diff --git a/libknet/threads_pmtud.c b/libknet/threads_pmtud.c index 603f5951..2cd48f92 100644 --- a/libknet/threads_pmtud.c +++ b/libknet/threads_pmtud.c @@ -1,568 +1,590 @@ /* * Copyright (C) 2015-2019 Red Hat, Inc. All rights reserved. * * Authors: Fabio M. Di Nitto * Federico Simoncelli * * This software licensed under LGPL-2.0+ */ #include "config.h" #include #include #include #include #include "crypto.h" #include "links.h" #include "host.h" #include "logging.h" #include "transports.h" #include "threads_common.h" #include "threads_pmtud.h" static int _handle_check_link_pmtud(knet_handle_t knet_h, struct knet_host *dst_host, struct knet_link *dst_link) { int err, ret, savederrno, mutex_retry_limit, failsafe, use_kernel_mtu, warn_once; uint32_t kernel_mtu; /* record kernel_mtu from EMSGSIZE */ size_t onwire_len; /* current packet onwire size */ size_t overhead_len; /* onwire packet overhead (protocol based) */ size_t max_mtu_len; /* max mtu for protocol */ size_t data_len; /* how much data we can send in the packet * generally would be onwire_len - overhead_len * needs to be adjusted for crypto */ size_t pad_len; /* crypto packet pad size, needs to move into crypto.c callbacks */ ssize_t len; /* len of what we were able to sendto onwire */ struct timespec ts; unsigned long long pong_timeout_adj_tmp; unsigned char *outbuf = (unsigned char *)knet_h->pmtudbuf; warn_once = 0; mutex_retry_limit = 0; failsafe = 0; dst_link->last_bad_mtu = 0; knet_h->pmtudbuf->khp_pmtud_link = dst_link->link_id; switch (dst_link->dst_addr.ss_family) { case AF_INET6: max_mtu_len = KNET_PMTUD_SIZE_V6; overhead_len = KNET_PMTUD_OVERHEAD_V6 + dst_link->proto_overhead; dst_link->last_good_mtu = dst_link->last_ping_size + overhead_len; break; case AF_INET: max_mtu_len = KNET_PMTUD_SIZE_V4; overhead_len = KNET_PMTUD_OVERHEAD_V4 + dst_link->proto_overhead; dst_link->last_good_mtu = dst_link->last_ping_size + overhead_len; break; default: log_debug(knet_h, KNET_SUB_PMTUD, "PMTUD aborted, unknown protocol"); return -1; break; } /* * discovery starts from the top because kernel will * refuse to send packets > current iface mtu. * this saves us some time and network bw. */ onwire_len = max_mtu_len; restart: /* * prevent a race when interface mtu is changed _exactly_ during * the discovery process and it's complex to detect. Easier * to wait the next loop. * 30 is not an arbitrary value. To bisect from 576 to 128000 doesn't * take more than 18/19 steps. */ if (failsafe == 30) { log_err(knet_h, KNET_SUB_PMTUD, "Aborting PMTUD process: Too many attempts. MTU might have changed during discovery."); return -1; } else { failsafe++; } + /* + * unencrypted packet looks like: + * + * | ip | protocol | knet_header | unencrypted data | + * | onwire_len | + * | overhead_len | + * | data_len | + * | app MTU | + * + * encrypted packet looks like (not to scale): + * + * | ip | protocol | salt | crypto(knet_header | data) | crypto_data_pad | hash | + * | onwire_len | + * | overhead_len | + * | data_len | + * | app MTU | + * + * knet_h->sec_block_size is >= 0 if encryption will pad the data + * knet_h->sec_salt_size is >= 0 if encryption is enabled + * knet_h->sec_hash_size is >= 0 if signing is enabled + */ + data_len = onwire_len - overhead_len; if (knet_h->crypto_instance) { if (knet_h->sec_block_size) { pad_len = knet_h->sec_block_size - (data_len % knet_h->sec_block_size); if (pad_len == knet_h->sec_block_size) { pad_len = 0; } data_len = data_len + pad_len; } data_len = data_len + (knet_h->sec_hash_size + knet_h->sec_salt_size + knet_h->sec_block_size); if (knet_h->sec_block_size) { while (data_len + overhead_len >= max_mtu_len) { data_len = data_len - knet_h->sec_block_size; } } if (dst_link->last_bad_mtu) { while (data_len + overhead_len >= dst_link->last_bad_mtu) { data_len = data_len - (knet_h->sec_hash_size + knet_h->sec_salt_size + knet_h->sec_block_size); } } if (data_len < (knet_h->sec_hash_size + knet_h->sec_salt_size + knet_h->sec_block_size) + 1) { log_debug(knet_h, KNET_SUB_PMTUD, "Aborting PMTUD process: link mtu smaller than crypto header detected (link might have been disconnected)"); return -1; } onwire_len = data_len + overhead_len; knet_h->pmtudbuf->khp_pmtud_size = onwire_len; if (crypto_encrypt_and_sign(knet_h, (const unsigned char *)knet_h->pmtudbuf, data_len - (knet_h->sec_hash_size + knet_h->sec_salt_size + knet_h->sec_block_size), knet_h->pmtudbuf_crypt, (ssize_t *)&data_len) < 0) { log_debug(knet_h, KNET_SUB_PMTUD, "Unable to crypto pmtud packet"); return -1; } outbuf = knet_h->pmtudbuf_crypt; knet_h->stats_extra.tx_crypt_pmtu_packets++; } else { knet_h->pmtudbuf->khp_pmtud_size = onwire_len; } /* link has gone down, aborting pmtud */ if (dst_link->status.connected != 1) { log_debug(knet_h, KNET_SUB_PMTUD, "PMTUD detected host (%u) link (%u) has been disconnected", dst_host->host_id, dst_link->link_id); return -1; } if (dst_link->transport_connected != 1) { log_debug(knet_h, KNET_SUB_PMTUD, "PMTUD detected host (%u) link (%u) has been disconnected", dst_host->host_id, dst_link->link_id); return -1; } if (pthread_mutex_lock(&knet_h->pmtud_mutex) != 0) { log_debug(knet_h, KNET_SUB_PMTUD, "Unable to get mutex lock"); return -1; } if (knet_h->pmtud_abort) { pthread_mutex_unlock(&knet_h->pmtud_mutex); errno = EDEADLK; return -1; } savederrno = pthread_mutex_lock(&knet_h->tx_mutex); if (savederrno) { log_err(knet_h, KNET_SUB_PMTUD, "Unable to get TX mutex lock: %s", strerror(savederrno)); return -1; } retry: if (transport_get_connection_oriented(knet_h, dst_link->transport) == TRANSPORT_PROTO_NOT_CONNECTION_ORIENTED) { len = sendto(dst_link->outsock, outbuf, data_len, MSG_DONTWAIT | MSG_NOSIGNAL, (struct sockaddr *) &dst_link->dst_addr, sizeof(struct sockaddr_storage)); } else { len = sendto(dst_link->outsock, outbuf, data_len, MSG_DONTWAIT | MSG_NOSIGNAL, NULL, 0); } savederrno = errno; /* * we cannot hold a lock on kmtu_mutex between resetting * knet_h->kernel_mtu here and below where it's used. * use_kernel_mtu tells us if the knet_h->kernel_mtu was * set to 0 and we can trust its value later. */ use_kernel_mtu = 0; if (pthread_mutex_lock(&knet_h->kmtu_mutex) == 0) { use_kernel_mtu = 1; knet_h->kernel_mtu = 0; pthread_mutex_unlock(&knet_h->kmtu_mutex); } kernel_mtu = 0; err = transport_tx_sock_error(knet_h, dst_link->transport, dst_link->outsock, len, savederrno); switch(err) { case -1: /* unrecoverable error */ log_debug(knet_h, KNET_SUB_PMTUD, "Unable to send pmtu packet (sendto): %d %s", savederrno, strerror(savederrno)); pthread_mutex_unlock(&knet_h->tx_mutex); pthread_mutex_unlock(&knet_h->pmtud_mutex); dst_link->status.stats.tx_pmtu_errors++; return -1; case 0: /* ignore error and continue */ break; case 1: /* retry to send those same data */ dst_link->status.stats.tx_pmtu_retries++; goto