/*- * SSLsplit - transparent SSL/TLS interception * https://www.roe.ch/SSLsplit * * Copyright (c) 2009-2018, Daniel Roethlisberger . * 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 COPYRIGHT HOLDER 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 COPYRIGHT HOLDER 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 "pxythrmgr.h" #include "sys.h" #include "log.h" #include "pxyconn.h" #include #include #include #include #include /* * Proxy thread manager: manages the connection handling worker threads * and the per-thread resources (i.e. event bases). The load is shared * across num_cpu * 2 connection handling threads, using the number of * currently assigned connections as the sole metric. * * The attach and detach functions are thread-safe. */ static void pxy_thrmgr_get_thr_expired_conns(pxy_thr_ctx_t *tctx, pxy_conn_ctx_t **expired_conns) { *expired_conns = NULL; if (tctx->conns) { time_t now = time(NULL); pxy_conn_ctx_t *ctx = tctx->conns; while (ctx) { time_t elapsed_time = now - ctx->atime; if (elapsed_time > (time_t)tctx->thrmgr->opts->conn_idle_timeout) { ctx->next_expired = *expired_conns; *expired_conns = ctx; } ctx = ctx->next; } if (tctx->thrmgr->opts->statslog) { char *src_addr = NULL; char *dst_addr = NULL; ctx = *expired_conns; while (ctx) { src_addr = NULL; if (ctx->srchost_str && ctx->srcport_str) { if (asprintf(&src_addr, ", src_addr=%s:%s", ctx->srchost_str, ctx->srcport_str) < 0) { goto leave; } } dst_addr = NULL; if (ctx->dsthost_str && ctx->dstport_str) { if (asprintf(&dst_addr, ", dst_addr=%s:%s", ctx->dsthost_str, ctx->dstport_str) < 0) { goto leave; } } #ifdef DEBUG_PROXY log_dbg_level_printf(LOG_DBG_MODE_FINEST, "pxy_thrmgr_get_expired_conns: thr=%d, fd=%d, child_fd=%d, time=%lld%s%s\n", ctx->thr->thridx, ctx->fd, ctx->child_fd, (long long)(now - ctx->atime), STRORNONE(src_addr), STRORNONE(dst_addr)); #endif /* DEBUG_PROXY */ char *msg; if (asprintf(&msg, "EXPIRED: thr=%d, time=%lld%s%s\n", ctx->thr->thridx, (long long)(now - ctx->atime), STRORNONE(src_addr), STRORNONE(dst_addr)) < 0) { goto leave; } if (src_addr) { free(src_addr); src_addr = NULL; } if (dst_addr) { free(dst_addr); dst_addr = NULL; } if (log_conn(msg) == -1) { log_err_level_printf(LOG_WARNING, "Expired conn logging failed\n"); } free(msg); ctx = ctx->next_expired; } leave: if (src_addr) { free(src_addr); } if (dst_addr) { free(dst_addr); } } } } static evutil_socket_t pxy_thrmgr_print_child(pxy_conn_child_ctx_t *child_ctx, unsigned int parent_idx, evutil_socket_t max_fd) { assert(child_ctx != NULL); // @attention No need to log child stats #ifdef DEBUG_PROXY char *msg; if (asprintf(&msg, "CHILD CONN: thr=%d, id=%d, pid=%u, src=%d, dst=%d, c=%d-%d\n", child_ctx->conn->thr->thridx, child_ctx->idx, parent_idx, child_ctx->src_fd, child_ctx->dst_fd, child_ctx->src.closed, child_ctx->dst.closed) < 0) { return max_fd; } log_dbg_level_printf(LOG_DBG_MODE_FINEST, "pxy_thrmgr_print_child: %s", msg); free(msg); #endif /* DEBUG_PROXY */ if (child_ctx->next) { max_fd = pxy_thrmgr_print_child(child_ctx->next, parent_idx, max_fd); } return MAX(max_fd, MAX(child_ctx->src_fd, child_ctx->dst_fd)); } static void pxy_thrmgr_print_thr_info(pxy_thr_ctx_t *tctx) { #ifdef DEBUG_PROXY log_dbg_level_printf(LOG_DBG_MODE_FINEST, "pxy_thrmgr_print_thr_info: thr=%d, load=%lu\n", tctx->thridx, tctx->load); #endif /* DEBUG_PROXY */ unsigned int idx = 1; evutil_socket_t max_fd = 0; time_t max_atime = 0; time_t max_ctime = 0; #ifdef DEBUG_PROXY char *lmsg = NULL; #endif /* DEBUG_PROXY */ char *smsg = NULL; char *src_addr = NULL; char *dst_addr = NULL; if (tctx->conns) { time_t now = time(NULL); pxy_conn_ctx_t *ctx = tctx->conns; while (ctx) { time_t atime = now - ctx->atime; time_t ctime = now - ctx->ctime; src_addr = NULL; if (ctx->srchost_str && ctx->srcport_str) { if (asprintf(&src_addr, ", src_addr=%s:%s", ctx->srchost_str, ctx->srcport_str) < 0) { goto leave; } } dst_addr = NULL; if (ctx->dsthost_str && ctx->dstport_str) { if (asprintf(&dst_addr, ", dst_addr=%s:%s", ctx->dsthost_str, ctx->dstport_str) < 0) { goto leave; } } #ifdef DEBUG_PROXY if (asprintf(&lmsg, "PARENT CONN: thr=%d, id=%u, fd=%d, child_fd=%d, dst=%d, srvdst=%d, child_src=%d, child_dst=%d, p=%d-%d-%d c=%d-%d, ce=%d cc=%d, at=%lld ct=%lld%s%s\n", tctx->thridx, idx, ctx->fd, ctx->child_fd, ctx->dst_fd, ctx->srvdst_fd, ctx->child_src_fd, ctx->child_dst_fd, ctx->src.closed, ctx->dst.closed, ctx->srvdst.closed, ctx->children ? ctx->children->src.closed : 0, ctx->children ? ctx->children->dst.closed : 0, ctx->children ? 1:0, ctx->child_count, (long long)atime, (long long)ctime, STRORNONE(src_addr), STRORNONE(dst_addr)) < 0) { goto leave; } log_dbg_level_printf(LOG_DBG_MODE_FINEST, "pxy_thrmgr_print_thr_info: %s", lmsg); free(lmsg); lmsg = NULL; #endif /* DEBUG_PROXY */ // @attention Report idle connections only, i.e. the conns which have been idle since the last time we checked for expired conns if (atime >= (time_t)tctx->thrmgr->opts->expired_conn_check_period) { if (asprintf(&smsg, "IDLE: thr=%d, id=%u, ce=%d cc=%d, at=%lld ct=%lld%s%s\n", tctx->thridx, idx, ctx->children ? 1:0, ctx->child_count, (long long)atime, (long long)ctime, STRORNONE(src_addr), STRORNONE(dst_addr)) < 0) { goto leave; } if (log_conn(smsg) == -1) { log_err_level_printf(LOG_WARNING, "Idle conn logging failed\n"); } free(smsg); smsg = NULL; } if (src_addr) { free(src_addr); src_addr = NULL; } if (dst_addr) { free(dst_addr); dst_addr = NULL; } max_fd = MAX(max_fd, MAX(ctx->fd, MAX(ctx->child_fd, MAX(ctx->dst_fd, MAX(ctx->srvdst_fd, MAX(ctx->child_src_fd, ctx->child_dst_fd)))))); max_atime = MAX(max_atime, atime); max_ctime = MAX(max_ctime, ctime); if (ctx->children) { max_fd = pxy_thrmgr_print_child(ctx->children, idx, max_fd); } idx++; ctx = ctx->next; } } if (asprintf(&smsg, "STATS: thr=%d, mld=%zu, mfd=%d, mat=%lld, mct=%lld, iib=%llu, iob=%llu, eib=%llu, eob=%llu, swm=%zu, uwm=%zu, to=%zu, err=%zu, si=%u\n", tctx->thridx, tctx->max_load, tctx->max_fd, (long long)max_atime, (long