/* * Copyright (c) 2015 DeNA Co., Ltd., Kazuho Oku * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include "yoml-parser.h" #include "yrmcds.h" #if H2O_USE_PICOTLS #include "picotls.h" #include "picotls/openssl.h" #endif #include "h2o/file.h" #include "h2o.h" #include "h2o/configurator.h" #include "standalone.h" struct st_session_ticket_generating_updater_conf_t { const EVP_CIPHER *cipher; const EVP_MD *md; }; struct st_session_ticket_file_updater_conf_t { const char *filename; }; static struct { struct { void (*setup)(SSL_CTX **contexts, size_t num_contexts); union { struct { size_t num_threads; char *prefix; } memcached; } vars; } cache; struct { void *(*update_thread)(void *conf); union { struct st_session_ticket_generating_updater_conf_t generating; struct { struct st_session_ticket_generating_updater_conf_t generating; /* at same address as conf.ticket.vars.generating */ h2o_iovec_t key; } memcached; struct st_session_ticket_file_updater_conf_t file; } vars; } ticket; unsigned lifetime; struct { char *host; uint16_t port; int text_protocol; } memcached; } conf; H2O_NORETURN static void *cache_cleanup_thread(void *_contexts) { SSL_CTX **contexts = _contexts; while (1) { size_t i; for (i = 0; contexts[i] != NULL; ++i) SSL_CTX_flush_sessions(contexts[i], time(NULL)); sleep(conf.lifetime / 4); } } static void spawn_cache_cleanup_thread(SSL_CTX **_contexts, size_t num_contexts) { /* copy the list of contexts */ SSL_CTX **contexts = malloc(sizeof(*contexts) * (num_contexts + 1)); h2o_memcpy(contexts, _contexts, sizeof(*contexts) * num_contexts); contexts[num_contexts] = NULL; /* launch the thread */ pthread_t tid; pthread_attr_t attr; pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, 1); h2o_multithread_create_thread(&tid, &attr, cache_cleanup_thread, contexts); } static void setup_cache_disable(SSL_CTX **contexts, size_t num_contexts) { size_t i; for (i = 0; i != num_contexts; ++i) SSL_CTX_set_session_cache_mode(contexts[i], SSL_SESS_CACHE_OFF); } static void setup_cache_internal(SSL_CTX **contexts, size_t num_contexts) { size_t i; for (i = 0; i != num_contexts; ++i) { SSL_CTX_set_session_cache_mode(contexts[i], SSL_SESS_CACHE_SERVER | SSL_SESS_CACHE_NO_AUTO_CLEAR); SSL_CTX_set_timeout(contexts[i], conf.lifetime); } spawn_cache_cleanup_thread(contexts, num_contexts); } static void setup_cache_memcached(SSL_CTX **contexts, size_t num_contexts) { h2o_memcached_context_t *memc_ctx = h2o_memcached_create_context(conf.memcached.host, conf.memcached.port, conf.memcached.text_protocol, conf.cache.vars.memcached.num_threads, conf.cache.vars.memcached.prefix); h2o_accept_setup_async_ssl_resumption(memc_ctx, conf.lifetime); size_t i; for (i = 0; i != num_contexts; ++i) { SSL_CTX_set_session_cache_mode(contexts[i], SSL_SESS_CACHE_SERVER | SSL_SESS_CACHE_NO_AUTO_CLEAR); SSL_CTX_set_timeout(contexts[i], conf.lifetime); h2o_socket_ssl_async_resumption_setup_ctx(contexts[i]); } spawn_cache_cleanup_thread(contexts, num_contexts); } static void cache_init_defaults(void) { conf.cache.setup = setup_cache_internal; } #if H2O_USE_SESSION_TICKETS struct st_session_ticket_t { unsigned char name[16]; struct { const EVP_CIPHER *cipher; unsigned char *key; } cipher; struct { const EVP_MD *md; unsigned char *key; } hmac; uint64_t not_before; uint64_t not_after; }; typedef H2O_VECTOR(struct st_session_ticket_t *) session_ticket_vector_t; static struct { pthread_rwlock_t rwlock; session_ticket_vector_t