Mercurial > hg > nginx
view src/stream/ngx_stream_limit_conn_module.c @ 9112:d59277dd3d8c
QUIC: fixed post-close use-after-free.
Previously, ngx_quic_close_connection() could be called in a way that QUIC
connection was accessed after the call. In most cases the connection is not
closed right away, but close timeout is scheduled. However, it's not always
the case. Also, if the close process started earlier for a different reason,
calling ngx_quic_close_connection() may actually close the connection. The
connection object should not be accessed after that.
Now, when possible, return statement is added to eliminate post-close connection
object access. In other places ngx_quic_close_connection() is substituted with
posting close event.
Also, the new way of closing connection in ngx_quic_stream_cleanup_handler()
fixes another problem in this function. Previously it passed stream connection
instead of QUIC connection to ngx_quic_close_connection(). This could result
in incomplete connection shutdown. One consequence of that could be that QUIC
streams were freed without shutting down their application contexts. This could
result in another use-after-free.
Found by Coverity (CID 1530402).
| author | Roman Arutyunyan <arut@nginx.com> |
|---|---|
| date | Mon, 22 May 2023 15:59:42 +0400 |
| parents | b45f052483b8 |
| children |
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/* * Copyright (C) Igor Sysoev * Copyright (C) Nginx, Inc. */ #include <ngx_config.h> #include <ngx_core.h> #include <ngx_stream.h> #define NGX_STREAM_LIMIT_CONN_PASSED 1 #define NGX_STREAM_LIMIT_CONN_REJECTED 2 #define NGX_STREAM_LIMIT_CONN_REJECTED_DRY_RUN 3 typedef struct { u_char color; u_char len; u_short conn; u_char data[1]; } ngx_stream_limit_conn_node_t; typedef struct { ngx_shm_zone_t *shm_zone; ngx_rbtree_node_t *node; } ngx_stream_limit_conn_cleanup_t; typedef struct { ngx_rbtree_t rbtree; ngx_rbtree_node_t sentinel; } ngx_stream_limit_conn_shctx_t; typedef struct { ngx_stream_limit_conn_shctx_t *sh; ngx_slab_pool_t *shpool; ngx_stream_complex_value_t key; } ngx_stream_limit_conn_ctx_t; typedef struct { ngx_shm_zone_t *shm_zone; ngx_uint_t conn; } ngx_stream_limit_conn_limit_t; typedef struct { ngx_array_t limits; ngx_uint_t log_level; ngx_flag_t dry_run; } ngx_stream_limit_conn_conf_t; static ngx_rbtree_node_t *ngx_stream_limit_conn_lookup(ngx_rbtree_t *rbtree, ngx_str_t *key, uint32_t hash); static void ngx_stream_limit_conn_cleanup(void *data); static ngx_inline void ngx_stream_limit_conn_cleanup_all(ngx_pool_t *pool); static ngx_int_t ngx_stream_limit_conn_status_variable(ngx_stream_session_t *s, ngx_stream_variable_value_t *v, uintptr_t data); static void *ngx_stream_limit_conn_create_conf(ngx_conf_t *cf); static char *ngx_stream_limit_conn_merge_conf(ngx_conf_t *cf, void *parent, void *child); static char *ngx_stream_limit_conn_zone(ngx_conf_t *cf, ngx_command_t *cmd, void *conf); static char *ngx_stream_limit_conn(ngx_conf_t *cf, ngx_command_t *cmd, void *conf); static ngx_int_t ngx_stream_limit_conn_add_variables(ngx_conf_t *cf); static ngx_int_t ngx_stream_limit_conn_init(ngx_conf_t *cf); static ngx_conf_enum_t ngx_stream_limit_conn_log_levels[] = { { ngx_string("info"), NGX_LOG_INFO }, { ngx_string("notice"), NGX_LOG_NOTICE }, { ngx_string("warn"), NGX_LOG_WARN }, { ngx_string("error"), NGX_LOG_ERR }, { ngx_null_string, 0 } }; static ngx_command_t ngx_stream_limit_conn_commands[] = { { ngx_string("limit_conn_zone"), NGX_STREAM_MAIN_CONF|NGX_CONF_TAKE2, ngx_stream_limit_conn_zone, 0, 0, NULL }, { ngx_string("limit_conn"), NGX_STREAM_MAIN_CONF|NGX_STREAM_SRV_CONF|NGX_CONF_TAKE2, ngx_stream_limit_conn, NGX_STREAM_SRV_CONF_OFFSET, 0, NULL }, { ngx_string("limit_conn_log_level"), NGX_STREAM_MAIN_CONF|NGX_STREAM_SRV_CONF|NGX_CONF_TAKE1, ngx_conf_set_enum_slot, NGX_STREAM_SRV_CONF_OFFSET, offsetof(ngx_stream_limit_conn_conf_t, log_level), &ngx_stream_limit_conn_log_levels }, { ngx_string("limit_conn_dry_run"), NGX_STREAM_MAIN_CONF|NGX_STREAM_SRV_CONF|NGX_CONF_FLAG, ngx_conf_set_flag_slot, NGX_STREAM_SRV_CONF_OFFSET, offsetof(ngx_stream_limit_conn_conf_t, dry_run), NULL }, ngx_null_command }; static ngx_stream_module_t ngx_stream_limit_conn_module_ctx = { ngx_stream_limit_conn_add_variables, /* preconfiguration */ ngx_stream_limit_conn_init, /* postconfiguration */ NULL, /* create main configuration */ NULL, /* init main configuration */ ngx_stream_limit_conn_create_conf, /* create server configuration */ ngx_stream_limit_conn_merge_conf /* merge server configuration */ }; ngx_module_t ngx_stream_limit_conn_module = { NGX_MODULE_V1, &ngx_stream_limit_conn_module_ctx, /* module context */ ngx_stream_limit_conn_commands, /* module directives */ NGX_STREAM_MODULE, /* module type */ NULL, /* init master */ NULL, /* init module */ NULL, /* init process */ NULL, /* init thread */ NULL, /* exit thread */ NULL, /* exit process */ NULL, /* exit master */ NGX_MODULE_V1_PADDING }; static ngx_stream_variable_t ngx_stream_limit_conn_vars[] = { { ngx_string("limit_conn_status"), NULL, ngx_stream_limit_conn_status_variable, 0, NGX_STREAM_VAR_NOCACHEABLE, 0 }, ngx_stream_null_variable }; static ngx_str_t ngx_stream_limit_conn_status[] = { ngx_string("PASSED"), ngx_string("REJECTED"), ngx_string("REJECTED_DRY_RUN") }; static ngx_int_t ngx_stream_limit_conn_handler(ngx_stream_session_t *s) { size_t n; uint32_t hash; ngx_str_t key; ngx_uint_t i; ngx_rbtree_node_t *node; ngx_pool_cleanup_t *cln; ngx_stream_limit_conn_ctx_t *ctx; ngx_stream_limit_conn_node_t *lc; ngx_stream_limit_conn_conf_t *lccf; ngx_stream_limit_conn_limit_t *limits; ngx_stream_limit_conn_cleanup_t *lccln; lccf = ngx_stream_get_module_srv_conf(s, ngx_stream_limit_conn_module); limits = lccf->limits.elts; for (i = 0; i < lccf->limits.nelts; i++) { ctx = limits[i].shm_zone->data; if (ngx_stream_complex_value(s, &ctx->key, &key) != NGX_OK) { return NGX_ERROR; } if (key.len == 0) { continue; } if (key.len > 255) { ngx_log_error(NGX_LOG_ERR, s->connection->log, 0, "the value of the \"%V\" key " "is more than 255 bytes: \"%V\"", &ctx->key.value, &key); continue; } s->limit_conn_status = NGX_STREAM_LIMIT_CONN_PASSED; hash = ngx_crc32_short(key.data, key.len); ngx_shmtx_lock(&ctx->shpool->mutex); node = ngx_stream_limit_conn_lookup(&ctx->sh->rbtree, &key, hash); if (node == NULL) { n = offsetof(ngx_rbtree_node_t, color) + offsetof(ngx_stream_limit_conn_node_t, data) + key.len; node = ngx_slab_alloc_locked(ctx->shpool, n); if (node == NULL) { ngx_shmtx_unlock(&ctx->shpool->mutex); ngx_stream_limit_conn_cleanup_all(s->connection->pool); if (lccf->dry_run) { s->limit_conn_status = NGX_STREAM_LIMIT_CONN_REJECTED_DRY_RUN; return NGX_DECLINED; } s->limit_conn_status = NGX_STREAM_LIMIT_CONN_REJECTED; return NGX_STREAM_SERVICE_UNAVAILABLE; } lc = (ngx_stream_limit_conn_node_t *) &node->color; node->key = hash; lc->len = (u_char) key.len; lc->conn = 1; ngx_memcpy(lc->data, key.data, key.len); ngx_rbtree_insert(&ctx->sh->rbtree, node); } else { lc = (ngx_stream_limit_conn_node_t *) &node->color; if ((ngx_uint_t) lc->conn >= limits[i].conn) { ngx_shmtx_unlock(&ctx->shpool->mutex); ngx_log_error(lccf->log_level, s->connection->log, 0, "limiting connections%s by zone \"%V\"", lccf->dry_run ? ", dry run," : "", &limits[i].shm_zone->shm.name); ngx_stream_limit_conn_cleanup_all(s->connection->pool); if (lccf->dry_run) { s->limit_conn_status = NGX_STREAM_LIMIT_CONN_REJECTED_DRY_RUN; return NGX_DECLINED; } s->limit_conn_status = NGX_STREAM_LIMIT_CONN_REJECTED; return NGX_STREAM_SERVICE_UNAVAILABLE; } lc->conn++; } ngx_log_debug2(NGX_LOG_DEBUG_STREAM, s->connection->log, 0, "limit conn: %08Xi %d", node->key, lc->conn); ngx_shmtx_unlock(&ctx->shpool->mutex); cln = ngx_pool_cleanup_add(s->connection->pool, sizeof(ngx_stream_limit_conn_cleanup_t)); if (cln == NULL) { return NGX_ERROR; } cln->handler = ngx_stream_limit_conn_cleanup; lccln = cln->data; lccln->shm_zone = limits[i].shm_zone; lccln->node = node; } return NGX_DECLINED; } static void ngx_stream_limit_conn_rbtree_insert_value(ngx_rbtree_node_t *temp, ngx_rbtree_node_t *node, ngx_rbtree_node_t *sentinel) { ngx_rbtree_node_t **p; ngx_stream_limit_conn_node_t *lcn, *lcnt; for ( ;; ) { if (node->key < temp->key) { p = &temp->left; } else if (node->key > temp->key) { p = &temp->right; } else { /* node->key == temp->key */ lcn = (ngx_stream_limit_conn_node_t *) &node->color; lcnt = (ngx_stream_limit_conn_node_t *) &temp->color; p = (ngx_memn2cmp(lcn->data, lcnt->data, lcn->len, lcnt->len) < 0) ? &temp->left : &temp->right; } if (*p == sentinel) { break; } temp = *p; } *p = node; node->parent = temp; node->left = sentinel; node->right = sentinel; ngx_rbt_red(node); } static ngx_rbtree_node_t * ngx_stream_limit_conn_lookup(ngx_rbtree_t *rbtree, ngx_str_t *key, uint32_t hash) { ngx_int_t rc; ngx_rbtree_node_t *node, *sentinel; ngx_stream_limit_conn_node_t *lcn; node = rbtree->root; sentinel = rbtree->sentinel; while (node != sentinel) { if (hash < node->key) { node = node->left; continue; } if (hash > node->key) { node = node->right; continue; } /* hash == node->key */ lcn = (ngx_stream_limit_conn_node_t *) &node->color; rc = ngx_memn2cmp(key->data, lcn->data, key->len, (size_t) lcn->len); if (rc == 0) { return node; } node = (rc < 0) ? node->left : node->right; } return NULL; } static void ngx_stream_limit_conn_cleanup(void *data) { ngx_stream_limit_conn_cleanup_t *lccln = data; ngx_rbtree_node_t *node; ngx_stream_limit_conn_ctx_t *ctx; ngx_stream_limit_conn_node_t *lc; ctx = lccln->shm_zone->data; node = lccln->node; lc = (ngx_stream_limit_conn_node_t *) &node->color; ngx_shmtx_lock(&ctx->shpool->mutex); ngx_log_debug2(NGX_LOG_DEBUG_STREAM, lccln->shm_zone->shm.log, 0, "limit conn cleanup: %08Xi %d", node->key, lc->conn); lc->conn--; if (lc->conn == 0) { ngx_rbtree_delete(&ctx->sh->rbtree, node); ngx_slab_free_locked(ctx->shpool, node); } ngx_shmtx_unlock(&ctx->shpool->mutex); } static