/*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2017-2018 Chelsio Communications, Inc. * All rights reserved. * Written by: John Baldwin * * 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 "opt_inet.h" #include "opt_kern_tls.h" #include __FBSDID("$FreeBSD$"); #ifdef KERN_TLS #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef TCP_OFFLOAD #include "common/common.h" #include "common/t4_tcb.h" #include "crypto/t4_crypto.h" #include "tom/t4_tom_l2t.h" #include "tom/t4_tom.h" /* * The TCP sequence number of a CPL_TLS_DATA mbuf is saved here while * the mbuf is in the ulp_pdu_reclaimq. */ #define tls_tcp_seq PH_loc.thirtytwo[0] static void t4_set_tls_tcb_field(struct toepcb *toep, uint16_t word, uint64_t mask, uint64_t val) { struct adapter *sc = td_adapter(toep->td); t4_set_tcb_field(sc, &toep->ofld_txq->wrq, toep, word, mask, val, 0, 0); } /* TLS and DTLS common routines */ bool can_tls_offload(struct adapter *sc) { return (sc->tt.tls && sc->cryptocaps & FW_CAPS_CONFIG_TLSKEYS); } int tls_tx_key(struct toepcb *toep) { struct tls_ofld_info *tls_ofld = &toep->tls; return (tls_ofld->tx_key_addr >= 0); } /* Set TLS Key-Id in TCB */ static void t4_set_tls_keyid(struct toepcb *toep, unsigned int key_id) { t4_set_tls_tcb_field(toep, W_TCB_RX_TLS_KEY_TAG, V_TCB_RX_TLS_KEY_TAG(M_TCB_RX_TLS_BUF_TAG), V_TCB_RX_TLS_KEY_TAG(key_id)); } /* Clear TF_RX_QUIESCE to re-enable receive. */ static void t4_clear_rx_quiesce(struct toepcb *toep) { t4_set_tls_tcb_field(toep, W_TCB_T_FLAGS, V_TF_RX_QUIESCE(1), 0); } static void tls_clr_ofld_mode(struct toepcb *toep) { tls_stop_handshake_timer(toep); KASSERT(toep->tls.rx_key_addr == -1, ("%s: tid %d has RX key", __func__, toep->tid)); /* Switch to plain TOE mode. */ t4_set_tls_tcb_field(toep, W_TCB_ULP_RAW, V_TCB_ULP_RAW(V_TF_TLS_ENABLE(1)), V_TCB_ULP_RAW(V_TF_TLS_ENABLE(0))); t4_set_tls_tcb_field(toep, W_TCB_ULP_TYPE, V_TCB_ULP_TYPE(M_TCB_ULP_TYPE), V_TCB_ULP_TYPE(ULP_MODE_NONE)); t4_clear_rx_quiesce(toep); toep->flags &= ~(TPF_FORCE_CREDITS | TPF_TLS_ESTABLISHED); toep->params.ulp_mode = ULP_MODE_NONE; } /* TLS/DTLS content type for CPL SFO */ static inline unsigned char tls_content_type(unsigned char content_type) { switch (content_type) { case CONTENT_TYPE_CCS: return CPL_TX_TLS_SFO_TYPE_CCS; case CONTENT_TYPE_ALERT: return CPL_TX_TLS_SFO_TYPE_ALERT; case CONTENT_TYPE_HANDSHAKE: return CPL_TX_TLS_SFO_TYPE_HANDSHAKE; case CONTENT_TYPE_APP_DATA: return CPL_TX_TLS_SFO_TYPE_DATA; default: return CPL_TX_TLS_SFO_TYPE_CUSTOM; } } /* TLS Key memory management */ static void clear_tls_keyid(struct toepcb *toep) { struct tls_ofld_info *tls_ofld = &toep->tls; struct adapter *sc = td_adapter(toep->td); if (tls_ofld->rx_key_addr >= 0) { t4_free_tls_keyid(sc, tls_ofld->rx_key_addr); tls_ofld->rx_key_addr = -1; } if (tls_ofld->tx_key_addr >= 0) { t4_free_tls_keyid(sc, tls_ofld->tx_key_addr); tls_ofld->tx_key_addr = -1; } } static int get_tp_plen_max(struct ktls_session *tls) { int plen = ((min(3*4096, TP_TX_PG_SZ))/1448) * 1448; return (tls->params.max_frame_len <= 8192 ? plen : FC_TP_PLEN_MAX); } /* Send request to get the key-id */ static int tls_program_key_id(struct toepcb *toep, struct ktls_session *tls, int direction) { struct tls_ofld_info *tls_ofld = &toep->tls; struct adapter *sc = td_adapter(toep->td); struct ofld_tx_sdesc *txsd; int keyid; struct wrqe *wr; struct tls_key_req *kwr; struct tls_keyctx *kctx; #ifdef INVARIANTS int kwrlen, kctxlen, len; kwrlen = sizeof(*kwr); kctxlen = roundup2(sizeof(*kctx), 32); len = roundup2(kwrlen + kctxlen, 16); MPASS(TLS_KEY_WR_SZ == len); #endif if (toep->txsd_avail == 0) return (EAGAIN); if ((keyid = t4_alloc_tls_keyid(sc)) < 0) { return (ENOSPC); } wr = alloc_wrqe(TLS_KEY_WR_SZ, &toep->ofld_txq->wrq); if (wr == NULL) { t4_free_tls_keyid(sc, keyid); return (ENOMEM); } kwr = wrtod(wr); memset(kwr, 0, TLS_KEY_WR_SZ); t4_write_tlskey_wr(tls, direction, toep->tid, F_FW_WR_COMPL, keyid, kwr); kctx = (struct tls_keyctx *)(kwr + 1); if (direction == KTLS_TX) tls_ofld->tx_key_addr = keyid; else tls_ofld->rx_key_addr = keyid; t4_tls_key_ctx(tls, direction, kctx); txsd = &toep->txsd[toep->txsd_pidx]; txsd->tx_credits = DIV_ROUND_UP(TLS_KEY_WR_SZ, 16); txsd->plen = 0; 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); return (0); } /* * In some cases a client connection can hang without sending the * ServerHelloDone message from the NIC to the host. Send a dummy * RX_DATA_ACK with RX_MODULATE to unstick the connection. */ static void tls_send_handshake_ack(void *arg) { struct toepcb *toep = arg; struct tls_ofld_info *tls_ofld = &toep->tls; struct adapter *sc = td_adapter(toep->td); /* Bail without rescheduling if the connection has closed. */ if ((toep->flags & (TPF_FIN_SENT | TPF_ABORT_SHUTDOWN)) != 0) return; /* * If this connection has timed out without receiving more * data, downgrade to plain TOE mode and don't re-arm the * timer. */ if (sc->tt.tls_rx_timeout != 0) { struct inpcb *inp; struct tcpcb *tp; inp = toep->inp; tp = intotcpcb(inp); if ((ticks - tp->t_rcvtime) >= sc->tt.tls_rx_timeout) { CTR2(KTR_CXGBE, "%s: tid %d clr_ofld_mode", __func__, toep->tid); tls_clr_ofld_mode(toep); return; } } /* * XXX: Does not have the t4_get_tcb() checks to refine the * workaround. */ callout_schedule(&tls_ofld->handshake_timer, TLS_SRV_HELLO_RD_TM * hz); CTR2(KTR_CXGBE, "%s: tid %d sending RX_DATA_ACK", __func__, toep->tid); send_rx_modulate(sc, toep); } static void tls_start_handshake_timer(struct toepcb *toep) { struct tls_ofld_info *tls_ofld = &toep->tls; INP_WLOCK_ASSERT(toep->inp); callout_reset(&tls_ofld->handshake_timer, TLS_SRV_HELLO_BKOFF_TM * hz, tls_send_handshake_ack, toep); } void tls_stop_handshake_timer(struct toepcb *toep) { struct tls_ofld_info *tls_ofld = &toep->tls; INP_WLOCK_ASSERT(toep->inp); callout_stop(&tls_ofld->handshake_timer); } int tls_alloc_ktls(struct toepcb *toep, struct ktls_session *tls, int direction) { struct adapter *sc = td_adapter(toep->td); int error, explicit_iv_size, key_offset, mac_first; if (!can_tls_offload(td_adapter(toep->td))) return (EINVAL); switch (ulp_mode(toep)) { case ULP_MODE_TLS: break; case ULP_MODE_NONE: case ULP_MODE_TCPDDP: if (direction != KTLS_TX) return (EINVAL); break; default: return (EINVAL); } switch (tls->params.cipher_algorithm) { case CRYPTO_AES_CBC: /* XXX: Explicitly ignore any provided IV. */ switch (tls->params.cipher_key_len) { case 128 / 8: case 192 / 8: case 256 / 8: break; default: error = EINVAL; goto clr_ofld; } switch (tls->params.auth_algorithm) { case CRYPTO_SHA1_HMAC: case CRYPTO_SHA2_256_HMAC: case CRYPTO_SHA2_384_HMAC: break; default: error = EPROTONOSUPPORT; goto clr_ofld; } explicit_iv_size = AES_BLOCK_LEN; mac_first = 1; break; case CRYPTO_AES_NIST_GCM_16: if (tls->params.iv_len != SALT_SIZE) { error = EINVAL; goto clr_ofld; } switch (tls->params.cipher_key_len) { case 128 / 8: case 192 / 8: case 256 / 8: break; default: error = EINVAL; goto clr_ofld; } explicit_iv_size = 8; mac_first = 0; break; default: error = EPROTONOSUPPORT; goto clr_ofld; } /* Only TLS 1.1 and TLS 1.2 are currently supported. */ if (tls->params.tls_vmajor != TLS_MAJOR_VER_ONE || tls->params.tls_vminor < TLS_MINOR_VER_ONE || tls->params.tls_vminor > TLS_MINOR_VER_TWO) { error = EPROTONOSUPPORT; goto clr_ofld; } /* Bail