diff --git a/sys/kern/subr_devmap.c b/sys/kern/subr_devmap.c index 8e07199b7f73..23baceb05129 100644 --- a/sys/kern/subr_devmap.c +++ b/sys/kern/subr_devmap.c @@ -1,350 +1,352 @@ /*- * Copyright (c) 2013 Ian Lepore * All rights reserved. * * 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. */ #include __FBSDID("$FreeBSD$"); /* Routines for mapping device memory. */ #include "opt_ddb.h" #include #include #include #include #include #include #include static const struct devmap_entry *devmap_table; static boolean_t devmap_bootstrap_done = false; /* * The allocated-kva (akva) devmap table and metadata. Platforms can call * devmap_add_entry() to add static device mappings to this table using * automatically allocated virtual addresses carved out of the top of kva space. * Allocation begins immediately below the max kernel virtual address. */ #define AKVA_DEVMAP_MAX_ENTRIES 32 static struct devmap_entry akva_devmap_entries[AKVA_DEVMAP_MAX_ENTRIES]; static u_int akva_devmap_idx; static vm_offset_t akva_devmap_vaddr = DEVMAP_MAX_VADDR; #if defined(__aarch64__) || defined(__riscv) extern int early_boot; #endif /* * Print the contents of the static mapping table using the provided printf-like * output function (which will be either printf or db_printf). */ static void devmap_dump_table(int (*prfunc)(const char *, ...)) { const struct devmap_entry *pd; if (devmap_table == NULL || devmap_table[0].pd_size == 0) { prfunc("No static device mappings.\n"); return; } prfunc("Static device mappings:\n"); for (pd = devmap_table; pd->pd_size != 0; ++pd) { prfunc(" 0x%08jx - 0x%08jx mapped at VA 0x%08jx\n", - pd->pd_pa, pd->pd_pa + pd->pd_size - 1, pd->pd_va); + (uintmax_t)pd->pd_pa, + (uintmax_t)(pd->pd_pa + pd->pd_size - 1), + (uintmax_t)pd->pd_va); } } /* * Print the contents of the static mapping table. Used for bootverbose. */ void devmap_print_table() { devmap_dump_table(printf); } /* * Return the "last" kva address used by the registered devmap table. It's * actually the lowest address used by the static mappings, i.e., the address of * the first unusable byte of KVA. */ vm_offset_t devmap_lastaddr() { const struct devmap_entry *pd; vm_offset_t lowaddr; if (akva_devmap_idx > 0) return (akva_devmap_vaddr); lowaddr = DEVMAP_MAX_VADDR; for (pd = devmap_table; pd != NULL && pd->pd_size != 0; ++pd) { if (lowaddr > pd->pd_va) lowaddr = pd->pd_va; } return (lowaddr); } /* * Add an entry to the internal "akva" static devmap table using the given * physical address and size and a virtual address allocated from the top of * kva. This automatically registers the akva table on the first call, so all a * platform has to do is call this routine to install as many mappings as it * needs and when the platform-specific init function calls devmap_bootstrap() * it will pick up all the entries in the akva table automatically. */ void devmap_add_entry(vm_paddr_t pa, vm_size_t sz) { struct devmap_entry *m; if (devmap_bootstrap_done) panic("devmap_add_entry() after devmap_bootstrap()"); if (akva_devmap_idx == (AKVA_DEVMAP_MAX_ENTRIES - 1)) panic("AKVA_DEVMAP_MAX_ENTRIES is too small"); if (akva_devmap_idx == 0) devmap_register_table(akva_devmap_entries); /* Allocate virtual address space from the top of kva downwards. */ #ifdef __arm__ /* * If the range being mapped is aligned and sized to 1MB boundaries then * also align the virtual address to the next-lower 1MB boundary so that * we end with a nice efficient section mapping. */ if ((pa & 0x000fffff) == 0 && (sz & 0x000fffff) == 0) { akva_devmap_vaddr = trunc_1mpage(akva_devmap_vaddr - sz); } else #endif { akva_devmap_vaddr = trunc_page(akva_devmap_vaddr - sz); } m = &akva_devmap_entries[akva_devmap_idx++]; m->pd_va = akva_devmap_vaddr; m->pd_pa = pa; m->pd_size = sz; } /* * Register the given table as the one to use in devmap_bootstrap(). */ void devmap_register_table(const struct devmap_entry *table) { devmap_table = table; } /* * Map all of the static regions in the devmap table, and remember the devmap * table so the mapdev, ptov, and vtop functions can do lookups later. * * If a non-NULL table pointer is given it is used unconditionally, otherwise * the previously-registered table is used. This smooths transition from legacy * code that fills in a local table then calls this