cc (revision 350990) @@ -1,155 +1,157 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Opendir: public FuseTest { public: void expect_lookup(const char *relpath, uint64_t ino) { FuseTest::expect_lookup(relpath, ino, S_IFDIR | 0755, 0, 1); } void expect_opendir(uint64_t ino, uint32_t flags, ProcessMockerT r) { /* opendir(3) calls fstatfs */ EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_STATFS); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, statfs); }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_OPENDIR && in.header.nodeid == ino && in.body.opendir.flags == flags); }, Eq(true)), _) ).WillOnce(Invoke(r)); } }; /* * The fuse daemon fails the request with enoent. This usually indicates a * race condition: some other FUSE client removed the file in between when the * kernel checked for it with lookup and tried to open it */ TEST_F(Opendir, enoent) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; expect_lookup(RELPATH, ino); expect_opendir(ino, O_RDONLY, ReturnErrno(ENOENT)); EXPECT_NE(0, open(FULLPATH, O_DIRECTORY)); EXPECT_EQ(ENOENT, errno); } /* * The daemon is responsible for checking file permissions (unless the * default_permissions mount option was used) */ TEST_F(Opendir, eperm) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; expect_lookup(RELPATH, ino); expect_opendir(ino, O_RDONLY, ReturnErrno(EPERM)); EXPECT_NE(0, open(FULLPATH, O_DIRECTORY)); EXPECT_EQ(EPERM, errno); } TEST_F(Opendir, open) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; expect_lookup(RELPATH, ino); expect_opendir(ino, O_RDONLY, ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, open); })); EXPECT_LE(0, open(FULLPATH, O_DIRECTORY)) << strerror(errno); } /* Directories can be opened O_EXEC for stuff like fchdir(2) */ TEST_F(Opendir, open_exec) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino); expect_opendir(ino, O_EXEC, ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, open); })); fd = open(FULLPATH, O_EXEC | O_DIRECTORY); ASSERT_LE(0, fd) << strerror(errno); } TEST_F(Opendir, opendir) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; expect_lookup(RELPATH, ino); expect_opendir(ino, O_RDONLY, ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, open); })); errno = 0; EXPECT_NE(nullptr, opendir(FULLPATH)) << strerror(errno); } Index: head/tests/sys/fs/fusefs/read.cc =================================================================== --- head/tests/sys/fs/fusefs/read.cc (revision 350989) +++ head/tests/sys/fs/fusefs/read.cc (revision 350990) @@ -1,916 +1,918 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include #include #include #include #include #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Read: public FuseTest { public: void expect_lookup(const char *relpath, uint64_t ino, uint64_t size) { FuseTest::expect_lookup(relpath, ino, S_IFREG | 0644, size, 1); } }; class Read_7_8: public FuseTest { public: virtual void SetUp() { m_kernel_minor_version = 8; FuseTest::SetUp(); } void expect_lookup(const char *relpath, uint64_t ino, uint64_t size) { FuseTest::expect_lookup_7_8(relpath, ino, S_IFREG | 0644, size, 1); } }; class AioRead: public Read { public: virtual void SetUp() { const char *node = "vfs.aio.enable_unsafe"; int val = 0; size_t size = sizeof(val); FuseTest::SetUp(); ASSERT_EQ(0, sysctlbyname(node, &val, &size, NULL, 0)) << strerror(errno); if (!val) GTEST_SKIP() << "vfs.aio.enable_unsafe must be set for this test"; } }; class AsyncRead: public AioRead { virtual void SetUp() { m_init_flags = FUSE_ASYNC_READ; AioRead::SetUp(); } }; class ReadAhead: public Read, public WithParamInterface> { virtual void SetUp() { int val; const char *node = "vfs.maxbcachebuf"; size_t size = sizeof(val); ASSERT_EQ(0, sysctlbyname(node, &val, &size, NULL, 0)) << strerror(errno); m_maxreadahead = val * get<1>(GetParam()); m_noclusterr = get<0>(GetParam()); Read::SetUp(); } }; /* AIO reads need to set the header's pid field correctly */ /* https://bugs.freebsd.org/bugzilla/show_bug.cgi?id=236379 */ TEST_F(AioRead, aio_read) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); char buf[bufsize]; struct aiocb iocb, *piocb; expect_lookup(RELPATH, ino, bufsize); expect_open(ino, 0, 1); expect_read(ino, 0, bufsize, bufsize, CONTENTS); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); iocb.aio_nbytes = bufsize; iocb.aio_fildes = fd; iocb.aio_buf = buf; iocb.aio_offset = 0; iocb.aio_sigevent.sigev_notify = SIGEV_NONE; ASSERT_EQ(0, aio_read(&iocb)) << strerror(errno); ASSERT_EQ(bufsize, aio_waitcomplete(&piocb, NULL)) << strerror(errno); ASSERT_EQ(0, memcmp(buf, CONTENTS, bufsize)); leak(fd); } /* * Without the FUSE_ASYNC_READ mount option, fuse(4) should ensure that there * is at most one outstanding read operation per file handle */ TEST_F(AioRead, async_read_disabled) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; ssize_t bufsize = 50; char buf0[bufsize], buf1[bufsize]; off_t off0 = 0; off_t off1 = m_maxbcachebuf; struct aiocb iocb0, iocb1; volatile sig_atomic_t read_count = 0; expect_lookup(RELPATH, ino, 131072); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READ && in.header.nodeid == ino && in.body.read.fh == FH && in.body.read.offset == (uint64_t)off0); }, Eq(true)), _) ).WillRepeatedly(Invoke([&](auto in __unused, auto &out __unused) { read_count++; /* Filesystem is slow to respond */ })); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READ && in.header.nodeid == ino && in.body.read.fh == FH && in.body.read.offset == (uint64_t)off1); }, Eq(true)), _) ).WillRepeatedly(Invoke([&](auto in __unused, auto &out __unused) { read_count++; /* Filesystem is slow to respond */ })); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); /* * Submit two AIO read requests, and respond to neither. If the * filesystem ever gets the second read request, then we failed to * limit outstanding reads. */ iocb0.aio_nbytes = bufsize; iocb0.aio_fildes = fd; iocb0.aio_buf = buf0; iocb0.aio_offset = off0; iocb0.aio_sigevent.sigev_notify = SIGEV_NONE; ASSERT_EQ(0, aio_read(&iocb0)) << strerror(errno); iocb1.aio_nbytes = bufsize; iocb1.aio_fildes = fd; iocb1.aio_buf = buf1; iocb1.aio_offset = off1; iocb1.aio_sigevent.sigev_notify = SIGEV_NONE; ASSERT_EQ(0, aio_read(&iocb1)) << strerror(errno); /* * Sleep for awhile to make sure the kernel has had a chance to issue * the second read, even though the first has not yet returned */ nap(); EXPECT_EQ(read_count, 1); m_mock->kill_daemon(); /* Wait for AIO activity to complete, but ignore errors */ (void)aio_waitcomplete(NULL, NULL); leak(fd); } /* * With the FUSE_ASYNC_READ mount option, fuse(4) may issue multiple * simultaneous read requests on the same file handle. */ TEST_F(AsyncRead, async_read) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; ssize_t bufsize = 50; char buf0[bufsize], buf1[bufsize]; off_t off0 = 0; off_t off1 = m_maxbcachebuf; off_t fsize = 2 * m_maxbcachebuf; struct aiocb iocb0, iocb1; sem_t sem; ASSERT_EQ(0, sem_init(&sem, 0, 0)) << strerror(errno); expect_lookup(RELPATH, ino, fsize); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READ && in.header.nodeid == ino && in.body.read.fh == FH && in.body.read.offset == (uint64_t)off0); }, Eq(true)), _) ).WillOnce(Invoke([&](auto in __unused, auto &out __unused) { sem_post(&sem); /* Filesystem is slow to respond */ })); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READ && in.header.nodeid == ino && in.body.read.fh == FH && in.body.read.offset == (uint64_t)off1); }, Eq(true)), _) ).WillOnce(Invoke([&](auto in __unused, auto &out __unused) { sem_post(&sem); /* Filesystem is slow to respond */ })); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); /* * Submit two AIO read requests, but respond to neither. Ensure that * we received both. */ iocb0.aio_nbytes = bufsize; iocb0.aio_fildes = fd; iocb0.aio_buf = buf0; iocb0.aio_offset = off0; iocb0.aio_sigevent.sigev_notify = SIGEV_NONE; ASSERT_EQ(0, aio_read(&iocb0)) << strerror(errno); iocb1.aio_nbytes = bufsize; iocb1.aio_fildes = fd; iocb1.aio_buf = buf1; iocb1.aio_offset = off1; iocb1.aio_sigevent.sigev_notify = SIGEV_NONE; ASSERT_EQ(0, aio_read(&iocb1)) << strerror(errno); /* Wait until both reads have reached the daemon */ ASSERT_EQ(0, sem_wait(&sem)) << strerror(errno); ASSERT_EQ(0, sem_wait(&sem)) << strerror(errno); m_mock->kill_daemon(); /* Wait for AIO activity to complete, but ignore errors */ (void)aio_waitcomplete(NULL, NULL); leak(fd); } /* 0-length reads shouldn't cause any confusion */ TEST_F(Read, direct_io_read_nothing) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; uint64_t offset = 100; char buf[80]; expect_lookup(RELPATH, ino, offset + 1000); expect_open(ino, FOPEN_DIRECT_IO, 1); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(0, pread(fd, buf, 0, offset)) << strerror(errno); leak(fd); } /* * With direct_io, reads should not fill the cache. They should go straight to * the daemon */ TEST_F(Read, direct_io_pread) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; uint64_t offset = 100; ssize_t bufsize = strlen(CONTENTS); char buf[bufsize]; expect_lookup(RELPATH, ino, offset + bufsize); expect_open(ino, FOPEN_DIRECT_IO, 1); expect_read(ino, offset, bufsize, bufsize, CONTENTS); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, pread(fd, buf, bufsize, offset)) << strerror(errno); ASSERT_EQ(0, memcmp(buf, CONTENTS, bufsize)); // With FOPEN_DIRECT_IO, the cache should be bypassed. The server will // get a 2nd read request. expect_read(ino, offset, bufsize, bufsize, CONTENTS); ASSERT_EQ(bufsize, pread(fd, buf, bufsize, offset)) << strerror(errno); ASSERT_EQ(0, memcmp(buf, CONTENTS, bufsize)); leak(fd); } /* * With direct_io, filesystems are allowed to return less data than is * requested. fuse(4) should return a short read to userland. */ TEST_F(Read, direct_io_short_read) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefghijklmnop"; uint64_t ino = 42; int fd; uint64_t offset = 100; ssize_t bufsize = strlen(CONTENTS); ssize_t halfbufsize = bufsize / 2; char buf[bufsize]; expect_lookup(RELPATH, ino, offset + bufsize); expect_open(ino, FOPEN_DIRECT_IO, 1); expect_read(ino, offset, bufsize, halfbufsize, CONTENTS); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(halfbufsize, pread(fd, buf, bufsize, offset)) << strerror(errno); ASSERT_EQ(0, memcmp(buf, CONTENTS, halfbufsize)); leak(fd); } TEST_F(Read, eio) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); char buf[bufsize]; expect_lookup(RELPATH, ino, bufsize); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READ); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(EIO))); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(-1, read(fd, buf, bufsize)) << strerror(errno); ASSERT_EQ(EIO, errno); leak(fd); } /* * If the server returns a short read when direct io is not in use, that * indicates EOF, because of a server-side truncation. We should invalidate * all cached attributes. We may update the file size, */ TEST_F(Read, eof) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefghijklmnop"; uint64_t ino = 42; int fd; uint64_t offset = 100; ssize_t bufsize = strlen(CONTENTS); ssize_t partbufsize = 3 * bufsize / 4; ssize_t r; char buf[bufsize]; struct stat sb; expect_lookup(RELPATH, ino, offset + bufsize); expect_open(ino, 0, 1); expect_read(ino, 0, offset + bufsize, offset + partbufsize, CONTENTS); expect_getattr(ino, offset + partbufsize); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); r = pread(fd, buf, bufsize, offset); ASSERT_LE(0, r) << strerror(errno); EXPECT_EQ(partbufsize, r) << strerror(errno); ASSERT_EQ(0, fstat(fd, &sb)); EXPECT_EQ((off_t)(offset + partbufsize), sb.st_size); leak(fd); } /* Like Read.eof, but causes an entire buffer to be invalidated */ TEST_F(Read, eof_of_whole_buffer) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefghijklmnop"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); off_t old_filesize = m_maxbcachebuf * 2 + bufsize; char buf[bufsize]; struct stat sb; expect_lookup(RELPATH, ino, old_filesize); expect_open(ino, 0, 1); expect_read(ino, 2 * m_maxbcachebuf, bufsize, bufsize, CONTENTS); expect_read(ino, m_maxbcachebuf, m_maxbcachebuf, 0, CONTENTS); expect_getattr(ino, m_maxbcachebuf); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); /* Cache the third block */ ASSERT_EQ(bufsize, pread(fd, buf, bufsize, m_maxbcachebuf * 2)) << strerror(errno); /* Try to read the 2nd block, but it's past EOF */ ASSERT_EQ(0, pread(fd, buf, bufsize, m_maxbcachebuf)) << strerror(errno); ASSERT_EQ(0, fstat(fd, &sb)); EXPECT_EQ((off_t)(m_maxbcachebuf), sb.st_size); leak(fd); } /* * With the keep_cache option, the kernel may keep its read cache across * multiple open(2)s. */ TEST_F(Read, keep_cache) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd0, fd1; ssize_t bufsize = strlen(CONTENTS); char buf[bufsize]; FuseTest::expect_lookup(RELPATH, ino, S_IFREG | 0644, bufsize, 2); expect_open(ino, FOPEN_KEEP_CACHE, 2); expect_read(ino, 0, bufsize, bufsize, CONTENTS); fd0 = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd0) << strerror(errno); ASSERT_EQ(bufsize, read(fd0, buf, bufsize)) << strerror(errno); fd1 = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd1) << strerror(errno); /* * This read should be serviced by cache, even though it's on the other * file descriptor */ ASSERT_EQ(bufsize, read(fd1, buf, bufsize)) << strerror(errno); leak(fd0); leak(fd1); } /* * Without the keep_cache option, the kernel should drop its read caches on * every open */ TEST_F(Read, keep_cache_disabled) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd0, fd1; ssize_t bufsize = strlen(CONTENTS); char buf[bufsize]; FuseTest::expect_lookup(RELPATH, ino, S_IFREG | 0644, bufsize, 2); expect_open(ino, 0, 2); expect_read(ino, 0, bufsize, bufsize, CONTENTS); fd0 = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd0) << strerror(errno); ASSERT_EQ(bufsize, read(fd0, buf, bufsize)) << strerror(errno); fd1 = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd1) << strerror(errno); /* * This read should not be serviced by cache, even though it's on the * original file descriptor */ expect_read(ino, 0, bufsize, bufsize, CONTENTS); ASSERT_EQ(0, lseek(fd0, 0, SEEK_SET)) << strerror(errno); ASSERT_EQ(bufsize, read(fd0, buf, bufsize)) << strerror(errno); leak(fd0); leak(fd1); } TEST_F(Read, mmap) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; ssize_t len; size_t bufsize = strlen(CONTENTS); void *p; len = getpagesize(); expect_lookup(RELPATH, ino, bufsize); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READ && in.header.nodeid == ino && in.body.read.fh == Read::FH && in.body.read.offset == 0 && in.body.read.size == bufsize); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { out.header.len = sizeof(struct fuse_out_header) + bufsize; memmove(out.body.bytes, CONTENTS, bufsize); }))); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); p = mmap(NULL, len, PROT_READ, MAP_SHARED, fd, 0); ASSERT_NE(MAP_FAILED, p) << strerror(errno); ASSERT_EQ(0, memcmp(p, CONTENTS, bufsize)); ASSERT_EQ(0, munmap(p, len)) << strerror(errno); leak(fd); } /* * A read via mmap comes up short, indicating that the file was truncated * server-side. */ TEST_F(Read, mmap_eof) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; ssize_t len; size_t bufsize = strlen(CONTENTS); struct stat sb; void *p; len = getpagesize(); expect_lookup(RELPATH, ino, m_maxbcachebuf); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READ && in.header.nodeid == ino && in.body.read.fh == Read::FH && in.body.read.offset == 0 && in.body.read.size == (uint32_t)m_maxbcachebuf); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { out.header.len = sizeof(struct fuse_out_header) + bufsize; memmove(out.body.bytes, CONTENTS, bufsize); }))); expect_getattr(ino, bufsize); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); p = mmap(NULL, len, PROT_READ, MAP_SHARED, fd, 0); ASSERT_NE(MAP_FAILED, p) << strerror(errno); /* The file size should be automatically truncated */ ASSERT_EQ(0, memcmp(p, CONTENTS, bufsize)); ASSERT_EQ(0, fstat(fd, &sb)) << strerror(errno); EXPECT_EQ((off_t)bufsize, sb.st_size); ASSERT_EQ(0, munmap(p, len)) << strerror(errno); leak(fd); } /* * Just as when FOPEN_DIRECT_IO is used, reads with O_DIRECT should bypass * cache and to straight to the daemon */ TEST_F(Read, o_direct) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); char buf[bufsize]; expect_lookup(RELPATH, ino, bufsize); expect_open(ino, 0, 1); expect_read(ino, 0, bufsize, bufsize, CONTENTS); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); // Fill the cache ASSERT_EQ(bufsize, read(fd, buf, bufsize)) << strerror(errno); ASSERT_EQ(0, memcmp(buf, CONTENTS, bufsize)); // Reads with o_direct should bypass the cache expect_read(ino, 0, bufsize, bufsize, CONTENTS); ASSERT_EQ(0, fcntl(fd, F_SETFL, O_DIRECT)) << strerror(errno); ASSERT_EQ(0, lseek(fd, 0, SEEK_SET)) << strerror(errno); ASSERT_EQ(bufsize, read(fd, buf, bufsize)) << strerror(errno); ASSERT_EQ(0, memcmp(buf, CONTENTS, bufsize)); leak(fd); } TEST_F(Read, pread) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; /* * Set offset to a maxbcachebuf boundary so we'll be sure what offset * to read from. Without this, the read might start at a lower offset. */ uint64_t offset = m_maxbcachebuf; ssize_t bufsize = strlen(CONTENTS); char buf[bufsize]; expect_lookup(RELPATH, ino, offset + bufsize); expect_open(ino, 0, 1); expect_read(ino, offset, bufsize, bufsize, CONTENTS); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, pread(fd, buf, bufsize, offset)) << strerror(errno); ASSERT_EQ(0, memcmp(buf, CONTENTS, bufsize)); leak(fd); } TEST_F(Read, read) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); char buf[bufsize]; expect_lookup(RELPATH, ino, bufsize); expect_open(ino, 0, 1); expect_read(ino, 