if we already have a key. */ if (direction == KTLS_TX) { if (toep->tls.tx_key_addr != -1) return (EOPNOTSUPP); } else { if (toep->tls.rx_key_addr != -1) return (EOPNOTSUPP); } error = tls_program_key_id(toep, tls, direction); if (error) { if (direction == KTLS_RX) goto clr_ofld; return (error); } if (direction == KTLS_TX) { toep->tls.scmd0.seqno_numivs = (V_SCMD_SEQ_NO_CTRL(3) | V_SCMD_PROTO_VERSION(t4_tls_proto_ver(tls)) | V_SCMD_ENC_DEC_CTRL(SCMD_ENCDECCTRL_ENCRYPT) | V_SCMD_CIPH_AUTH_SEQ_CTRL((mac_first == 0)) | V_SCMD_CIPH_MODE(t4_tls_cipher_mode(tls)) | V_SCMD_AUTH_MODE(t4_tls_auth_mode(tls)) | V_SCMD_HMAC_CTRL(t4_tls_hmac_ctrl(tls)) | V_SCMD_IV_SIZE(explicit_iv_size / 2)); toep->tls.scmd0.ivgen_hdrlen = (V_SCMD_IV_GEN_CTRL(1) | V_SCMD_KEY_CTX_INLINE(0) | V_SCMD_TLS_FRAG_ENABLE(1)); toep->tls.iv_len = explicit_iv_size; toep->tls.frag_size = tls->params.max_frame_len; toep->tls.fcplenmax = get_tp_plen_max(tls); toep->tls.expn_per_ulp = tls->params.tls_hlen + tls->params.tls_tlen; toep->tls.pdus_per_ulp = 1; toep->tls.adjusted_plen = toep->tls.expn_per_ulp + tls->params.max_frame_len; toep->tls.tx_key_info_size = t4_tls_key_info_size(tls); } else { /* Stop timer on handshake completion */ tls_stop_handshake_timer(toep); toep->flags &= ~TPF_FORCE_CREDITS; toep->flags |= TPF_TLS_RECEIVE; toep->tls.rx_version = tls->params.tls_vmajor << 8 | tls->params.tls_vminor; /* * RX key tags are an index into the key portion of MA * memory stored as an offset from the base address in * units of 64 bytes. */ key_offset = toep->tls.rx_key_addr - sc->vres.key.start; t4_set_tls_keyid(toep, key_offset / 64); t4_set_tls_tcb_field(toep, W_TCB_ULP_RAW, V_TCB_ULP_RAW(M_TCB_ULP_RAW), V_TCB_ULP_RAW((V_TF_TLS_KEY_SIZE(3) | V_TF_TLS_CONTROL(1) | V_TF_TLS_ACTIVE(1) | V_TF_TLS_ENABLE(1)))); t4_set_tls_tcb_field(toep, W_TCB_TLS_SEQ, V_TCB_TLS_SEQ(M_TCB_TLS_SEQ), V_TCB_TLS_SEQ(0)); t4_clear_rx_quiesce(toep); } return (0); clr_ofld: if (ulp_mode(toep) == ULP_MODE_TLS) { CTR2(KTR_CXGBE, "%s: tid %d clr_ofld_mode", __func__, toep->tid); tls_clr_ofld_mode(toep); } return (error); } void tls_init_toep(struct toepcb *toep) { struct tls_ofld_info *tls_ofld = &toep->tls; tls_ofld->rx_key_addr = -1; tls_ofld->tx_key_addr = -1; } void tls_establish(struct toepcb *toep) { /* * Enable PDU extraction. * * XXX: Supposedly this should be done by the firmware when * the ULP_MODE FLOWC parameter is set in send_flowc_wr(), but * in practice this seems to be required. */ CTR2(KTR_CXGBE, "%s: tid %d setting TLS_ENABLE", __func__, toep->tid); t4_set_tls_tcb_field(toep, W_TCB_ULP_RAW, V_TCB_ULP_RAW(M_TCB_ULP_RAW), V_TCB_ULP_RAW(V_TF_TLS_ENABLE(1))); toep->flags |= TPF_FORCE_CREDITS | TPF_TLS_ESTABLISHED; callout_init_rw(&toep->tls.handshake_timer, &toep->inp->inp_lock, 0); tls_start_handshake_timer(toep); } void tls_detach(struct toepcb *toep) { if (toep->flags & TPF_TLS_ESTABLISHED) { tls_stop_handshake_timer(toep); toep->flags &= ~TPF_TLS_ESTABLISHED; } } void tls_uninit_toep(struct toepcb *toep) { MPASS((toep->flags & TPF_TLS_ESTABLISHED) == 0); clear_tls_keyid(toep); } #define MAX_OFLD_TX_CREDITS (SGE_MAX_WR_LEN / 16) #define MIN_OFLD_TLSTX_CREDITS(toep) \ (howmany(sizeof(struct fw_tlstx_data_wr) + \ sizeof(struct cpl_tx_tls_sfo) + sizeof(struct ulptx_idata) + \ sizeof(struct ulptx_sc_memrd) + \ AES_BLOCK_LEN + 1, 16)) static void write_tlstx_wr(struct fw_tlstx_data_wr *txwr, struct toepcb *toep, unsigned int plen, unsigned int expn, uint8_t credits, int shove) { struct tls_ofld_info *tls_ofld = &toep->tls; unsigned int len = plen + expn; txwr->op_to_immdlen = htobe32(V_WR_OP(FW_TLSTX_DATA_WR) | V_FW_TLSTX_DATA_WR_COMPL(1) | V_FW_TLSTX_DATA_WR_IMMDLEN(0)); txwr->flowid_len16 = htobe32(V_FW_TLSTX_DATA_WR_FLOWID(toep->tid) | V_FW_TLSTX_DATA_WR_LEN16(credits)); txwr->plen = htobe32(len); txwr->lsodisable_to_flags = htobe32(V_TX_ULP_MODE(ULP_MODE_TLS) | V_TX_URG(0) | /* F_T6_TX_FORCE | */ V_TX_SHOVE(shove)); txwr->ctxloc_to_exp = htobe32(V_FW_TLSTX_DATA_WR_NUMIVS(1) | V_FW_TLSTX_DATA_WR_EXP(expn) | V_FW_TLSTX_DATA_WR_CTXLOC(TLS_SFO_WR_CONTEXTLOC_DDR) | V_FW_TLSTX_DATA_WR_IVDSGL(0) | V_FW_TLSTX_DATA_WR_KEYSIZE(tls_ofld->tx_key_info_size >> 4)); txwr->mfs = htobe16(tls_ofld->frag_size); txwr->adjustedplen_pkd = htobe16( V_FW_TLSTX_DATA_WR_ADJUSTEDPLEN(tls_ofld->adjusted_plen)); txwr->expinplenmax_pkd = htobe16( V_FW_TLSTX_DATA_WR_EXPINPLENMAX(tls_ofld->expn_per_ulp)); txwr->pdusinplenmax_pkd = V_FW_TLSTX_DATA_WR_PDUSINPLENMAX(tls_ofld->pdus_per_ulp); } static void write_tlstx_cpl(struct cpl_tx_tls_sfo *cpl, struct toepcb *toep, struct tls_hdr *tls_hdr, unsigned int plen, uint64_t seqno) { struct tls_ofld_info *tls_ofld = &toep->tls; int data_type, seglen; seglen = plen; data_type = tls_content_type(tls_hdr->type); cpl->op_to_seg_len = htobe32(V_CPL_TX_TLS_SFO_OPCODE(CPL_TX_TLS_SFO) | V_CPL_TX_TLS_SFO_DATA_TYPE(data_type) | V_CPL_TX_TLS_SFO_CPL_LEN(2) | V_CPL_TX_TLS_SFO_SEG_LEN(seglen)); cpl->pld_len = htobe32(plen); if (data_type == CPL_TX_TLS_SFO_TYPE_CUSTOM) cpl->type_protover = htobe32( V_CPL_TX_TLS_SFO_TYPE(tls_hdr->type)); cpl->seqno_numivs = htobe32(tls_ofld->scmd0.seqno_numivs | V_SCMD_NUM_IVS(1)); cpl->ivgen_hdrlen = htobe32(tls_ofld->scmd0.ivgen_hdrlen); cpl->scmd1 = htobe64(seqno); } static int count_ext_pgs_segs(struct mbuf *m) { vm_paddr_t nextpa; u_int i, nsegs; MPASS(m->m_epg_npgs > 0); nsegs = 1; nextpa = m->m_epg_pa[0] + PAGE_SIZE; for (i = 1; i < m->m_epg_npgs; i++) { if (nextpa != m->m_epg_pa[i]) nsegs++; nextpa = m->m_epg_pa[i] + PAGE_SIZE; } return (nsegs); } static void write_ktlstx_sgl(void *dst, struct mbuf *m, int nsegs) { struct ulptx_sgl *usgl = dst; vm_paddr_t pa; uint32_t len; int i, j; KASSERT(nsegs > 0, ("%s: nsegs 0", __func__)); usgl->cmd_nsge = htobe32(V_ULPTX_CMD(ULP_TX_SC_DSGL) | V_ULPTX_NSGE(nsegs)); /* Figure out the first S/G length. */ pa = m->m_epg_pa[0] + m->m_epg_1st_off; usgl->addr0 = htobe64(pa); len = m_epg_pagelen(m, 0, m->m_epg_1st_off); pa += len; for (i = 1; i < m->m_epg_npgs; i++) { if (m->m_epg_pa[i] != pa) break; len += m_epg_pagelen(m, i, 0); pa += m_epg_pagelen(m, i, 0); } usgl->len0 = htobe32(len); #ifdef INVARIANTS nsegs--; #endif j = -1; for (; i < m->m_epg_npgs; i++) { if (j == -1 || m->m_epg_pa[i] != pa) { if (j >= 0) usgl->sge[j / 2].len[j & 1] = htobe32(len); j++; #ifdef INVARIANTS nsegs--; #endif pa = m->m_epg_pa[i]; usgl->sge[j / 2].addr[j & 1] = htobe64(pa); len = m_epg_pagelen(m, i, 0); pa += len; } else { len += m_epg_pagelen(m, i, 0); pa += m_epg_pagelen(m, i, 0); } } if (j >= 0) { usgl->sge[j / 2].len[j & 1] = htobe32(len); if ((j & 1) == 0) usgl->sge[j / 2].len[1] = htobe32(0); } KASSERT(nsegs == 0, ("%s: nsegs %d, m %p", __func__, nsegs, m)); } /* * Similar to t4_push_frames() but handles sockets that contain TLS * record mbufs. */ void t4_push_ktls(struct adapter *sc, struct toepcb *toep, int drop) { struct tls_hdr *thdr; struct fw_tlstx_data_wr *txwr; struct cpl_tx_tls_sfo *cpl; struct ulptx_idata *idata; struct ulptx_sc_memrd *memrd; struct wrqe *wr; struct mbuf *m; u_int nsegs, credits, wr_len; u_int expn_size; struct inpcb *inp = toep->inp; struct tcpcb *tp = intotcpcb(inp); struct socket *so = inp->inp_socket; struct sockbuf *sb = &so->so_snd; int tls_size, tx_credits, shove, sowwakeup; struct ofld_tx_sdesc *txsd; char *buf; INP_WLOCK_ASSERT(inp); KASSERT(toep->flags & TPF_FLOWC_WR_SENT, ("%s: flowc_wr not sent for tid %u.", __func__, toep->tid)); KASSERT(ulp_mode(toep) == ULP_MODE_NONE || ulp_mode(toep) == ULP_MODE_TCPDDP || ulp_mode(toep) == ULP_MODE_TLS, ("%s: ulp_mode %u for toep %p", __func__, ulp_mode(toep), toep)); KASSERT(tls_tx_key(toep), ("%s: TX key not set for toep %p", __func__, toep)); #ifdef VERBOSE_TRACES CTR4(KTR_CXGBE, "%s: tid %d toep flags %#x tp flags %#x drop %d", __func__, toep->tid, toep->flags, tp->t_flags); #endif if (__predict_false(toep->flags & TPF_ABORT_SHUTDOWN)) return; #ifdef RATELIMIT if (__predict_false(inp->inp_flags2 & INP_RATE_LIMIT_CHANGED) && (update_tx_rate_limit(sc, toep, so->so_max_pacing_rate) == 0)) { inp->inp_flags2 &= ~INP_RATE_LIMIT_CHANGED; } #endif /* * This function doesn't resume by itself. Someone else must clear the * flag and call this function. */ if (__predict_false(toep->flags & TPF_TX_SUSPENDED)) { KASSERT(drop == 0, ("%s: drop (%d) != 0 but tx is suspended", __func__, drop)); return; } txsd = &toep->txsd[toep->txsd_pidx]; for (;;) { tx_credits = min(toep->tx_credits, MAX_OFLD_TX_CREDITS); SOCKBUF_LOCK(sb); sowwakeup = drop; if (drop) { sbdrop_locked(sb, drop); drop = 0; } m = sb->sb_sndptr != NULL ? sb->sb_sndptr->m_next : sb->sb_mb; /* * Send a FIN if requested, but only if there's no * more data to send. */ if (m == NULL && toep->flags & TPF_SEND_FIN) { if (sowwakeup) sowwakeup_locked(so); else SOCKBUF_UNLOCK(sb); SOCKBUF_UNLOCK_ASSERT(sb); t4_close_conn(sc, toep); return; } /* * If there is no ready data to send, wait until more * data arrives. */ if (m == NULL || (m->m_flags & M_NOTAVAIL) != 0) { if (sowwakeup) sowwakeup_locked(so); else SOCKBUF_UNLOCK(sb); SOCKBUF_UNLOCK_ASSERT(sb); #ifdef VERBOSE_TRACES CTR2(KTR_CXGBE, "%s: tid %d no ready data to send", __func__, toep->tid); #endif return; } KASSERT(m->m_flags & M_EXTPG, ("%s: mbuf %p is not NOMAP", __func__, m)); KASSERT(m->m_epg_tls != NULL, ("%s: mbuf %p doesn't have TLS session", __func__, m)); /* Calculate WR length. */ wr_len = sizeof(struct fw_tlstx_data_wr) + sizeof(struct cpl_tx_tls_sfo) + sizeof(struct ulptx_idata) + sizeof(struct ulptx_sc_memrd); /* Explicit IVs for AES-CBC and AES-GCM are <= 16. */ MPASS(toep->tls.iv_len <= AES_BLOCK_LEN); wr_len += AES_BLOCK_LEN; /* Account for SGL in work request length. */ nsegs = count_ext_pgs_segs(m); wr_len += sizeof(struct ulptx_sgl) + ((3 * (nsegs - 1)) / 2 + ((nsegs - 1) & 1)) * 8; /* Not enough credits for this work request. */ if (howmany(wr_len, 16) > tx_credits) { if (sowwakeup) sowwakeup_locked(so); else SOCKBUF_UNLOCK(sb); SOCKBUF_UNLOCK_ASSERT(sb); #ifdef VERBOSE_TRACES CTR5(KTR_CXGBE, "%s: tid %d mbuf %p requires %d credits, but only %d available", __func__, toep->tid, m, howmany(wr_len, 16), tx_credits); #endif toep->flags |= TPF_TX_SUSPENDED; return; } /* Shove if there is no additional data pending. */ shove = ((m->m_next == NULL || (m->m_next->m_flags & M_NOTAVAIL) != 0)) && (tp->t_flags & TF_MORETOCOME) == 0; if (sb->sb_flags & SB_AUTOSIZE && V_tcp_do_autosndbuf && sb->sb_hiwat < V_tcp_autosndbuf_max && sbused(sb) >= sb->sb_hiwat * 7 / 8) { int newsize = min(sb->sb_hiwat + V_tcp_autosndbuf_inc, V_tcp_autosndbuf_max); if (!sbreserve_locked(so, SO_SND, newsize, NULL)) sb->sb_flags &= ~SB_AUTOSIZE; else sowwakeup = 1; /* room available */ } if (sowwakeup) sowwakeup_locked(so); else SOCKBUF_UNLOCK(sb); SOCKBUF_UNLOCK_ASSERT(sb); if (__predict_false(toep->flags & TPF_FIN_SENT)) panic("%s: excess tx.", __func__); wr = alloc_wrqe(roundup2(wr_len, 16), &toep->ofld_txq->wrq); if (wr == NULL) { /* XXX: how will we recover from this? */ toep->flags |= TPF_TX_SUSPENDED; return; } thdr = (struct tls_hdr *)&m->m_epg_hdr; #ifdef VERBOSE_TRACES CTR5(KTR_CXGBE, "%s: tid %d TLS record %ju type %d len %#x", __func__, toep->tid, m->m_epg_seqno, thdr->type, m->m_len); #endif txwr = wrtod(wr); cpl = (struct cpl_tx_tls_sfo *)(txwr + 1); memset(txwr, 0, roundup2(wr_len, 16)); credits = howmany(wr_len, 16); expn_size = m->m_epg_hdrlen + m->m_epg_trllen; tls_size = m->m_len - expn_size; write_tlstx_wr(txwr, toep, tls_size, expn_size, credits, shove); write_tlstx_cpl(cpl, toep, thdr, tls_size, m->m_epg_seqno); idata = (struct ulptx_idata *)(cpl + 1); idata->cmd_more = htobe32(V_ULPTX_CMD(ULP_TX_SC_NOOP)); idata->len = htobe32(0); memrd = (struct ulptx_sc_memrd *)(idata + 1); memrd->cmd_to_len = htobe32(V_ULPTX_CMD(ULP_TX_SC_MEMRD) | V_ULP_TX_SC_MORE(1) | V_ULPTX_LEN16(toep->tls.tx_key_info_size >> 4)); memrd->addr = htobe32(toep->tls.tx_key_addr >> 5); /* Copy IV. */ buf = (char *)(memrd + 1); memcpy(buf, thdr + 1, toep->tls.iv_len); buf += AES_BLOCK_LEN; write_ktlstx_sgl(buf, m, nsegs); KASSERT(toep->tx_credits >= credits, ("%s: not enough credits", __func__)); toep->tx_credits -= credits; tp->snd_nxt += m->m_len; tp->snd_max += m->m_len; SOCKBUF_LOCK(sb); sb->sb_sndptr = m; SOCKBUF_UNLOCK(sb); toep->flags |= TPF_TX_DATA_SENT; if (toep->tx_credits < MIN_OFLD_TLSTX_CREDITS(toep)) toep->flags |= TPF_TX_SUSPENDED; KASSERT(toep->txsd_avail > 0, ("%s: no txsd", __func__)); txsd->plen = m->m_len; txsd->tx_credits = credits; txsd++; if (__predict_false(++toep->txsd_pidx == toep->txsd_total)) { toep->txsd_pidx = 0; txsd = &toep->txsd[0]; } toep->txsd_avail--; counter_u64_add(toep->ofld_txq->tx_toe_tls_records, 1); counter_u64_add(toep->ofld_txq->tx_toe_tls_octets, m->m_len); t4_l2t_send(sc, wr, toep->l2te); } } /* * For TLS data we place received mbufs received via CPL_TLS_DATA into * an mbufq in the TLS offload state. When CPL_RX_TLS_CMP is * received, the completed PDUs are placed into the socket receive * buffer. * * The TLS code reuses the ulp_pdu_reclaimq to hold the pending mbufs. */ static int do_tls_data(struct sge_iq *iq, const struct rss_header *rss, struct mbuf *m) { struct adapter *sc = iq->adapter; const struct cpl_tls_data *cpl = mtod(m, const void *); unsigned int tid = GET_TID(cpl); struct toepcb *toep = lookup_tid(sc, tid); struct inpcb *inp = toep->inp; struct tcpcb *tp; int len; /* XXX: Should this match do_rx_data instead? */ KASSERT(!(toep->flags & TPF_SYNQE), ("%s: toep %p claims to be a synq entry", __func__, toep)); KASSERT(toep->tid == tid, ("%s: toep tid/atid mismatch", __func__)); /* strip off CPL header */ m_adj(m, sizeof(*cpl)); len = m->m_pkthdr.len; toep->ofld_rxq->rx_toe_tls_octets += len; KASSERT(len == G_CPL_TLS_DATA_LENGTH(be32toh(cpl->length_pkd)), ("%s: payload length mismatch", __func__)); INP_WLOCK(inp); if (inp->inp_flags & INP_DROPPED) { CTR4(KTR_CXGBE, "%s: tid %u, rx (%d bytes), inp_flags 0x%x", __func__, tid, len, inp->inp_flags); INP_WUNLOCK(inp); m_freem(m); return (0); } /* Save TCP sequence number. */ m->m_pkthdr.tls_tcp_seq = be32toh(cpl->seq); if (mbufq_enqueue(&toep->ulp_pdu_reclaimq, m)) { #ifdef INVARIANTS panic("Failed to queue TLS data packet"); #else printf("%s: Failed to queue TLS data packet\n", __func__); INP_WUNLOCK(inp); m_freem(m); return (0); #endif } tp = intotcpcb(inp); tp->t_rcvtime = ticks; #ifdef VERBOSE_TRACES CTR4(KTR_CXGBE, "%s: tid %u len %d seq %u", __func__, tid, len, be32toh(cpl->seq)); #endif INP_WUNLOCK(inp); return (0); } static int do_rx_tls_cmp(struct sge_iq *iq, const struct rss_header *rss, struct mbuf *m) { struct adapter *sc = iq->adapter; const struct cpl_rx_tls_cmp *cpl = mtod(m, const void *); struct tlsrx_hdr_pkt *tls_hdr_pkt; unsigned int tid = GET_TID(cpl); struct toepcb *toep = lookup_tid(sc, tid); struct inpcb *inp = toep->inp; struct tcpcb *tp; struct socket *so; struct sockbuf *sb; struct mbuf *tls_data; struct tls_get_record *tgr; struct mbuf *control; int pdu_length, rx_credits; #if defined(KTR) || defined(INVARIANTS) int len; #endif KASSERT(toep->tid == tid, ("%s: toep tid/atid mismatch", __func__)); KASSERT(!