tickets; /* sorted from newer to older */ } session_tickets = { /* we need writer-preferred lock, but on linux PTHREAD_RWLOCK_INITIALIZER is reader-preferred */ #ifdef PTHREAD_RWLOCK_WRITER_NONRECURSIVE_INITIALIZER_NP PTHREAD_RWLOCK_WRITER_NONRECURSIVE_INITIALIZER_NP #else PTHREAD_RWLOCK_INITIALIZER #endif , {NULL} /* tickets */ }; static struct st_session_ticket_t *new_ticket(const EVP_CIPHER *cipher, const EVP_MD *md, uint64_t not_before, uint64_t not_after, int fill_in) { int key_len = EVP_CIPHER_key_length(cipher), block_size = EVP_MD_block_size(md); struct st_session_ticket_t *ticket = h2o_mem_alloc(sizeof(*ticket) + key_len + block_size); ticket->cipher.cipher = cipher; ticket->cipher.key = (unsigned char *)ticket + sizeof(*ticket); ticket->hmac.md = md; ticket->hmac.key = ticket->cipher.key + key_len; ticket->not_before = not_before; ticket->not_after = not_after; if (fill_in) { RAND_bytes(ticket->name, sizeof(ticket->name)); RAND_bytes(ticket->cipher.key, key_len); RAND_bytes(ticket->hmac.key, block_size); } return ticket; } static void free_ticket(struct st_session_ticket_t *ticket) { int key_len = EVP_CIPHER_key_length(ticket->cipher.cipher), block_size = EVP_MD_block_size(ticket->hmac.md); h2o_mem_set_secure(ticket, 0, sizeof(*ticket) + key_len + block_size); free(ticket); } static int ticket_sort_compare(const void *_x, const void *_y) { struct st_session_ticket_t *x = *(void **)_x, *y = *(void **)_y; if (x->not_before != y->not_before) return x->not_before > y->not_before ? -1 : 1; return memcmp(x->name, y->name, sizeof(x->name)); } static void free_tickets(session_ticket_vector_t *tickets) { size_t i; for (i = 0; i != tickets->size; ++i) free_ticket(tickets->entries[i]); free(tickets->entries); memset(tickets, 0, sizeof(*tickets)); } static struct st_session_ticket_t *find_ticket_for_encryption(session_ticket_vector_t *tickets, uint64_t now) { size_t i; for (i = 0; i != tickets->size; ++i) { struct st_session_ticket_t *ticket = tickets->entries[i]; if (ticket->not_before <= now) { if (now <= ticket->not_after) { return ticket; } else { return NULL; } } } return NULL; } static int ticket_key_callback(unsigned char *key_name, unsigned char *iv, EVP_CIPHER_CTX *ctx, HMAC_CTX *hctx, int enc) { int ret; pthread_rwlock_rdlock(&session_tickets.rwlock); if (enc) { RAND_bytes(iv, EVP_MAX_IV_LENGTH); struct st_session_ticket_t *ticket = find_ticket_for_encryption(&session_tickets.tickets, time(NULL)), *temp_ticket = NULL; if (ticket != NULL) { } else { /* create a dummy ticket and use (this is the only way to continue the handshake; contrary to the man pages, OpenSSL * crashes if we return zero */ ticket = temp_ticket = new_ticket(EVP_aes_256_cbc(), EVP_sha256(), 0, UINT64_MAX, 1); } memcpy(key_name, ticket->name, sizeof(ticket->name)); EVP_EncryptInit_ex(ctx, ticket->cipher.cipher, NULL, ticket->cipher.key, iv); HMAC_Init_ex(hctx, ticket->hmac.key, EVP_MD_block_size(ticket->hmac.md), ticket->hmac.md, NULL); if (temp_ticket != NULL) free_ticket(ticket); ret = 1; } else { struct st_session_ticket_t *ticket; size_t i; for (i = 0; i != session_tickets.tickets.size; ++i) { ticket = session_tickets.tickets.entries[i]; if (memcmp(ticket->name, key_name, sizeof(ticket->name)) == 0) goto Found; } /* not found */ ret = 0; goto Exit; Found: EVP_DecryptInit_ex(ctx, ticket->cipher.cipher, NULL, ticket->cipher.key, iv); HMAC_Init_ex(hctx, ticket->hmac.key, EVP_MD_block_size(ticket->hmac.md), ticket->hmac.md, NULL); /* Request