function passing that table, * and newer code that uses devmap_register_table() in platform-specific * code, then lets the common platform-specific init function call this function * with a NULL pointer. */ void devmap_bootstrap(vm_offset_t l1pt, const struct devmap_entry *table) { const struct devmap_entry *pd; devmap_bootstrap_done = true; /* * If given a table pointer, use it. Otherwise, if a table was * previously registered, use it. Otherwise, no work to do. */ if (table != NULL) devmap_table = table; else if (devmap_table == NULL) return; for (pd = devmap_table; pd->pd_size != 0; ++pd) { #if defined(__arm__) #if __ARM_ARCH >= 6 pmap_preboot_map_attr(pd->pd_pa, pd->pd_va, pd->pd_size, VM_PROT_READ | VM_PROT_WRITE, VM_MEMATTR_DEVICE); #else pmap_map_chunk(l1pt, pd->pd_va, pd->pd_pa, pd->pd_size, VM_PROT_READ | VM_PROT_WRITE, PTE_DEVICE); #endif #elif defined(__aarch64__) || defined(__riscv) pmap_kenter_device(pd->pd_va, pd->pd_size, pd->pd_pa); #endif } } /* * Look up the given physical address in the static mapping data and return the * corresponding virtual address, or NULL if not found. */ void * devmap_ptov(vm_paddr_t pa, vm_size_t size) { const struct devmap_entry *pd; if (devmap_table == NULL) return (NULL); for (pd = devmap_table; pd->pd_size != 0; ++pd) { if (pa >= pd->pd_pa && pa + size <= pd->pd_pa + pd->pd_size) return ((void *)(pd->pd_va + (pa - pd->pd_pa))); } return (NULL); } /* * Look up the given virtual address in the static mapping data and return the * corresponding physical address, or DEVMAP_PADDR_NOTFOUND if not found. */ vm_paddr_t devmap_vtop(void * vpva, vm_size_t size) { const struct devmap_entry *pd; vm_offset_t va; if (devmap_table == NULL) return (DEVMAP_PADDR_NOTFOUND); va = (vm_offset_t)vpva; for (pd = devmap_table; pd->pd_size != 0; ++pd) { if (va >= pd->pd_va && va + size <= pd->pd_va + pd->pd_size) return ((vm_paddr_t)(pd->pd_pa + (va - pd->pd_va))); } return (DEVMAP_PADDR_NOTFOUND); } /* * Map a set of physical memory pages into the kernel virtual address space. * Return a pointer to where it is mapped. * * This uses a pre-established static mapping if one exists for the requested * range, otherwise it allocates kva space and maps the physical pages into it. * * This routine is intended to be used for mapping device memory, NOT real * memory; the mapping type is inherently VM_MEMATTR_DEVICE in * pmap_kenter_device(). */ void * pmap_mapdev(vm_offset_t pa, vm_size_t size) { vm_offset_t va, offset; void * rva; /* First look in the static mapping table. */ if ((rva = devmap_ptov(pa, size)) != NULL) return (rva); offset = pa & PAGE_MASK; pa = trunc_page(pa); size = round_page(size + offset); #if defined(__aarch64__) || defined(__riscv) if (early_boot) { akva_devmap_vaddr = trunc_page(akva_devmap_vaddr - size); va = akva_devmap_vaddr; KASSERT(va >= VM_MAX_KERNEL_ADDRESS - PMAP_MAPDEV_EARLY_SIZE, ("Too many early devmap mappings")); } else #endif va = kva_alloc(size); if (!va) panic("pmap_mapdev: Couldn't alloc kernel virtual memory"); pmap_kenter_device(va, size, pa); return ((void *)(va + offset)); } #if defined(__aarch64__) void * pmap_mapdev_attr(vm_offset_t pa, vm_size_t size, vm_memattr_t ma) { vm_offset_t va, offset; void * rva; /* First look in the static mapping table. */ if ((rva = devmap_ptov(pa, size)) != NULL) return (rva); offset = pa & PAGE_MASK; pa = trunc_page(pa); size = round_page(size + offset); if (early_boot) { akva_devmap_vaddr = trunc_page(akva_devmap_vaddr - size); va = akva_devmap_vaddr; KASSERT(va >= (VM_MAX_KERNEL_ADDRESS - (PMAP_MAPDEV_EARLY_SIZE)), ("Too many early devmap mappings 2")); } else va = kva_alloc(size); if (!va) panic("pmap_mapdev: Couldn't alloc kernel virtual memory"); pmap_kenter(va, size, pa, ma); return ((void *)(va + offset)); } #endif /* * Unmap device memory and free the kva space. */ void pmap_unmapdev(vm_offset_t va, vm_size_t size) { vm_offset_t offset; /* Nothing to do if we find the mapping in the static table. */ if (devmap_vtop((void*)va, size) != DEVMAP_PADDR_NOTFOUND) return; offset = va & PAGE_MASK; va = trunc_page(va); size = round_page(size + offset); pmap_kremove_device(va, size); kva_free(va, size); } #ifdef DDB #include DB_SHOW_COMMAND(devmap, db_show_devmap) { devmap_dump_table(db_printf); } #endif /* DDB */