long)max_ctime, tctx->intif_in_bytes, tctx->intif_out_bytes, tctx->extif_in_bytes, tctx->extif_out_bytes, tctx->set_watermarks, tctx->unset_watermarks, tctx->timedout_conns, tctx->errors, tctx->stats_idx) < 0) { goto leave; } #ifdef DEBUG_PROXY log_dbg_level_printf(LOG_DBG_MODE_FINEST, "pxy_thrmgr_print_thr_info: %s", smsg); #endif /* DEBUG_PROXY */ if (log_stats(smsg) == -1) { log_err_level_printf(LOG_WARNING, "Stats logging failed\n"); } free(smsg); smsg = NULL; tctx->stats_idx++; tctx->timedout_conns = 0; tctx->errors = 0; tctx->set_watermarks = 0; tctx->unset_watermarks = 0; tctx->intif_in_bytes = 0; tctx->intif_out_bytes = 0; tctx->extif_in_bytes = 0; tctx->extif_out_bytes = 0; // Reset these stats with the current values (do not reset to 0 directly, there may be active conns) tctx->max_fd = max_fd; tctx->max_load = tctx->load; leave: if (src_addr) { free(src_addr); } if (dst_addr) { free(dst_addr); } #ifdef DEBUG_PROXY if (lmsg) { free(lmsg); } #endif /* DEBUG_PROXY */ if (smsg) { free(smsg); } } /* * Recurring timer event to prevent the event loops from exiting when * they run out of events. */ static void pxy_thrmgr_timer_cb(UNUSED evutil_socket_t fd, UNUSED short what, UNUSED void *arg) { pxy_thr_ctx_t *ctx = arg; #ifdef DEBUG_PROXY log_dbg_level_printf(LOG_DBG_MODE_FINEST, "pxy_thrmgr_timer_cb: thr=%d, load=%lu, to=%u\n", ctx->thridx, ctx->load, ctx->timeout_count); #endif /* DEBUG_PROXY */ pxy_conn_ctx_t *expired = NULL; pxy_thrmgr_get_thr_expired_conns(ctx, &expired); if (expired) { #ifdef DEBUG_PROXY time_t now = time(NULL); #endif /* DEBUG_PROXY */ while (expired) { pxy_conn_ctx_t *next = expired->next_expired; #ifdef DEBUG_PROXY log_dbg_level_printf(LOG_DBG_MODE_FINE, "pxy_thrmgr_timer_cb: Delete timed out conn thr=%d, fd=%d, child_fd=%d, at=%lld ct=%lld\n", expired->thr->thridx, expired->fd, expired->child_fd, (long long)(now - expired->atime), (long long)(now - expired->ctime)); #endif /* DEBUG_PROXY */ // @attention Do not call the term function here, free the conn directly pxy_conn_free(expired, 1); ctx->timedout_conns++; expired = next; } } // @attention Print thread info only if stats logging is enabled, if disabled debug logs are not printed either if (ctx->thrmgr->opts->statslog) { ctx->timeout_count++; if (ctx->timeout_count * ctx->thrmgr->opts->expired_conn_check_period >= ctx->thrmgr->opts->stats_period * ctx->thrmgr->opts->expired_conn_check_period) { ctx->timeout_count = 0; pxy_thrmgr_print_thr_info(ctx); } } } /* * Thread entry point; runs the event loop of the event base. * Does not exit until the libevent loop is broken explicitly. */ static void * pxy_thrmgr_thr(void *arg) { pxy_thr_ctx_t *ctx = arg; struct timeval timer_delay = {ctx->thrmgr->opts->expired_conn_check_period, 0}; struct event *ev; ev = event_new(ctx->evbase, -1, EV_PERSIST, pxy_thrmgr_timer_cb, ctx); if (!ev) return NULL; evtimer_add(ev, &timer_delay); ctx->running = 1; event_base_dispatch(ctx->evbase); event_free(ev); return NULL; } /* * Create new thread manager but do not start any threads yet. * This gets called before forking to background. */ pxy_thrmgr_ctx_t * pxy_thrmgr_new(opts_t *opts) { pxy_thrmgr_ctx_t *ctx; if (!