renewal if the youngest key is active */ if (i != 0 && session_tickets.tickets.entries[i - 1]->not_before <= time(NULL)) ret = 2; else ret = 1; } Exit: pthread_rwlock_unlock(&session_tickets.rwlock); return ret; } static int ticket_key_callback_ossl(SSL *ssl, unsigned char *key_name, unsigned char *iv, EVP_CIPHER_CTX *ctx, HMAC_CTX *hctx, int enc) { return ticket_key_callback(key_name, iv, ctx, hctx, enc); } #if H2O_USE_PICOTLS static int encrypt_ticket_key_ptls(ptls_encrypt_ticket_t *self, ptls_t *tls, int is_encrypt, ptls_buffer_t *dst, ptls_iovec_t src) { return (is_encrypt ? ptls_openssl_encrypt_ticket : ptls_openssl_decrypt_ticket)(dst, src, ticket_key_callback); } #endif static int update_tickets(session_ticket_vector_t *tickets, uint64_t now) { int altered = 0, has_valid_ticket; /* remove old entries */ while (tickets->size != 0) { struct st_session_ticket_t *oldest = tickets->entries[tickets->size - 1]; if (now <= oldest->not_after) break; tickets->entries[--tickets->size] = NULL; free_ticket(oldest); altered = 1; } /* create new entry if necessary */ has_valid_ticket = find_ticket_for_encryption(tickets, now) != NULL; if (!has_valid_ticket || (tickets->entries[0]->not_before + conf.lifetime / 4 < now)) { uint64_t not_before = has_valid_ticket ? now + 60 : now; struct st_session_ticket_t *ticket = new_ticket(conf.ticket.vars.generating.cipher, conf.ticket.vars.generating.md, not_before, not_before + conf.lifetime - 1, 1); h2o_vector_reserve(NULL, tickets, tickets->size + 1); memmove(tickets->entries + 1, tickets->entries, sizeof(tickets->entries[0]) * tickets->size); ++tickets->size; tickets->entries[0] = ticket; altered = 1; } return altered; } H2O_NORETURN static void *ticket_internal_updater(void *unused) { while (1) { pthread_rwlock_wrlock(&session_tickets.rwlock); update_tickets(&session_tickets.tickets, time(NULL)); pthread_rwlock_unlock(&session_tickets.rwlock); /* sleep for certain amount of time */ sleep(120 - (h2o_rand() >> 16) % 7); } } static int serialize_ticket_entry(char *buf, size_t bufsz, struct st_session_ticket_t *ticket) { char *name_buf = alloca(sizeof(ticket->name) * 2 + 1); h2o_hex_encode(name_buf, ticket->name, sizeof(ticket->name)); int key_len = EVP_CIPHER_key_length(ticket->cipher.cipher), block_size = EVP_MD_block_size(ticket->hmac.md); char *key_buf = alloca((key_len + block_size) * 2 + 1); h2o_hex_encode(key_buf, ticket->cipher.key, key_len); h2o_hex_encode(key_buf + key_len * 2, ticket->hmac.key, block_size); return snprintf(buf, bufsz, "- name: %s\n" " cipher: %s\n" " hash: %s\n" " key: %s\n" " not_before: %" PRIu64 "\n" " not_after: %" PRIu64 "\n", name_buf, OBJ_nid2sn(EVP_CIPHER_type(ticket->cipher.cipher)), OBJ_nid2sn(EVP_MD_type(ticket->hmac.md)), key_buf, ticket->not_before, ticket->not_after); } static struct st_session_ticket_t *parse_ticket_entry(yoml_t *element, char *errstr) { yoml_t *t; struct st_session_ticket_t *ticket; unsigned char name[sizeof(ticket->name) + 1], *key; const EVP_CIPHER *cipher; const EVP_MD *hash; uint64_t not_before, not_after; errstr[0] = '\0'; if (element->type != YOML_TYPE_MAPPING) { strcpy(errstr, "node is not a mapping"); return NULL; } #define FETCH(n, post) \ do { \ if ((t = yoml_get(element, n)) == NULL) { \ strcpy(errstr, " mandatory attribute `" n "` is missing"); \ return NULL; \ } \ if (t->type != YOML_TYPE_SCALAR) { \ strcpy(errstr, "attribute `" n "` is not a string"); \ return NULL; \ } \ post \ } while (0) FETCH("name", { if (strlen(t->data.scalar) != sizeof(ticket->name) * 2) { strcpy(errstr, "length of `name` attribute is not 32 bytes"); return NULL; } if (h2o_hex_decode(name, t->data.scalar, sizeof(ticket->name) * 2) != 0) { strcpy(errstr, "failed to decode the hex-encoded name"); return NULL; } }); FETCH("cipher", { if ((cipher = EVP_get_cipherbyname(t->data.scalar)) == NULL) { strcpy(errstr, "cannot find the named cipher algorithm"); return NULL; } }); FETCH("hash", { if ((hash = EVP_get_digestbyname(t->data.scalar)) == NULL) { strcpy(errstr, "cannot find the named hash algorgithm"); return NULL; } }); FETCH("key", { size_t keylen = EVP_CIPHER_key_length(cipher) + EVP_MD_block_size(hash); if (strlen(t->data.scalar) != keylen * 2) { sprintf(errstr, "length of the `key` attribute is incorrect (is %zu, must be %zu)\n", strlen(t->data.scalar), keylen * 2); return NULL; } key = alloca(keylen + 1); if (h2o_hex_decode(key, t->data.scalar, keylen * 2) != 0) { strcpy(errstr, "failed to decode the hex-encoded key"); return NULL; } }); FETCH("not_before", { if (sscanf(t->data.scalar, "%" SCNu64, ¬_before) != 1) { strcpy(errstr, "failed to parse the `not_before` attribute"); return NULL; } }); FETCH("not_after", { if (sscanf(t->data.scalar, "%" SCNu64, ¬_after) != 1) { strcpy(errstr, "failed to parse the `not_after` attribute"); return NULL; } }); if (!(not_before <= not_after)) { strcpy(errstr, "`not_after` is not equal to or greater than `not_before`"); return NULL; } #undef FETCH ticket = new_ticket(cipher, hash, not_before, not_after, 0); memcpy(ticket->name, name, sizeof(ticket->name)); memcpy(ticket->cipher.key, key, EVP_CIPHER_key_length(cipher)); memcpy(ticket->hmac.key, key + EVP_CIPHER_key_length(cipher), EVP_MD_block_size(hash)); return ticket; } static int parse_tickets(session_ticket_vector_t *tickets, const void *src, size_t len, char *errstr) { yaml_parser_t parser; yoml_t *doc; size_t i; *tickets = (session_ticket_vector_t){NULL}; yaml_parser_initialize(&parser); yaml_parser_set_input_string(&parser, src, len); yoml_parse_args_t parse_args = {NULL, h2o_mem_set_secure}; if ((doc = yoml_parse_document(&parser, NULL, &parse_args)) == NULL) { sprintf(errstr, "parse error at line %d:%s\n", (int)parser.problem_mark.line, parser.problem); goto Error; } if (doc->type != YOML_TYPE_SEQUENCE) { strcpy(errstr, "root element is not a sequence"); goto Error; } for (i = 0; i != doc->data.sequence.size; ++i) { char errbuf[256]; struct st_session_ticket_t *ticket = parse_ticket_entry(doc->data.sequence.elements[i], errbuf); if (ticket == NULL) { sprintf(errstr, "at element index %zu:%s\n", i, errbuf); goto Error; } h2o_vector_reserve(NULL, tickets, tickets->size + 1); tickets->entries[tickets->size++] = ticket; } yoml_free(doc, h2o_mem_set_secure); yaml_parser_delete(&parser); return 0; Error: if (doc != NULL) yoml_free(doc, h2o_mem_set_secure); yaml_parser_delete(&parser); free_tickets(tickets); return -1; } static h2o_iovec_t serialize_tickets(session_ticket_vector_t *tickets) { h2o_iovec_t data = {h2o_mem_alloc(tickets->size * 1024 + 1), 0}; size_t i; for (i = 0; i != tickets->size; ++i) { struct st_session_ticket_t *ticket = tickets->entries[i]; size_t l = serialize_ticket_entry(data.base + data.len, 1024, ticket); if (l > 1024) { fprintf(stderr, "[src/ssl.c] %s:internal buffer overflow\n", __func__); goto Error; } data.len += l; } return data; Error: free(data.base); return (h2o_iovec_t){NULL}; } static int ticket_memcached_update_tickets(yrmcds *conn, h2o_iovec_t key, time_t now) { yrmcds_response resp; yrmcds_error err; uint32_t serial; session_ticket_vector_t tickets = {NULL}; h2o_iovec_t tickets_serialized = {NULL}; int retry = 0; char errbuf[256]; /* retrieve tickets on memcached */ if ((err = yrmcds_get(conn, key.base, key.len, 0, &serial)) != 0) { fprintf(stderr, "[lib/ssl.c] %s:yrmcds_get failed:%s\n", __func__, yrmcds_strerror(err)); goto Exit; } if ((err = yrmcds_recv(conn, &resp)) != 0) { fprintf(stderr, "[lib/ssl.c] %s:yrmcds_recv failed:%s\n", __func__, yrmcds_strerror(err)); goto Exit; } if (resp.serial != serial) { fprintf(stderr, "[lib/ssl.c] %s:unexpected response\n", __func__); goto Exit; } if (resp.status == YRMCDS_STATUS_OK) { int r = parse_tickets(&tickets, resp.data, resp.data_len, errbuf); h2o_mem_set_secure((void *)resp.data, 0, resp.data_len); if (r != 0) { fprintf(stderr, "[lib/ssl.c] %s:failed to parse response:%s\n", __func__, errbuf); goto Exit; } } if (tickets.size > 1) qsort(tickets.entries, tickets.size, sizeof(tickets.entries[0]), ticket_sort_compare); /* if we need to update the tickets, atomically update the value in memcached, and request refetch to the caller */ if (update_tickets(&tickets, now) != 0) { tickets_serialized = serialize_tickets(&tickets); if (resp.status == YRMCDS_STATUS_NOTFOUND) { if ((err = yrmcds_add(conn, key.base, key.len, tickets_serialized.base, tickets_serialized.len, 0, conf.lifetime, 0, 0, &serial)) != 0) { fprintf(stderr, "[lib/ssl.c] %s:yrmcds_add failed:%s\n", __func__, yrmcds_strerror(err)); goto Exit; } } else { if ((err = yrmcds_set(conn, key.base, key.len, tickets_serialized.base, tickets_serialized.len, 0, conf.lifetime, resp.cas_unique, 0, &serial)) != 0) { fprintf(stderr, "[lib/ssl.c] %s:yrmcds_set failed:%s\n", __func__, yrmcds_strerror(err)); goto Exit; } } if ((err = yrmcds_recv(conn, &resp)) != 0) { fprintf(stderr, "[lib/ssl.c] %s:yrmcds_recv failed:%s\n", __func__, yrmcds_strerror(err)); goto Exit; } retry = 1; goto Exit; } /* store the results */ pthread_rwlock_wrlock(&session_tickets.rwlock); h2o_mem_swap(&session_tickets.tickets, &tickets, sizeof(tickets)); pthread_rwlock_unlock(&session_tickets.rwlock); Exit: free(tickets_serialized.base); free_tickets(&tickets); return retry; } H2O_NORETURN static void *ticket_memcached_updater(void *unused) { while (1) { /* connect */ yrmcds conn; yrmcds_error err; size_t failcnt; for (failcnt = 0; (err = yrmcds_connect(&conn, conf.memcached.host, conf.memcached.port)) != YRMCDS_OK; ++failcnt) { if (failcnt == 0) fprintf(stderr, "[src/ssl.c] failed to connect to memcached at %s:%" PRIu16 ", %s\n", conf.memcached.host, conf.memcached.port, yrmcds_strerror(err)); sleep(10); } if (conf.memcached.text_protocol) yrmcds_text_mode(&conn); /* connected */ while (ticket_memcached_update_tickets(&conn, conf.ticket.vars.memcached.key, time(NULL))) ; /* disconnect */ yrmcds_close(&conn); sleep(60); } } static int load_tickets_file(const char *fn) { #define ERR_PREFIX "failed to load session ticket secrets from file:%s:" h2o_iovec_t data = {NULL}; session_ticket_vector_t tickets = {NULL}; char errbuf[256]; int ret = -1; /* load yaml */ data = h2o_file_read(fn); if (data.base == NULL) { char errbuf[256]; strerror_r(errno, errbuf, sizeof(errbuf)); fprintf(stderr, ERR_PREFIX "%s\n", fn, errbuf); goto Exit; } /* parse the data */ if (parse_tickets(&tickets, data.base, data.len, errbuf) != 