(toep->flags & TPF_SYNQE), ("%s: toep %p claims to be a synq entry", __func__, toep)); /* strip off CPL header */ m_adj(m, sizeof(*cpl)); #if defined(KTR) || defined(INVARIANTS) len = m->m_pkthdr.len; #endif toep->ofld_rxq->rx_toe_tls_records++; KASSERT(len == G_CPL_RX_TLS_CMP_LENGTH(be32toh(cpl->pdulength_length)), ("%s: payload length mismatch", __func__)); INP_WLOCK(inp); if (inp->inp_flags & INP_DROPPED) { CTR4(KTR_CXGBE, "%s: tid %u, rx (%d bytes), inp_flags 0x%x", __func__, tid, len, inp->inp_flags); INP_WUNLOCK(inp); m_freem(m); return (0); } pdu_length = G_CPL_RX_TLS_CMP_PDULENGTH(be32toh(cpl->pdulength_length)); so = inp_inpcbtosocket(inp); tp = intotcpcb(inp); #ifdef VERBOSE_TRACES CTR6(KTR_CXGBE, "%s: tid %u PDU len %d len %d seq %u, rcv_nxt %u", __func__, tid, pdu_length, len, be32toh(cpl->seq), tp->rcv_nxt); #endif tp->rcv_nxt += pdu_length; KASSERT(tp->rcv_wnd >= pdu_length, ("%s: negative window size", __func__)); tp->rcv_wnd -= pdu_length; /* XXX: Not sure what to do about urgent data. */ /* * The payload of this CPL is the TLS header followed by * additional fields. */ KASSERT(m->m_len >= sizeof(*tls_hdr_pkt), ("%s: payload too small", __func__)); tls_hdr_pkt = mtod(m, void *); tls_data = mbufq_dequeue(&toep->ulp_pdu_reclaimq); if (tls_data != NULL) { KASSERT(be32toh(cpl->seq) == tls_data->m_pkthdr.tls_tcp_seq, ("%s: sequence mismatch", __func__)); } /* Report decryption errors as EBADMSG. */ if ((tls_hdr_pkt->res_to_mac_error & M_TLSRX_HDR_PKT_ERROR) != 0) { m_freem(m); m_freem(tls_data); CURVNET_SET(toep->vnet); so->so_error = EBADMSG; sorwakeup(so); INP_WUNLOCK(inp); CURVNET_RESTORE(); return (0); } /* Allocate the control message mbuf. */ control = sbcreatecontrol(NULL, sizeof(*tgr), TLS_GET_RECORD, IPPROTO_TCP, M_NOWAIT); if (control == NULL) { m_freem(m); m_freem(tls_data); CURVNET_SET(toep->vnet); so->so_error = ENOBUFS; sorwakeup(so); INP_WUNLOCK(inp); CURVNET_RESTORE(); return (0); } tgr = (struct tls_get_record *) CMSG_DATA(mtod(control, struct cmsghdr *)); memset(tgr, 0, sizeof(*tgr)); tgr->tls_type = tls_hdr_pkt->type; tgr->tls_vmajor = be16toh(tls_hdr_pkt->version) >> 8; tgr->tls_vminor = be16toh(tls_hdr_pkt->version) & 0xff; m_freem(m); if (tls_data != NULL) { m_last(tls_data)->m_flags |= M_EOR; tgr->tls_length = htobe16(tls_data->m_pkthdr.len); } else tgr->tls_length = 0; m = tls_data; sb = &so->so_rcv; SOCKBUF_LOCK(sb); if (__predict_false(sb->sb_state & SBS_CANTRCVMORE)) { struct epoch_tracker et; CTR3(KTR_CXGBE, "%s: tid %u, excess rx (%d bytes)", __func__, tid, pdu_length); m_freem(m); m_freem(control); SOCKBUF_UNLOCK(sb); INP_WUNLOCK(inp); CURVNET_SET(toep->vnet); NET_EPOCH_ENTER(et); INP_WLOCK(inp); tp = tcp_drop(tp, ECONNRESET); if (tp) INP_WUNLOCK(inp); NET_EPOCH_EXIT(et); CURVNET_RESTORE(); return (0); } /* * Not all of the bytes on the wire are included in the socket buffer * (e.g. the MAC of the TLS record). However, those bytes are included * in the TCP sequence space. */ /* receive buffer autosize */ MPASS(toep->vnet == so->so_vnet); CURVNET_SET(toep->vnet); if (sb->sb_flags & SB_AUTOSIZE && V_tcp_do_autorcvbuf && sb->sb_hiwat < V_tcp_autorcvbuf_max && m->m_pkthdr.len > (sbspace(sb) / 8 * 7)) { unsigned int hiwat = sb->sb_hiwat; unsigned int newsize = min(hiwat + sc->tt.autorcvbuf_inc, V_tcp_autorcvbuf_max); if (!sbreserve_locked(so, SO_RCV, newsize, NULL)) sb->sb_flags &= ~SB_AUTOSIZE; } sbappendcontrol_locked(sb, m, control, 0); rx_credits = sbspace(sb) > tp->rcv_wnd ? sbspace(sb) - tp->rcv_wnd : 0; #ifdef VERBOSE_TRACES CTR4(KTR_CXGBE, "%s: tid %u rx_credits %u rcv_wnd %u", __func__, tid, rx_credits, tp->rcv_wnd); #endif if (rx_credits > 0 && sbused(sb) + tp->rcv_wnd < sb->sb_lowat) { rx_credits = send_rx_credits(sc, toep, rx_credits); tp->rcv_wnd += rx_credits; tp->rcv_adv += rx_credits; } sorwakeup_locked(so); SOCKBUF_UNLOCK_ASSERT(sb); INP_WUNLOCK(inp); CURVNET_RESTORE(); return (0); } void do_rx_data_tls(const struct cpl_rx_data *cpl, struct toepcb *toep, struct mbuf *m) { struct inpcb *inp = toep->inp; struct tls_ofld_info *tls_ofld = &toep->tls; struct tls_hdr *hdr; struct tcpcb *tp; struct socket *so; struct sockbuf *sb; int len, rx_credits; len = m->m_pkthdr.len; INP_WLOCK_ASSERT(inp); so = inp_inpcbtosocket(inp); tp = intotcpcb(inp); sb = &so->so_rcv; SOCKBUF_LOCK(sb); CURVNET_SET(toep->vnet); tp->rcv_nxt += len; KASSERT(tp->rcv_wnd >= len, ("%s: negative window size", __func__)); tp->rcv_wnd -= len; /* Do we have a full TLS header? */ if (len < sizeof(*hdr)) { CTR3(KTR_CXGBE, "%s: tid %u len %d: too short for a TLS header", __func__, toep->tid, len); so->so_error = EMSGSIZE; goto out; } hdr = mtod(m, struct tls_hdr *); /* Is the header valid? */ if (be16toh(hdr->version) != tls_ofld->rx_version) { CTR3(KTR_CXGBE, "%s: tid %u invalid version %04x", __func__, toep->tid, be16toh(hdr->version)); so->so_error = EINVAL; goto out; } if (be16toh(hdr->length) < sizeof(*hdr)) { CTR3(KTR_CXGBE, "%s: tid %u invalid length %u", __func__, toep->tid, be16toh(hdr->length)); so->so_error = EBADMSG; goto out; } /* Did we get a truncated record? */ if (len < be16toh(hdr->length)) { CTR4(KTR_CXGBE, "%s: tid %u truncated TLS record (%d vs %u)", __func__, toep->tid, len, be16toh(hdr->length)); so->so_error = EMSGSIZE; goto out; } /* Is the header type unknown? */ switch (hdr->type) { case CONTENT_TYPE_CCS: case CONTENT_TYPE_ALERT: case CONTENT_TYPE_APP_DATA: case CONTENT_TYPE_HANDSHAKE: break; default: CTR3(KTR_CXGBE, "%s: tid %u invalid TLS record type %u", __func__, toep->tid, hdr->type); so->so_error = EBADMSG; goto out; } /* * Just punt. Although this could fall back to software * decryption, this case should never really happen. */ CTR4(KTR_CXGBE, "%s: tid %u dropping TLS record type %u, length %u", __func__, toep->tid, hdr->type, be16toh(hdr->length)); so->so_error = EBADMSG; out: /* * This connection is going to die anyway, so probably don't * need to bother with returning credits. */ rx_credits = sbspace(sb) > tp->rcv_wnd ? sbspace(sb) - tp->rcv_wnd : 0; #ifdef VERBOSE_TRACES CTR4(KTR_CXGBE, "%s: tid %u rx_credits %u rcv_wnd %u", __func__, toep->tid, rx_credits, tp->rcv_wnd); #endif if (rx_credits > 0 && sbused(sb) + tp->rcv_wnd < sb->sb_lowat) { rx_credits = send_rx_credits(toep->vi->adapter, toep, rx_credits); tp->rcv_wnd += rx_credits; tp->rcv_adv += rx_credits; } sorwakeup_locked(so); SOCKBUF_UNLOCK_ASSERT(sb); INP_WUNLOCK(inp); CURVNET_RESTORE(); m_freem(m); } void t4_tls_mod_load(void) { t4_register_cpl_handler(CPL_TLS_DATA, do_tls_data); t4_register_cpl_handler(CPL_RX_TLS_CMP, do_rx_tls_cmp); } void t4_tls_mod_unload(void) { t4_register_cpl_handler(CPL_TLS_DATA, NULL); t4_register_cpl_handler(CPL_RX_TLS_CMP, NULL); } #endif /* TCP_OFFLOAD */ #endif /* KERN_TLS */