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|
/*
* Copyright (c) 2014-2016 DeNA Co., Ltd., Kazuho Oku, Tatsuhiko Kubo,
* Domingo Alvarez Duarte, Nick Desaulniers,
* Jeff Marrison, Shota Fukumori, Fastly, Inc.
*
* 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 <arpa/inet.h>
#include <assert.h>
#include <errno.h>
#include <fcntl.h>
#include <getopt.h>
#include <inttypes.h>
#include <limits.h>
#include <netdb.h>
#include <netinet/in.h>
#include <netinet/tcp.h>
#include <poll.h>
#include <pthread.h>
#include <pwd.h>
#include <signal.h>
#include <spawn.h>
#include <stdio.h>
#include <unistd.h>
#include <sys/resource.h>
#include <sys/stat.h>
#include <sys/socket.h>
#include <sys/time.h>
#include <sys/types.h>
#include <sys/un.h>
#include <sys/wait.h>
#include <openssl/crypto.h>
#include <openssl/err.h>
#include <openssl/ssl.h>
#ifdef __GLIBC__
#include <execinfo.h>
#endif
#if H2O_USE_PICOTLS
#include "picotls.h"
#include "picotls/minicrypto.h"
#include "picotls/openssl.h"
#endif
#include "cloexec.h"
#include "yoml-parser.h"
#include "neverbleed.h"
#include "h2o.h"
#include "h2o/configurator.h"
#include "h2o/http1.h"
#include "h2o/http2.h"
#include "h2o/serverutil.h"
#if H2O_USE_MRUBY
#include "h2o/mruby_.h"
#endif
#include "standalone.h"
#ifdef TCP_FASTOPEN
#define H2O_DEFAULT_LENGTH_TCP_FASTOPEN_QUEUE 4096
#else
#define H2O_DEFAULT_LENGTH_TCP_FASTOPEN_QUEUE 0
#endif
#define H2O_DEFAULT_NUM_NAME_RESOLUTION_THREADS 32
#define H2O_DEFAULT_OCSP_UPDATER_MAX_THREADS 10
#if defined(OPENSSL_NO_OCSP) && !H2O_USE_PICOTLS
#define H2O_USE_OCSP 0
#else
#define H2O_USE_OCSP 1
#endif
struct listener_ssl_config_t {
H2O_VECTOR(h2o_iovec_t) hostnames;
char *certificate_file;
SSL_CTX *ctx;
#if H2O_USE_OCSP
struct {
uint64_t interval;
unsigned max_failures;
char *cmd;
pthread_t updater_tid; /* should be valid when and only when interval != 0 */
struct {
pthread_mutex_t mutex;
h2o_buffer_t *data;
} response;
} ocsp_stapling;
#endif
};
struct listener_config_t {
int fd;
struct sockaddr_storage addr;
socklen_t addrlen;
h2o_hostconf_t **hosts;
H2O_VECTOR(struct listener_ssl_config_t *) ssl;
int proxy_protocol;
};
struct listener_ctx_t {
h2o_accept_ctx_t accept_ctx;
h2o_socket_t *sock;
};
typedef struct st_resolve_tag_node_cache_entry_t {
h2o_iovec_t filename;
yoml_t *node;
} resolve_tag_node_cache_entry_t;
typedef struct st_resolve_tag_arg_t {
H2O_VECTOR(resolve_tag_node_cache_entry_t) node_cache;
} resolve_tag_arg_t;
typedef enum en_run_mode_t {
RUN_MODE_WORKER = 0,
RUN_MODE_MASTER,
RUN_MODE_DAEMON,
RUN_MODE_TEST,
} run_mode_t;
static struct {
h2o_globalconf_t globalconf;
run_mode_t run_mode;
struct {
int *fds;
char *bound_fd_map; /* has `num_fds` elements, set to 1 if fd[index] was bound to one of the listeners */
size_t num_fds;
char *env_var;
} server_starter;
struct listener_config_t **listeners;
size_t num_listeners;
char *pid_file;
char *error_log;
int max_connections;
size_t num_threads;
int tfo_queues;
time_t launch_time;
struct {
pthread_t tid;
h2o_context_t ctx;
h2o_multithread_receiver_t server_notifications;
h2o_multithread_receiver_t memcached;
} * threads;
volatile sig_atomic_t shutdown_requested;
h2o_barrier_t startup_sync_barrier;
struct {
/* unused buffers exist to avoid false sharing of the cache line */
char _unused1_avoir_false_sharing[32];
int _num_connections; /* number of currently handled incoming connections, should use atomic functions to update the value
*/
char _unused2_avoir_false_sharing[32];
unsigned long
_num_sessions; /* total number of opened incoming connections, should use atomic functions to update the value */
char _unused3_avoir_false_sharing[32];
} state;
char *crash_handler;
int crash_handler_wait_pipe_close;
} conf = {
{NULL}, /* globalconf */
RUN_MODE_WORKER, /* dry-run */
{NULL}, /* server_starter */
NULL, /* listeners */
0, /* num_listeners */
NULL, /* pid_file */
NULL, /* error_log */
1024, /* max_connections */
0, /* initialized in main() */
0, /* initialized in main() */