0, bufsize, bufsize, CONTENTS); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, read(fd, buf, bufsize)) << strerror(errno); ASSERT_EQ(0, memcmp(buf, CONTENTS, bufsize)); leak(fd); } TEST_F(Read_7_8, read) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); char buf[bufsize]; expect_lookup(RELPATH, ino, bufsize); expect_open(ino, 0, 1); expect_read(ino, 0, bufsize, bufsize, CONTENTS); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, read(fd, buf, bufsize)) << strerror(errno); ASSERT_EQ(0, memcmp(buf, CONTENTS, bufsize)); leak(fd); } /* * If cacheing is enabled, the kernel should try to read an entire cache block * at a time. */ TEST_F(Read, cache_block) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS0 = "abcdefghijklmnop"; uint64_t ino = 42; int fd; ssize_t bufsize = 8; ssize_t filesize = m_maxbcachebuf * 2; char *contents; char buf[bufsize]; const char *contents1 = CONTENTS0 + bufsize; contents = (char*)calloc(1, filesize); ASSERT_NE(nullptr, contents); memmove(contents, CONTENTS0, strlen(CONTENTS0)); expect_lookup(RELPATH, ino, filesize); expect_open(ino, 0, 1); expect_read(ino, 0, m_maxbcachebuf, m_maxbcachebuf, contents); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, read(fd, buf, bufsize)) << strerror(errno); ASSERT_EQ(0, memcmp(buf, CONTENTS0, bufsize)); /* A subsequent read should be serviced by cache */ ASSERT_EQ(bufsize, read(fd, buf, bufsize)) << strerror(errno); ASSERT_EQ(0, memcmp(buf, contents1, bufsize)); leak(fd); } /* Reading with sendfile should work (though it obviously won't be 0-copy) */ TEST_F(Read, sendfile) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; size_t bufsize = strlen(CONTENTS); char buf[bufsize]; int sp[2]; off_t sbytes; expect_lookup(RELPATH, ino, bufsize); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READ && in.header.nodeid == ino && in.body.read.fh == Read::FH && in.body.read.offset == 0 && in.body.read.size == bufsize); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { out.header.len = sizeof(struct fuse_out_header) + bufsize; memmove(out.body.bytes, CONTENTS, bufsize); }))); ASSERT_EQ(0, socketpair(PF_LOCAL, SOCK_STREAM, 0, sp)) << strerror(errno); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(0, sendfile(fd, sp[1], 0, bufsize, NULL, &sbytes, 0)) << strerror(errno); ASSERT_EQ(static_cast(bufsize), read(sp[0], buf, bufsize)) << strerror(errno); ASSERT_EQ(0, memcmp(buf, CONTENTS, bufsize)); close(sp[1]); close(sp[0]); leak(fd); } /* sendfile should fail gracefully if fuse declines the read */ /* https://bugs.freebsd.org/bugzilla/show_bug.cgi?id=236466 */ TEST_F(Read, sendfile_eio) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); int sp[2]; off_t sbytes; expect_lookup(RELPATH, ino, bufsize); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READ); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(EIO))); ASSERT_EQ(0, socketpair(PF_LOCAL, SOCK_STREAM, 0, sp)) << strerror(errno); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); ASSERT_NE(0, sendfile(fd, sp[1], 0, bufsize, NULL, &sbytes, 0)); close(sp[1]); close(sp[0]); leak(fd); } /* * Sequential reads should use readahead. And if allowed, large reads should * be clustered. */ TEST_P(ReadAhead, readahead) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd, maxcontig, clustersize; ssize_t bufsize = 4 * m_maxbcachebuf; ssize_t filesize = bufsize; uint64_t len; char *rbuf, *contents; off_t offs; contents = (char*)malloc(filesize); ASSERT_NE(nullptr, contents); memset(contents, 'X', filesize); rbuf = (char*)calloc(1, bufsize); expect_lookup(RELPATH, ino, filesize); expect_open(ino, 0, 1); maxcontig = m_noclusterr ? m_maxbcachebuf : m_maxbcachebuf + m_maxreadahead; clustersize = MIN(maxcontig, m_maxphys); for (offs = 0; offs < bufsize; offs += clustersize) { len = std::min((size_t)clustersize, (size_t)(filesize - offs)); expect_read(ino, offs, len, len, contents + offs); } fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); /* Set the internal readahead counter to a "large" value */ ASSERT_EQ(0, fcntl(fd, F_READAHEAD, 1'000'000'000)) << strerror(errno); ASSERT_EQ(bufsize, read(fd, rbuf, bufsize)) << strerror(errno); ASSERT_EQ(0, memcmp(rbuf, contents, bufsize)); leak(fd); } INSTANTIATE_TEST_CASE_P(RA, ReadAhead, Values(tuple(false, 0), tuple(false, 1), tuple(false, 2), tuple(false, 3), tuple(true, 0), tuple(true, 1), tuple(true, 2))); Index: head/tests/sys/fs/fusefs/readdir.cc =================================================================== --- head/tests/sys/fs/fusefs/readdir.cc (revision 350989) +++ head/tests/sys/fs/fusefs/readdir.cc (revision 350990) @@ -1,375 +1,377 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; using namespace std; class Readdir: public FuseTest { public: void expect_lookup(const char *relpath, uint64_t ino) { FuseTest::expect_lookup(relpath, ino, S_IFDIR | 0755, 0, 1); } }; class Readdir_7_8: public Readdir { public: virtual void SetUp() { m_kernel_minor_version = 8; Readdir::SetUp(); } void expect_lookup(const char *relpath, uint64_t ino) { FuseTest::expect_lookup_7_8(relpath, ino, S_IFDIR | 0755, 0, 1); } }; /* FUSE_READDIR returns nothing but "." and ".." */ TEST_F(Readdir, dots) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; DIR *dir; struct dirent *de; vector ents(2); vector empty_ents(0); const char dot[] = "."; const char dotdot[] = ".."; expect_lookup(RELPATH, ino); expect_opendir(ino); ents[0].d_fileno = 2; ents[0].d_off = 2000; ents[0].d_namlen = sizeof(dotdot); ents[0].d_type = DT_DIR; strncpy(ents[0].d_name, dotdot, ents[0].d_namlen); ents[1].d_fileno = 3; ents[1].d_off = 3000; ents[1].d_namlen = sizeof(dot); ents[1].d_type = DT_DIR; strncpy(ents[1].d_name, dot, ents[1].d_namlen); expect_readdir(ino, 0, ents); expect_readdir(ino, 3000, empty_ents); errno = 0; dir = opendir(FULLPATH); ASSERT_NE(nullptr, dir) << strerror(errno); errno = 0; de = readdir(dir); ASSERT_NE(nullptr, de) << strerror(errno); EXPECT_EQ(2ul, de->d_fileno); /* * fuse(4) doesn't actually set d_off, which is ok for now because * nothing uses it. */ //EXPECT_EQ(2000, de->d_off); EXPECT_EQ(DT_DIR, de->d_type); EXPECT_EQ(sizeof(dotdot), de->d_namlen); EXPECT_EQ(0, strcmp(dotdot, de->d_name)); errno = 0; de = readdir(dir); ASSERT_NE(nullptr, de) << strerror(errno); EXPECT_EQ(3ul, de->d_fileno); //EXPECT_EQ(3000, de->d_off); EXPECT_EQ(DT_DIR, de->d_type); EXPECT_EQ(sizeof(dot), de->d_namlen); EXPECT_EQ(0, strcmp(dot, de->d_name)); ASSERT_EQ(nullptr, readdir(dir)); ASSERT_EQ(0, errno); leakdir(dir); } TEST_F(Readdir, eio) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; DIR *dir; struct dirent *de; expect_lookup(RELPATH, ino); expect_opendir(ino); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READDIR && in.header.nodeid == ino && in.body.readdir.offset == 0); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(EIO))); errno = 0; dir = opendir(FULLPATH); ASSERT_NE(nullptr, dir) << strerror(errno); errno = 0; de = readdir(dir); ASSERT_EQ(nullptr, de); ASSERT_EQ(EIO, errno); leakdir(dir); } /* getdirentries(2) can use a larger buffer size than readdir(3) */ TEST_F(Readdir, getdirentries) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; int fd; char buf[8192]; ssize_t r; expect_lookup(RELPATH, ino); expect_opendir(ino); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READDIR && in.header.nodeid == ino && in.body.readdir.size == 8192); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { out.header.error = 0; out.header.len = sizeof(out.header); }))); fd = open(FULLPATH, O_DIRECTORY); ASSERT_LE(0, fd) << strerror(errno); r = getdirentries(fd, buf, sizeof(buf), 0); ASSERT_EQ(0, r) << strerror(errno); leak(fd); } /* * Nothing bad should happen if getdirentries is called on two file descriptors * which were concurrently open, but one has already been closed. * This is a regression test for a specific bug dating from r238402. */ TEST_F(Readdir, getdirentries_concurrent) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; int fd0, fd1; char buf[8192]; ssize_t r; FuseTest::expect_lookup(RELPATH, ino, S_IFDIR | 0755, 0, 2); expect_opendir(ino); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READDIR && in.header.nodeid == ino && in.body.readdir.size == 8192); }, Eq(true)), _) ).Times(2) .WillRepeatedly(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { out.header.error = 0; out.header.len = sizeof(out.header); }))); fd0 = open(FULLPATH, O_DIRECTORY); ASSERT_LE(0, fd0) << strerror(errno); fd1 = open(FULLPATH, O_DIRECTORY); ASSERT_LE(0, fd1) << strerror(errno); r = getdirentries(fd0, buf, sizeof(buf), 0); ASSERT_EQ(0, r) << strerror(errno); EXPECT_EQ(0, close(fd0)) << strerror(errno); r = getdirentries(fd1, buf, sizeof(buf), 0); ASSERT_EQ(0, r) << strerror(errno); leak(fd0); leak(fd1); } /* * FUSE_READDIR returns nothing, not even "." and "..". This is legal, though * the filesystem obviously won't be fully functional. */ TEST_F(Readdir, nodots) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; DIR *dir; expect_lookup(RELPATH, ino); expect_opendir(ino); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READDIR && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { out.header.error = 0; out.header.len = sizeof(out.header); }))); errno = 0; dir = opendir(FULLPATH); ASSERT_NE(nullptr, dir) << strerror(errno); errno = 0; ASSERT_EQ(nullptr, readdir(dir)); ASSERT_EQ(0, errno); leakdir(dir); } /* telldir(3) and seekdir(3) should work with fuse */ TEST_F(Readdir, seekdir) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; DIR *dir; struct dirent *de; /* * use enough entries to be > 4096 bytes, so getdirentries must be * called * multiple times. */ vector ents0(122), ents1(102), ents2(30); long bookmark; int i = 0; for (auto& it: ents0) { snprintf(it.d_name, MAXNAMLEN, "file.%d", i); it.d_fileno = 2 + i; it.d_off = (2 + i) * 1000; it.d_namlen = strlen(it.d_name); it.d_type = DT_REG; i++; } for (auto& it: ents1) { snprintf(it.d_name, MAXNAMLEN, "file.%d", i); it.d_fileno = 2 + i; it.d_off = (2 + i) * 1000; it.d_namlen = strlen(it.d_name); it.d_type = DT_REG; i++; } for (auto& it: ents2) { snprintf(it.d_name, MAXNAMLEN, "file.%d", i); it.d_fileno = 2 + i; it.d_off = (2 + i) * 1000; it.d_namlen = strlen(it.d_name); it.d_type = DT_REG; i++; } expect_lookup(RELPATH, ino); expect_opendir(ino); expect_readdir(ino, 0, ents0); expect_readdir(ino, 123000, ents1); expect_readdir(ino, 225000, ents2); errno = 0; dir = opendir(FULLPATH); ASSERT_NE(nullptr, dir) << strerror(errno); for (i=0; i < 128; i++) { errno = 0; de = readdir(dir); ASSERT_NE(nullptr, de) << strerror(errno); EXPECT_EQ(2 + (ino_t)i, de->d_fileno); } bookmark = telldir(dir); for (; i < 232; i++) { errno = 0; de = readdir(dir); ASSERT_NE(nullptr, de) << strerror(errno); EXPECT_EQ(2 + (ino_t)i, de->d_fileno); } seekdir(dir, bookmark); de = readdir(dir); ASSERT_NE(nullptr, de) << strerror(errno); EXPECT_EQ(130ul, de->d_fileno); leakdir(dir); } TEST_F(Readdir_7_8, nodots) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; DIR *dir; expect_lookup(RELPATH, ino); expect_opendir(ino); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READDIR && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { out.header.error = 0; out.header.len = sizeof(out.header); }))); errno = 0; dir = opendir(FULLPATH); ASSERT_NE(nullptr, dir) << strerror(errno); errno = 0; ASSERT_EQ(nullptr, readdir(dir)); ASSERT_EQ(0, errno); leakdir(dir); } Index: head/tests/sys/fs/fusefs/readlink.cc =================================================================== --- head/tests/sys/fs/fusefs/readlink.cc (revision 350989) +++ head/tests/sys/fs/fusefs/readlink.cc (revision 350990) @@ -1,123 +1,125 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Readlink: public FuseTest { public: void expect_lookup(const char *relpath, uint64_t ino) { FuseTest::expect_lookup(relpath, ino, S_IFLNK | 0777, 0, 1); } void expect_readlink(uint64_t ino, ProcessMockerT r) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READLINK && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(r)); } }; class PushSymlinksIn: public Readlink { virtual void SetUp() { m_push_symlinks_in = true; Readlink::SetUp(); } }; TEST_F(Readlink, eloop) { const char FULLPATH[] = "mountpoint/src"; const char RELPATH[] = "src"; const uint64_t ino = 42; char buf[80]; expect_lookup(RELPATH, ino); expect_readlink(ino, ReturnErrno(ELOOP)); EXPECT_EQ(-1, readlink(FULLPATH, buf, sizeof(buf))); EXPECT_EQ(ELOOP, errno); } TEST_F(Readlink, ok) { const char FULLPATH[] = "mountpoint/src"; const char RELPATH[] = "src"; const char dst[] = "dst"; const uint64_t ino = 42; char buf[80]; expect_lookup(RELPATH, ino); expect_readlink(ino, ReturnImmediate([=](auto in __unused, auto& out) { strlcpy(out.body.str, dst, sizeof(out.body.str)); out.header.len = sizeof(out.header) + strlen(dst) + 1; })); EXPECT_EQ(static_cast(strlen(dst)) + 1, readlink(FULLPATH, buf, sizeof(buf))); EXPECT_STREQ(dst, buf); } TEST_F(PushSymlinksIn, readlink) { const char FULLPATH[] = "mountpoint/src"; const char RELPATH[] = "src"; const char dst[] = "/dst"; const uint64_t ino = 42; char buf[MAXPATHLEN], wd[MAXPATHLEN], want[MAXPATHLEN]; int len; expect_lookup(RELPATH, ino); expect_readlink(ino, ReturnImmediate([=](auto in __unused, auto& out) { strlcpy(out.body.str, dst, sizeof(out.body.str)); out.header.len = sizeof(out.header) + strlen(dst) + 1; })); ASSERT_NE(nullptr, getcwd(wd, sizeof(wd))) << strerror(errno); len = snprintf(want, sizeof(want), "%s/mountpoint%s", wd, dst); ASSERT_LE(0, len) << strerror(errno); EXPECT_EQ(static_cast(len) + 1, readlink(FULLPATH, buf, sizeof(buf))); EXPECT_STREQ(want, buf); } Index: head/tests/sys/fs/fusefs/release.cc =================================================================== --- head/tests/sys/fs/fusefs/release.cc (revision 350989) +++ head/tests/sys/fs/fusefs/release.cc (revision 350990) @@ -1,224 +1,226 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Release: public FuseTest { public: void expect_lookup(const char *relpath, uint64_t ino, int times) { FuseTest::expect_lookup(relpath, ino, S_IFREG | 0644, 0, times); } void expect_release(uint64_t ino, uint64_t lock_owner, uint32_t flags, int error) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_RELEASE && in.header.nodeid == ino && in.body.release.lock_owner == lock_owner && in.body.release.fh == FH && in.body.release.flags == flags); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(error))) .RetiresOnSaturation(); } }; class ReleaseWithLocks: public Release { virtual void SetUp() { m_init_flags = FUSE_POSIX_LOCKS; Release::SetUp(); } }; /* If a file descriptor is duplicated, only the last close causes RELEASE */ TEST_F(Release, dup) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd, fd2; expect_lookup(RELPATH, ino, 1); expect_open(ino, 0, 1); expect_flush(ino, 1, ReturnErrno(0)); expect_release(ino, getpid(), O_RDONLY, 0); fd = open(FULLPATH, O_RDONLY); EXPECT_LE(0, fd) << strerror(errno); fd2 = dup(fd); ASSERT_EQ(0, close(fd2)) << strerror(errno); ASSERT_EQ(0, close(fd)) << strerror(errno); } /* * Some FUSE filesystem cache data internally and flush it on release. Such * filesystems may generate errors during release. On Linux, these get * returned by close(2). However, POSIX does not require close(2) to return * this error. FreeBSD's fuse(4) should return EIO if it returns an error at * all. */ /* http://pubs.opengroup.org/onlinepubs/9699919799/functions/close.html */ TEST_F(Release, eio) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino, 1); expect_open(ino, 0, 1); expect_flush(ino, 1, ReturnErrno(0)); expect_release(ino, getpid(), O_WRONLY, EIO); fd = open(FULLPATH, O_WRONLY); EXPECT_LE(0, fd) << strerror(errno); ASSERT_TRUE(0 == close(fd) || errno == EIO) << strerror(errno); } /* * FUSE_RELEASE should contain the same flags used for FUSE_OPEN */ /* https://bugs.freebsd.org/bugzilla/show_bug.cgi?id=236340 */ TEST_F(Release, DISABLED_flags) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino, 1); expect_open(ino, 0, 1); expect_flush(ino, 1, ReturnErrno(0)); expect_release(ino, getpid(), O_RDWR | O_APPEND, 0); fd = open(FULLPATH, O_RDWR | O_APPEND); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(0, close(fd)) << strerror(errno); } /* * fuse(4) will issue multiple FUSE_OPEN operations for the same file if it's * opened with different modes. Each FUSE_OPEN should get its own * FUSE_RELEASE. */ TEST_F(Release, multiple_opens) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd, fd2; expect_lookup(RELPATH, ino, 2); expect_open(ino, 0, 2); expect_flush(ino, 2, ReturnErrno(0)); expect_release(ino, getpid(), O_RDONLY, 0); fd = open(FULLPATH, O_RDONLY); EXPECT_LE(0, fd) << strerror(errno); expect_release(ino, getpid(), O_WRONLY, 0); fd2 = open(FULLPATH, O_WRONLY); EXPECT_LE(0, fd2) << strerror(errno); ASSERT_EQ(0, close(fd2)) << strerror(errno); ASSERT_EQ(0, close(fd)) << strerror(errno); } TEST_F(Release, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino, 1); expect_open(ino, 0, 1); expect_flush(ino, 1, ReturnErrno(0)); expect_release(ino, getpid(), O_RDONLY, 0); fd = open(FULLPATH, O_RDONLY); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(0, close(fd)) << strerror(errno); } /* When closing a file with a POSIX file lock, release should release the lock*/ TEST_F(ReleaseWithLocks, unlock_on_close) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; struct flock fl; pid_t pid = getpid(); expect_lookup(RELPATH, ino, 1); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_SETLK && in.header.nodeid == ino && in.body.setlk.fh == FH); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(0))); expect_flush(ino, 1, ReturnErrno(0)); expect_release(ino, static_cast(pid), O_RDWR, 0); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); fl.l_start = 0; fl.l_len = 0; fl.l_pid = pid; fl.l_type = F_RDLCK; fl.l_whence = SEEK_SET; fl.l_sysid = 0; ASSERT_NE(-1, fcntl(fd, F_SETLKW, &fl)) << strerror(errno); ASSERT_EQ(0, close(fd)) << strerror(errno); } Index: head/tests/sys/fs/fusefs/releasedir.cc =================================================================== --- head/tests/sys/fs/fusefs/releasedir.cc (revision 350989) +++ head/tests/sys/fs/fusefs/releasedir.cc (revision 350990) @@ -1,116 +1,118 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class ReleaseDir: public FuseTest { public: void expect_lookup(const char *relpath, uint64_t ino) { FuseTest::expect_lookup(relpath, ino, S_IFDIR | 0755, 0, 1); } }; /* If a file descriptor is duplicated, only the last close causes RELEASE */ TEST_F(ReleaseDir, dup) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; DIR *dir, *dir2; expect_lookup(RELPATH, ino); expect_opendir(ino); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READDIR && in.header.nodeid == ino && in.body.readdir.offset == 0); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { out.header.error = 0; out.header.len = sizeof(out.header); }))); expect_releasedir(ino, ReturnErrno(0)); dir = opendir(FULLPATH); ASSERT_NE(nullptr, dir) << strerror(errno); dir2 = fdopendir(dup(dirfd(dir))); ASSERT_NE(nullptr, dir2) << strerror(errno); ASSERT_EQ(0, closedir(dir)) << strerror(errno); ASSERT_EQ(0, closedir(dir2)) << strerror(errno); } TEST_F(ReleaseDir, ok) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; DIR *dir; expect_lookup(RELPATH, ino); expect_opendir(ino); expect_releasedir(ino, ReturnErrno(0)); dir = opendir(FULLPATH); ASSERT_NE(nullptr, dir) << strerror(errno); ASSERT_EQ(0, closedir(dir)) << strerror(errno); } /* Directories opened O_EXEC should be properly released, too */ TEST_F(ReleaseDir, o_exec) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino); expect_opendir(ino); expect_releasedir(ino, ReturnErrno(0)); fd = open(FULLPATH, O_EXEC | O_DIRECTORY); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(0, close(fd)) << strerror(errno); } Index: head/tests/sys/fs/fusefs/rename.cc =================================================================== --- head/tests/sys/fs/fusefs/rename.cc (revision 350989) +++ head/tests/sys/fs/fusefs/rename.cc (revision 350990) @@ -1,321 +1,323 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Rename: public FuseTest { public: int tmpfd = -1; char tmpfile[80] = "/tmp/fuse.rename.XXXXXX"; virtual void TearDown() { if (tmpfd >= 0) { close(tmpfd); unlink(tmpfile); } FuseTest::TearDown(); } void expect_getattr(uint64_t ino, mode_t mode) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke( ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = mode; out.body.attr.attr_valid = UINT64_MAX; }))); } }; // EINVAL, dst is subdir of src TEST_F(Rename, einval) { const char FULLDST[] = "mountpoint/src/dst"; const char RELDST[] = "dst"; const char FULLSRC[] = "mountpoint/src"; const char RELSRC[] = "src"; uint64_t src_ino = 42; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755); expect_lookup(RELSRC, src_ino, S_IFDIR | 0755, 0, 2); EXPECT_LOOKUP(src_ino, RELDST).WillOnce(Invoke(ReturnErrno(ENOENT))); ASSERT_NE(0, rename(FULLSRC, FULLDST)); ASSERT_EQ(EINVAL, errno); } // source does not exist TEST_F(Rename, enoent) { const char FULLDST[] = "mountpoint/dst"; const char FULLSRC[] = "mountpoint/src"; const char RELSRC[] = "src"; // FUSE hardcodes the mountpoint to inode 1 EXPECT_LOOKUP(FUSE_ROOT_ID, RELSRC) .WillOnce(Invoke(ReturnErrno(ENOENT))); ASSERT_NE(0, rename(FULLSRC, FULLDST)); ASSERT_EQ(ENOENT, errno); } /* * Renaming a file after FUSE_LOOKUP returned a negative cache entry for dst */ TEST_F(Rename, entry_cache_negative) { const char FULLDST[] = "mountpoint/dst"; const char RELDST[] = "dst"; const char FULLSRC[] = "mountpoint/src"; const char RELSRC[] = "src"; uint64_t dst_dir_ino = FUSE_ROOT_ID; uint64_t ino = 42; /* * Set entry_valid = 0 because this test isn't concerned with whether * or not we actually cache negative entries, only with whether we * interpret negative cache responses correctly. */ struct timespec entry_valid = {.tv_sec = 0, .tv_nsec = 0}; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755); expect_lookup(RELSRC, ino, S_IFREG | 0644, 0, 1); /* LOOKUP returns a negative cache entry for dst */ EXPECT_LOOKUP(FUSE_ROOT_ID, RELDST) .WillOnce(ReturnNegativeCache(&entry_valid)); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *src = (const char*)in.body.bytes + sizeof(fuse_rename_in); const char *dst = src + strlen(src) + 1; return (in.header.opcode == FUSE_RENAME && in.body.rename.newdir == dst_dir_ino && (0 == strcmp(RELDST, dst)) && (0 == strcmp(RELSRC, src))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(0))); ASSERT_EQ(0, rename(FULLSRC, FULLDST)) << strerror(errno); } /* * Renaming a file should purge any negative namecache entries for the dst */ TEST_F(Rename, entry_cache_negative_purge) { const char FULLDST[] = "mountpoint/dst"; const char RELDST[] = "dst"; const char FULLSRC[] = "mountpoint/src"; const char RELSRC[] = "src"; uint64_t dst_dir_ino = FUSE_ROOT_ID; uint64_t ino = 42; struct timespec entry_valid = {.tv_sec = TIME_T_MAX, .tv_nsec = 0}; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755); expect_lookup(RELSRC, ino, S_IFREG | 0644, 0, 1); /* LOOKUP returns a negative cache entry for dst */ EXPECT_LOOKUP(FUSE_ROOT_ID, RELDST) .WillOnce(ReturnNegativeCache(&entry_valid)) .RetiresOnSaturation(); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *src = (const char*)in.body.bytes + sizeof(fuse_rename_in); const char *dst = src + strlen(src) + 1; return (in.header.opcode == FUSE_RENAME && in.body.rename.newdir == dst_dir_ino && (0 == strcmp(RELDST, dst)) && (0 == strcmp(RELSRC, src))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(0))); ASSERT_EQ(0, rename(FULLSRC, FULLDST)) << strerror(errno); /* Finally, a subsequent lookup should query the daemon */ expect_lookup(RELDST, ino, S_IFREG | 0644, 0, 1); ASSERT_EQ(0, access(FULLDST, F_OK)) << strerror(errno); } TEST_F(Rename, exdev) { const char FULLB[] = "mountpoint/src"; const char RELB[] = "src"; // FUSE hardcodes the mountpoint to inode 1 uint64_t b_ino = 42; tmpfd = mkstemp(tmpfile); ASSERT_LE(0, tmpfd) << strerror(errno); expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755); expect_lookup(RELB, b_ino, S_IFREG | 0644, 0, 2); ASSERT_NE(0, rename(tmpfile, FULLB)); ASSERT_EQ(EXDEV, errno); ASSERT_NE(0, rename(FULLB, tmpfile)); ASSERT_EQ(EXDEV, errno); } TEST_F(Rename, ok) { const char FULLDST[] = "mountpoint/dst"; const char RELDST[] = "dst"; const char FULLSRC[] = "mountpoint/src"; const char RELSRC[] = "src"; uint64_t dst_dir_ino = FUSE_ROOT_ID; uint64_t ino = 42; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755); expect_lookup(RELSRC, ino, S_IFREG | 0644, 0, 1); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDST) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *src = (const char*)in.body.bytes + sizeof(fuse_rename_in); const char *dst = src + strlen(src) + 1; return (in.header.opcode == FUSE_RENAME && in.body.rename.newdir == dst_dir_ino && (0 == strcmp(RELDST, dst)) && (0 == strcmp(RELSRC, src))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(0))); ASSERT_EQ(0, rename(FULLSRC, FULLDST)) << strerror(errno); } /* When moving a file to a new directory, update its parent */ TEST_F(Rename, parent) { const char FULLDST[] = "mountpoint/dstdir/dst"; const char RELDSTDIR[] = "dstdir"; const char RELDST[] = "dst"; const char FULLSRC[] = "mountpoint/src"; const char RELSRC[] = "src"; const char FULLDSTPARENT[] = "mountpoint/dstdir/dst/.."; Sequence seq; uint64_t dst_dir_ino = 43; uint64_t ino = 42; struct stat sb; expect_lookup(RELSRC, ino, S_IFDIR | 0755, 0, 1); expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755); EXPECT_LOOKUP(FUSE_ROOT_ID, RELDSTDIR) .WillRepeatedly(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.nodeid = dst_dir_ino; out.body.entry.entry_valid = UINT64_MAX; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.attr.mode = S_IFDIR | 0755; out.body.entry.attr.ino = dst_dir_ino; }))); EXPECT_LOOKUP(dst_dir_ino, RELDST) .InSequence(seq) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *src = (const char*)in.body.bytes + sizeof(fuse_rename_in); const char *dst = src + strlen(src) + 1; return (in.header.opcode == FUSE_RENAME && in.body.rename.newdir == dst_dir_ino && (0 == strcmp(RELDST, dst)) && (0 == strcmp(RELSRC, src))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(0))); EXPECT_LOOKUP(dst_dir_ino, RELDST) .InSequence(seq) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFDIR | 0755; out.body.entry.nodeid = ino; out.body.entry.entry_valid = UINT64_MAX; out.body.entry.attr_valid = UINT64_MAX; }))); ASSERT_EQ(0, rename(FULLSRC, FULLDST)) << strerror(errno); ASSERT_EQ(0, stat(FULLDSTPARENT, &sb)) << strerror(errno); ASSERT_EQ(dst_dir_ino, sb.st_ino); } // Rename overwrites an existing destination file TEST_F(Rename, overwrite) { const char FULLDST[] = "mountpoint/dst"; const char RELDST[] = "dst"; const char FULLSRC[] = "mountpoint/src"; const char RELSRC[] = "src"; // The inode of the already-existing destination file uint64_t dst_ino = 2; uint64_t dst_dir_ino = FUSE_ROOT_ID; uint64_t ino = 42; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755); expect_lookup(RELSRC, ino, S_IFREG | 0644, 0, 1); expect_lookup(RELDST, dst_ino, S_IFREG | 0644, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *src = (const char*)in.body.bytes + sizeof(fuse_rename_in); const char *dst = src + strlen(src) + 1; return (in.header.opcode == FUSE_RENAME && in.body.rename.newdir == dst_dir_ino && (0 == strcmp(RELDST, dst)) && (0 == strcmp(RELSRC, src))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(0))); ASSERT_EQ(0, rename(FULLSRC, FULLDST)) << strerror(errno); } Index: head/tests/sys/fs/fusefs/rmdir.cc =================================================================== --- head/tests/sys/fs/fusefs/rmdir.cc (revision 350989) +++ head/tests/sys/fs/fusefs/rmdir.cc (revision 350990) @@ -1,172 +1,174 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Rmdir: public FuseTest { public: void expect_getattr(uint64_t ino, mode_t mode) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = mode; out.body.attr.attr_valid = UINT64_MAX; }))); } void expect_lookup(const char *relpath, uint64_t ino, int times=1) { EXPECT_LOOKUP(FUSE_ROOT_ID, relpath) .Times(times) .WillRepeatedly(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr_valid = UINT64_MAX; out.body.entry.attr.mode = S_IFDIR | 0755; out.body.entry.nodeid = ino; out.body.entry.attr.nlink = 2; }))); } void expect_rmdir(uint64_t parent, const char *relpath, int error) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_RMDIR && 0 == strcmp(relpath, in.body.rmdir) && in.header.nodeid == parent); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(error))); } }; /* * A successful rmdir should clear the parent directory's attribute cache, * because the fuse daemon should update its mtime and ctime */ TEST_F(Rmdir, parent_attr_cache) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; struct stat sb; sem_t sem; uint64_t ino = 42; ASSERT_EQ(0, sem_init(&sem, 0, 0)) << strerror(errno); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == FUSE_ROOT_ID); }, Eq(true)), _) ).Times(2) .WillRepeatedly(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFDIR | 0755; out.body.attr.attr_valid = UINT64_MAX; }))); expect_lookup(RELPATH, ino); expect_rmdir(FUSE_ROOT_ID, RELPATH, 0); expect_forget(ino, 1, &sem); ASSERT_EQ(0, rmdir(FULLPATH)) << strerror(errno); EXPECT_EQ(0, stat("mountpoint", &sb)) << strerror(errno); sem_wait(&sem); sem_destroy(&sem); } TEST_F(Rmdir, enotempty) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; uint64_t ino = 42; expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755); expect_lookup(RELPATH, ino); expect_rmdir(FUSE_ROOT_ID, RELPATH, ENOTEMPTY); ASSERT_NE(0, rmdir(FULLPATH)); ASSERT_EQ(ENOTEMPTY, errno); } /* Removing a directory should expire its entry cache */ TEST_F(Rmdir, entry_cache) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; sem_t sem; uint64_t ino = 42; expect_getattr(1, S_IFDIR | 0755); expect_lookup(RELPATH, ino, 2); expect_rmdir(FUSE_ROOT_ID, RELPATH, 0); expect_forget(ino, 1, &sem); ASSERT_EQ(0, rmdir(FULLPATH)) << strerror(errno); ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); sem_wait(&sem); sem_destroy(&sem); } TEST_F(Rmdir, ok) { const char FULLPATH[] = "mountpoint/some_dir"; const char RELPATH[] = "some_dir"; sem_t sem; uint64_t ino = 42; ASSERT_EQ(0, sem_init(&sem, 0, 0)) << strerror(errno); expect_getattr(FUSE_ROOT_ID, S_IFDIR | 0755); expect_lookup(RELPATH, ino); expect_rmdir(FUSE_ROOT_ID, RELPATH, 0); expect_forget(ino, 1, &sem); ASSERT_EQ(0, rmdir(FULLPATH)) << strerror(errno); sem_wait(&sem); sem_destroy(&sem); } Index: head/tests/sys/fs/fusefs/setattr.cc =================================================================== --- head/tests/sys/fs/fusefs/setattr.cc (revision 350989) +++ head/tests/sys/fs/fusefs/setattr.cc (revision 350990) @@ -1,774 +1,776 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Setattr : public FuseTest {}; class RofsSetattr: public Setattr { public: virtual void SetUp() { m_ro = true; Setattr::SetUp(); } }; class Setattr_7_8: public Setattr { public: virtual void SetUp() { m_kernel_minor_version = 8; Setattr::SetUp(); } }; /* * If setattr returns a non-zero cache timeout, then subsequent VOP_GETATTRs * should use the cached attributes, rather than query the daemon */ TEST_F(Setattr, attr_cache) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; struct stat sb; const mode_t newmode = 0644; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillRepeatedly(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = ino; out.body.entry.entry_valid = UINT64_MAX; }))); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | newmode; out.body.attr.attr_valid = UINT64_MAX; }))); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_GETATTR); }, Eq(true)), _) ).Times(0); /* Set an attribute with SETATTR */ ASSERT_EQ(0, chmod(FULLPATH, newmode)) << strerror(errno); /* The stat(2) should use cached attributes */ ASSERT_EQ(0, stat(FULLPATH, &sb)); EXPECT_EQ(S_IFREG | newmode, sb.st_mode); } /* Change the mode of a file */ TEST_F(Setattr, chmod) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const mode_t oldmode = 0755; const mode_t newmode = 0644; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | oldmode; out.body.entry.nodeid = ino; }))); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { uint32_t valid = FATTR_MODE; return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && in.body.setattr.valid == valid && in.body.setattr.mode == newmode); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | newmode; }))); EXPECT_EQ(0, chmod(FULLPATH, newmode)) << strerror(errno); } /* * Chmod a multiply-linked file with cached attributes. Check that both files' * attributes have changed. */ TEST_F(Setattr, chmod_multiply_linked) { const char FULLPATH0[] = "mountpoint/some_file.txt"; const char RELPATH0[] = "some_file.txt"; const char FULLPATH1[] = "mountpoint/other_file.txt"; const char RELPATH1[] = "other_file.txt"; struct stat sb; const uint64_t ino = 42; const mode_t oldmode = 0777; const mode_t newmode = 0666; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH0) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | oldmode; out.body.entry.nodeid = ino; out.body.entry.attr.nlink = 2; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; }))); EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH1) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | oldmode; out.body.entry.nodeid = ino; out.body.entry.attr.nlink = 2; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; }))); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { uint32_t valid = FATTR_MODE; return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && in.body.setattr.valid == valid && in.body.setattr.mode == newmode); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; out.body.attr.attr.mode = S_IFREG | newmode; out.body.attr.attr.nlink = 2; out.body.attr.attr_valid = UINT64_MAX; }))); /* For a lookup of the 2nd file to get it into the cache*/ ASSERT_EQ(0, stat(FULLPATH1, &sb)) << strerror(errno); EXPECT_EQ(S_IFREG | oldmode, sb.st_mode); ASSERT_EQ(0, chmod(FULLPATH0, newmode)) << strerror(errno); ASSERT_EQ(0, stat(FULLPATH0, &sb)) << strerror(errno); EXPECT_EQ(S_IFREG | newmode, sb.st_mode); ASSERT_EQ(0, stat(FULLPATH1, &sb)) << strerror(errno); EXPECT_EQ(S_IFREG | newmode, sb.st_mode); } /* Change the owner and group of a file */ TEST_F(Setattr, chown) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const gid_t oldgroup = 66; const gid_t newgroup = 99; const uid_t olduser = 33; const uid_t newuser = 44; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = ino; out.body.entry.attr.gid = oldgroup; out.body.entry.attr.uid = olduser; }))); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { uint32_t valid = FATTR_GID | FATTR_UID; return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && in.body.setattr.valid == valid && in.body.setattr.uid == newuser && in.body.setattr.gid == newgroup); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | 0644; out.body.attr.attr.uid = newuser; out.body.attr.attr.gid = newgroup; }))); EXPECT_EQ(0, chown(FULLPATH, newuser, newgroup)) << strerror(errno); } /* * FUSE daemons are allowed to check permissions however they like. If the * daemon returns EPERM, even if the file permissions "should" grant access, * then fuse(4) should return EPERM too. */ TEST_F(Setattr, eperm) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | 0777; out.body.entry.nodeid = ino; out.body.entry.attr.uid = in.header.uid; out.body.entry.attr.gid = in.header.gid; }))); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(EPERM))); EXPECT_NE(0, truncate(FULLPATH, 10)); EXPECT_EQ(EPERM, errno); } /* Change the mode of an open file, by its file descriptor */ TEST_F(Setattr, fchmod) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; const