0) { fprintf(stderr, ERR_PREFIX "%s\n", fn, errbuf); goto Exit; } /* sort the ticket entries being read */ if (tickets.size > 1) qsort(tickets.entries, tickets.size, sizeof(tickets.entries[0]), ticket_sort_compare); /* replace the ticket list */ pthread_rwlock_wrlock(&session_tickets.rwlock); h2o_mem_swap(&session_tickets.tickets, &tickets, sizeof(tickets)); pthread_rwlock_unlock(&session_tickets.rwlock); ret = 0; Exit: free(data.base); free_tickets(&tickets); return ret; #undef ERR_PREFIX } H2O_NORETURN static void *ticket_file_updater(void *unused) { time_t last_mtime = 1; /* file is loaded if mtime changes, 0 is used to indicate that the file was missing */ while (1) { struct stat st; if (stat(conf.ticket.vars.file.filename, &st) != 0) { if (last_mtime != 0) { char errbuf[256]; strerror_r(errno, errbuf, sizeof(errbuf)); fprintf(stderr, "cannot load session ticket secrets from file:%s:%s\n", conf.ticket.vars.file.filename, errbuf); } last_mtime = 0; } else if (last_mtime != st.st_mtime) { /* (re)load */ last_mtime = st.st_mtime; if (load_tickets_file(conf.ticket.vars.file.filename) == 0) fprintf(stderr, "session ticket secrets have been (re)loaded\n"); } sleep(10); } } static void ticket_init_defaults(void) { conf.ticket.update_thread = ticket_internal_updater; /* to protect the secret >>>2030 we need AES-256 (http://www.keylength.com/en/4/) */ conf.ticket.vars.generating.cipher = EVP_aes_256_cbc(); /* integrity checks are only necessary at the time of handshake, and sha256 (recommended by RFC 5077) is sufficient */ conf.ticket.vars.generating.md = EVP_sha256(); } #endif int ssl_session_resumption_on_config(h2o_configurator_command_t *cmd, h2o_configurator_context_t *ctx, yoml_t *node) { enum { MODE_CACHE = 1, MODE_TICKET = 2, }; int modes = -1, uses_memcached; yoml_t *t; if ((t = yoml_get(node, "mode")) == NULL) { h2o_configurator_errprintf(cmd, node, "mandatory attribute `mode` is missing"); return -1; } if (t->type == YOML_TYPE_SCALAR) { if (strcasecmp(t->data.scalar, "off") == 0) { modes = 0; } else if (strcasecmp(t->data.scalar, "all") == 0) { modes = MODE_CACHE; #if H2O_USE_SESSION_TICKETS modes |= MODE_TICKET; #endif } else if (strcasecmp(t->data.scalar, "cache") == 0) { modes = MODE_CACHE; } else if (strcasecmp(t->data.scalar, "ticket") == 0) { modes = MODE_TICKET; } } if (modes == -1) { h2o_configurator_errprintf(cmd, t, "value of `mode` must be one of: off | all | cache | ticket"); return -1; } if ((modes & MODE_CACHE) != 0) { cache_init_defaults(); if ((t = yoml_get(node, "cache-store")) != NULL) { if (t->type == YOML_TYPE_SCALAR) { if (strcasecmp(t->data.scalar, "internal") == 0) { /* preserve the default */ t = NULL; } else if (strcasecmp(t->data.scalar, "memcached") == 0) { conf.cache.setup = setup_cache_memcached; t = NULL; } } if (t != NULL) { h2o_configurator_errprintf(cmd, t, "value of `cache-store` must be one of: internal | memcached"); return -1; } } if (conf.cache.setup == setup_cache_memcached) { conf.cache.vars.memcached.num_threads = 1; conf.cache.vars.memcached.prefix = "h2o:ssl-session-cache:"; if ((t = yoml_get(node, "cache-memcached-num-threads")) != NULL) { if (!