(ctx = malloc(sizeof(pxy_thrmgr_ctx_t)))) return NULL; memset(ctx, 0, sizeof(pxy_thrmgr_ctx_t)); ctx->opts = opts; ctx->num_thr = 2 * sys_get_cpu_cores(); return ctx; } /* * Start the thread manager and associated threads. * This must be called after forking. * * Returns -1 on failure, 0 on success. */ int pxy_thrmgr_run(pxy_thrmgr_ctx_t *ctx) { int idx = -1, dns = 0; dns = opts_has_dns_spec(ctx->opts); if (pthread_mutex_init(&ctx->mutex, NULL)) { log_dbg_printf("Failed to initialize mutex\n"); goto leave; } if (!(ctx->thr = malloc(ctx->num_thr * sizeof(pxy_thr_ctx_t*)))) { log_dbg_printf("Failed to allocate memory\n"); goto leave; } memset(ctx->thr, 0, ctx->num_thr * sizeof(pxy_thr_ctx_t*)); for (idx = 0; idx < ctx->num_thr; idx++) { if (!(ctx->thr[idx] = malloc(sizeof(pxy_thr_ctx_t)))) { log_dbg_printf("Failed to allocate memory\n"); goto leave; } memset(ctx->thr[idx], 0, sizeof(pxy_thr_ctx_t)); ctx->thr[idx]->evbase = event_base_new(); if (!ctx->thr[idx]->evbase) { log_dbg_printf("Failed to create evbase %d\n", idx); goto leave; } if (dns) { /* only create dns base if we actually need it later */ ctx->thr[idx]->dnsbase = evdns_base_new( ctx->thr[idx]->evbase, 1); if (!ctx->thr[idx]->dnsbase) { log_dbg_printf("Failed to create dnsbase %d\n", idx); goto leave; } } ctx->thr[idx]->load = 0; ctx->thr[idx]->running = 0; ctx->thr[idx]->conns = NULL; ctx->thr[idx]->thridx = idx; ctx->thr[idx]->timeout_count = 0; ctx->thr[idx]->thrmgr = ctx; } log_dbg_printf("Initialized %d connection handling threads\n", ctx->num_thr); for (idx = 0; idx < ctx->num_thr; idx++) { if (pthread_create(&ctx->thr[idx]->thr, NULL, pxy_thrmgr_thr, ctx->thr[idx])) goto leave_thr; while (!ctx->thr[idx]->running) { sched_yield(); } } log_dbg_printf("Started %d connection handling threads\n", ctx->num_thr); return 0; leave_thr: idx--; while (idx >= 0) { pthread_cancel(ctx->thr[idx]->thr); pthread_join(ctx->thr[idx]->thr, NULL); idx--; } idx = ctx->num_thr - 1; leave: while (idx >= 0) { if (ctx->thr[idx]) { if (ctx->thr[idx]->dnsbase) { evdns_base_free(ctx->thr[idx]->dnsbase, 0); } if (ctx->thr[idx]->evbase) { event_base_free(ctx->thr[idx]->evbase); } free(ctx->thr[idx]); } idx--; } pthread_mutex_destroy(&ctx->mutex); if (ctx->thr) { free(ctx->thr); ctx->thr = NULL; } return -1; } /* * Destroy the event manager and stop all threads. */ void pxy_thrmgr_free(pxy_thrmgr_ctx_t *ctx) { pthread_mutex_destroy(&ctx->mutex); if (ctx->thr) { for (int idx = 0; idx < ctx->num_thr; idx++) { event_base_loopbreak(ctx->thr[idx]->evbase); sched_yield(); } for (int idx = 0; idx < ctx->num_thr; idx++) { pthread_join(ctx->thr[idx]->thr, NULL); } for (int idx = 0; idx < ctx->num_thr; idx++) { if (ctx->thr[idx]->dnsbase) { evdns_base_free(ctx->thr[idx]->dnsbase, 0); } if (ctx->thr[idx]->evbase) { event_base_free(ctx->thr[idx]->evbase); } free(ctx->thr[idx]); } free(ctx->thr); } free(ctx); } static void pxy_thrmgr_remove_conn(pxy_conn_ctx_t *node, pxy_conn_ctx_t **head) { assert(node != NULL); assert(*head != NULL); #ifdef DEBUG_PROXY log_dbg_level_printf(LOG_DBG_MODE_FINEST, "pxy_thrmgr_remove_conn: Removing conn, id=%llu, fd=%d, child_fd=%d\n", node->id, node->fd, node->child_fd); #endif /* DEBUG_PROXY */ // @attention We may get multiple conns with the same fd combinations, so fds cannot uniquely define a conn; hence the need for unique ids. if (node->id == (*head)->id) { *head = (*head)->next; return; } pxy_conn_ctx_t *current = (*head)->next; pxy_conn_ctx_t *previous = *head; while (current != NULL && previous != NULL) { if (node->id == current->id) { previous->next = current->next; return; } previous = current; current = current->next; } } /* * Attach a new connection to a thread. Chooses the thread with the fewest * currently active connections, returns the appropriate event bases. * Returns the index of the chosen thread (for passing to _detach later). * This function cannot fail. */ void pxy_thrmgr_attach(pxy_conn_ctx_t *ctx) { #ifdef DEBUG_PROXY log_dbg_level_printf(LOG_DBG_MODE_FINEST, "pxy_thrmgr_attach: ENTER\n"); #endif /* DEBUG_PROXY */ int thridx = 0; size_t minload; pxy_thrmgr_ctx_t *tmctx = ctx->thrmgr; pthread_mutex_lock(&tmctx->mutex); minload = tmctx->thr[thridx]->load; #ifdef DEBUG_THREAD log_dbg_printf("===> Proxy connection handler thread status:\n" "thr[%d]: %zu\n", thridx, minload); #endif /* DEBUG_THREAD */ for (int idx = 1; idx < tmctx->num_thr; idx++) { #ifdef DEBUG_THREAD log_dbg_printf("thr[%d]: %zu\n", idx, tmctx->thr[idx]->load); #endif /* DEBUG_THREAD */ if (minload > tmctx->thr[idx]->load) { minload = tmctx->thr[idx]->load; thridx = idx; } } ctx->thr = tmctx->thr[thridx]; ctx->thr->load++; ctx->thr->max_load = MAX(ctx->thr->max_load, ctx->thr->load); pthread_mutex_unlock(&tmctx->mutex); ctx->evbase = ctx->thr->evbase; ctx->dnsbase = ctx->thr->dnsbase; ctx->next = ctx->thr->conns; ctx->thr->conns = ctx; // @attention We are running on the thrmgr thread, do not call conn thread functions here. //pxy_thrmgr_print_thr_info(ctx->thr); #ifdef DEBUG_THREAD log_dbg_printf("thridx: %d\n", thridx); #endif /* DEBUG_THREAD */ } void pxy_thrmgr_attach_child(pxy_conn_ctx_t *ctx) { #ifdef DEBUG_PROXY log_dbg_level_printf(LOG_DBG_MODE_FINEST, "pxy_thrmgr_attach_child: ENTER\n"); #endif /* DEBUG_PROXY */ pthread_mutex_lock(&ctx->thrmgr->mutex); ctx->thr->load++; ctx->thr->max_load = MAX(ctx->thr->max_load, ctx->thr->load); pthread_mutex_unlock(&ctx->thrmgr->mutex); } /* * Detach a connection from a thread by index. * This function cannot fail. */ void pxy_thrmgr_detach(pxy_conn_ctx_t *ctx) { assert(ctx->children == NULL); pthread_mutex_lock(&ctx->thrmgr->mutex); ctx->thr->load--; pxy_thrmgr_remove_conn(ctx, &ctx->thr->conns); pthread_mutex_unlock(&ctx->thrmgr->mutex); } void pxy_thrmgr_detach_child(pxy_conn_ctx_t *ctx) { #ifdef DEBUG_PROXY log_dbg_level_printf(LOG_DBG_MODE_FINEST, "pxy_thrmgr_detach_child: ENTER\n"); #endif /* DEBUG_PROXY */ pthread_mutex_lock(&ctx->thrmgr->mutex); ctx->thr->load--; pthread_mutex_unlock(&ctx->thrmgr->mutex); } /* vim: set noet ft=c: */