mode_t oldmode = 0755; const mode_t newmode = 0644; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | oldmode; out.body.entry.nodeid = ino; out.body.entry.attr_valid = UINT64_MAX; }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_OPEN && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { out.header.len = sizeof(out.header); SET_OUT_HEADER_LEN(out, open); }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { uint32_t valid = FATTR_MODE; return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && in.body.setattr.valid == valid && in.body.setattr.mode == newmode); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | newmode; }))); fd = open(FULLPATH, O_RDONLY); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(0, fchmod(fd, newmode)) << strerror(errno); leak(fd); } /* Change the size of an open file, by its file descriptor */ TEST_F(Setattr, ftruncate) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; uint64_t fh = 0xdeadbeef1a7ebabe; const off_t oldsize = 99; const off_t newsize = 12345; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | 0755; out.body.entry.nodeid = ino; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.attr.size = oldsize; }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_OPEN && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { out.header.len = sizeof(out.header); SET_OUT_HEADER_LEN(out, open); out.body.open.fh = fh; }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { uint32_t valid = FATTR_SIZE | FATTR_FH; return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && in.body.setattr.valid == valid && in.body.setattr.fh == fh); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | 0755; out.body.attr.attr.size = newsize; }))); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(0, ftruncate(fd, newsize)) << strerror(errno); leak(fd); } /* Change the size of the file */ TEST_F(Setattr, truncate) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const uint64_t oldsize = 100'000'000; const uint64_t newsize = 20'000'000; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = ino; out.body.entry.attr.size = oldsize; }))); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { uint32_t valid = FATTR_SIZE; return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && in.body.setattr.valid == valid && in.body.setattr.size == newsize); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | 0644; out.body.attr.attr.size = newsize; }))); EXPECT_EQ(0, truncate(FULLPATH, newsize)) << strerror(errno); } /* * Truncating a file should discard cached data past the truncation point. * This is a regression test for bug 233783. * * There are two distinct failure modes. The first one is a failure to zero * the portion of the file's final buffer past EOF. It can be reproduced by * fsx -WR -P /tmp -S10 fsx.bin * * The second is a failure to drop buffers beyond that. It can be reproduced by * fsx -WR -P /tmp -S18 -n fsx.bin * Also reproducible in sh with: * $> /path/to/libfuse/build/example/passthrough -d /tmp/mnt * $> cd /tmp/mnt/tmp * $> dd if=/dev/random of=randfile bs=1k count=192 * $> truncate -s 1k randfile && truncate -s 192k randfile * $> xxd randfile | less # xxd will wrongly show random data at offset 0x8000 */ TEST_F(Setattr, truncate_discards_cached_data) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; void *w0buf, *r0buf, *r1buf, *expected; off_t w0_offset = 0; size_t w0_size = 0x30000; off_t r0_offset = 0; off_t r0_size = w0_size; size_t trunc0_size = 0x400; size_t trunc1_size = w0_size; off_t r1_offset = trunc0_size; off_t r1_size = w0_size - trunc0_size; size_t cur_size = 0; const uint64_t ino = 42; mode_t mode = S_IFREG | 0644; int fd, r; bool should_have_data = false; w0buf = malloc(w0_size); ASSERT_NE(nullptr, w0buf) << strerror(errno); memset(w0buf, 'X', w0_size); r0buf = malloc(r0_size); ASSERT_NE(nullptr, r0buf) << strerror(errno); r1buf = malloc(r1_size); ASSERT_NE(nullptr, r1buf) << strerror(errno); expected = malloc(r1_size); ASSERT_NE(nullptr, expected) << strerror(errno); memset(expected, 0, r1_size); expect_lookup(RELPATH, ino, mode, 0, 1); expect_open(ino, O_RDWR, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnImmediate([&](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; out.body.attr.attr.mode = mode; out.body.attr.attr.size = cur_size; }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_WRITE); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnImmediate([&](auto in, auto& out) { SET_OUT_HEADER_LEN(out, write); out.body.attr.attr.ino = ino; out.body.write.size = in.body.write.size; cur_size = std::max(static_cast(cur_size), in.body.write.size + in.body.write.offset); }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && (in.body.setattr.valid & FATTR_SIZE)); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnImmediate([&](auto in, auto& out) { auto trunc_size = in.body.setattr.size; SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; out.body.attr.attr.mode = mode; out.body.attr.attr.size = trunc_size; cur_size = trunc_size; }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READ); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnImmediate([&](auto in, auto& out) { auto osize = std::min( static_cast(cur_size) - in.body.read.offset, static_cast(in.body.read.size)); out.header.len = sizeof(struct fuse_out_header) + osize; if (should_have_data) memset(out.body.bytes, 'X', osize); else bzero(out.body.bytes, osize); }))); fd = open(FULLPATH, O_RDWR, 0644); ASSERT_LE(0, fd) << strerror(errno); /* Fill the file with Xs */ ASSERT_EQ(static_cast(w0_size), pwrite(fd, w0buf, w0_size, w0_offset)); should_have_data = true; /* Fill the cache */ ASSERT_EQ(static_cast(r0_size), pread(fd, r0buf, r0_size, r0_offset)); /* 1st truncate should discard cached data */ EXPECT_EQ(0, ftruncate(fd, trunc0_size)) << strerror(errno); should_have_data = false; /* 2nd truncate extends file into previously cached data */ EXPECT_EQ(0, ftruncate(fd, trunc1_size)) << strerror(errno); /* Read should return all zeros */ ASSERT_EQ(static_cast(r1_size), pread(fd, r1buf, r1_size, r1_offset)); r = memcmp(expected, r1buf, r1_size); ASSERT_EQ(0, r); free(expected); free(r1buf); free(r0buf); free(w0buf); } /* Change a file's timestamps */ TEST_F(Setattr, utimensat) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const timespec oldtimes[2] = { {.tv_sec = 1, .tv_nsec = 2}, {.tv_sec = 3, .tv_nsec = 4}, }; const timespec newtimes[2] = { {.tv_sec = 5, .tv_nsec = 6}, {.tv_sec = 7, .tv_nsec = 8}, }; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = ino; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.attr.atime = oldtimes[0].tv_sec; out.body.entry.attr.atimensec = oldtimes[0].tv_nsec; out.body.entry.attr.mtime = oldtimes[1].tv_sec; out.body.entry.attr.mtimensec = oldtimes[1].tv_nsec; }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { uint32_t valid = FATTR_ATIME | FATTR_MTIME; return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && in.body.setattr.valid == valid && (time_t)in.body.setattr.atime == newtimes[0].tv_sec && in.body.setattr.atimensec == newtimes[0].tv_nsec && (time_t)in.body.setattr.mtime == newtimes[1].tv_sec && in.body.setattr.mtimensec == newtimes[1].tv_nsec); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | 0644; out.body.attr.attr.atime = newtimes[0].tv_sec; out.body.attr.attr.atimensec = newtimes[0].tv_nsec; out.body.attr.attr.mtime = newtimes[1].tv_sec; out.body.attr.attr.mtimensec = newtimes[1].tv_nsec; }))); EXPECT_EQ(0, utimensat(AT_FDCWD, FULLPATH, &newtimes[0], 0)) << strerror(errno); } /* Change a file mtime but not its atime */ TEST_F(Setattr, utimensat_mtime_only) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const timespec oldtimes[2] = { {.tv_sec = 1, .tv_nsec = 2}, {.tv_sec = 3, .tv_nsec = 4}, }; const timespec newtimes[2] = { {.tv_sec = 5, .tv_nsec = UTIME_OMIT}, {.tv_sec = 7, .tv_nsec = 8}, }; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = ino; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.attr.atime = oldtimes[0].tv_sec; out.body.entry.attr.atimensec = oldtimes[0].tv_nsec; out.body.entry.attr.mtime = oldtimes[1].tv_sec; out.body.entry.attr.mtimensec = oldtimes[1].tv_nsec; }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { uint32_t valid = FATTR_MTIME; return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && in.body.setattr.valid == valid && (time_t)in.body.setattr.mtime == newtimes[1].tv_sec && in.body.setattr.mtimensec == newtimes[1].tv_nsec); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | 0644; out.body.attr.attr.atime = oldtimes[0].tv_sec; out.body.attr.attr.atimensec = oldtimes[0].tv_nsec; out.body.attr.attr.mtime = newtimes[1].tv_sec; out.body.attr.attr.mtimensec = newtimes[1].tv_nsec; }))); EXPECT_EQ(0, utimensat(AT_FDCWD, FULLPATH, &newtimes[0], 0)) << strerror(errno); } /* * Set a file's mtime and atime to now * * The design of FreeBSD's VFS does not allow fusefs to set just one of atime * or mtime to UTIME_NOW; it's both or neither. */ TEST_F(Setattr, utimensat_utime_now) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const timespec oldtimes[2] = { {.tv_sec = 1, .tv_nsec = 2}, {.tv_sec = 3, .tv_nsec = 4}, }; const timespec newtimes[2] = { {.tv_sec = 0, .tv_nsec = UTIME_NOW}, {.tv_sec = 0, .tv_nsec = UTIME_NOW}, }; /* "now" is whatever the server says it is */ const timespec now[2] = { {.tv_sec = 5, .tv_nsec = 7}, {.tv_sec = 6, .tv_nsec = 8}, }; struct stat sb; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = ino; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.entry_valid = UINT64_MAX; out.body.entry.attr.atime = oldtimes[0].tv_sec; out.body.entry.attr.atimensec = oldtimes[0].tv_nsec; out.body.entry.attr.mtime = oldtimes[1].tv_sec; out.body.entry.attr.mtimensec = oldtimes[1].tv_nsec; }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { uint32_t valid = FATTR_ATIME | FATTR_ATIME_NOW | FATTR_MTIME | FATTR_MTIME_NOW; return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && in.body.setattr.valid == valid); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | 0644; out.body.attr.attr.atime = now[0].tv_sec; out.body.attr.attr.atimensec = now[0].tv_nsec; out.body.attr.attr.mtime = now[1].tv_sec; out.body.attr.attr.mtimensec = now[1].tv_nsec; out.body.attr.attr_valid = UINT64_MAX; }))); ASSERT_EQ(0, utimensat(AT_FDCWD, FULLPATH, &newtimes[0], 0)) << strerror(errno); ASSERT_EQ(0, stat(FULLPATH, &sb)) << strerror(errno); EXPECT_EQ(now[0].tv_sec, sb.st_atim.tv_sec); EXPECT_EQ(now[0].tv_nsec, sb.st_atim.tv_nsec); EXPECT_EQ(now[1].tv_sec, sb.st_mtim.tv_sec); EXPECT_EQ(now[1].tv_nsec, sb.st_mtim.tv_nsec); } /* On a read-only mount, no attributes may be changed */ TEST_F(RofsSetattr, erofs) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const mode_t oldmode = 0755; const mode_t newmode = 0644; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | oldmode; out.body.entry.nodeid = ino; }))); ASSERT_EQ(-1, chmod(FULLPATH, newmode)); ASSERT_EQ(EROFS, errno); } /* Change the mode of a file */ TEST_F(Setattr_7_8, chmod) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const uint64_t ino = 42; const mode_t oldmode = 0755; const mode_t newmode = 0644; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry_7_8); out.body.entry.attr.mode = S_IFREG | oldmode; out.body.entry.nodeid = ino; }))); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { uint32_t valid = FATTR_MODE; return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && in.body.setattr.valid == valid && in.body.setattr.mode == newmode); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr_7_8); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | newmode; }))); EXPECT_EQ(0, chmod(FULLPATH, newmode)) << strerror(errno); } Index: head/tests/sys/fs/fusefs/statfs.cc =================================================================== --- head/tests/sys/fs/fusefs/statfs.cc (revision 350989) +++ head/tests/sys/fs/fusefs/statfs.cc (revision 350990) @@ -1,171 +1,173 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Statfs: public FuseTest {}; TEST_F(Statfs, eio) { struct statfs statbuf; EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_STATFS); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(EIO))); ASSERT_NE(0, statfs("mountpoint", &statbuf)); ASSERT_EQ(EIO, errno); } /* * When the daemon is dead but the filesystem is still mounted, fuse(4) fakes * the statfs(2) response, which is necessary for unmounting. */ TEST_F(Statfs, enotconn) { struct statfs statbuf; char mp[PATH_MAX]; m_mock->kill_daemon(); ASSERT_NE(nullptr, getcwd(mp, PATH_MAX)) << strerror(errno); strlcat(mp, "/mountpoint", PATH_MAX); ASSERT_EQ(0, statfs("mountpoint", &statbuf)) << strerror(errno); EXPECT_EQ(getuid(), statbuf.f_owner); EXPECT_EQ(0, strcmp("fusefs", statbuf.f_fstypename)); EXPECT_EQ(0, strcmp("/dev/fuse", statbuf.f_mntfromname)); EXPECT_EQ(0, strcmp(mp, statbuf.f_mntonname)); } static void* statfs_th(void* arg) { ssize_t r; struct statfs *sb = (struct statfs*)arg; r = statfs("mountpoint", sb); if (r >= 0) return 0; else return (void*)(intptr_t)errno; } /* * Like the enotconn test, but in this case the daemon dies after we send the * FUSE_STATFS operation but before we get a response. */ TEST_F(Statfs, enotconn_while_blocked) { struct statfs statbuf; void *thr0_value; pthread_t th0; char mp[PATH_MAX]; sem_t sem; ASSERT_EQ(0, sem_init(&sem, 0, 0)) << strerror(errno); EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_STATFS); }, Eq(true)), _) ).WillOnce(Invoke([&](auto in __unused, auto &out __unused) { sem_post(&sem); /* Just block until the daemon dies */ })); ASSERT_NE(nullptr, getcwd(mp, PATH_MAX)) << strerror(errno); strlcat(mp, "/mountpoint", PATH_MAX); ASSERT_EQ(0, pthread_create(&th0, NULL, statfs_th, (void*)&statbuf)) << strerror(errno); ASSERT_EQ(0, sem_wait(&sem)) << strerror(errno); m_mock->kill_daemon(); pthread_join(th0, &thr0_value); ASSERT_EQ(0, (intptr_t)thr0_value); EXPECT_EQ(getuid(), statbuf.f_owner); EXPECT_EQ(0, strcmp("fusefs", statbuf.f_fstypename)); EXPECT_EQ(0, strcmp("/dev/fuse", statbuf.f_mntfromname)); EXPECT_EQ(0, strcmp(mp, statbuf.f_mntonname)); } TEST_F(Statfs, ok) { struct statfs statbuf; char mp[PATH_MAX]; EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_STATFS); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, statfs); out.body.statfs.st.blocks = 1000; out.body.statfs.st.bfree = 100; out.body.statfs.st.bavail = 200; out.body.statfs.st.files = 5; out.body.statfs.st.ffree = 6; out.body.statfs.st.namelen = 128; out.body.statfs.st.frsize = 1024; }))); ASSERT_NE(nullptr, getcwd(mp, PATH_MAX)) << strerror(errno); strlcat(mp, "/mountpoint", PATH_MAX); ASSERT_EQ(0, statfs("mountpoint", &statbuf)) << strerror(errno); EXPECT_EQ(1024ul, statbuf.f_bsize); /* * fuse(4) ignores the filesystem's reported optimal transfer size, and * chooses a size that works well with the rest of the system instead */ EXPECT_EQ(1000ul, statbuf.f_blocks); EXPECT_EQ(100ul, statbuf.f_bfree); EXPECT_EQ(200l, statbuf.f_bavail); EXPECT_EQ(5ul, statbuf.f_files); EXPECT_EQ(6l, statbuf.f_ffree); EXPECT_EQ(128u, statbuf.f_namemax); EXPECT_EQ(getuid(), statbuf.f_owner); EXPECT_EQ(0, strcmp("fusefs", statbuf.f_fstypename)); EXPECT_EQ(0, strcmp("/dev/fuse", statbuf.f_mntfromname)); EXPECT_EQ(0, strcmp(mp, statbuf.f_mntonname)); } Index: head/tests/sys/fs/fusefs/symlink.cc =================================================================== --- head/tests/sys/fs/fusefs/symlink.cc (revision 350989) +++ head/tests/sys/fs/fusefs/symlink.cc (revision 350990) @@ -1,178 +1,180 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Symlink: public FuseTest { public: void expect_symlink(uint64_t ino, const char *target, const char *relpath) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes; const char *linkname = name + strlen(name) + 1; return (in.header.opcode == FUSE_SYMLINK && (0 == strcmp(linkname, target)) && (0 == strcmp(name, relpath))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFLNK | 0777; out.body.entry.nodeid = ino; out.body.entry.entry_valid = UINT64_MAX; out.body.entry.attr_valid = UINT64_MAX; }))); } }; class Symlink_7_8: public FuseTest { public: virtual void SetUp() { m_kernel_minor_version = 8; FuseTest::SetUp(); } void expect_symlink(uint64_t ino, const char *target, const char *relpath) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes; const char *linkname = name + strlen(name) + 1; return (in.header.opcode == FUSE_SYMLINK && (0 == strcmp(linkname, target)) && (0 == strcmp(name, relpath))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry_7_8); out.body.entry.attr.mode = S_IFLNK | 0777; out.body.entry.nodeid = ino; out.body.entry.entry_valid = UINT64_MAX; out.body.entry.attr_valid = UINT64_MAX; }))); } }; /* * A successful symlink should clear the parent directory's attribute cache, * because the fuse daemon should update its mtime and ctime */ TEST_F(Symlink, clear_attr_cache) { const char FULLPATH[] = "mountpoint/src"; const char RELPATH[] = "src"; const char dst[] = "dst"; const uint64_t ino = 42; struct stat sb; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == FUSE_ROOT_ID); }, Eq(true)), _) ).Times(2) .WillRepeatedly(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = FUSE_ROOT_ID; out.body.attr.attr.mode = S_IFDIR | 0755; out.body.attr.attr_valid = UINT64_MAX; }))); expect_symlink(ino, dst, RELPATH); EXPECT_EQ(0, stat("mountpoint", &sb)) << strerror(errno); EXPECT_EQ(0, symlink(dst, FULLPATH)) << strerror(errno); EXPECT_EQ(0, stat("mountpoint", &sb)) << strerror(errno); } TEST_F(Symlink, enospc) { const char FULLPATH[] = "mountpoint/lnk"; const char RELPATH[] = "lnk"; const char dst[] = "dst"; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *name = (const char*)in.body.bytes; const char *linkname = name + strlen(name) + 1; return (in.header.opcode == FUSE_SYMLINK && (0 == strcmp(linkname, dst)) && (0 == strcmp(name, RELPATH))); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(ENOSPC))); EXPECT_EQ(-1, symlink(dst, FULLPATH)); EXPECT_EQ(ENOSPC, errno); } TEST_F(Symlink, ok) { const char FULLPATH[] = "mountpoint/src"; const char RELPATH[] = "src"; const char dst[] = "dst"; const uint64_t ino = 42; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_symlink(ino, dst, RELPATH); EXPECT_EQ(0, symlink(dst, FULLPATH)) << strerror(errno); } TEST_F(Symlink_7_8, ok) { const char FULLPATH[] = "mountpoint/src"; const char RELPATH[] = "src"; const char dst[] = "dst"; const uint64_t ino = 42; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillOnce(Invoke(ReturnErrno(ENOENT))); expect_symlink(ino, dst, RELPATH); EXPECT_EQ(0, symlink(dst, FULLPATH)) << strerror(errno); } Index: head/tests/sys/fs/fusefs/unlink.cc =================================================================== --- head/tests/sys/fs/fusefs/unlink.cc (revision 350989) +++ head/tests/sys/fs/fusefs/unlink.cc (revision 350990) @@ -1,251 +1,253 @@ /*- * Copyright (c) 2019 The FreeBSD Foundation * All rights reserved. * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Unlink: public FuseTest { public: void expect_getattr(uint64_t ino, mode_t mode) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = mode; out.body.attr.attr_valid = UINT64_MAX; }))); } void expect_lookup(const char *relpath, uint64_t ino, int times, int nlink=1) { EXPECT_LOOKUP(FUSE_ROOT_ID, relpath) .Times(times) .WillRepeatedly(Invoke( ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = S_IFREG | 0644; out.body.entry.nodeid = ino; out.body.entry.attr.nlink = nlink; out.body.entry.attr_valid = UINT64_MAX; out.body.entry.attr.size = 0; }))); } }; /* * Unlinking a multiply linked file should update its ctime and nlink. This * could be handled simply by invalidating the attributes, necessitating a new * GETATTR, but we implement it in-kernel for efficiency's sake. */ TEST_F(Unlink, attr_cache) { const char FULLPATH0[] = "mountpoint/some_file.txt"; const char RELPATH0[] = "some_file.txt"; const char FULLPATH1[] = "mountpoint/other_file.txt"; const char RELPATH1[] = "other_file.txt"; uint64_t ino = 42; struct stat sb_old, sb_new; int fd1; expect_getattr(1, S_IFDIR | 0755); expect_lookup(RELPATH0, ino, 1, 2); expect_lookup(RELPATH1, ino, 1, 2); expect_open(ino, 0, 1); expect_unlink(1, RELPATH0, 0); fd1 = open(FULLPATH1, O_RDONLY); ASSERT_LE(0, fd1) << strerror(errno); ASSERT_EQ(0, fstat(fd1, &sb_old)) << strerror(errno); ASSERT_EQ(0, unlink(FULLPATH0)) << strerror(errno); ASSERT_EQ(0, fstat(fd1, &sb_new)) << strerror(errno); EXPECT_NE(sb_old.st_ctime, sb_new.st_ctime); EXPECT_EQ(1u, sb_new.st_nlink); leak(fd1); } /* * A successful unlink should clear the parent directory's attribute cache, * because the fuse daemon should update its mtime and ctime */ TEST_F(Unlink, parent_attr_cache) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; struct stat sb; uint64_t ino = 42; EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == FUSE_ROOT_ID); }, Eq(true)), _) ).Times(2) .WillRepeatedly(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFDIR | 0755; out.body.attr.attr_valid = UINT64_MAX; }))); /* Use nlink=2 so we don't get a FUSE_FORGET */ expect_lookup(RELPATH, ino, 1, 2); expect_unlink(1, RELPATH, 0); ASSERT_EQ(0, unlink(FULLPATH)) << strerror(errno); EXPECT_EQ(0, stat("mountpoint", &sb)) << strerror(errno); } TEST_F(Unlink, eperm) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; expect_getattr(1, S_IFDIR | 0755); expect_lookup(RELPATH, ino, 1); expect_unlink(1, RELPATH, EPERM); ASSERT_NE(0, unlink(FULLPATH)); ASSERT_EQ(EPERM, errno); } /* * Unlinking a file should expire its entry cache, even if it's multiply linked */ TEST_F(Unlink, entry_cache) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; expect_getattr(1, S_IFDIR | 0755); expect_lookup(RELPATH, ino, 2, 2); expect_unlink(1, RELPATH, 0); ASSERT_EQ(0, unlink(FULLPATH)) << strerror(errno); ASSERT_EQ(0, access(FULLPATH, F_OK)) << strerror(errno); } /* * Unlink a multiply-linked file. There should be no FUSE_FORGET because the * file is still linked. */ TEST_F(Unlink, multiply_linked) { const char FULLPATH0[] = "mountpoint/some_file.txt"; const char RELPATH0[] = "some_file.txt"; const char FULLPATH1[] = "mountpoint/other_file.txt"; const char RELPATH1[] = "other_file.txt"; uint64_t ino = 42; expect_getattr(1, S_IFDIR | 0755); expect_lookup(RELPATH0, ino, 1, 2); expect_unlink(1, RELPATH0, 0); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_FORGET && in.header.nodeid == ino); }, Eq(true)), _) ).Times(0); expect_lookup(RELPATH1, ino, 1, 1); ASSERT_EQ(0, unlink(FULLPATH0)) << strerror(errno); /* * The final syscall simply ensures that no FUSE_FORGET was ever sent, * by scheduling an arbitrary different operation after a FUSE_FORGET * would've been sent. */ ASSERT_EQ(0, access(FULLPATH1, F_OK)) << strerror(errno); } TEST_F(Unlink, ok) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; sem_t sem; ASSERT_EQ(0, sem_init(&sem, 0, 0)) << strerror(errno); expect_getattr(1, S_IFDIR | 0755); expect_lookup(RELPATH, ino, 1); expect_unlink(1, RELPATH, 0); expect_forget(ino, 1, &sem); ASSERT_EQ(0, unlink(FULLPATH)) << strerror(errno); sem_wait(&sem); sem_destroy(&sem); } /* Unlink an open file */ TEST_F(Unlink, open_but_deleted) { const char FULLPATH0[] = "mountpoint/some_file.txt"; const char RELPATH0[] = "some_file.txt"; const char FULLPATH1[] = "mountpoint/other_file.txt"; const char RELPATH1[] = "other_file.txt"; uint64_t ino = 42; int fd; expect_getattr(1, S_IFDIR | 0755); expect_lookup(RELPATH0, ino, 2); expect_open(ino, 0, 1); expect_unlink(1, RELPATH0, 0); expect_lookup(RELPATH1, ino, 1, 1); fd = open(FULLPATH0, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(0, unlink(FULLPATH0)) << strerror(errno); /* * The final syscall simply ensures that no FUSE_FORGET was ever sent, * by scheduling an arbitrary different operation after a FUSE_FORGET * would've been sent. */ ASSERT_EQ(0, access(FULLPATH1, F_OK)) << strerror(errno); leak(fd); } Index: head/tests/sys/fs/fusefs/utils.cc =================================================================== --- head/tests/sys/fs/fusefs/utils.cc (revision 350989) +++ head/tests/sys/fs/fusefs/utils.cc (revision 350990) @@ -1,593 +1,595 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include #include #include #include #include #include #include #include #include #include } #include #include "mockfs.hh" #include "utils.hh" using namespace testing; /* * The default max_write is set to this formula in libfuse, though * individual filesystems can lower it. The "- 4096" was added in * commit 154ffe2, with the commit message "fix". */ const uint32_t libfuse_max_write = 32 * getpagesize() + 0x1000 - 4096; /* * Set the default max_write to a distinct value from MAXPHYS to catch bugs * that confuse the two. */ const uint32_t default_max_write = MIN(libfuse_max_write, MAXPHYS / 2); /* Check that fusefs(4) is accessible and the current user can mount(2) */ void check_environment() { const char *devnode = "/dev/fuse"; const char *usermount_node = "vfs.usermount"; int usermount_val = 0; size_t usermount_size = sizeof(usermount_val); if (eaccess(devnode, R_OK | W_OK)) { if (errno == ENOENT) { GTEST_SKIP() << devnode << " does not exist"; } else if (errno == EACCES) { GTEST_SKIP() << devnode << " is not accessible by the current user"; } else { GTEST_SKIP() << strerror(errno); } } sysctlbyname(usermount_node, &usermount_val, &usermount_size, NULL, 0); if (geteuid() != 0 && !usermount_val) GTEST_SKIP() << "current user is not allowed to mount"; } class FuseEnv: public Environment { virtual void SetUp() { } }; void FuseTest::SetUp() { const char *maxbcachebuf_node = "vfs.maxbcachebuf"; const char *maxphys_node = "kern.maxphys"; int val = 0; size_t size = sizeof(val); /* * XXX check_environment should be called from FuseEnv::SetUp, but * can't due to https://github.com/google/googletest/issues/2189 */ check_environment(); if (IsSkipped()) return; ASSERT_EQ(0, sysctlbyname(maxbcachebuf_node, &val, &size, NULL, 0)) << strerror(errno); m_maxbcachebuf = val; ASSERT_EQ(0, sysctlbyname(maxphys_node, &val, &size, NULL, 0)) << strerror(errno); m_maxphys = val; try { m_mock = new MockFS(m_maxreadahead, m_allow_other, m_default_permissions, m_push_symlinks_in, m_ro, m_pm, m_init_flags, m_kernel_minor_version, m_maxwrite, m_async, m_noclusterr, m_time_gran, m_nointr); /* * FUSE_ACCESS is called almost universally. Expecting it in * each test case would be super-annoying. Instead, set a * default expectation for FUSE_ACCESS and return ENOSYS. * * Individual test cases can override this expectation since * googlemock evaluates expectations in LIFO order. */ EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_ACCESS); }, Eq(true)), _) ).Times(AnyNumber()) .WillRepeatedly(Invoke(ReturnErrno(ENOSYS))); /* * FUSE_BMAP is called for most test cases that read data. Set * a default expectation and return ENOSYS. * * Individual test cases can override this expectation since * googlemock evaluates expectations in LIFO order. */ EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_BMAP); }, Eq(true)), _) ).Times(AnyNumber()) .WillRepeatedly(Invoke(ReturnErrno(ENOSYS))); } catch (std::system_error err) { FAIL() << err.what(); } } void FuseTest::expect_access(uint64_t ino, mode_t access_mode, int error) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_ACCESS && in.header.nodeid == ino && in.body.access.mask == access_mode); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(error))); } void FuseTest::expect_destroy(int error) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_DESTROY); }, Eq(true)), _) ).WillOnce(Invoke( ReturnImmediate([&](auto in, auto& out) { m_mock->m_quit = true; out.header.len = sizeof(out.header); out.header.unique = in.header.unique; out.header.error = -error; }))); } void FuseTest::expect_flush(uint64_t ino, int times, ProcessMockerT r) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_FLUSH && in.header.nodeid == ino); }, Eq(true)), _) ).Times(times) .WillRepeatedly(Invoke(r)); } void FuseTest::expect_forget(uint64_t ino, uint64_t nlookup, sem_t *sem) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_FORGET && in.header.nodeid == ino && in.body.forget.nlookup == nlookup); }, Eq(true)), _) ).WillOnce(Invoke([=](auto in __unused, auto &out __unused) { if (sem != NULL) sem_post(sem); /* FUSE_FORGET has no response! */ })); } void FuseTest::expect_getattr(uint64_t ino, uint64_t size) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid out.body.attr.attr.mode = S_IFREG | 0644; out.body.attr.attr.size = size; out.body.attr.attr_valid = UINT64_MAX; }))); } void FuseTest::expect_lookup(const char *relpath, uint64_t ino, mode_t mode, uint64_t size, int times, uint64_t attr_valid, uid_t uid, gid_t gid) { EXPECT_LOOKUP(FUSE_ROOT_ID, relpath) .Times(times) .WillRepeatedly(Invoke( ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.attr.nlink = 1; out.body.entry.attr_valid = attr_valid; out.body.entry.attr.size = size; out.body.entry.attr.uid = uid; out.body.entry.attr.gid = gid; }))); } void FuseTest::expect_lookup_7_8(const char *relpath, uint64_t ino, mode_t mode, uint64_t size, int times, uint64_t attr_valid, uid_t uid, gid_t gid) { EXPECT_LOOKUP(FUSE_ROOT_ID, relpath) .Times(times) .WillRepeatedly(Invoke( ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry_7_8); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.attr.nlink = 1; out.body.entry.attr_valid = attr_valid; out.body.entry.attr.size = size; out.body.entry.attr.uid = uid; out.body.entry.attr.gid = gid; }))); } void FuseTest::expect_open(uint64_t ino, uint32_t flags, int times) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_OPEN && in.header.nodeid == ino); }, Eq(true)), _) ).Times(times) .WillRepeatedly(Invoke( ReturnImmediate([=](auto in __unused, auto& out) { out.header.len = sizeof(out.header); SET_OUT_HEADER_LEN(out, open); out.body.open.fh = FH; out.body.open.open_flags = flags; }))); } void FuseTest::expect_opendir(uint64_t ino) { /* opendir(3) calls fstatfs */ EXPECT_CALL(*m_mock, process( ResultOf([](auto in) { return (in.header.opcode == FUSE_STATFS); }, Eq(true)), _) ).WillRepeatedly(Invoke( ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, statfs); }))); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_OPENDIR && in.header.nodeid == ino); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { out.header.len = sizeof(out.header); SET_OUT_HEADER_LEN(out, open); out.body.open.fh = FH; }))); } void FuseTest::expect_read(uint64_t ino, uint64_t offset, uint64_t isize, uint64_t osize, const void *contents, int flags) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READ && in.header.nodeid == ino && in.body.read.fh == FH && in.body.read.offset == offset && in.body.read.size == isize && flags == -1 ? (in.body.read.flags == O_RDONLY || in.body.read.flags == O_RDWR) : in.body.read.flags == (uint32_t)flags); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { out.header.len = sizeof(struct fuse_out_header) + osize; memmove(out.body.bytes, contents, osize); }))).RetiresOnSaturation(); } void FuseTest::expect_readdir(uint64_t ino, uint64_t off, std::vector &ents) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_READDIR && in.header.nodeid == ino && in.body.readdir.fh == FH && in.body.readdir.offset == off); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnImmediate([=](auto in, auto& out) { struct fuse_dirent *fde = (struct fuse_dirent*)&(out.body); int i = 0; out.header.error = 0; out.header.len = 0; for (const auto& it: ents) { size_t entlen, entsize; fde->ino = it.d_fileno; fde->off = it.d_off; fde->type = it.d_type; fde->namelen = it.d_namlen; strncpy(fde->name, it.d_name, it.d_namlen); entlen = FUSE_NAME_OFFSET + fde->namelen; entsize = FUSE_DIRENT_SIZE(fde); /* * The FUSE protocol does not require zeroing out the * unused portion of the name. But it's a good * practice to prevent information disclosure to the * FUSE client, even though the client is usually the * kernel */ memset(fde->name + fde->namelen, 0, entsize - entlen); if (out.header.len + entsize > in.body.read.size) { printf("Overflow in readdir expectation: i=%d\n" , i); break; } out.header.len += entsize; fde = (struct fuse_dirent*) ((intmax_t*)fde + entsize / sizeof(intmax_t)); i++; } out.header.len += sizeof(out.header); }))); } void FuseTest::expect_release(uint64_t ino, uint64_t fh) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_RELEASE && in.header.nodeid == ino && in.body.release.fh == fh); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(0))); } void FuseTest::expect_releasedir(uint64_t ino, ProcessMockerT r) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_RELEASEDIR && in.header.nodeid == ino && in.body.release.fh == FH); }, Eq(true)), _) ).WillOnce(Invoke(r)); } void FuseTest::expect_unlink(uint64_t parent, const char *path, int error) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_UNLINK && 0 == strcmp(path, in.body.unlink) && in.header.nodeid == parent); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(error))); } void FuseTest::expect_write(uint64_t ino, uint64_t offset, uint64_t isize, uint64_t osize, uint32_t flags_set, uint32_t flags_unset, const void *contents) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *buf = (const char*)in.body.bytes + sizeof(struct fuse_write_in); bool pid_ok; uint32_t wf = in.body.write.write_flags; if (wf & FUSE_WRITE_CACHE) pid_ok = true; else pid_ok = (pid_t)in.header.pid == getpid(); return (in.header.opcode == FUSE_WRITE && in.header.nodeid == ino && in.body.write.fh == FH && in.body.write.offset == offset && in.body.write.size == isize && pid_ok && (wf & flags_set) == flags_set && (wf & flags_unset) == 0 && (in.body.write.flags == O_WRONLY || in.body.write.flags == O_RDWR) && 0 == bcmp(buf, contents, isize)); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, write); out.body.write.size = osize; }))); } void FuseTest::expect_write_7_8(uint64_t ino, uint64_t offset, uint64_t isize, uint64_t osize, const void *contents) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *buf = (const char*)in.body.bytes + FUSE_COMPAT_WRITE_IN_SIZE; bool pid_ok = (pid_t)in.header.pid == getpid(); return (in.header.opcode == FUSE_WRITE && in.header.nodeid == ino && in.body.write.fh == FH && in.body.write.offset == offset && in.body.write.size == isize && pid_ok && 0 == bcmp(buf, contents, isize)); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, write); out.body.write.size = osize; }))); } void get_unprivileged_id(uid_t *uid, gid_t *gid) { struct passwd *pw; struct group *gr; /* * First try "tests", Kyua's default unprivileged user. XXX after * GoogleTest gains a proper Kyua wrapper, get this with the Kyua API */ pw = getpwnam("tests"); if (pw == NULL) { /* Fall back to "nobody" */ pw = getpwnam("nobody"); } if (pw == NULL) GTEST_SKIP() << "Test requires an unprivileged user"; /* Use group "nobody", which is Kyua's default unprivileged group */ gr = getgrnam("nobody"); if (gr == NULL) GTEST_SKIP() << "Test requires an unprivileged group"; *uid = pw->pw_uid; *gid = gr->gr_gid; } void FuseTest::fork(bool drop_privs, int *child_status, std::function parent_func, std::function child_func) { sem_t *sem; int mprot = PROT_READ | PROT_WRITE; int mflags = MAP_ANON | MAP_SHARED; pid_t child; uid_t uid; gid_t gid; if (drop_privs) { get_unprivileged_id(&uid, &gid); if (IsSkipped()) return; } sem = (sem_t*)mmap(NULL, sizeof(*sem), mprot, mflags, -1, 0); ASSERT_NE(MAP_FAILED, sem) << strerror(errno); ASSERT_EQ(0, sem_init(sem, 1, 0)) << strerror(errno); if ((child = ::fork()) == 0) { /* In child */ int err = 0; if (sem_wait(sem)) { perror("sem_wait"); err = 1; goto out; } if (drop_privs && 0 != setegid(gid)) { perror("setegid"); err = 1; goto out; } if (drop_privs && 0 != setreuid(-1, uid)) { perror("setreuid"); err = 