(t->type == YOML_TYPE_SCALAR && sscanf(t->data.scalar, "%zu", &conf.cache.vars.memcached.num_threads) == 1 && conf.cache.vars.memcached.num_threads != 0)) { h2o_configurator_errprintf(cmd, t, "`cache-memcached-num-threads` must be a positive number"); return -1; } } if ((t = yoml_get(node, "cache-memcached-prefix")) != NULL) { if (t->type != YOML_TYPE_SCALAR) { h2o_configurator_errprintf(cmd, t, "`cache-memcached-prefix` must be a string"); return -1; } conf.cache.vars.memcached.prefix = h2o_strdup(NULL, t->data.scalar, SIZE_MAX).base; } } } else { conf.cache.setup = setup_cache_disable; } if ((modes & MODE_TICKET) != 0) { #if H2O_USE_SESSION_TICKETS ticket_init_defaults(); if ((t = yoml_get(node, "ticket-store")) != NULL) { if (t->type == YOML_TYPE_SCALAR) { if (strcasecmp(t->data.scalar, "internal") == 0) { /* ok, preserve the defaults */ t = NULL; } else if (strcasecmp(t->data.scalar, "file") == 0) { conf.ticket.update_thread = ticket_file_updater; t = NULL; } else if (strcasecmp(t->data.scalar, "memcached") == 0) { conf.ticket.update_thread = ticket_memcached_updater; t = NULL; } } if (t != NULL) { h2o_configurator_errprintf(cmd, t, "value of `ticket-store` must be one of: internal | file"); return -1; } } if (conf.ticket.update_thread == ticket_internal_updater || conf.ticket.update_thread == ticket_memcached_updater) { /* generating updater takes two arguments: cipher, hash */ if ((t = yoml_get(node, "ticket-cipher")) != NULL) { if (t->type != YOML_TYPE_SCALAR || (conf.ticket.vars.generating.cipher = EVP_get_cipherbyname(t->data.scalar)) == NULL) { h2o_configurator_errprintf(cmd, t, "unknown cipher algorithm"); return -1; } } if ((t = yoml_get(node, "ticket-hash")) != NULL) { if (t->type != YOML_TYPE_SCALAR || (conf.ticket.vars.generating.md = EVP_get_digestbyname(t->data.scalar)) == NULL) { h2o_configurator_errprintf(cmd, t, "unknown hash algorithm"); return -1; } } if (conf.ticket.update_thread == ticket_memcached_updater) { conf.ticket.vars.memcached.key = h2o_iovec_init(H2O_STRLIT("h2o:ssl-session-key")); if ((t = yoml_get(node, "ticket-memcached-prefix")) != NULL) { if (t->type != YOML_TYPE_SCALAR) { h2o_configurator_errprintf(cmd, t, "`ticket-memcached-key` must be a string"); return -1; } conf.ticket.vars.memcached.key = h2o_strdup(NULL, t->data.scalar, SIZE_MAX); } } } else if (conf.ticket.update_thread == ticket_file_updater) { /* file updater reads the contents of the file and uses it as the session ticket secret */ if ((t = yoml_get(node, "ticket-file")) == NULL) { h2o_configurator_errprintf(cmd, node, "mandatory attribute `file` is missing"); return -1; } if (t->type != YOML_TYPE_SCALAR) { h2o_configurator_errprintf(cmd, node, "`file` must be a string"); return -1; } conf.ticket.vars.file.filename = h2o_strdup(NULL, t->data.scalar, SIZE_MAX).base; } #else h2o_configurator_errprintf( cmd, mode, "ticket-based session resumption cannot be used, the server is built without support for the feature"); return -1; #endif } else { conf.ticket.update_thread = NULL; } if ((t = yoml_get(node, "memcached")) != NULL) { conf.memcached.host = NULL; conf.memcached.port = 11211; conf.memcached.text_protocol = 0; size_t index; for (index = 0; index != t->data.mapping.size; ++index) { yoml_t *key = t->data.mapping.elements[index].key; yoml_t *value = t->data.mapping.elements[index].value; if (value == t) continue; if (key->type != YOML_TYPE_SCALAR) { h2o_configurator_errprintf(cmd, key, "attribute must be a string"); return -1; } if (strcmp(key->data.scalar, "host") == 0) { if (value->type != YOML_TYPE_SCALAR) { h2o_configurator_errprintf(cmd, value, "`host` must be a string"); return -1; } conf.memcached.host = h2o_strdup(NULL, value->data.scalar, SIZE_MAX).base; } else if (strcmp(key->data.scalar, "port") == 0) { if (!