diff --git a/sys/dev/cxgbe/cxgbei/icl_cxgbei.c b/sys/dev/cxgbe/cxgbei/icl_cxgbei.c index e974ad73a935..4a6cf0a19d44 100644 --- a/sys/dev/cxgbe/cxgbei/icl_cxgbei.c +++ b/sys/dev/cxgbe/cxgbei/icl_cxgbei.c @@ -1,1367 +1,1393 @@ /*- * Copyright (c) 2012 The FreeBSD Foundation * Copyright (c) 2015 Chelsio Communications, Inc. * All rights reserved. * * This software was developed by Edward Tomasz Napierala 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. * */ /* * cxgbei implementation of iSCSI Common Layer kobj(9) interface. */ #include __FBSDID("$FreeBSD$"); #include "opt_inet.h" #include "opt_inet6.h" #ifdef TCP_OFFLOAD #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "common/common.h" #include "common/t4_tcb.h" #include "tom/t4_tom.h" #include "cxgbei.h" /* * Use the page pod tag for the TT hash. */ #define TT_HASH(icc, tt) (G_PPOD_TAG(tt) & (icc)->cmp_hash_mask) struct cxgbei_ddp_state { struct ppod_reservation prsv; struct cxgbei_cmp cmp; }; static MALLOC_DEFINE(M_CXGBEI, "cxgbei", "cxgbei(4)"); SYSCTL_NODE(_kern_icl, OID_AUTO, cxgbei, CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "Chelsio iSCSI offload"); static int first_burst_length = 8192; SYSCTL_INT(_kern_icl_cxgbei, OID_AUTO, first_burst_length, CTLFLAG_RWTUN, &first_burst_length, 0, "First burst length"); static int max_burst_length = 2 * 1024 * 1024; SYSCTL_INT(_kern_icl_cxgbei, OID_AUTO, max_burst_length, CTLFLAG_RWTUN, &max_burst_length, 0, "Maximum burst length"); static int sendspace = 1048576; SYSCTL_INT(_kern_icl_cxgbei, OID_AUTO, sendspace, CTLFLAG_RWTUN, &sendspace, 0, "Default send socket buffer size"); static int recvspace = 1048576; SYSCTL_INT(_kern_icl_cxgbei, OID_AUTO, recvspace, CTLFLAG_RWTUN, &recvspace, 0, "Default receive socket buffer size"); static volatile u_int icl_cxgbei_ncons; #define ICL_CONN_LOCK(X) mtx_lock(X->ic_lock) #define ICL_CONN_UNLOCK(X) mtx_unlock(X->ic_lock) #define ICL_CONN_LOCK_ASSERT(X) mtx_assert(X->ic_lock, MA_OWNED) #define ICL_CONN_LOCK_ASSERT_NOT(X) mtx_assert(X->ic_lock, MA_NOTOWNED) static icl_conn_new_pdu_t icl_cxgbei_conn_new_pdu; static icl_conn_pdu_data_segment_length_t icl_cxgbei_conn_pdu_data_segment_length; static icl_conn_pdu_append_data_t icl_cxgbei_conn_pdu_append_data; static icl_conn_pdu_get_data_t icl_cxgbei_conn_pdu_get_data; static icl_conn_pdu_queue_t icl_cxgbei_conn_pdu_queue; static icl_conn_pdu_queue_cb_t icl_cxgbei_conn_pdu_queue_cb; static icl_conn_handoff_t icl_cxgbei_conn_handoff; static icl_conn_free_t icl_cxgbei_conn_free; static icl_conn_close_t icl_cxgbei_conn_close; static icl_conn_task_setup_t icl_cxgbei_conn_task_setup; static icl_conn_task_done_t icl_cxgbei_conn_task_done; static icl_conn_transfer_setup_t icl_cxgbei_conn_transfer_setup; static icl_conn_transfer_done_t icl_cxgbei_conn_transfer_done; static kobj_method_t icl_cxgbei_methods[] = { KOBJMETHOD(icl_conn_new_pdu, icl_cxgbei_conn_new_pdu), KOBJMETHOD(icl_conn_pdu_free, icl_cxgbei_conn_pdu_free), KOBJMETHOD(icl_conn_pdu_data_segment_length, icl_cxgbei_conn_pdu_data_segment_length), KOBJMETHOD(icl_conn_pdu_append_data, icl_cxgbei_conn_pdu_append_data), KOBJMETHOD(icl_conn_pdu_get_data, icl_cxgbei_conn_pdu_get_data), KOBJMETHOD(icl_conn_pdu_queue, icl_cxgbei_conn_pdu_queue), KOBJMETHOD(icl_conn_pdu_queue_cb, icl_cxgbei_conn_pdu_queue_cb), KOBJMETHOD(icl_conn_handoff, icl_cxgbei_conn_handoff), KOBJMETHOD(icl_conn_free, icl_cxgbei_conn_free), KOBJMETHOD(icl_conn_close, icl_cxgbei_conn_close), KOBJMETHOD(icl_conn_task_setup, icl_cxgbei_conn_task_setup), KOBJMETHOD(icl_conn_task_done, icl_cxgbei_conn_task_done), KOBJMETHOD(icl_conn_transfer_setup, icl_cxgbei_conn_transfer_setup), KOBJMETHOD(icl_conn_transfer_done, icl_cxgbei_conn_transfer_done), { 0, 0 } }; DEFINE_CLASS(icl_cxgbei, icl_cxgbei_methods, sizeof(struct icl_cxgbei_conn)); void icl_cxgbei_conn_pdu_free(struct icl_conn *ic, struct icl_pdu *ip) { struct icl_cxgbei_pdu *icp = ip_to_icp(ip); KASSERT(icp->ref_cnt != 0, ("freeing