1; goto out; } err = child_func(); out: sem_destroy(sem); _exit(err); } else if (child > 0) { /* * In parent. Cleanup must happen here, because it's still * privileged. */ m_mock->m_child_pid = child; ASSERT_NO_FATAL_FAILURE(parent_func()); /* Signal the child process to go */ ASSERT_EQ(0, sem_post(sem)) << strerror(errno); ASSERT_LE(0, wait(child_status)) << strerror(errno); } else { FAIL() << strerror(errno); } munmap(sem, sizeof(*sem)); return; } static void usage(char* progname) { fprintf(stderr, "Usage: %s [-v]\n\t-v increase verbosity\n", progname); exit(2); } int main(int argc, char **argv) { int ch; FuseEnv *fuse_env = new FuseEnv; InitGoogleTest(&argc, argv); AddGlobalTestEnvironment(fuse_env); while ((ch = getopt(argc, argv, "v")) != -1) { switch (ch) { case 'v': verbosity++; break; default: usage(argv[0]); break; } } return (RUN_ALL_TESTS()); } Index: head/tests/sys/fs/fusefs/utils.hh =================================================================== --- head/tests/sys/fs/fusefs/utils.hh (revision 350989) +++ head/tests/sys/fs/fusefs/utils.hh (revision 350990) @@ -1,236 +1,238 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ struct _sem; typedef struct _sem sem_t; struct _dirdesc; typedef struct _dirdesc DIR; /* Nanoseconds to sleep, for tests that must */ #define NAP_NS (100'000'000) void get_unprivileged_id(uid_t *uid, gid_t *gid); inline void nap() { usleep(NAP_NS / 1000); } extern const uint32_t libfuse_max_write; extern const uint32_t default_max_write; class FuseTest : public ::testing::Test { protected: uint32_t m_maxreadahead; uint32_t m_maxwrite; uint32_t m_init_flags; bool m_allow_other; bool m_default_permissions; uint32_t m_kernel_minor_version; enum poll_method m_pm; bool m_push_symlinks_in; bool m_ro; bool m_async; bool m_noclusterr; bool m_nointr; unsigned m_time_gran; MockFS *m_mock = NULL; const static uint64_t FH = 0xdeadbeef1a7ebabe; public: int m_maxbcachebuf; int m_maxphys; FuseTest(): m_maxreadahead(0), m_maxwrite(default_max_write), m_init_flags(0), m_allow_other(false), m_default_permissions(false), m_kernel_minor_version(FUSE_KERNEL_MINOR_VERSION), m_pm(BLOCKING), m_push_symlinks_in(false), m_ro(false), m_async(false), m_noclusterr(false), m_nointr(false), m_time_gran(1) {} virtual void SetUp(); virtual void TearDown() { if (m_mock) delete m_mock; } /* * Create an expectation that FUSE_ACCESS will be called once for the * given inode with the given access_mode, returning the given errno */ void expect_access(uint64_t ino, mode_t access_mode, int error); /* Expect FUSE_DESTROY and shutdown the daemon */ void expect_destroy(int error); /* * Create an expectation that FUSE_FLUSH will be called times times for * the given inode */ void expect_flush(uint64_t ino, int times, ProcessMockerT r); /* * Create an expectation that FUSE_FORGET will be called for the given * inode. There will be no response. If sem is provided, it will be * posted after the operation is received by the daemon. */ void expect_forget(uint64_t ino, uint64_t nlookup, sem_t *sem = NULL); /* * Create an expectation that FUSE_GETATTR will be called for the given * inode any number of times. It will respond with a few basic * attributes, like the given size and the mode S_IFREG | 0644 */ void expect_getattr(uint64_t ino, uint64_t size); /* * Create an expectation that FUSE_LOOKUP will be called for the given * path exactly times times and cache validity period. It will respond * with inode ino, mode mode, filesize size. */ void expect_lookup(const char *relpath, uint64_t ino, mode_t mode, uint64_t size, int times, uint64_t attr_valid = UINT64_MAX, uid_t uid = 0, gid_t gid = 0); /* The protocol 7.8 version of expect_lookup */ void expect_lookup_7_8(const char *relpath, uint64_t ino, mode_t mode, uint64_t size, int times, uint64_t attr_valid = UINT64_MAX, uid_t uid = 0, gid_t gid = 0); /* * Create an expectation that FUSE_OPEN will be called for the given * inode exactly times times. It will return with open_flags flags and * file handle FH. */ void expect_open(uint64_t ino, uint32_t flags, int times); /* * Create an expectation that FUSE_OPENDIR will be called exactly once * for inode ino. */ void expect_opendir(uint64_t ino); /* * Create an expectation that FUSE_READ will be called exactly once for * the given inode, at offset offset and with size isize. It will * return the first osize bytes from contents * * Protocol 7.8 tests can use this same expectation method because * nothing currently validates the size of the fuse_read_in struct. */ void expect_read(uint64_t ino, uint64_t offset, uint64_t isize, uint64_t osize, const void *contents, int flags = -1); /* * Create an expectation that FUSE_READIR will be called any number of * times on the given ino with the given offset, returning (by copy) * the provided entries */ void expect_readdir(uint64_t ino, uint64_t off, std::vector &ents); /* * Create an expectation that FUSE_RELEASE will be called exactly once * for the given inode and filehandle, returning success */ void expect_release(uint64_t ino, uint64_t fh); /* * Create an expectation that FUSE_RELEASEDIR will be called exactly * once for the given inode */ void expect_releasedir(uint64_t ino, ProcessMockerT r); /* * Create an expectation that FUSE_UNLINK will be called exactly once * for the given path, returning an errno */ void expect_unlink(uint64_t parent, const char *path, int error); /* * Create an expectation that FUSE_WRITE will be called exactly once * for the given inode, at offset offset, with size isize and buffer * contents. Any flags present in flags_set must be set, and any * present in flags_unset must not be set. Other flags are don't care. * It will return osize. */ void expect_write(uint64_t ino, uint64_t offset, uint64_t isize, uint64_t osize, uint32_t flags_set, uint32_t flags_unset, const void *contents); /* Protocol 7.8 version of expect_write */ void expect_write_7_8(uint64_t ino, uint64_t offset, uint64_t isize, uint64_t osize, const void *contents); /* * Helper that runs code in a child process. * * First, parent_func runs in the parent process. * Then, child_func runs in the child process, dropping privileges if * desired. * Finally, fusetest_fork returns. * * # Returns * * fusetest_fork may SKIP the test, which the caller should detect with * the IsSkipped() method. If not, then the child's exit status will * be returned in status. */ void fork(bool drop_privs, int *status, std::function parent_func, std::function child_func); /* * Deliberately leak a file descriptor. * * Closing a file descriptor on fusefs would cause the server to * receive FUSE_CLOSE and possibly FUSE_INACTIVE. Handling those * operations would needlessly complicate most tests. So most tests * deliberately leak the file descriptors instead. This method serves * to document the leakage, and provide a single point of suppression * for static analyzers. */ static void leak(int fd __unused) {} /* * Deliberately leak a DIR* pointer * * See comments for FuseTest::leak */ static void leakdir(DIR* dirp __unused) {} }; Property changes on: head/tests/sys/fs/fusefs/utils.hh ___________________________________________________________________ Added: svn:keywords ## -0,0 +1 ## +FreeBSD=%H \ No newline at end of property Index: head/tests/sys/fs/fusefs/write.cc =================================================================== --- head/tests/sys/fs/fusefs/write.cc (revision 350989) +++ head/tests/sys/fs/fusefs/write.cc (revision 350990) @@ -1,1309 +1,1311 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ extern "C" { #include #include #include #include #include #include #include #include #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class Write: public FuseTest { public: static sig_atomic_t s_sigxfsz; void SetUp() { s_sigxfsz = 0; FuseTest::SetUp(); } void TearDown() { struct sigaction sa; bzero(&sa, sizeof(sa)); sa.sa_handler = SIG_DFL; sigaction(SIGXFSZ, &sa, NULL); FuseTest::TearDown(); } void expect_lookup(const char *relpath, uint64_t ino, uint64_t size) { FuseTest::expect_lookup(relpath, ino, S_IFREG | 0644, size, 1); } void expect_release(uint64_t ino, ProcessMockerT r) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_RELEASE && in.header.nodeid == ino); }, Eq(true)), _) ).WillRepeatedly(Invoke(r)); } void expect_write(uint64_t ino, uint64_t offset, uint64_t isize, uint64_t osize, const void *contents) { FuseTest::expect_write(ino, offset, isize, osize, 0, 0, contents); } /* Expect a write that may or may not come, depending on the cache mode */ void maybe_expect_write(uint64_t ino, uint64_t offset, uint64_t size, const void *contents) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *buf = (const char*)in.body.bytes + sizeof(struct fuse_write_in); return (in.header.opcode == FUSE_WRITE && in.header.nodeid == ino && in.body.write.offset == offset && in.body.write.size == size && 0 == bcmp(buf, contents, size)); }, Eq(true)), _) ).Times(AtMost(1)) .WillRepeatedly(Invoke( ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, write); out.body.write.size = size; }) )); } }; sig_atomic_t Write::s_sigxfsz = 0; class Write_7_8: public FuseTest { public: virtual void SetUp() { m_kernel_minor_version = 8; FuseTest::SetUp(); } void expect_lookup(const char *relpath, uint64_t ino, uint64_t size) { FuseTest::expect_lookup_7_8(relpath, ino, S_IFREG | 0644, size, 1); } }; class AioWrite: public Write { virtual void SetUp() { const char *node = "vfs.aio.enable_unsafe"; int val = 0; size_t size = sizeof(val); FuseTest::SetUp(); ASSERT_EQ(0, sysctlbyname(node, &val, &size, NULL, 0)) << strerror(errno); if (!val) GTEST_SKIP() << "vfs.aio.enable_unsafe must be set for this test"; } }; /* Tests for the writeback cache mode */ class WriteBack: public Write { public: virtual void SetUp() { m_init_flags |= FUSE_WRITEBACK_CACHE; FuseTest::SetUp(); if (IsSkipped()) return; } void expect_write(uint64_t ino, uint64_t offset, uint64_t isize, uint64_t osize, const void *contents) { FuseTest::expect_write(ino, offset, isize, osize, FUSE_WRITE_CACHE, 0, contents); } }; class WriteBackAsync: public WriteBack { public: virtual void SetUp() { m_async = true; WriteBack::SetUp(); } }; class TimeGran: public WriteBackAsync, public WithParamInterface { public: virtual void SetUp() { m_time_gran = 1 << GetParam(); WriteBackAsync::SetUp(); } }; /* Tests for clustered writes with WriteBack cacheing */ class WriteCluster: public WriteBack { public: virtual void SetUp() { m_async = true; m_maxwrite = m_maxphys; WriteBack::SetUp(); if (m_maxphys < 2 * DFLTPHYS) GTEST_SKIP() << "MAXPHYS must be at least twice DFLTPHYS" << " for this test"; if (m_maxphys < 2 * m_maxbcachebuf) GTEST_SKIP() << "MAXPHYS must be at least twice maxbcachebuf" << " for this test"; } }; void sigxfsz_handler(int __unused sig) { Write::s_sigxfsz = 1; } /* AIO writes need to set the header's pid field correctly */ /* https://bugs.freebsd.org/bugzilla/show_bug.cgi?id=236379 */ TEST_F(AioWrite, DISABLED_aio_write) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; uint64_t offset = 4096; int fd; ssize_t bufsize = strlen(CONTENTS); struct aiocb iocb, *piocb; expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); expect_write(ino, offset, bufsize, bufsize, CONTENTS); fd = open(FULLPATH, O_WRONLY); EXPECT_LE(0, fd) << strerror(errno); iocb.aio_nbytes = bufsize; iocb.aio_fildes = fd; iocb.aio_buf = __DECONST(void *, CONTENTS); iocb.aio_offset = offset; iocb.aio_sigevent.sigev_notify = SIGEV_NONE; ASSERT_EQ(0, aio_write(&iocb)) << strerror(errno); ASSERT_EQ(bufsize, aio_waitcomplete(&piocb, NULL)) << strerror(errno); leak(fd); } /* * When a file is opened with O_APPEND, we should forward that flag to * FUSE_OPEN (tested by Open.o_append) but still attempt to calculate the * offset internally. That way we'll work both with filesystems that * understand O_APPEND (and ignore the offset) and filesystems that don't (and * simply use the offset). * * Note that verifying the O_APPEND flag in FUSE_OPEN is done in the * Open.o_append test. */ TEST_F(Write, append) { const ssize_t BUFSIZE = 9; const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char CONTENTS[BUFSIZE] = "abcdefgh"; uint64_t ino = 42; /* * Set offset to a maxbcachebuf boundary so we don't need to RMW when * using writeback caching */ uint64_t initial_offset = m_maxbcachebuf; int fd; expect_lookup(RELPATH, ino, initial_offset); expect_open(ino, 0, 1); expect_write(ino, initial_offset, BUFSIZE, BUFSIZE, CONTENTS); /* Must open O_RDWR or fuse(4) implicitly sets direct_io */ fd = open(FULLPATH, O_RDWR | O_APPEND); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(BUFSIZE, write(fd, CONTENTS, BUFSIZE)) << strerror(errno); leak(fd); } /* If a file is cached, then appending to the end should not cause a read */ TEST_F(Write, append_to_cached) { const ssize_t BUFSIZE = 9; const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; char *oldcontents, *oldbuf; const char CONTENTS[BUFSIZE] = "abcdefgh"; uint64_t ino = 42; /* * Set offset in between maxbcachebuf boundary to test buffer handling */ uint64_t oldsize = m_maxbcachebuf / 2; int fd; oldcontents = (char*)calloc(1, oldsize); ASSERT_NE(nullptr, oldcontents) << strerror(errno); oldbuf = (char*)malloc(oldsize); ASSERT_NE(nullptr, oldbuf) << strerror(errno); expect_lookup(RELPATH, ino, oldsize); expect_open(ino, 0, 1); expect_read(ino, 0, oldsize, oldsize, oldcontents); maybe_expect_write(ino, oldsize, BUFSIZE, CONTENTS); /* Must open O_RDWR or fuse(4) implicitly sets direct_io */ fd = open(FULLPATH, O_RDWR | O_APPEND); EXPECT_LE(0, fd) << strerror(errno); /* Read the old data into the cache */ ASSERT_EQ((ssize_t)oldsize, read(fd, oldbuf, oldsize)) << strerror(errno); /* Write the new data. There should be no more read operations */ ASSERT_EQ(BUFSIZE, write(fd, CONTENTS, BUFSIZE)) << strerror(errno); leak(fd); } TEST_F(Write, append_direct_io) { const ssize_t BUFSIZE = 9; const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char CONTENTS[BUFSIZE] = "abcdefgh"; uint64_t ino = 42; uint64_t initial_offset = 4096; int fd; expect_lookup(RELPATH, ino, initial_offset); expect_open(ino, FOPEN_DIRECT_IO, 1); expect_write(ino, initial_offset, BUFSIZE, BUFSIZE, CONTENTS); fd = open(FULLPATH, O_WRONLY | O_APPEND); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(BUFSIZE, write(fd, CONTENTS, BUFSIZE)) << strerror(errno); leak(fd); } /* A direct write should evict any overlapping cached data */ TEST_F(Write, direct_io_evicts_cache) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char CONTENTS0[] = "abcdefgh"; const char CONTENTS1[] = "ijklmnop"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS0) + 1; char readbuf[bufsize]; expect_lookup(RELPATH, ino, bufsize); expect_open(ino, 0, 1); expect_read(ino, 0, bufsize, bufsize, CONTENTS0); expect_write(ino, 0, bufsize, bufsize, CONTENTS1); fd = open(FULLPATH, O_RDWR); EXPECT_LE(0, fd) << strerror(errno); // Prime cache ASSERT_EQ(bufsize, read(fd, readbuf, bufsize)) << strerror(errno); // Write directly, evicting cache ASSERT_EQ(0, fcntl(fd, F_SETFL, O_DIRECT)) << strerror(errno); ASSERT_EQ(0, lseek(fd, 0, SEEK_SET)) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS1, bufsize)) << strerror(errno); // Read again. Cache should be bypassed expect_read(ino, 0, bufsize, bufsize, CONTENTS1); ASSERT_EQ(0, fcntl(fd, F_SETFL, 0)) << strerror(errno); ASSERT_EQ(0, lseek(fd, 0, SEEK_SET)) << strerror(errno); ASSERT_EQ(bufsize, read(fd, readbuf, bufsize)) << strerror(errno); ASSERT_STREQ(readbuf, CONTENTS1); leak(fd); } /* * If the server doesn't return FOPEN_DIRECT_IO during FUSE_OPEN, then it's not * allowed to return a short write for that file handle. However, if it does * then we should still do our darndest to handle it by resending the unwritten * portion. */ TEST_F(Write, indirect_io_short_write) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefghijklmnop"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); ssize_t bufsize0 = 11; ssize_t bufsize1 = strlen(CONTENTS) - bufsize0; const char *contents1 = CONTENTS + bufsize0; expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); expect_write(ino, 0, bufsize, bufsize0, CONTENTS); expect_write(ino, bufsize0, bufsize1, bufsize1, contents1); fd = open(FULLPATH, O_WRONLY); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); leak(fd); } /* * When the direct_io option is used, filesystems are allowed to write less * data than requested. We should return the short write to userland. */ TEST_F(Write, direct_io_short_write) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefghijklmnop"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); ssize_t halfbufsize = bufsize / 2; expect_lookup(RELPATH, ino, 0); expect_open(ino, FOPEN_DIRECT_IO, 1); expect_write(ino, 0, bufsize, halfbufsize, CONTENTS); fd = open(FULLPATH, O_WRONLY); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(halfbufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); leak(fd); } /* * An insidious edge case: the filesystem returns a short write, and the * difference between what we requested and what it actually wrote crosses an * iov element boundary */ TEST_F(Write, direct_io_short_write_iov) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS0 = "abcdefgh"; const char *CONTENTS1 = "ijklmnop"; const char *EXPECTED0 = "abcdefghijklmnop"; uint64_t ino = 42; int fd; ssize_t size0 = strlen(CONTENTS0) - 1; ssize_t size1 = strlen(CONTENTS1) + 1; ssize_t totalsize = size0 + size1; struct iovec iov[2]; expect_lookup(RELPATH, ino, 0); expect_open(ino, FOPEN_DIRECT_IO, 1); expect_write(ino, 0, totalsize, size0, EXPECTED0); fd = open(FULLPATH, O_WRONLY); EXPECT_LE(0, fd) << strerror(errno); iov[0].iov_base = __DECONST(void*, CONTENTS0); iov[0].iov_len = strlen(CONTENTS0); iov[1].iov_base = __DECONST(void*, CONTENTS1); iov[1].iov_len = strlen(CONTENTS1); ASSERT_EQ(size0, writev(fd, iov, 