(value->type == YOML_TYPE_SCALAR && sscanf(value->data.scalar, "%" SCNu16, &conf.memcached.port) == 1)) { h2o_configurator_errprintf(cmd, value, "`port` must be a number"); return -1; } } else if (strcmp(key->data.scalar, "protocol") == 0) { ssize_t sel = h2o_configurator_get_one_of(cmd, value, "BINARY,ASCII"); if (sel == -1) return -1; conf.memcached.text_protocol = (int)sel; } else { h2o_configurator_errprintf(cmd, key, "unknown attribute: %s", key->data.scalar); return -1; } } if (conf.memcached.host == NULL) { h2o_configurator_errprintf(cmd, t, "mandatory attribute `host` is missing"); return -1; } } uses_memcached = conf.cache.setup == setup_cache_memcached; #if H2O_USE_SESSION_TICKETS uses_memcached = (uses_memcached || conf.ticket.update_thread == ticket_memcached_updater); #endif if (uses_memcached && conf.memcached.host == NULL) { h2o_configurator_errprintf(cmd, node, "configuration of memcached is missing"); return -1; } if ((t = yoml_get(node, "lifetime")) != NULL) { if (!(t->type == YOML_TYPE_SCALAR && sscanf(t->data.scalar, "%u", &conf.lifetime) == 1 && conf.lifetime != 0)) { h2o_configurator_errprintf(cmd, t, "value of `lifetime` must be a positive number"); return -1; } } return 0; } void ssl_setup_session_resumption(SSL_CTX **contexts, size_t num_contexts) { if (conf.cache.setup != NULL) conf.cache.setup(contexts, num_contexts); #if H2O_USE_SESSION_TICKETS if (num_contexts == 0) return; if (conf.ticket.update_thread != NULL) { /* start session ticket updater thread */ pthread_t tid; pthread_attr_t attr; pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, 1); h2o_multithread_create_thread(&tid, &attr, conf.ticket.update_thread, NULL); size_t i; for (i = 0; i != num_contexts; ++i) { SSL_CTX *ctx = contexts[i]; SSL_CTX_set_tlsext_ticket_key_cb(ctx, ticket_key_callback_ossl); #if H2O_USE_PICOTLS ptls_context_t *pctx = h2o_socket_ssl_get_picotls_context(ctx); if (pctx != NULL) { static ptls_encrypt_ticket_t encryptor = {encrypt_ticket_key_ptls}; pctx->ticket_lifetime = 86400 * 7; // FIXME conf.lifetime; pctx->encrypt_ticket = &encryptor; } #endif } } else { size_t i; for (i = 0; i != num_contexts; ++i) SSL_CTX_set_options(contexts[i], SSL_CTX_get_options(contexts[i]) | SSL_OP_NO_TICKET); } #endif } static pthread_mutex_t *mutexes; static void lock_callback(int mode, int n, const char *file, int line) { if ((mode & CRYPTO_LOCK) != 0) { pthread_mutex_lock(mutexes + n); } else if ((mode & CRYPTO_UNLOCK) != 0) { pthread_mutex_unlock(mutexes + n); } else { assert(!"unexpected mode"); } } static unsigned long thread_id_callback(void) { return (unsigned long)pthread_self(); } static int add_lock_callback(int *num, int amount, int type, const char *file, int line) { (void)type; (void)file; (void)line; return __sync_add_and_fetch(num, amount); } void init_openssl(void) { int nlocks = CRYPTO_num_locks(), i; mutexes = h2o_mem_alloc(sizeof(*mutexes) * nlocks); for (i = 0; i != nlocks; ++i) pthread_mutex_init(mutexes + i, NULL); CRYPTO_set_locking_callback(lock_callback); CRYPTO_set_id_callback(thread_id_callback); CRYPTO_set_add_lock_callback(add_lock_callback); /* Dynamic locks are only used by the CHIL engine at this time */ SSL_load_error_strings(); SSL_library_init(); OpenSSL_add_all_algorithms(); cache_init_defaults(); #if H2O_USE_SESSION_TICKETS ticket_init_defaults(); #endif conf.lifetime = 3600; /* default value for session timeout is 1 hour */ }