deleted PDU")); MPASS(icp->icp_signature == CXGBEI_PDU_SIGNATURE); MPASS(ic == ip->ip_conn); m_freem(ip->ip_ahs_mbuf); m_freem(ip->ip_data_mbuf); m_freem(ip->ip_bhs_mbuf); KASSERT(ic != NULL || icp->ref_cnt == 1, ("orphaned PDU has oustanding references")); if (atomic_fetchadd_int(&icp->ref_cnt, -1) != 1) return; free(icp, M_CXGBEI); #ifdef DIAGNOSTIC if (__predict_true(ic != NULL)) refcount_release(&ic->ic_outstanding_pdus); #endif } static void icl_cxgbei_pdu_call_cb(struct icl_pdu *ip) { struct icl_cxgbei_pdu *icp = ip_to_icp(ip); MPASS(icp->icp_signature == CXGBEI_PDU_SIGNATURE); if (icp->cb != NULL) icp->cb(ip, icp->error); #ifdef DIAGNOSTIC if (__predict_true(ip->ip_conn != NULL)) refcount_release(&ip->ip_conn->ic_outstanding_pdus); #endif free(icp, M_CXGBEI); } static void icl_cxgbei_pdu_done(struct icl_pdu *ip, int error) { struct icl_cxgbei_pdu *icp = ip_to_icp(ip); if (error != 0) icp->error = error; m_freem(ip->ip_ahs_mbuf); ip->ip_ahs_mbuf = NULL; m_freem(ip->ip_data_mbuf); ip->ip_data_mbuf = NULL; m_freem(ip->ip_bhs_mbuf); ip->ip_bhs_mbuf = NULL; /* * All other references to this PDU should have been dropped * by the m_freem() of ip_data_mbuf. */ if (atomic_fetchadd_int(&icp->ref_cnt, -1) == 1) icl_cxgbei_pdu_call_cb(ip); else __assert_unreachable(); } static void icl_cxgbei_mbuf_done(struct mbuf *mb) { struct icl_cxgbei_pdu *icp = (struct icl_cxgbei_pdu *)mb->m_ext.ext_arg1; /* * NB: mb_free_mext() might leave ref_cnt as 1 without * decrementing it if it hits the fast path in the ref_cnt * check. */ icl_cxgbei_pdu_call_cb(&icp->ip); } struct icl_pdu * icl_cxgbei_new_pdu(int flags) { struct icl_cxgbei_pdu *icp; struct icl_pdu *ip; struct mbuf *m; icp = malloc(sizeof(*icp), M_CXGBEI, flags | M_ZERO); if (__predict_false(icp == NULL)) return (NULL); icp->icp_signature = CXGBEI_PDU_SIGNATURE; icp->ref_cnt = 1; ip = &icp->ip; m = m_gethdr(flags, MT_DATA); if (__predict_false(m == NULL)) { free(icp, M_CXGBEI); return (NULL); } ip->ip_bhs_mbuf = m; ip->ip_bhs = mtod(m, struct iscsi_bhs *); memset(ip->ip_bhs, 0, sizeof(*ip->ip_bhs)); m->m_len = sizeof(struct iscsi_bhs); m->m_pkthdr.len = m->m_len; return (ip); } void icl_cxgbei_new_pdu_set_conn(struct icl_pdu *ip, struct icl_conn *ic) { ip->ip_conn = ic; #ifdef DIAGNOSTIC refcount_acquire(&ic->ic_outstanding_pdus); #endif } /* * Allocate icl_pdu with empty BHS to fill up by the caller. */ static struct icl_pdu * icl_cxgbei_conn_new_pdu(struct icl_conn *ic, int flags) { struct icl_pdu *ip; ip = icl_cxgbei_new_pdu(flags); if (__predict_false(ip == NULL)) return (NULL); icl_cxgbei_new_pdu_set_conn(ip, ic); return (ip); } static size_t icl_pdu_data_segment_length(const struct icl_pdu *request) { uint32_t len = 0; len += request->ip_bhs->bhs_data_segment_len[0]; len <<= 8; len += request->ip_bhs->bhs_data_segment_len[1]; len <<= 8; len += request->ip_bhs->bhs_data_segment_len[2]; return (len); } size_t icl_cxgbei_conn_pdu_data_segment_length(struct icl_conn *ic, const struct icl_pdu *request) { return (icl_pdu_data_segment_length(request)); } static struct mbuf * finalize_pdu(struct icl_cxgbei_conn *icc, struct icl_cxgbei_pdu *icp) { struct icl_pdu *ip = &icp->ip; uint8_t ulp_submode, padding; struct mbuf *m, *last; struct iscsi_bhs *bhs; /* * Fix up the data segment mbuf first. */ m = ip->ip_data_mbuf; ulp_submode = icc->ulp_submode; if (m) { last = m_last(m); /* * Round up the data segment to a 4B boundary. Pad with 0 if * necessary. There will definitely be room in the mbuf. */ padding = roundup2(ip->ip_data_len, 4) - ip->ip_data_len; if (padding) { bzero(mtod(last, uint8_t *) + last->m_len, padding); last->m_len += padding; } } else { MPASS(ip->ip_data_len == 0); ulp_submode &= ~ULP_CRC_DATA; padding = 0; } /* * Now the header mbuf that has the BHS. */ m = ip->ip_bhs_mbuf; MPASS(m->m_pkthdr.len == sizeof(struct iscsi_bhs)); MPASS(m->m_len == sizeof(struct iscsi_bhs)); bhs = ip->ip_bhs; bhs->bhs_data_segment_len[2] = ip->ip_data_len; bhs->bhs_data_segment_len[1] = ip->ip_data_len >> 8; bhs->bhs_data_segment_len[0] = ip->ip_data_len >> 16; /* * Extract mbuf chain from PDU. */ m->m_pkthdr.len += ip->ip_data_len + padding; m->m_next = ip->ip_data_mbuf; set_mbuf_ulp_submode(m, ulp_submode); ip->ip_bhs_mbuf = NULL; ip->ip_data_mbuf = NULL; ip->ip_bhs = NULL; /* * Drop PDU reference on icp. Additional references might * still be held by zero-copy PDU buffers (ICL_NOCOPY). */ if (atomic_fetchadd_int(&icp->ref_cnt, -1) == 1) icl_cxgbei_pdu_call_cb(ip); return (m); } int icl_cxgbei_conn_pdu_append_data(struct icl_conn *ic, struct icl_pdu *ip, const void *addr, size_t len, int flags) { struct icl_cxgbei_pdu *icp = ip_to_icp(ip); struct mbuf *m, *m_tail; const char *src; MPASS(icp->icp_signature == CXGBEI_PDU_SIGNATURE); MPASS(ic == ip->ip_conn); KASSERT(len > 0, ("%s: len is %jd", __func__, (intmax_t)len)); m_tail = ip->ip_data_mbuf; if (m_tail != NULL) for (; m_tail->m_next != NULL; m_tail = m_tail->m_next) ; if (flags & ICL_NOCOPY) { m = m_get(flags & ~ICL_NOCOPY, MT_DATA); if (m == NULL) { ICL_WARN("failed to allocate mbuf"); return (ENOMEM); } m->m_flags |= M_RDONLY; m_extaddref(m, __DECONST(char *, addr), len, &icp->ref_cnt, icl_cxgbei_mbuf_done, icp, NULL); m->m_len = len; if (ip->ip_data_mbuf == NULL) { ip->ip_data_mbuf = m; ip->ip_data_len = len; } else { m_tail->m_next = m; m_tail = m_tail->m_next; ip->ip_data_len += len; } return (0); } src = (const char *)addr; /* Allocate as jumbo mbufs of size MJUM16BYTES. */ while (len >= MJUM16BYTES) { m = m_getjcl(M_NOWAIT, MT_DATA, 0, MJUM16BYTES); if (__predict_false(m == NULL)) { if ((flags & M_WAITOK) != 0) { /* Fall back to non-jumbo mbufs. */ break; } return (ENOMEM); } memcpy(mtod(m, void *), src, MJUM16BYTES); m->m_len = MJUM16BYTES; if (ip->ip_data_mbuf == NULL) { ip->ip_data_mbuf = m_tail = m; ip->ip_data_len = MJUM16BYTES; } else { m_tail->m_next = m; m_tail = m_tail->m_next; ip->ip_data_len += MJUM16BYTES; } src += MJUM16BYTES; len -= MJUM16BYTES; } /* Allocate mbuf chain for the remaining data. */ if (len != 0) { m = m_getm2(NULL, len, flags, MT_DATA, 0); if (__predict_false(m == NULL)) return (ENOMEM); if (ip->ip_data_mbuf == NULL) { ip->ip_data_mbuf = m; ip->ip_data_len = len; } else { m_tail->m_next = m; ip->ip_data_len += len; } for (; m != NULL; m = m->m_next) { m->m_len = min(len, M_SIZE(m)); memcpy(mtod(m, void *), src, m->m_len); src += m->m_len; len -= m->m_len; } MPASS(len == 0); } MPASS(ip->ip_data_len <= ic->ic_max_send_data_segment_length); return (0); } void icl_cxgbei_conn_pdu_get_data(struct icl_conn *ic, struct icl_pdu *ip, size_t off, void *addr, size_t len) { struct icl_cxgbei_pdu *icp = ip_to_icp(ip); if (icp->icp_flags & ICPF_RX_DDP) return; /* data is DDP'ed, no need to copy */ m_copydata(ip->ip_data_mbuf, off, len, addr); } void icl_cxgbei_conn_pdu_queue(struct icl_conn *ic, struct icl_pdu *ip) { icl_cxgbei_conn_pdu_queue_cb(ic, ip, NULL); } void icl_cxgbei_conn_pdu_queue_cb(struct icl_conn *ic, struct icl_pdu *ip, icl_pdu_cb cb) { struct epoch_tracker et; struct icl_cxgbei_conn *icc = ic_to_icc(ic); struct icl_cxgbei_pdu *icp = ip_to_icp(ip); struct socket *so = ic->ic_socket; struct toepcb *toep = icc->toep; struct inpcb *inp; struct mbuf *m; MPASS(ic == ip->ip_conn); MPASS(ip->ip_bhs_mbuf != NULL); /* The kernel doesn't generate PDUs with AHS. */ MPASS(ip->ip_ahs_mbuf == NULL && ip->ip_ahs_len == 0); ICL_CONN_LOCK_ASSERT(ic); icp->cb = cb; /* NOTE: sowriteable without so_snd lock is a mostly harmless race. */ if (ic->ic_disconnecting || so == NULL || !sowriteable(so)) { icl_cxgbei_pdu_done(ip, ENOTCONN); return; } m = finalize_pdu(icc, icp); M_ASSERTPKTHDR(m); MPASS((m->m_pkthdr.len & 3) == 0); /* * Do not get inp from toep->inp as the toepcb might have detached * already. */ inp = sotoinpcb(so); CURVNET_SET(toep->vnet); NET_EPOCH_ENTER(et); INP_WLOCK(inp); if (__predict_false(inp->inp_flags & (INP_DROPPED | INP_TIMEWAIT)) || __predict_false((toep->flags & TPF_ATTACHED) == 0)) m_freem(m); else { mbufq_enqueue(&toep->ulp_pduq, m); t4_push_pdus(icc->sc, toep, 0); } INP_WUNLOCK(inp); NET_EPOCH_EXIT(et); CURVNET_RESTORE(); } static struct icl_conn * icl_cxgbei_new_conn(const char *name, struct mtx *lock) { struct icl_cxgbei_conn *icc; struct icl_conn *ic; refcount_acquire(&icl_cxgbei_ncons); icc = (struct icl_cxgbei_conn *)kobj_create(&icl_cxgbei_class, M_CXGBE, M_WAITOK | M_ZERO); icc->icc_signature = CXGBEI_CONN_SIGNATURE; STAILQ_INIT(&icc->rcvd_pdus); icc->cmp_table = hashinit(64, M_CXGBEI, &icc->cmp_hash_mask); mtx_init(&icc->cmp_lock, "cxgbei_cmp", NULL, MTX_DEF); ic = &icc->ic; ic->ic_lock = lock; /* XXXNP: review. Most of these icl_conn fields aren't really used */ STAILQ_INIT(&ic->ic_to_send); cv_init(&ic->ic_send_cv, "icl_cxgbei_tx"); cv_init(&ic->ic_receive_cv, "icl_cxgbei_rx"); #ifdef DIAGNOSTIC refcount_init(&ic->ic_outstanding_pdus, 0); #endif ic->ic_name = name; ic->ic_offload = "cxgbei"; ic->ic_unmapped = false; CTR2(KTR_CXGBE, "%s: icc %p", __func__, icc); return (ic); } void icl_cxgbei_conn_free(struct icl_conn *ic) { struct icl_cxgbei_conn *icc = ic_to_icc(ic); MPASS(icc->icc_signature == CXGBEI_CONN_SIGNATURE); CTR2(KTR_CXGBE, "%s: icc %p", __func__, icc); cv_destroy(&ic->ic_send_cv); cv_destroy(&ic->ic_receive_cv); mtx_destroy(&icc->cmp_lock); hashdestroy(icc->cmp_table, M_CXGBEI, icc->cmp_hash_mask); kobj_delete((struct kobj *)icc, M_CXGBE); refcount_release(&icl_cxgbei_ncons); } static int icl_cxgbei_setsockopt(struct icl_conn *ic, struct socket *so, int sspace, int rspace) { struct sockopt opt; int error, one = 1, ss, rs; ss = max(sendspace, sspace); rs = max(recvspace, rspace); error = soreserve(so, ss, rs); if (error != 0) { icl_cxgbei_conn_close(ic); return (error); } SOCKBUF_LOCK(&so->so_snd); so->so_snd.sb_flags |= SB_AUTOSIZE; SOCKBUF_UNLOCK(&so->so_snd); SOCKBUF_LOCK(&so->so_rcv); so->so_rcv.sb_flags |= SB_AUTOSIZE; SOCKBUF_UNLOCK(&so->so_rcv); /* * Disable Nagle. */ bzero(&opt, sizeof(opt)); opt.sopt_dir = SOPT_SET; opt.sopt_level = IPPROTO_TCP; opt.sopt_name = TCP_NODELAY; opt.sopt_val = &one; opt.sopt_valsize = sizeof(one); error = sosetopt(so, &opt); if (error != 0) { icl_cxgbei_conn_close(ic); return (error); } return (0); } /* * Request/response structure used to find out the adapter offloading a socket. */ struct find_ofld_adapter_rr { struct socket *so; struct adapter *sc; /* result */ }; static void find_offload_adapter(struct adapter *sc, void *arg) { struct find_ofld_adapter_rr *fa = arg; struct socket *so = fa->so; struct tom_data *td = sc->tom_softc; struct tcpcb *tp; struct inpcb *inp; /* Non-TCP were filtered out earlier. */ MPASS(so->so_proto->pr_protocol == IPPROTO_TCP); if (fa->sc != NULL) return; /* Found already. */ if (td == NULL) return; /* TOE not enabled on this adapter. */ inp = sotoinpcb(so); INP_WLOCK(inp); if ((inp->inp_flags & (INP_DROPPED | INP_TIMEWAIT)) == 0) { tp = intotcpcb(inp); if (tp->t_flags & TF_TOE && tp->tod == &td->tod) fa->sc = sc; /* Found. */ } INP_WUNLOCK(inp); } /* XXXNP: move this to t4_tom. */ static void send_iscsi_flowc_wr(struct adapter *sc, struct toepcb *toep, int maxlen) { struct wrqe *wr; struct fw_flowc_wr *flowc; const u_int nparams = 1; u_int flowclen; struct ofld_tx_sdesc *txsd = &toep->txsd[toep->txsd_pidx]; flowclen = sizeof(*flowc) + nparams * sizeof(struct fw_flowc_mnemval); wr = alloc_wrqe(roundup2(flowclen, 16), &toep->ofld_txq->wrq); if (wr == NULL) { /* XXX */ panic("%s: allocation failure.", __func__); } flowc = wrtod(wr); memset(flowc, 0, wr->wr_len); flowc->op_to_nparams = htobe32(V_FW_WR_OP(FW_FLOWC_WR) | V_FW_FLOWC_WR_NPARAMS(nparams)); flowc->flowid_len16 = htonl(V_FW_WR_LEN16(howmany(flowclen, 16)) | V_FW_WR_FLOWID(toep->tid)); flowc->mnemval[0].mnemonic = FW_FLOWC_MNEM_TXDATAPLEN_MAX; flowc->mnemval[0].val = htobe32(maxlen); txsd->tx_credits = howmany(flowclen, 16); txsd->plen = 0; KASSERT(toep->tx_credits >= txsd->tx_credits && toep->txsd_avail > 0, ("%s: not enough credits (%d)", __func__, toep->tx_credits)); toep->tx_credits -= txsd->tx_credits; if (__predict_false(++toep->txsd_pidx == toep->txsd_total)) toep->txsd_pidx = 0; toep->txsd_avail--; t4_wrq_tx(sc, wr); } static void set_ulp_mode_iscsi(struct adapter *sc, struct toepcb *toep, u_int ulp_submode) { uint64_t val; CTR3(KTR_CXGBE, "%s: tid %u, ULP_MODE_ISCSI, submode=%#x", __func__, toep->tid, ulp_submode); val = V_TCB_ULP_TYPE(ULP_MODE_ISCSI) | V_TCB_ULP_RAW(ulp_submode); t4_set_tcb_field(sc, toep->ctrlq, toep, W_TCB_ULP_TYPE, V_TCB_ULP_TYPE(M_TCB_ULP_TYPE) | V_TCB_ULP_RAW(M_TCB_ULP_RAW), val, 0, 0); val = V_TF_RX_FLOW_CONTROL_DISABLE(1ULL); t4_set_tcb_field(sc, toep->ctrlq, toep, W_TCB_T_FLAGS, val, val, 0, 0); } /* * XXXNP: Who is responsible for cleaning up the socket if this returns with an * error? Review all error paths. * * XXXNP: What happens to the socket's fd reference if the operation is * successful, and how does that affect the socket's life cycle? */ int icl_cxgbei_conn_handoff(struct icl_conn *ic, int fd) { struct icl_cxgbei_conn *icc = ic_to_icc(ic); struct cxgbei_data *ci; struct find_ofld_adapter_rr fa; struct file *fp; struct socket *so; struct inpcb *inp; struct tcpcb *tp; struct toepcb *toep; cap_rights_t rights; int error; MPASS(icc->icc_signature == CXGBEI_CONN_SIGNATURE); ICL_CONN_LOCK_ASSERT_NOT(ic); /* * Steal the socket from userland. */ error = fget(curthread, fd, cap_rights_init_one(&rights, CAP_SOCK_CLIENT), &fp); if (error != 0) return (error); if (fp->f_type != DTYPE_SOCKET) { fdrop(fp, curthread); return (EINVAL); } so = fp->f_data; if (so->so_type != SOCK_STREAM || so->so_proto->pr_protocol != IPPROTO_TCP) { fdrop(fp, curthread); return (EINVAL); } ICL_CONN_LOCK(ic); if (ic->ic_socket != NULL) { ICL_CONN_UNLOCK(ic); fdrop(fp, curthread); return (EBUSY); } ic->ic_disconnecting = false; ic->ic_socket = so; fp->f_ops = &badfileops; fp->f_data = NULL; fdrop(fp, curthread); ICL_CONN_UNLOCK(ic); /* Find the adapter offloading this socket. */ fa.sc = NULL; fa.so = so; t4_iterate(find_offload_adapter, &fa); if (fa.sc == NULL) return (EINVAL); icc->sc = fa.sc; ci = icc->sc->iscsi_ulp_softc; inp = sotoinpcb(so); INP_WLOCK(inp); tp = intotcpcb(inp); if (inp->inp_flags & (INP_DROPPED | INP_TIMEWAIT)) error = EBUSY; else { /* * socket could not have been "unoffloaded" if here. */ MPASS(tp->t_flags & TF_TOE); MPASS(tp->tod != NULL); MPASS(tp->t_toe != NULL); toep = tp->t_toe; MPASS(toep->vi->adapter == icc->sc); icc->toep = toep; icc->cwt = cxgbei_select_worker_thread(icc); icc->ulp_submode = 0; if (ic->ic_header_crc32c) icc->ulp_submode |= ULP_CRC_HEADER; if (ic->ic_data_crc32c) icc->ulp_submode |= ULP_CRC_DATA; so->so_options |= SO_NO_DDP; toep->params.ulp_mode = ULP_MODE_ISCSI; toep->ulpcb = icc; send_iscsi_flowc_wr(icc->sc, toep, ci->max_tx_pdu_len); set_ulp_mode_iscsi(icc->sc, toep, icc->ulp_submode); error = 0; } INP_WUNLOCK(inp); if (error == 0) { error = icl_cxgbei_setsockopt(ic, so, ci->max_tx_pdu_len, ci->max_rx_pdu_len); } return (error); } void icl_cxgbei_conn_close(struct icl_conn *ic) { struct icl_cxgbei_conn *icc = ic_to_icc(ic); struct icl_pdu *ip; struct socket *so; struct sockbuf *sb; struct inpcb *inp; struct toepcb *toep = icc->toep; MPASS(icc->icc_signature == CXGBEI_CONN_SIGNATURE); ICL_CONN_LOCK_ASSERT_NOT(ic); ICL_CONN_LOCK(ic); so = ic->ic_socket; if (ic->ic_disconnecting || so == NULL) { CTR4(KTR_CXGBE, "%s: icc %p (disconnecting = %d), so %p", __func__, icc, ic->ic_disconnecting, so); ICL_CONN_UNLOCK(ic); return; } ic->ic_disconnecting = true; /* These are unused in this driver right now. */ MPASS(STAILQ_EMPTY(&ic->ic_to_send)); MPASS(ic->ic_receive_pdu == NULL); #ifdef DIAGNOSTIC KASSERT(ic->ic_outstanding_pdus == 0, ("destroying session with %d outstanding PDUs", ic->ic_outstanding_pdus)); #endif ICL_CONN_UNLOCK(ic); CTR3(KTR_CXGBE, "%s: tid %d, icc %p", __func__, toep ? toep->tid : -1, icc); inp = sotoinpcb(so); sb = &so->so_rcv; INP_WLOCK(inp); if (toep != NULL) { /* NULL if connection was never offloaded. */ toep->ulpcb = NULL; + + /* Discard PDUs queued for TX. */ mbufq_drain(&toep->ulp_pduq); + + /* + * Wait for the cwt threads to stop processing this + * connection. + */ SOCKBUF_LOCK(sb); if (icc->rx_flags & RXF_ACTIVE) { volatile u_int *p = &icc->rx_flags; SOCKBUF_UNLOCK(sb); INP_WUNLOCK(inp); while (*p & RXF_ACTIVE) pause("conclo", 1); INP_WLOCK(inp); SOCKBUF_LOCK(sb); } + /* + * Discard received PDUs not passed to the iSCSI + * layer. + */ while (!STAILQ_EMPTY(&icc->rcvd_pdus)) { ip = STAILQ_FIRST(&icc->rcvd_pdus); STAILQ_REMOVE_HEAD(&icc->rcvd_pdus, ip_next); icl_cxgbei_pdu_done(ip, ENOTCONN); } SOCKBUF_UNLOCK(sb); } INP_WUNLOCK(inp); ICL_CONN_LOCK(ic); ic->ic_socket = NULL; ICL_CONN_UNLOCK(ic); /* * XXXNP: we should send RST instead of FIN when PDUs held in various * queues were purged instead of delivered reliably but soabort isn't * really general purpose and wouldn't do the right thing here. */ + soref(so); soclose(so); + + /* + * Wait for the socket to fully close. This ensures any + * pending received data has been received (and in particular, + * any data that would be received by DDP has been handled). + * Callers assume that it is safe to free buffers for tasks + * and transfers after this function returns. + */ + SOCK_LOCK(so); + while ((so->so_state & SS_ISDISCONNECTED) == 0) + mtx_sleep(&so->so_timeo, SOCK_MTX(so), PSOCK, "conclo2", 0); + CURVNET_SET(so->so_vnet); + sorele(so); + CURVNET_RESTORE(); } static void cxgbei_insert_cmp(struct icl_cxgbei_conn *icc, struct cxgbei_cmp *cmp, uint32_t tt) { #ifdef INVARIANTS struct cxgbei_cmp *cmp2; #endif cmp->tt = tt; mtx_lock(&icc->cmp_lock); #ifdef INVARIANTS LIST_FOREACH(cmp2, &icc->cmp_table[TT_HASH(icc, tt)], link) { KASSERT(cmp2->tt != tt, ("%s: duplicate cmp", __func__)); } #endif LIST_INSERT_HEAD(&icc->cmp_table[TT_HASH(icc, tt)], cmp, link); mtx_unlock(&icc->cmp_lock); } struct cxgbei_cmp * cxgbei_find_cmp(struct icl_cxgbei_conn *icc, uint32_t tt) { struct cxgbei_cmp *cmp; mtx_lock(&icc->cmp_lock); LIST_FOREACH(cmp, &icc->cmp_table[TT_HASH(icc, tt)], link) { if (cmp->tt == tt) break; } mtx_unlock(&icc->cmp_lock); return (cmp); } static void cxgbei_rm_cmp(struct icl_cxgbei_conn *icc, struct cxgbei_cmp *cmp) { #ifdef INVARIANTS struct cxgbei_cmp *cmp2; #endif mtx_lock(&icc->cmp_lock); #ifdef INVARIANTS LIST_FOREACH(cmp2, &icc->cmp_table[TT_HASH(icc, cmp->tt)], link) { if (cmp2 == cmp) goto found; } panic("%s: could not find cmp", __func__); found: #endif LIST_REMOVE(cmp, link); mtx_unlock(&icc->cmp_lock); } int icl_cxgbei_conn_task_setup(struct icl_conn *ic, struct icl_pdu *ip, struct ccb_scsiio *csio, uint32_t *ittp, void **arg) { struct icl_cxgbei_conn *icc = ic_to_icc(ic); struct toepcb *toep = icc->toep; struct adapter *sc = icc->sc; struct cxgbei_data *ci = sc->iscsi_ulp_softc; struct ppod_region *pr = &ci->pr; struct cxgbei_ddp_state *ddp; struct ppod_reservation *prsv; struct inpcb *inp; struct mbufq mq; uint32_t itt; int rc = 0; ICL_CONN_LOCK_ASSERT(ic); /* This is for the offload driver's state. Must not be set already. */ MPASS(arg != NULL); MPASS(*arg == NULL); if (ic->ic_disconnecting || ic->ic_socket == NULL) return (ECONNRESET); if ((csio->ccb_h.flags & CAM_DIR_MASK) != CAM_DIR_IN || csio->dxfer_len < ci->ddp_threshold) { no_ddp: /* * No DDP for this I/O. Allocate an ITT (based on the one * passed in) that cannot be a valid hardware DDP tag in the * iSCSI region. */ itt = *ittp & M_PPOD_TAG; itt = V_PPOD_TAG(itt) | pr->pr_invalid_bit; *ittp = htobe32(itt); MPASS(*arg == NULL); /* State is maintained for DDP only. */ if (rc != 0) counter_u64_add( toep->ofld_rxq->rx_iscsi_ddp_setup_error, 1); return (0); } /* * Reserve resources for DDP, update the itt that should be used in the * PDU, and save DDP specific state for this I/O in *arg. */ ddp = malloc(sizeof(*ddp), M_CXGBEI, M_NOWAIT | M_ZERO); if (ddp == NULL) { rc = ENOMEM; goto no_ddp; } prsv = &ddp->prsv; /* XXX add support for all CAM_DATA_ types */ MPASS((csio->ccb_h.flags & CAM_DATA_MASK) == CAM_DATA_VADDR); rc = t4_alloc_page_pods_for_buf(pr, (vm_offset_t)csio->data_ptr, csio->dxfer_len, prsv); if (rc != 0) { free(ddp, M_CXGBEI); goto no_ddp; } mbufq_init(&mq, INT_MAX); rc = t4_write_page_pods_for_buf(sc, toep, prsv, (vm_offset_t)csio->data_ptr, csio->dxfer_len, &mq); if (__predict_false(rc != 0)) { mbufq_drain(&mq); t4_free_page_pods(prsv); free(ddp, M_CXGBEI); goto no_ddp; } /* * Do not get inp from toep->inp as the toepcb might have * detached already. */ inp = sotoinpcb(ic->ic_socket); INP_WLOCK(inp); if ((inp->inp_flags & (INP_DROPPED | INP_TIMEWAIT)) != 0) { INP_WUNLOCK(inp); mbufq_drain(&mq); t4_free_page_pods(prsv); free(ddp, M_CXGBEI); return (ECONNRESET); } mbufq_concat(&toep->ulp_pduq, &mq); INP_WUNLOCK(inp); ddp->cmp.last_datasn = -1; cxgbei_insert_cmp(icc, &ddp->cmp, prsv->prsv_tag); *ittp = htobe32(prsv->prsv_tag); *arg = prsv; counter_u64_add(toep->ofld_rxq->rx_iscsi_ddp_setup_ok, 1); return (0); } void icl_cxgbei_conn_task_done(struct icl_conn *ic, void *arg) { if (arg != NULL) { struct cxgbei_ddp_state *ddp = arg; cxgbei_rm_cmp(ic_to_icc(ic), &ddp->cmp); t4_free_page_pods(&ddp->prsv); free(ddp, M_CXGBEI); } } static inline bool ddp_sgl_check(struct ctl_sg_entry *sg, int entries, int xferlen) { int total_len = 0; MPASS(entries > 0); if (((vm_offset_t)sg[--entries].addr & 3U) != 0) return (false); total_len += sg[entries].len; while (--entries >= 0) { if (((vm_offset_t)sg[entries].addr & PAGE_MASK) != 0 || (sg[entries].len % PAGE_SIZE) != 0) return (false); total_len += sg[entries].len; } MPASS(total_len == xferlen); return (true); } /* XXXNP: PDU should be passed in as parameter, like on the initiator. */ #define io_to_request_pdu(io) ((io)->io_hdr.ctl_private[CTL_PRIV_FRONTEND].ptr) #define io_to_ddp_state(io) ((io)->io_hdr.ctl_private[CTL_PRIV_FRONTEND2].ptr) int icl_cxgbei_conn_transfer_setup(struct icl_conn *ic, union ctl_io *io, uint32_t *tttp, void **arg) { struct icl_cxgbei_conn *icc = ic_to_icc(ic); struct toepcb *toep = icc->toep; struct ctl_scsiio *ctsio = &io->scsiio; struct adapter *sc = icc->sc; struct cxgbei_data *ci = sc->iscsi_ulp_softc; struct ppod_region *pr = &ci->pr; struct cxgbei_ddp_state *ddp; struct ppod_reservation *prsv; struct ctl_sg_entry *sgl, sg_entry; struct inpcb *inp; struct mbufq mq; int sg_entries = ctsio->kern_sg_entries; uint32_t ttt; int xferlen, rc = 0, alias; /* This is for the offload driver's state. Must not be set already. */ MPASS(arg != NULL); MPASS(*arg == NULL); if (ctsio->ext_data_filled == 0) { int first_burst; struct icl_pdu *ip = io_to_request_pdu(io); #ifdef INVARIANTS struct icl_cxgbei_pdu *icp = ip_to_icp(ip); MPASS(icp->icp_signature == CXGBEI_PDU_SIGNATURE); MPASS(ic == ip->ip_conn); MPASS(ip->ip_bhs_mbuf != NULL); #endif first_burst = icl_pdu_data_segment_length(ip); /* * Note that ICL calls conn_transfer_setup even if the first * burst had everything and there's nothing left to transfer. * * NB: The CTL frontend might have provided a buffer * whose length (kern_data_len) is smaller than the * FirstBurstLength of unsolicited data. Treat those * as an empty transfer. */ xferlen = ctsio->kern_data_len; if (xferlen < first_burst || xferlen - first_burst < ci->ddp_threshold) { no_ddp: /* * No DDP for this transfer. Allocate a TTT (based on * the one passed in) that cannot be a valid hardware * DDP tag in the iSCSI region. */ ttt = *tttp & M_PPOD_TAG; ttt = V_PPOD_TAG(ttt) | pr->pr_invalid_bit; *tttp = htobe32(ttt); MPASS(io_to_ddp_state(io) == NULL); if (rc != 0) counter_u64_add( toep->ofld_rxq->rx_iscsi_ddp_setup_error, 1); return (0); } if (sg_entries == 0) { sgl = &sg_entry; sgl->len = xferlen; sgl->addr = (void *)ctsio->kern_data_ptr; sg_entries = 1; } else sgl = (void *)ctsio->kern_data_ptr; if (!ddp_sgl_check(sgl, sg_entries, xferlen)) goto no_ddp; /* * Reserve