2)) << strerror(errno); leak(fd); } /* fusefs should respect RLIMIT_FSIZE */ TEST_F(Write, rlimit_fsize) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; struct rlimit rl; ssize_t bufsize = strlen(CONTENTS); off_t offset = 1'000'000'000; uint64_t ino = 42; int fd; expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); rl.rlim_cur = offset; rl.rlim_max = 10 * offset; ASSERT_EQ(0, setrlimit(RLIMIT_FSIZE, &rl)) << strerror(errno); ASSERT_NE(SIG_ERR, signal(SIGXFSZ, sigxfsz_handler)) << strerror(errno); fd = open(FULLPATH, O_WRONLY); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(-1, pwrite(fd, CONTENTS, bufsize, offset)); EXPECT_EQ(EFBIG, errno); EXPECT_EQ(1, s_sigxfsz); leak(fd); } /* * A short read indicates EOF. Test that nothing bad happens if we get EOF * during the R of a RMW operation. */ TEST_F(Write, eof_during_rmw) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; const char *INITIAL = "XXXXXXXXXX"; uint64_t ino = 42; uint64_t offset = 1; ssize_t bufsize = strlen(CONTENTS); off_t orig_fsize = 10; off_t truncated_fsize = 5; off_t final_fsize = bufsize; int fd; FuseTest::expect_lookup(RELPATH, ino, S_IFREG | 0644, orig_fsize, 1); expect_open(ino, 0, 1); expect_read(ino, 0, orig_fsize, truncated_fsize, INITIAL, O_RDWR); expect_getattr(ino, truncated_fsize); expect_read(ino, 0, final_fsize, final_fsize, INITIAL, O_RDWR); maybe_expect_write(ino, offset, bufsize, CONTENTS); fd = open(FULLPATH, O_RDWR); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, pwrite(fd, CONTENTS, bufsize, offset)) << strerror(errno); leak(fd); } /* * If the kernel cannot be sure which uid, gid, or pid was responsible for a * write, then it must set the FUSE_WRITE_CACHE bit */ /* https://bugs.freebsd.org/bugzilla/show_bug.cgi?id=236378 */ TEST_F(Write, mmap) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); void *p; uint64_t offset = 10; size_t len; void *zeros, *expected; len = getpagesize(); zeros = calloc(1, len); ASSERT_NE(nullptr, zeros); expected = calloc(1, len); ASSERT_NE(nullptr, expected); memmove((uint8_t*)expected + offset, CONTENTS, bufsize); expect_lookup(RELPATH, ino, len); expect_open(ino, 0, 1); expect_read(ino, 0, len, len, zeros); /* * Writes from the pager may or may not be associated with the correct * pid, so they must set FUSE_WRITE_CACHE. */ FuseTest::expect_write(ino, 0, len, len, FUSE_WRITE_CACHE, 0, expected); expect_flush(ino, 1, ReturnErrno(0)); expect_release(ino, ReturnErrno(0)); fd = open(FULLPATH, O_RDWR); EXPECT_LE(0, fd) << strerror(errno); p = mmap(NULL, len, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0); ASSERT_NE(MAP_FAILED, p) << strerror(errno); memmove((uint8_t*)p + offset, CONTENTS, bufsize); ASSERT_EQ(0, munmap(p, len)) << strerror(errno); close(fd); // Write mmap'd data on close free(expected); free(zeros); } TEST_F(Write, pwrite) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; uint64_t offset = m_maxbcachebuf; int fd; ssize_t bufsize = strlen(CONTENTS); expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); expect_write(ino, offset, bufsize, bufsize, CONTENTS); fd = open(FULLPATH, O_WRONLY); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, pwrite(fd, CONTENTS, bufsize, offset)) << strerror(errno); leak(fd); } /* Writing a file should update its cached mtime and ctime */ TEST_F(Write, timestamps) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; ssize_t bufsize = strlen(CONTENTS); uint64_t ino = 42; struct stat sb0, sb1; int fd; expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); maybe_expect_write(ino, 0, bufsize, CONTENTS); fd = open(FULLPATH, O_RDWR); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(0, fstat(fd, &sb0)) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); nap(); ASSERT_EQ(0, fstat(fd, &sb1)) << strerror(errno); EXPECT_EQ(sb0.st_atime, sb1.st_atime); EXPECT_NE(sb0.st_mtime, sb1.st_mtime); EXPECT_NE(sb0.st_ctime, sb1.st_ctime); } TEST_F(Write, write) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); expect_write(ino, 0, bufsize, bufsize, CONTENTS); fd = open(FULLPATH, O_WRONLY); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); leak(fd); } /* fuse(4) should not issue writes of greater size than the daemon requests */ TEST_F(Write, write_large) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; int *contents; uint64_t ino = 42; int fd; ssize_t halfbufsize, bufsize; halfbufsize = m_mock->m_maxwrite; bufsize = halfbufsize * 2; contents = (int*)malloc(bufsize); ASSERT_NE(nullptr, contents); for (int i = 0; i < (int)bufsize / (int)sizeof(i); i++) { contents[i] = i; } expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); maybe_expect_write(ino, 0, halfbufsize, contents); maybe_expect_write(ino, halfbufsize, halfbufsize, &contents[halfbufsize / sizeof(int)]); fd = open(FULLPATH, O_WRONLY); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, contents, bufsize)) << strerror(errno); leak(fd); free(contents); } TEST_F(Write, write_nothing) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = ""; uint64_t ino = 42; int fd; ssize_t bufsize = 0; expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); fd = open(FULLPATH, O_WRONLY); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); leak(fd); } TEST_F(Write_7_8, write) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); expect_write_7_8(ino, 0, bufsize, bufsize, CONTENTS); fd = open(FULLPATH, O_WRONLY); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); leak(fd); } /* In writeback mode, dirty data should be written on close */ TEST_F(WriteBackAsync, close) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); expect_write(ino, 0, bufsize, bufsize, CONTENTS); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_SETATTR); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; // Must match nodeid }))); expect_flush(ino, 1, ReturnErrno(0)); expect_release(ino, ReturnErrno(0)); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); close(fd); } /* In writeback mode, adjacent writes will be clustered together */ TEST_F(WriteCluster, clustering) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int i, fd; void *wbuf, *wbuf2x; ssize_t bufsize = m_maxbcachebuf; off_t filesize = 5 * bufsize; wbuf = malloc(bufsize); ASSERT_NE(nullptr, wbuf) << strerror(errno); memset(wbuf, 'X', bufsize); wbuf2x = malloc(2 * bufsize); ASSERT_NE(nullptr, wbuf2x) << strerror(errno); memset(wbuf2x, 'X', 2 * bufsize); expect_lookup(RELPATH, ino, filesize); expect_open(ino, 0, 1); /* * Writes of bufsize-bytes each should be clustered into greater sizes. * The amount of clustering is adaptive, so the first write actually * issued will be 2x bufsize and subsequent writes may be larger */ expect_write(ino, 0, 2 * bufsize, 2 * bufsize, wbuf2x); expect_write(ino, 2 * bufsize, 2 * bufsize, 2 * bufsize, wbuf2x); expect_flush(ino, 1, ReturnErrno(0)); expect_release(ino, ReturnErrno(0)); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); for (i = 0; i < 4; i++) { ASSERT_EQ(bufsize, write(fd, wbuf, bufsize)) << strerror(errno); } close(fd); } /* * When clustering writes, an I/O error to any of the cluster's children should * not panic the system on unmount */ /* * Disabled because it panics. * https://bugs.freebsd.org/bugzilla/show_bug.cgi?id=238565 */ TEST_F(WriteCluster, DISABLED_cluster_write_err) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int i, fd; void *wbuf; ssize_t bufsize = m_maxbcachebuf; off_t filesize = 4 * bufsize; wbuf = malloc(bufsize); ASSERT_NE(nullptr, wbuf) << strerror(errno); memset(wbuf, 'X', bufsize); expect_lookup(RELPATH, ino, filesize); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_WRITE); }, Eq(true)), _) ).WillRepeatedly(Invoke(ReturnErrno(EIO))); expect_flush(ino, 1, ReturnErrno(0)); expect_release(ino, ReturnErrno(0)); fd = open(FULLPATH, O_RDWR); ASSERT_LE(0, fd) << strerror(errno); for (i = 0; i < 3; i++) { ASSERT_EQ(bufsize, write(fd, wbuf, bufsize)) << strerror(errno); } close(fd); } /* * In writeback mode, writes to an O_WRONLY file could trigger reads from the * server. The FUSE protocol explicitly allows that. */ TEST_F(WriteBack, rmw) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; const char *INITIAL = "XXXXXXXXXX"; uint64_t ino = 42; uint64_t offset = 1; off_t fsize = 10; int fd; ssize_t bufsize = strlen(CONTENTS); FuseTest::expect_lookup(RELPATH, ino, S_IFREG | 0644, fsize, 1); expect_open(ino, 0, 1); expect_read(ino, 0, fsize, fsize, INITIAL, O_WRONLY); maybe_expect_write(ino, offset, bufsize, CONTENTS); fd = open(FULLPATH, O_WRONLY); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, pwrite(fd, CONTENTS, bufsize, offset)) << strerror(errno); leak(fd); } /* * Without direct_io, writes should be committed to cache */ TEST_F(WriteBack, cache) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); char readbuf[bufsize]; expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); expect_write(ino, 0, bufsize, bufsize, CONTENTS); fd = open(FULLPATH, O_RDWR); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); /* * A subsequent read should be serviced by cache, without querying the * filesystem daemon */ ASSERT_EQ(0, lseek(fd, 0, SEEK_SET)) << strerror(errno); ASSERT_EQ(bufsize, read(fd, readbuf, bufsize)) << strerror(errno); leak(fd); } /* * With O_DIRECT, writes should be not committed to cache. Admittedly this is * an odd test, because it would be unusual to use O_DIRECT for writes but not * reads. */ TEST_F(WriteBack, o_direct) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); char readbuf[bufsize]; expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); FuseTest::expect_write(ino, 0, bufsize, bufsize, 0, FUSE_WRITE_CACHE, CONTENTS); expect_read(ino, 0, bufsize, bufsize, CONTENTS); fd = open(FULLPATH, O_RDWR | O_DIRECT); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); /* A subsequent read must query the daemon because cache is empty */ ASSERT_EQ(0, lseek(fd, 0, SEEK_SET)) << strerror(errno); ASSERT_EQ(0, fcntl(fd, F_SETFL, 0)) << strerror(errno); ASSERT_EQ(bufsize, read(fd, readbuf, bufsize)) << strerror(errno); leak(fd); } /* * When mounted with -o async, the writeback cache mode should delay writes */ TEST_F(WriteBackAsync, delay) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); /* Write should be cached, but FUSE_WRITE shouldn't be sent */ EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_WRITE); }, Eq(true)), _) ).Times(0); fd = open(FULLPATH, O_RDWR); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); /* Don't close the file because that would flush the cache */ } /* * A direct write should not evict dirty cached data from outside of its own * byte range. */ TEST_F(WriteBackAsync, direct_io_ignores_unrelated_cached) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char CONTENTS0[] = "abcdefgh"; const char CONTENTS1[] = "ijklmnop"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS0) + 1; ssize_t fsize = 2 * m_maxbcachebuf; char readbuf[bufsize]; void *zeros; zeros = calloc(1, m_maxbcachebuf); ASSERT_NE(nullptr, zeros); expect_lookup(RELPATH, ino, fsize); expect_open(ino, 0, 1); expect_read(ino, 0, m_maxbcachebuf, m_maxbcachebuf, zeros); FuseTest::expect_write(ino, m_maxbcachebuf, bufsize, bufsize, 0, 0, CONTENTS1); fd = open(FULLPATH, O_RDWR); EXPECT_LE(0, fd) << strerror(errno); // Cache first block with dirty data. This will entail first reading // the existing data. ASSERT_EQ(bufsize, pwrite(fd, CONTENTS0, bufsize, 0)) << strerror(errno); // Write directly to second block ASSERT_EQ(0, fcntl(fd, F_SETFL, O_DIRECT)) << strerror(errno); ASSERT_EQ(bufsize, pwrite(fd, CONTENTS1, bufsize, m_maxbcachebuf)) << strerror(errno); // Read from the first block again. Should be serviced by cache. ASSERT_EQ(0, fcntl(fd, F_SETFL, 0)) << strerror(errno); ASSERT_EQ(bufsize, pread(fd, readbuf, bufsize, 0)) << strerror(errno); ASSERT_STREQ(readbuf, CONTENTS0); leak(fd); free(zeros); } /* * If a direct io write partially overlaps one or two blocks of dirty cached * data, No dirty data should be lost. Admittedly this is a weird test, * because it would be unusual to use O_DIRECT and the writeback cache. */ TEST_F(WriteBackAsync, direct_io_partially_overlaps_cached_block) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; uint64_t ino = 42; int fd; off_t bs = m_maxbcachebuf; ssize_t fsize = 3 * bs; void *readbuf, *zeros, *ones, *zeroones, *onezeros; readbuf = malloc(bs); ASSERT_NE(nullptr, readbuf) << strerror(errno); zeros = calloc(1, 3 * bs); ASSERT_NE(nullptr, zeros); ones = calloc(1, 2 * bs); ASSERT_NE(nullptr, ones); memset(ones, 1, 2 * bs); zeroones = calloc(1, bs); ASSERT_NE(nullptr, zeroones); memset((uint8_t*)zeroones + bs / 2, 1, bs / 2); onezeros = calloc(1, bs); ASSERT_NE(nullptr, onezeros); memset(onezeros, 1, bs / 2); expect_lookup(RELPATH, ino, fsize); expect_open(ino, 0, 1); fd = open(FULLPATH, O_RDWR); EXPECT_LE(0, fd) << strerror(errno); /* Cache first and third blocks with dirty data. */ ASSERT_EQ(3 * bs, pwrite(fd, zeros, 3 * bs, 0)) << strerror(errno); /* * Write directly to all three blocks. The partially written blocks * will be flushed because they're dirty. */ FuseTest::expect_write(ino, 0, bs, bs, 0, 0, zeros); FuseTest::expect_write(ino, 2 * bs, bs, bs, 0, 0, zeros); /* The direct write is split in two because of the m_maxwrite value */ FuseTest::expect_write(ino, bs / 2, bs, bs, 0, 0, ones); FuseTest::expect_write(ino, 3 * bs / 2, bs, bs, 0, 0, ones); ASSERT_EQ(0, fcntl(fd, F_SETFL, O_DIRECT)) << strerror(errno); ASSERT_EQ(2 * bs, pwrite(fd, ones, 2 * bs, bs / 2)) << strerror(errno); /* * Read from both the valid and invalid portions of the first and third * blocks again. This will entail FUSE_READ operations because these * blocks were invalidated by the direct write. */ expect_read(ino, 0, bs, bs, zeroones); expect_read(ino, 2 * bs, bs, bs, onezeros); ASSERT_EQ(0, fcntl(fd, F_SETFL, 0)) << strerror(errno); ASSERT_EQ(bs / 2, pread(fd, readbuf, bs / 2, 0)) << strerror(errno); EXPECT_EQ(0, memcmp(zeros, readbuf, bs / 2)); ASSERT_EQ(bs / 2, pread(fd, readbuf, bs / 2, 5 * bs / 2)) << strerror(errno); EXPECT_EQ(0, memcmp(zeros, readbuf, bs / 2)); ASSERT_EQ(bs / 2, pread(fd, readbuf, bs / 2, bs / 2)) << strerror(errno); EXPECT_EQ(0, memcmp(ones, readbuf, bs / 2)); ASSERT_EQ(bs / 2, pread(fd, readbuf, bs / 2, 2 * bs)) << strerror(errno); EXPECT_EQ(0, memcmp(ones, readbuf, bs / 2)); leak(fd); free(zeroones); free(onezeros); free(ones); free(zeros); free(readbuf); } /* * In WriteBack mode, writes may be cached beyond what the server thinks is the * EOF. In this case, a short read at EOF should _not_ cause fusefs to update * the file's size. */ TEST_F(WriteBackAsync, eof) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS0 = "abcdefgh"; const char *CONTENTS1 = "ijklmnop"; uint64_t ino = 42; int fd; off_t offset = m_maxbcachebuf; ssize_t wbufsize = strlen(CONTENTS1); off_t old_filesize = (off_t)strlen(CONTENTS0); ssize_t rbufsize = 2 * old_filesize; char readbuf[rbufsize]; size_t holesize = rbufsize - old_filesize; char hole[holesize]; struct stat sb; ssize_t r; expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); expect_read(ino, 0, m_maxbcachebuf, old_filesize, CONTENTS0); fd = open(FULLPATH, O_RDWR); EXPECT_LE(0, fd) << strerror(errno); /* Write and cache data beyond EOF */ ASSERT_EQ(wbufsize, pwrite(fd, CONTENTS1, wbufsize, offset)) << strerror(errno); /* Read from the old EOF */ r = pread(fd, readbuf, rbufsize, 0); ASSERT_LE(0, r) << strerror(errno); EXPECT_EQ(rbufsize, r) << "read should've synthesized a hole"; EXPECT_EQ(0, memcmp(CONTENTS0, readbuf, old_filesize)); bzero(hole, holesize); EXPECT_EQ(0, memcmp(hole, readbuf + old_filesize, holesize)); /* The file's size should still be what was established by pwrite */ ASSERT_EQ(0, fstat(fd, &sb)) << strerror(errno); EXPECT_EQ(offset + wbufsize, sb.st_size); leak(fd); } /* * When a file has dirty writes that haven't been flushed, the server's notion * of its mtime and ctime will be wrong. The kernel should ignore those if it * gets them from a FUSE_GETATTR before flushing. */ TEST_F(WriteBackAsync, timestamps) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; ssize_t bufsize = strlen(CONTENTS); uint64_t ino = 42; uint64_t attr_valid = 0; uint64_t attr_valid_nsec = 0; uint64_t server_time = 12345; mode_t mode = S_IFREG | 0644; int fd; struct stat sb; EXPECT_LOOKUP(FUSE_ROOT_ID, RELPATH) .WillRepeatedly(Invoke( ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, entry); out.body.entry.attr.mode = mode; out.body.entry.nodeid = ino; out.body.entry.attr.nlink = 1; out.body.entry.attr_valid = attr_valid; out.body.entry.attr_valid_nsec = attr_valid_nsec; }))); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_GETATTR && in.header.nodeid == ino); }, Eq(true)), _) ).WillRepeatedly(Invoke( ReturnImmediate([=](auto i __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; out.body.attr.attr.mode = mode; out.body.attr.attr_valid = attr_valid; out.body.attr.attr_valid_nsec = attr_valid_nsec; out.body.attr.attr.atime = server_time; out.body.attr.attr.mtime = server_time; out.body.attr.attr.ctime = server_time; }))); fd = open(FULLPATH, O_RDWR); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); ASSERT_EQ(0, fstat(fd, &sb)) << strerror(errno); EXPECT_EQ((time_t)server_time, sb.st_atime); EXPECT_NE((time_t)server_time, sb.st_mtime); EXPECT_NE((time_t)server_time, sb.st_ctime); } /* Any dirty timestamp fields should be flushed during a SETATTR */ TEST_F(WriteBackAsync, timestamps_during_setattr) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; ssize_t bufsize = strlen(CONTENTS); uint64_t ino = 42; const mode_t newmode = 0755; int fd; expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { uint32_t valid = FATTR_MODE | FATTR_MTIME | FATTR_CTIME; return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && in.body.setattr.valid == valid); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; out.body.attr.attr.mode = S_IFREG | newmode; }))); fd = open(FULLPATH, O_RDWR); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); ASSERT_EQ(0, fchmod(fd, newmode)) << strerror(errno); } /* fuse_init_out.time_gran controls the granularity of timestamps */ TEST_P(TimeGran, timestamps_during_setattr) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; ssize_t bufsize = strlen(CONTENTS); uint64_t ino = 42; const mode_t newmode = 0755; int fd; expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { uint32_t valid = FATTR_MODE | FATTR_MTIME | FATTR_CTIME; return (in.header.opcode == FUSE_SETATTR && in.header.nodeid == ino && in.body.setattr.valid == valid && in.body.setattr.mtimensec % m_time_gran == 0 && in.body.setattr.ctimensec % m_time_gran == 0); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, attr); out.body.attr.attr.ino = ino; out.body.attr.attr.mode = S_IFREG | newmode; }))); fd = open(FULLPATH, O_RDWR); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); ASSERT_EQ(0, fchmod(fd, newmode)) << strerror(errno); } INSTANTIATE_TEST_CASE_P(RA, TimeGran, Range(0u, 10u)); /* * Without direct_io, writes should be committed to cache */ TEST_F(Write, writethrough) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); char readbuf[bufsize]; expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); expect_write(ino, 0, bufsize, bufsize, CONTENTS); fd = open(FULLPATH, O_RDWR); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); /* * A subsequent read should be serviced by cache, without querying the * filesystem daemon */ ASSERT_EQ(0, lseek(fd, 0, SEEK_SET)) << strerror(errno); ASSERT_EQ(bufsize, read(fd, readbuf, bufsize)) << strerror(errno); leak(fd); } /* Writes that extend a file should update the cached file size */ TEST_F(Write, update_file_size) { const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; const char *CONTENTS = "abcdefgh"; struct stat sb; uint64_t ino = 42; int fd; ssize_t bufsize = strlen(CONTENTS); expect_lookup(RELPATH, ino, 0); expect_open(ino, 0, 1); expect_write(ino, 0, bufsize, bufsize, CONTENTS); fd = open(FULLPATH, O_RDWR); EXPECT_LE(0, fd) << strerror(errno); ASSERT_EQ(bufsize, write(fd, CONTENTS, bufsize)) << strerror(errno); /* Get cached attributes */ ASSERT_EQ(0, fstat(fd, &sb)) << strerror(errno); ASSERT_EQ(bufsize, sb.st_size); leak(fd); } Index: head/tests/sys/fs/fusefs/xattr.cc =================================================================== --- head/tests/sys/fs/fusefs/xattr.cc (revision 350989) +++ head/tests/sys/fs/fusefs/xattr.cc (revision 350990) @@ -1,641 +1,643 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 The FreeBSD Foundation * * This software was developed by BFF Storage Systems, LLC under sponsorship * from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. + * + * $FreeBSD$ */ /* Tests for all things relating to extended attributes and FUSE */ extern "C" { #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; const char FULLPATH[] = "mountpoint/some_file.txt"; const char RELPATH[] = "some_file.txt"; class Xattr: public FuseTest { public: void expect_getxattr(uint64_t ino, const char *attr, ProcessMockerT r) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *a = (const char*)in.body.bytes + sizeof(fuse_getxattr_in); return (in.header.opcode == FUSE_GETXATTR && in.header.nodeid == ino && 0 == strcmp(attr, a)); }, Eq(true)), _) ).WillOnce(Invoke(r)); } void expect_listxattr(uint64_t ino, uint32_t size, ProcessMockerT r) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_LISTXATTR && in.header.nodeid == ino && in.body.listxattr.size == size); }, Eq(true)), _) ).WillOnce(Invoke(r)) .RetiresOnSaturation(); } void expect_removexattr(uint64_t ino, const char *attr, int error) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *a = (const char*)in.body.bytes; return (in.header.opcode == FUSE_REMOVEXATTR && in.header.nodeid == ino && 0 == strcmp(attr, a)); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(error))); } void expect_setxattr(uint64_t ino, const char *attr, const char *value, ProcessMockerT r) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *a = (const char*)in.body.bytes + sizeof(fuse_setxattr_in); const char *v = a + strlen(a) + 1; return (in.header.opcode == FUSE_SETXATTR && in.header.nodeid == ino && 0 == strcmp(attr, a) && 0 == strcmp(value, v)); }, Eq(true)), _) ).WillOnce(Invoke(r)); } }; class Getxattr: public Xattr {}; class Listxattr: public Xattr {}; class Removexattr: public Xattr {}; class Setxattr: public Xattr {}; class RofsXattr: public Xattr { public: virtual void SetUp() { m_ro = true; Xattr::SetUp(); } }; /* * If the extended attribute does not exist on this file, the daemon should * return ENOATTR (ENODATA on Linux, but it's up to the daemon to choose the * correct errror code) */ TEST_F(Getxattr, enoattr) { char data[80]; uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; ssize_t r; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_getxattr(ino, "user.foo", ReturnErrno(ENOATTR)); r = extattr_get_file(FULLPATH, ns, "foo", data, sizeof(data)); ASSERT_EQ(-1, r); ASSERT_EQ(ENOATTR, errno); } /* * If the filesystem returns ENOSYS, then it will be treated as a permanent * failure and all future VOP_GETEXTATTR calls will fail with EOPNOTSUPP * without querying the filesystem daemon */ TEST_F(Getxattr, enosys) { char data[80]; uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; ssize_t r; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 2); expect_getxattr(ino, "user.foo", ReturnErrno(ENOSYS)); r = extattr_get_file(FULLPATH, ns, "foo", data, sizeof(data)); ASSERT_EQ(-1, r); EXPECT_EQ(EOPNOTSUPP, errno); /* Subsequent attempts should not query the filesystem at all */ r = extattr_get_file(FULLPATH, ns, "foo", data, sizeof(data)); ASSERT_EQ(-1, r); EXPECT_EQ(EOPNOTSUPP, errno); } /* * On FreeBSD, if the user passes an insufficiently large buffer then the * filesystem is supposed to copy as much of the attribute's value as will fit. * * On Linux, however, the filesystem is supposed to return ERANGE. * * libfuse specifies the Linux behavior. However, that's probably an error. * It would probably be correct for the filesystem to use platform-dependent * behavior. * * This test case covers a filesystem that uses the Linux behavior */ TEST_F(Getxattr, erange) { char data[10]; uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; ssize_t r; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_getxattr(ino, "user.foo", ReturnErrno(ERANGE)); r = extattr_get_file(FULLPATH, ns, "foo", data, sizeof(data)); ASSERT_EQ(-1, r); ASSERT_EQ(ERANGE, errno); } /* * If the user passes a 0-length buffer, then the daemon should just return the * size of the attribute */ TEST_F(Getxattr, size_only) { uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_getxattr(ino, "user.foo", ReturnImmediate([](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, getxattr); out.body.getxattr.size = 99; }) ); ASSERT_EQ(99, extattr_get_file(FULLPATH, ns, "foo", NULL, 0)) << strerror(errno);; } /* * Successfully get an attribute from the system namespace */ TEST_F(Getxattr, system) { uint64_t ino = 42; char data[80]; const char value[] = "whatever"; ssize_t value_len = strlen(value) + 1; int ns = EXTATTR_NAMESPACE_SYSTEM; ssize_t r; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_getxattr(ino, "system.foo", ReturnImmediate([&](auto in __unused, auto& out) { memcpy((void*)out.body.bytes, value, value_len); out.header.len = sizeof(out.header) + value_len; }) ); r = extattr_get_file(FULLPATH, ns, "foo", data, sizeof(data)); ASSERT_EQ(value_len, r) << strerror(errno); EXPECT_STREQ(value, data); } /* * Successfully get an attribute from the user namespace */ TEST_F(Getxattr, user) { uint64_t ino = 42; char data[80]; const char value[] = "whatever"; ssize_t value_len = strlen(value) + 1; int ns = EXTATTR_NAMESPACE_USER; ssize_t r; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_getxattr(ino, "user.foo", ReturnImmediate([&](auto in __unused, auto& out) { memcpy((void*)out.body.bytes, value, value_len); out.header.len = sizeof(out.header) + value_len; }) ); r = extattr_get_file(FULLPATH, ns, "foo", data, sizeof(data)); ASSERT_EQ(value_len, r) << strerror(errno); EXPECT_STREQ(value, data); } /* * If the filesystem returns ENOSYS, then it will be treated as a permanent * failure and all future VOP_LISTEXTATTR calls will fail with EOPNOTSUPP * without querying the filesystem daemon */ TEST_F(Listxattr, enosys) { uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 2); expect_listxattr(ino, 0, ReturnErrno(ENOSYS)); ASSERT_EQ(-1, extattr_list_file(FULLPATH, ns, NULL, 0)); EXPECT_EQ(EOPNOTSUPP, errno); /* Subsequent attempts should not query the filesystem at all */ ASSERT_EQ(-1, extattr_list_file(FULLPATH, ns, NULL, 0)); EXPECT_EQ(EOPNOTSUPP, errno); } /* * Listing extended attributes failed because they aren't configured on this * filesystem */ TEST_F(Listxattr, enotsup) { uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_listxattr(ino, 0, ReturnErrno(ENOTSUP)); ASSERT_EQ(-1, extattr_list_file(FULLPATH, ns, NULL, 0)); ASSERT_EQ(ENOTSUP, errno); } /* * On FreeBSD, if the user passes an insufficiently large buffer then the * filesystem is supposed to copy as much of the attribute's value as will fit. * * On Linux, however, the filesystem is supposed to return ERANGE. * * libfuse specifies the Linux behavior. However, that's probably an error. * It would probably be correct for the filesystem to use platform-dependent * behavior. * * This test case covers a filesystem that uses the Linux behavior */ TEST_F(Listxattr, erange) { uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_listxattr(ino, 0, ReturnErrno(ERANGE)); ASSERT_EQ(-1, extattr_list_file(FULLPATH, ns, NULL, 0)); ASSERT_EQ(ERANGE, errno); } /* * Get the size of the list that it would take to list no extended attributes */ TEST_F(Listxattr, size_only_empty) { uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_listxattr(ino, 0, ReturnImmediate([](auto i __unused, auto& out) { out.body.listxattr.size = 0; SET_OUT_HEADER_LEN(out, listxattr); })); ASSERT_EQ(0, extattr_list_file(FULLPATH, ns, NULL, 0)) << strerror(errno); } /* * Get the size of the list that it would take to list some extended * attributes. Due to the format differences between a FreeBSD and a * Linux/FUSE extended attribute list, fuse(4) will actually allocate a buffer * and get the whole list, then convert it, just to figure out its size. */ TEST_F(Listxattr, size_only_nonempty) { uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_listxattr(ino, 0, ReturnImmediate([](auto i __unused, auto& out) { out.body.listxattr.size = 45; SET_OUT_HEADER_LEN(out, listxattr); })); // TODO: fix the expected size after fixing the size calculation bug in // fuse_vnop_listextattr. It should be exactly 45. expect_listxattr(ino, 53, ReturnImmediate([](auto in __unused, auto& out) { const char l[] = "user.foo"; strlcpy((char*)out.body.bytes, l, sizeof(out.body.bytes)); out.header.len = sizeof(fuse_out_header) + sizeof(l); }) ); ASSERT_EQ(4, extattr_list_file(FULLPATH, ns, NULL, 0)) << strerror(errno); } TEST_F(Listxattr, size_only_really_big) { uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_listxattr(ino, 0, ReturnImmediate([](auto i __unused, auto& out) { out.body.listxattr.size = 16000; SET_OUT_HEADER_LEN(out, listxattr); })); // TODO: fix the expected size after fixing the size calculation bug in // fuse_vnop_listextattr. It should be exactly 16000. expect_listxattr(ino, 16008, ReturnImmediate([](auto in __unused, auto& out) { const char l[16] = "user.foobarbang"; for (int i=0; i < 1000; i++) { memcpy(&out.body.bytes[16 * i], l, 16); } out.header.len = sizeof(fuse_out_header) + 16000; }) ); ASSERT_EQ(11000, extattr_list_file(FULLPATH, ns, NULL, 0)) << strerror(errno); } /* * List all of the user attributes of a file which has both user and system * attributes */ TEST_F(Listxattr, user) { uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; char data[80]; char expected[9] = {3, 'f', 'o', 'o', 4, 'b', 'a', 'n', 'g'}; char attrs[28] = "user.foo\0system.x\0user.bang"; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_listxattr(ino, 0, ReturnImmediate([&](auto in __unused, auto& out) { out.body.listxattr.size = sizeof(attrs); SET_OUT_HEADER_LEN(out, listxattr); }) ); // TODO: fix the expected size after fixing the size calculation bug in // fuse_vnop_listextattr. expect_listxattr(ino, sizeof(attrs) + 8, ReturnImmediate([&](auto in __unused, auto& out) { memcpy((void*)out.body.bytes, attrs, sizeof(attrs)); out.header.len = sizeof(fuse_out_header) + sizeof(attrs); })); ASSERT_EQ(static_cast(sizeof(expected)), extattr_list_file(FULLPATH, ns, data, sizeof(data))) << strerror(errno); ASSERT_EQ(0, memcmp(expected, data, sizeof(expected))); } /* * List all of the system attributes of a file which has both user and system * attributes */ TEST_F(Listxattr, system) { uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_SYSTEM; char data[80]; char expected[2] = {1, 'x'}; char attrs[28] = "user.foo\0system.x\0user.bang"; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_listxattr(ino, 0, ReturnImmediate([&](auto in __unused, auto& out) { out.body.listxattr.size = sizeof(attrs); SET_OUT_HEADER_LEN(out, listxattr); }) ); // TODO: fix the expected size after fixing the size calculation bug in // fuse_vnop_listextattr. expect_listxattr(ino, sizeof(attrs) + 8, ReturnImmediate([&](auto in __unused, auto& out) { memcpy((void*)out.body.bytes, attrs, sizeof(attrs)); out.header.len = sizeof(fuse_out_header) + sizeof(attrs); })); ASSERT_EQ(static_cast(sizeof(expected)), extattr_list_file(FULLPATH, ns, data, sizeof(data))) << strerror(errno); ASSERT_EQ(0, memcmp(expected, data, sizeof(expected))); } /* Fail to remove a nonexistent attribute */ TEST_F(Removexattr, enoattr) { uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_removexattr(ino, "user.foo", ENOATTR); ASSERT_EQ(-1, extattr_delete_file(FULLPATH, ns, "foo")); ASSERT_EQ(ENOATTR, errno); } /* * If the filesystem returns ENOSYS, then it will be treated as a permanent * failure and all future VOP_DELETEEXTATTR calls will fail with EOPNOTSUPP * without querying the filesystem daemon */ TEST_F(Removexattr, enosys) { uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 2); expect_removexattr(ino, "user.foo", ENOSYS); ASSERT_EQ(-1, extattr_delete_file(FULLPATH, ns, "foo")); EXPECT_EQ(EOPNOTSUPP, errno); /* Subsequent attempts should not query the filesystem at all */ ASSERT_EQ(-1, extattr_delete_file(FULLPATH, ns, "foo")); EXPECT_EQ(EOPNOTSUPP, errno); } /* Successfully remove a user xattr */ TEST_F(Removexattr, user) { uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_removexattr(ino, "user.foo", 0); ASSERT_EQ(0, extattr_delete_file(FULLPATH, ns, "foo")) << strerror(errno); } /* Successfully remove a system xattr */ TEST_F(Removexattr, system) { uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_SYSTEM; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_removexattr(ino, "system.foo", 0); ASSERT_EQ(0, extattr_delete_file(FULLPATH, ns, "foo")) << strerror(errno); } /* * If the filesystem returns ENOSYS, then it will be treated as a permanent * failure and all future VOP_SETEXTATTR calls will fail with EOPNOTSUPP * without querying the filesystem daemon */ TEST_F(Setxattr, enosys) { uint64_t ino = 42; const char value[] = "whatever"; ssize_t value_len = strlen(value) + 1; int ns = EXTATTR_NAMESPACE_USER; ssize_t r; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 2); expect_setxattr(ino, "user.foo", value, ReturnErrno(ENOSYS)); r = extattr_set_file(FULLPATH, ns, "foo", (const void*)value, value_len); ASSERT_EQ(-1, r); EXPECT_EQ(EOPNOTSUPP, errno); /* Subsequent attempts should not query the filesystem at all */ r = extattr_set_file(FULLPATH, ns, "foo", (const void*)value, value_len); ASSERT_EQ(-1, r); EXPECT_EQ(EOPNOTSUPP, errno); } /* * SETXATTR will return ENOTSUP if the namespace is invalid or the filesystem * as currently configured doesn't support extended attributes. */ TEST_F(Setxattr, enotsup) { uint64_t ino = 42; const char value[] = "whatever"; ssize_t value_len = strlen(value) + 1; int ns = EXTATTR_NAMESPACE_USER; ssize_t r; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_setxattr(ino, "user.foo", value, ReturnErrno(ENOTSUP)); r = extattr_set_file(FULLPATH, ns, "foo", (const void*)value, value_len); ASSERT_EQ(-1, r); EXPECT_EQ(ENOTSUP, errno); } /* * Successfully set a user attribute. */ TEST_F(Setxattr, user) { uint64_t ino = 42; const char value[] = "whatever"; ssize_t value_len = strlen(value) + 1; int ns = EXTATTR_NAMESPACE_USER; ssize_t r; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_setxattr(ino, "user.foo", value, ReturnErrno(0)); r = extattr_set_file(FULLPATH, ns, "foo", (const void*)value, value_len); ASSERT_EQ(value_len, r) << strerror(errno); } /* * Successfully set a system attribute. */ TEST_F(Setxattr, system) { uint64_t ino = 42; const char value[] = "whatever"; ssize_t value_len = strlen(value) + 1; int ns = EXTATTR_NAMESPACE_SYSTEM; ssize_t r; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); expect_setxattr(ino, "system.foo", value, ReturnErrno(0)); r = extattr_set_file(FULLPATH, ns, "foo", (const void*)value, value_len); ASSERT_EQ(value_len, r) << strerror(errno); } TEST_F(RofsXattr, deleteextattr_erofs) { uint64_t ino = 42; int ns = EXTATTR_NAMESPACE_USER; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); ASSERT_EQ(-1, extattr_delete_file(FULLPATH, ns, "foo")); ASSERT_EQ(EROFS, errno); } TEST_F(RofsXattr, setextattr_erofs) { uint64_t ino = 42; const char value[] = "whatever"; ssize_t value_len = strlen(value) + 1; int ns = EXTATTR_NAMESPACE_USER; ssize_t r; expect_lookup(RELPATH, ino, S_IFREG | 0644, 0, 1); r = extattr_set_file(FULLPATH, ns, "foo", (const void*)value, value_len); ASSERT_EQ(-1, r); EXPECT_EQ(EROFS, errno); }