retry; break; } pthread_mutex_unlock(&knet_h->tx_mutex); if (len != (ssize_t )data_len) { if (savederrno == EMSGSIZE) { /* * we cannot hold a lock on kmtu_mutex between resetting * knet_h->kernel_mtu and here. * use_kernel_mtu tells us if the knet_h->kernel_mtu was * set to 0 previously and we can trust its value now. */ if (use_kernel_mtu) { use_kernel_mtu = 0; if (pthread_mutex_lock(&knet_h->kmtu_mutex) == 0) { kernel_mtu = knet_h->kernel_mtu; pthread_mutex_unlock(&knet_h->kmtu_mutex); } } if (kernel_mtu > 0) { dst_link->last_bad_mtu = kernel_mtu + 1; } else { dst_link->last_bad_mtu = onwire_len; } } else { log_debug(knet_h, KNET_SUB_PMTUD, "Unable to send pmtu packet len: %zu err: %s", onwire_len, strerror(savederrno)); } } else { dst_link->last_sent_mtu = onwire_len; dst_link->last_recv_mtu = 0; dst_link->status.stats.tx_pmtu_packets++; dst_link->status.stats.tx_pmtu_bytes += data_len; if (clock_gettime(CLOCK_REALTIME, &ts) < 0) { log_debug(knet_h, KNET_SUB_PMTUD, "Unable to get current time: %s", strerror(errno)); pthread_mutex_unlock(&knet_h->pmtud_mutex); return -1; } /* * set PMTUd reply timeout to match pong_timeout on a given link * * math: internally pong_timeout is expressed in microseconds, while * the public API exports milliseconds. So careful with the 0's here. * the loop is necessary because we are grabbing the current time just above * and add values to it that could overflow into seconds. */ if (pthread_mutex_lock(&knet_h->backoff_mutex)) { log_debug(knet_h, KNET_SUB_PMTUD, "Unable to get backoff_mutex"); pthread_mutex_unlock(&knet_h->pmtud_mutex); return -1; } if (knet_h->crypto_instance) { /* * crypto, under pressure, is a royal PITA */ pong_timeout_adj_tmp = dst_link->pong_timeout_adj * 2; } else { pong_timeout_adj_tmp = dst_link->pong_timeout_adj; } ts.tv_sec += pong_timeout_adj_tmp / 1000000; ts.tv_nsec += (((pong_timeout_adj_tmp) % 1000000) * 1000); while (ts.tv_nsec > 1000000000) { ts.tv_sec += 1; ts.tv_nsec -= 1000000000; } pthread_mutex_unlock(&knet_h->backoff_mutex); knet_h->pmtud_waiting = 1; ret = pthread_cond_timedwait(&knet_h->pmtud_cond, &knet_h->pmtud_mutex, &ts); knet_h->pmtud_waiting = 0; if (knet_h->pmtud_abort) { pthread_mutex_unlock(&knet_h->pmtud_mutex); errno = EDEADLK; return -1; } if (shutdown_in_progress(knet_h)) { pthread_mutex_unlock(&knet_h->pmtud_mutex); log_debug(knet_h, KNET_SUB_PMTUD, "PMTUD aborted. shutdown in progress"); return -1; } if (ret) { if (ret == ETIMEDOUT) { if (!warn_once) { log_warn(knet_h, KNET_SUB_PMTUD, "possible MTU misconfiguration detected. " "kernel is reporting MTU: %u bytes for " "host %u link %u but the other node is " "not acknowledging packets of this size. ", dst_link->last_sent_mtu, dst_host->host_id, dst_link->link_id); log_warn(knet_h, KNET_SUB_PMTUD, "This can be caused by this node interface MTU " "too big or a network device that does not " "support or has been misconfigured to manage MTU " "of this size, or packet loss. knet will continue " "to run but performances might be affected."); warn_once = 1; } } else { pthread_mutex_unlock(&knet_h->pmtud_mutex); if (mutex_retry_limit == 3) { log_debug(knet_h, KNET_SUB_PMTUD, "PMTUD aborted, unable to get mutex lock"); return -1; } mutex_retry_limit++; goto restart; } } if ((dst_link->last_recv_mtu != onwire_len) || (ret)) { dst_link->last_bad_mtu = onwire_len; } else { int found_mtu = 0; if (knet_h->sec_block_size) { if ((onwire_len + knet_h->sec_block_size >= max_mtu_len) || ((dst_link->last_bad_mtu) && (dst_link->last_bad_mtu <= (onwire_len + knet_h->sec_block_size)))) { found_mtu = 1; } } else { if ((onwire_len == max_mtu_len) || ((dst_link->last_bad_mtu) && (dst_link->last_bad_mtu == (onwire_len + 1))) || (dst_link->last_bad_mtu == dst_link->last_good_mtu)) { found_mtu = 1; } } if (found_mtu) { /* * account for IP overhead, knet headers and crypto in PMTU calculation */ dst_link->status.mtu = onwire_len - dst_link->status.proto_overhead; pthread_mutex_unlock(&knet_h->pmtud_mutex); return 0; } dst_link->last_good_mtu = onwire_len; } } if (kernel_mtu) { onwire_len = kernel_mtu; } else { onwire_len = (dst_link->last_good_mtu + dst_link->last_bad_mtu) / 2; } pthread_mutex_unlock(&knet_h->pmtud_mutex); goto restart; } static int _handle_check_pmtud(knet_handle_t knet_h, struct knet_host *dst_host, struct knet_link *dst_link, unsigned int *min_mtu, int force_run) { uint8_t saved_valid_pmtud; unsigned int saved_pmtud; struct timespec clock_now; unsigned long long diff_pmtud, interval; if (clock_gettime(CLOCK_MONOTONIC, &clock_now) != 0) { log_debug(knet_h, KNET_SUB_PMTUD, "Unable to get monotonic clock"); return 0; } if (!force_run) { interval = knet_h->pmtud_interval * 1000000000llu; /* nanoseconds */ timespec_diff(dst_link->pmtud_last, clock_now, &diff_pmtud); if (diff_pmtud < interval) { *min_mtu = dst_link->status.mtu; return dst_link->has_valid_mtu; } } switch (dst_link->dst_addr.ss_family) { case AF_INET6: dst_link->status.proto_overhead = KNET_PMTUD_OVERHEAD_V6 + dst_link->proto_overhead + KNET_HEADER_ALL_SIZE + knet_h->sec_header_size; break; case AF_INET: dst_link->status.proto_overhead = KNET_PMTUD_OVERHEAD_V4 + dst_link->proto_overhead + KNET_HEADER_ALL_SIZE + knet_h->sec_header_size; break; } saved_pmtud = dst_link->status.mtu; saved_valid_pmtud = dst_link->has_valid_mtu; log_debug(knet_h, KNET_SUB_PMTUD, "Starting PMTUD for host: %u link: %u", dst_host->host_id, dst_link->link_id); errno = 0; if (_handle_check_link_pmtud(knet_h, dst_host, dst_link) < 0) { if (errno == EDEADLK) { log_debug(knet_h, KNET_SUB_PMTUD, "PMTUD for host: %u link: %u has been rescheduled", dst_host->host_id, dst_link->link_id); dst_link->status.mtu = saved_pmtud; dst_link->has_valid_mtu = saved_valid_pmtud; errno = EDEADLK; return dst_link->has_valid_mtu; } dst_link->has_valid_mtu = 0; } else { dst_link->has_valid_mtu = 1; switch (dst_link->dst_addr.ss_family) { case AF_INET6: if (((dst_link->status.mtu + dst_link->status.proto_overhead) < KNET_PMTUD_MIN_MTU_V6) || ((dst_link->status.mtu + dst_link->status.proto_overhead) > KNET_PMTUD_SIZE_V6)) { log_debug(knet_h, KNET_SUB_PMTUD, "PMTUD detected an IPv6 MTU out of bound value (%u) for host: %u link: %u.", dst_link->status.mtu + dst_link->status.proto_overhead, dst_host->host_id, dst_link->link_id); dst_link->has_valid_mtu = 0; } break; case AF_INET: if (((dst_link->status.mtu + dst_link->status.proto_overhead) < KNET_PMTUD_MIN_MTU_V4) || ((dst_link->status.mtu + dst_link->status.proto_overhead) > KNET_PMTUD_SIZE_V4)) { log_debug(knet_h, KNET_SUB_PMTUD, "PMTUD detected an IPv4 MTU out of bound value (%u) for host: %u link: %u.", dst_link->status.mtu + dst_link->status.proto_overhead, dst_host->host_id, dst_link->link_id); dst_link->has_valid_mtu = 0; } break; } if (dst_link->has_valid_mtu) { if ((saved_pmtud) && (saved_pmtud != dst_link->status.mtu)) { log_info(knet_h, KNET_SUB_PMTUD, "PMTUD link change for host: %u link: %u from %u to %u", dst_host->host_id, dst_link->link_id, saved_pmtud, dst_link->status.mtu); } log_debug(knet_h, KNET_SUB_PMTUD, "PMTUD completed for host: %u link: %u current link mtu: %u", dst_host->host_id, dst_link->link_id, dst_link->status.mtu); if (dst_link->status.mtu < *min_mtu) { *min_mtu = dst_link->status.mtu; } /* * set pmtud_last, if we can, after we are done with the PMTUd process * because it can take a very long time. */ dst_link->pmtud_last = clock_now; if (!clock_gettime(CLOCK_MONOTONIC, &clock_now)) { dst_link->pmtud_last = clock_now; } } } if (saved_valid_pmtud != dst_link->has_valid_mtu) { _host_dstcache_update_sync(knet_h, dst_host); } return dst_link->has_valid_mtu; } void *_handle_pmtud_link_thread(void *data) { knet_handle_t knet_h = (knet_handle_t) data; struct knet_host *dst_host; struct knet_link *dst_link; int link_idx; unsigned int min_mtu, have_mtu; unsigned int lower_mtu; int link_has_mtu; int force_run = 0; set_thread_status(knet_h, KNET_THREAD_PMTUD, KNET_THREAD_STARTED); knet_h->data_mtu = KNET_PMTUD_MIN_MTU_V4 - KNET_HEADER_ALL_SIZE - knet_h->sec_header_size; /* preparing pmtu buffer */ knet_h->pmtudbuf->kh_version = KNET_HEADER_VERSION; knet_h->pmtudbuf->kh_type = KNET_HEADER_TYPE_PMTUD; knet_h->pmtudbuf->kh_node = htons(knet_h->host_id); while (!shutdown_in_progress(knet_h)) { usleep(KNET_THREADS_TIMERES); if (pthread_mutex_lock(&knet_h->pmtud_mutex) != 0) { log_debug(knet_h, KNET_SUB_PMTUD, "Unable to get mutex lock"); continue; } knet_h->pmtud_abort = 0; knet_h->pmtud_running = 1; force_run = knet_h->pmtud_forcerun; knet_h->pmtud_forcerun = 0; pthread_mutex_unlock(&knet_h->pmtud_mutex); if (force_run) { log_debug(knet_h, KNET_SUB_PMTUD, "PMTUd request to rerun has been received"); } if (pthread_rwlock_rdlock(&knet_h->global_rwlock) != 0) { log_debug(knet_h, KNET_SUB_PMTUD, "Unable to get read lock"); continue; } lower_mtu = KNET_PMTUD_SIZE_V4; min_mtu = KNET_PMTUD_SIZE_V4 - KNET_HEADER_ALL_SIZE - knet_h->sec_header_size; have_mtu = 0; for (dst_host = knet_h->host_head; dst_host != NULL; dst_host = dst_host->next) { for (link_idx = 0; link_idx < KNET_MAX_LINK; link_idx++) { dst_link = &dst_host->link[link_idx]; if ((dst_link->status.enabled != 1) || (dst_link->status.connected != 1) || (dst_host->link[link_idx].transport == KNET_TRANSPORT_LOOPBACK) || (!dst_link->last_ping_size) || ((dst_link->dynamic == KNET_LINK_DYNIP) && (dst_link->status.dynconnected != 1))) continue; link_has_mtu = _handle_check_pmtud(knet_h, dst_host, dst_link, &min_mtu, force_run); if (errno == EDEADLK) { goto out_unlock; } if (link_has_mtu) { have_mtu = 1; if (min_mtu < lower_mtu) { lower_mtu = min_mtu; } } } } if (have_mtu) { if (knet_h->data_mtu != lower_mtu) { knet_h->data_mtu = lower_mtu; log_info(knet_h, KNET_SUB_PMTUD, "Global data MTU changed to: %u", knet_h->data_mtu); if (knet_h->pmtud_notify_fn) { knet_h->pmtud_notify_fn(knet_h->pmtud_notify_fn_private_data, knet_h->data_mtu); } } } out_unlock: pthread_rwlock_unlock(&knet_h->global_rwlock); if (pthread_mutex_lock(&knet_h->pmtud_mutex) != 0) { log_debug(knet_h, KNET_SUB_PMTUD, "Unable to get mutex lock"); } else { knet_h->pmtud_running = 0; pthread_mutex_unlock(&knet_h->pmtud_mutex); } } set_thread_status(knet_h, KNET_THREAD_PMTUD, KNET_THREAD_STOPPED); return NULL; }