resources for DDP, update the ttt that should be used * in the PDU, and save DDP specific state for this I/O. */ MPASS(io_to_ddp_state(io) == NULL); ddp = malloc(sizeof(*ddp), M_CXGBEI, M_NOWAIT | M_ZERO); if (ddp == NULL) { rc = ENOMEM; goto no_ddp; } prsv = &ddp->prsv; rc = t4_alloc_page_pods_for_sgl(pr, sgl, sg_entries, prsv); if (rc != 0) { free(ddp, M_CXGBEI); goto no_ddp; } mbufq_init(&mq, INT_MAX); rc = t4_write_page_pods_for_sgl(sc, toep, prsv, sgl, sg_entries, xferlen, &mq); if (__predict_false(rc != 0)) { mbufq_drain(&mq); t4_free_page_pods(prsv); free(ddp, M_CXGBEI); goto no_ddp; } /* * Do not get inp from toep->inp as the toepcb might * have detached already. */ ICL_CONN_LOCK(ic); if (ic->ic_disconnecting || ic->ic_socket == NULL) { ICL_CONN_UNLOCK(ic); mbufq_drain(&mq); t4_free_page_pods(prsv); free(ddp, M_CXGBEI); return (ECONNRESET); } inp = sotoinpcb(ic->ic_socket); INP_WLOCK(inp); ICL_CONN_UNLOCK(ic); if ((inp->inp_flags & (INP_DROPPED | INP_TIMEWAIT)) != 0) { INP_WUNLOCK(inp); mbufq_drain(&mq); t4_free_page_pods(prsv); free(ddp, M_CXGBEI); return (ECONNRESET); } mbufq_concat(&toep->ulp_pduq, &mq); INP_WUNLOCK(inp); ddp->cmp.next_buffer_offset = ctsio->kern_rel_offset + first_burst; ddp->cmp.last_datasn = -1; cxgbei_insert_cmp(icc, &ddp->cmp, prsv->prsv_tag); *tttp = htobe32(prsv->prsv_tag); io_to_ddp_state(io) = ddp; *arg = ctsio; counter_u64_add(toep->ofld_rxq->rx_iscsi_ddp_setup_ok, 1); return (0); } /* * In the middle of an I/O. A non-NULL page pod reservation indicates * that a DDP buffer is being used for the I/O. */ ddp = io_to_ddp_state(ctsio); if (ddp == NULL) goto no_ddp; prsv = &ddp->prsv; alias = (prsv->prsv_tag & pr->pr_alias_mask) >> pr->pr_alias_shift; alias++; prsv->prsv_tag &= ~pr->pr_alias_mask; prsv->prsv_tag |= alias << pr->pr_alias_shift & pr->pr_alias_mask; ddp->cmp.next_datasn = 0; ddp->cmp.last_datasn = -1; cxgbei_insert_cmp(icc, &ddp->cmp, prsv->prsv_tag); *tttp = htobe32(prsv->prsv_tag); *arg = ctsio; return (0); } void icl_cxgbei_conn_transfer_done(struct icl_conn *ic, void *arg) { struct ctl_scsiio *ctsio = arg; if (ctsio != NULL) { struct cxgbei_ddp_state *ddp; ddp = io_to_ddp_state(ctsio); MPASS(ddp != NULL); cxgbei_rm_cmp(ic_to_icc(ic), &ddp->cmp); if (ctsio->kern_data_len == ctsio->ext_data_filled || ic->ic_disconnecting) { t4_free_page_pods(&ddp->prsv); free(ddp, M_CXGBEI); io_to_ddp_state(ctsio) = NULL; } } } static void cxgbei_limits(struct adapter *sc, void *arg) { struct icl_drv_limits *idl = arg; struct cxgbei_data *ci; int max_dsl; if (begin_synchronized_op(sc, NULL, HOLD_LOCK, "t4lims") != 0) return; if (uld_active(sc, ULD_ISCSI)) { ci = sc->iscsi_ulp_softc; MPASS(ci != NULL); /* * AHS is not supported by the kernel so we'll not account for * it either in our PDU len -> data segment len conversions. */ max_dsl = ci->max_rx_pdu_len - ISCSI_BHS_SIZE - ISCSI_HEADER_DIGEST_SIZE - ISCSI_DATA_DIGEST_SIZE; if (idl->idl_max_recv_data_segment_length > max_dsl) idl->idl_max_recv_data_segment_length = max_dsl; max_dsl = ci->max_tx_pdu_len - ISCSI_BHS_SIZE - ISCSI_HEADER_DIGEST_SIZE - ISCSI_DATA_DIGEST_SIZE; if (idl->idl_max_send_data_segment_length > max_dsl) idl->idl_max_send_data_segment_length = max_dsl; } end_synchronized_op(sc, LOCK_HELD); } static int icl_cxgbei_limits(struct icl_drv_limits *idl) { /* Maximum allowed by the RFC. cxgbei_limits will clip them. */ idl->idl_max_recv_data_segment_length = (1 << 24) - 1; idl->idl_max_send_data_segment_length = (1 << 24) - 1; /* These are somewhat arbitrary. */ idl->idl_max_burst_length = max_burst_length; idl->idl_first_burst_length = first_burst_length; t4_iterate(cxgbei_limits, idl); return (0); } int icl_cxgbei_mod_load(void) { int rc; refcount_init(&icl_cxgbei_ncons, 0); rc = icl_register("cxgbei", false, -100, icl_cxgbei_limits, icl_cxgbei_new_conn); return (rc); } int icl_cxgbei_mod_unload(void) { if (icl_cxgbei_ncons != 0) return (EBUSY); icl_unregister("cxgbei", false); return (0); } #endif