ngx_inline void ngx_stream_limit_conn_cleanup_all(ngx_pool_t *pool) { ngx_pool_cleanup_t *cln; cln = pool->cleanup; while (cln && cln->handler == ngx_stream_limit_conn_cleanup) { ngx_stream_limit_conn_cleanup(cln->data); cln = cln->next; } pool->cleanup = cln; } static ngx_int_t ngx_stream_limit_conn_init_zone(ngx_shm_zone_t *shm_zone, void *data) { ngx_stream_limit_conn_ctx_t *octx = data; size_t len; ngx_stream_limit_conn_ctx_t *ctx; ctx = shm_zone->data; if (octx) { if (ctx->key.value.len != octx->key.value.len || ngx_strncmp(ctx->key.value.data, octx->key.value.data, ctx->key.value.len) != 0) { ngx_log_error(NGX_LOG_EMERG, shm_zone->shm.log, 0, "limit_conn_zone \"%V\" uses the \"%V\" key " "while previously it used the \"%V\" key", &shm_zone->shm.name, &ctx->key.value, &octx->key.value); return NGX_ERROR; } ctx->sh = octx->sh; ctx->shpool = octx->shpool; return NGX_OK; } ctx->shpool = (ngx_slab_pool_t *) shm_zone->shm.addr; if (shm_zone->shm.exists) { ctx->sh = ctx->shpool->data; return NGX_OK; } ctx->sh = ngx_slab_alloc(ctx->shpool, sizeof(ngx_stream_limit_conn_shctx_t)); if (ctx->sh == NULL) { return NGX_ERROR; } ctx->shpool->data = ctx->sh; ngx_rbtree_init(&ctx->sh->rbtree, &ctx->sh->sentinel, ngx_stream_limit_conn_rbtree_insert_value); len = sizeof(" in limit_conn_zone \"\"") + shm_zone->shm.name.len; ctx->shpool->log_ctx = ngx_slab_alloc(ctx->shpool, len); if (ctx->shpool->log_ctx == NULL) { return NGX_ERROR; } ngx_sprintf(ctx->shpool->log_ctx, " in limit_conn_zone \"%V\"%Z", &shm_zone->shm.name); return NGX_OK; } static ngx_int_t ngx_stream_limit_conn_status_variable(ngx_stream_session_t *s, ngx_stream_variable_value_t *v, uintptr_t data) { if (s->limit_conn_status == 0) { v->not_found = 1; return NGX_OK; } v->valid = 1; v->no_cacheable = 0; v->not_found = 0; v->len = ngx_stream_limit_conn_status[s->limit_conn_status - 1].len; v->data = ngx_stream_limit_conn_status[s->limit_conn_status - 1].data; return NGX_OK; } static void * ngx_stream_limit_conn_create_conf(ngx_conf_t *cf) { ngx_stream_limit_conn_conf_t *conf; conf = ngx_pcalloc(cf->pool, sizeof(ngx_stream_limit_conn_conf_t)); if (conf == NULL) { return NULL; } /* * set by ngx_pcalloc(): * * conf->limits.elts = NULL; */ conf->log_level = NGX_CONF_UNSET_UINT; conf->dry_run = NGX_CONF_UNSET; return conf; } static char * ngx_stream_limit_conn_merge_conf(ngx_conf_t *cf, void *parent, void *child) { ngx_stream_limit_conn_conf_t *prev = parent; ngx_stream_limit_conn_conf_t *conf = child; if (conf->limits.elts == NULL) { conf->limits = prev->limits; } ngx_conf_merge_uint_value(conf->log_level, prev->log_level, NGX_LOG_ERR); ngx_conf_merge_value(conf->dry_run, prev->dry_run, 0); return NGX_CONF_OK; } static char * ngx_stream_limit_conn_zone(ngx_conf_t *cf, ngx_command_t *cmd, void *conf) { u_char *p; ssize_t size; ngx_str_t *value, name, s; ngx_uint_t i; ngx_shm_zone_t *shm_zone; ngx_stream_limit_conn_ctx_t *ctx; ngx_stream_compile_complex_value_t ccv; value = cf->args->elts; ctx = ngx_pcalloc(cf->pool, sizeof(ngx_stream_limit_conn_ctx_t)); if (ctx == NULL) { return NGX_CONF_ERROR; } ngx_memzero(&ccv, sizeof(ngx_stream_compile_complex_value_t)); ccv.cf = cf; ccv.value = &value[1]; ccv.complex_value = &ctx->key; if (ngx_stream_compile_complex_value(&ccv) != NGX_OK) { return NGX_CONF_ERROR; } size = 0; name.len = 0; for (i = 2; i < cf->args->nelts; i++) { if (ngx_strncmp(value[i].data, "zone=", 5) == 0) { name.data = value[i].data + 5; p = (u_char *) ngx_strchr(name.data, ':'); if (p == NULL) { ngx_conf_log_error(NGX_LOG_EMERG, cf, 0, "invalid zone size \"%V\"", &value[i]); return NGX_CONF_ERROR; } name.len = p - name.data; s.data = p + 1; s.len = value[i].data + value[i].len - s.data; size = ngx_parse_size(&s); if (size == NGX_ERROR) { ngx_conf_log_error(NGX_LOG_EMERG, cf, 0, "invalid zone size \"%V\"", &value[i]); return NGX_CONF_ERROR; } if (size < (ssize_t) (8 * ngx_pagesize)) { ngx_conf_log_error(NGX_LOG_EMERG, cf, 0, "zone \"%V\" is too small", &value[i]); return NGX_CONF_ERROR; } continue; } ngx_conf_log_error(NGX_LOG_EMERG, cf, 0, "invalid parameter \"%V\"", &value[i]); return NGX_CONF_ERROR; } if (name.len == 0) { ngx_conf_log_error(NGX_LOG_EMERG, cf, 0, "\"%V\" must have \"zone\" parameter", &cmd->name); return NGX_CONF_ERROR; } shm_zone = ngx_shared_memory_add(cf, &name, size, &ngx_stream_limit_conn_module); if (shm_zone == NULL) { return NGX_CONF_ERROR; } if (shm_zone->data) { ctx = shm_zone->data; ngx_conf_log_error(NGX_LOG_EMERG, cf, 0, "%V \"%V\" is already bound to key \"%V\"", &cmd->name, &name, &ctx->key.value); return NGX_CONF_ERROR; } shm_zone->init = ngx_stream_limit_conn_init_zone; shm_zone->data = ctx; return NGX_CONF_OK; } static char * ngx_stream_limit_conn(ngx_conf_t *cf, ngx_command_t *cmd, void *conf) { ngx_shm_zone_t *shm_zone; ngx_stream_limit_conn_conf_t *lccf = conf; ngx_stream_limit_conn_limit_t *limit, *limits; ngx_str_t *value; ngx_int_t n; ngx_uint_t i; value = cf->args->elts; shm_zone = ngx_shared_memory_add(cf, &value[1], 0, &ngx_stream_limit_conn_module); if (shm_zone == NULL) { return NGX_CONF_ERROR; } limits = lccf->limits.elts; if (limits == NULL) { if (ngx_array_init(&lccf->limits, cf->pool, 1, sizeof(ngx_stream_limit_conn_limit_t)) != NGX_OK) { return NGX_CONF_ERROR; } } for (i = 0; i < lccf->limits.nelts; i++) { if (shm_zone == limits[i].shm_zone) { return "is duplicate"; } } n = ngx_atoi(value[2].data, value[2].len); if (n <= 0) { ngx_conf_log_error(NGX_LOG_EMERG, cf, 0, "invalid number of connections \"%V\"", &value[2]); return NGX_CONF_ERROR; } if (n > 65535) { ngx_conf_log_error(NGX_LOG_EMERG, cf, 0, "connection limit must be less 65536"); return NGX_CONF_ERROR; } limit = ngx_array_push(&lccf->limits); if (limit == NULL) { return NGX_CONF_ERROR; } limit->conn = n; limit->shm_zone = shm_zone; return NGX_CONF_OK; } static ngx_int_t ngx_stream_limit_conn_add_variables(ngx_conf_t *cf) { ngx_stream_variable_t *var, *v; for (v = ngx_stream_limit_conn_vars; v->name.len; v++) { var = ngx_stream_add_variable(cf, &v->name, v->flags); if (var == NULL) { return NGX_ERROR; } var->get_handler = v->get_handler; var->data = v->data; } return NGX_OK; } static ngx_int_t ngx_stream_limit_conn_init(ngx_conf_t *cf) { ngx_stream_handler_pt *h; ngx_stream_core_main_conf_t *cmcf; cmcf = ngx_stream_conf_get_module_main_conf(cf, ngx_stream_core_module); h = ngx_array_push(&cmcf->phases[NGX_STREAM_PREACCESS_PHASE].handlers); if (h == NULL) { return NGX_ERROR; } *h = ngx_stream_limit_conn_handler; return NGX_OK; }