0, /* initialized in main() */
NULL, /* thread_ids */
0, /* shutdown_requested */
H2O_BARRIER_INITIALIZER(SIZE_MAX), /* startup_sync_barrier */
{{0}}, /* state */
"share/h2o/annotate-backtrace-symbols", /* crash_handler */
0, /* crash_handler_wait_pipe_close */
};
static neverbleed_t *neverbleed = NULL;
static void set_cloexec(int fd)
{
if (fcntl(fd, F_SETFD, FD_CLOEXEC) == -1) {
perror("failed to set FD_CLOEXEC");
abort();
}
}
static int on_openssl_print_errors(const char *str, size_t len, void *fp)
{
fwrite(str, 1, len, fp);
return (int)len;
}
static void setup_ecc_key(SSL_CTX *ssl_ctx)
{
#ifdef SSL_CTX_set_ecdh_auto
SSL_CTX_set_ecdh_auto(ssl_ctx, 1);
#else
int nid = NID_X9_62_prime256v1;
EC_KEY *key = EC_KEY_new_by_curve_name(nid);
if (key == NULL) {
fprintf(stderr, "Failed to create curve \"%s\"\n", OBJ_nid2sn(nid));
return;
}
SSL_CTX_set_tmp_ecdh(ssl_ctx, key);
EC_KEY_free(key);
#endif
}
static struct listener_ssl_config_t *resolve_sni(struct listener_config_t *listener, const char *name, size_t name_len)
{
size_t i, j;
for (i = 0; i != listener->ssl.size; ++i) {
struct listener_ssl_config_t *ssl_config = listener->ssl.entries[i];
for (j = 0; j != ssl_config->hostnames.size; ++j) {
if (ssl_config->hostnames.entries[j].base[0] == '*') {
/* matching against "*.foo.bar" */
size_t cmplen = ssl_config->hostnames.entries[j].len - 1;
if (!(cmplen < name_len && h2o_lcstris(name + name_len - cmplen, cmplen, ssl_config->hostnames.entries[j].base + 1,
ssl_config->hostnames.entries[j].len - 1)))
continue;
} else {
if (!h2o_lcstris(name, name_len, ssl_config->hostnames.entries[j].base, ssl_config->hostnames.entries[j].len))
continue;
}
/* found */
return listener->ssl.entries[i];
}
}
return listener->ssl.entries[0];
}
static int on_sni_callback(SSL *ssl, int *ad, void *arg)
{
struct listener_config_t *listener = arg;
const char *server_name = SSL_get_servername(ssl, TLSEXT_NAMETYPE_host_name);
if (server_name != NULL) {
struct listener_ssl_config_t *resolved = resolve_sni(listener, server_name, strlen(server_name));
if (resolved->ctx != SSL_get_SSL_CTX(ssl))
SSL_set_SSL_CTX(ssl, resolved->ctx);
}
return SSL_TLSEXT_ERR_OK;
}
#if H2O_USE_PICOTLS
struct st_on_client_hello_ptls_t {
ptls_on_client_hello_t super;
struct listener_config_t *listener;
};
static int on_client_hello_ptls(ptls_on_client_hello_t *_self, ptls_t *tls, ptls_iovec_t server_name,
const ptls_iovec_t *negotiated_protocols, size_t num_negotiated_protocols,
const uint16_t *signature_algorithms, size_t num_signature_algorithms)
{
struct st_on_client_hello_ptls_t *self = (struct st_on_client_hello_ptls_t *)_self;
int ret = 0;
/* handle SNI */
if (server_name.base != NULL) {
struct listener_ssl_config_t *resolved = resolve_sni(self->listener, (const char *)server_name.base, server_name.len);
ptls_context_t *newctx = h2o_socket_ssl_get_picotls_context(resolved->ctx);
ptls_set_context(tls, newctx);
ptls_set_server_name(tls, (const char *)server_name.base, server_name.len);
}
/* handle ALPN */
if (num_negotiated_protocols != 0) {
const h2o_iovec_t *server_pref;
for (server_pref = h2o_alpn_protocols; server_pref->len != 0; ++server_pref) {
size_t i;
for (i = 0; i != num_negotiated_protocols; ++i)
if (h2o_memis(server_pref->base, server_pref->len, negotiated_protocols[i].base, negotiated_protocols[i].len))
goto ALPN_Found;
}
return PTLS_ALERT_NO_APPLICATION_PROTOCOL;
ALPN_Found:
if ((ret = ptls_set_negotiated_protocol(tls, server_pref->base, server_pref->len)) != 0)
return ret;
}
return ret;
}
#endif
static void update_ocsp_stapling(struct listener_ssl_config_t *ssl_conf, h2o_buffer_t *resp)
{
pthread_mutex_lock(&ssl_conf->ocsp_stapling.response.mutex);
if (ssl_conf->ocsp_stapling.response.data != NULL)
h2o_buffer_dispose(&ssl_conf->ocsp_stapling.response.data);
ssl_conf->ocsp_stapling.response.data = resp;
pthread_mutex_unlock(&ssl_conf->ocsp_stapling.response.mutex);
}
static int get_ocsp_response(const char *cert_fn, const char *cmd, h2o_buffer_t **resp)
{
char *cmd_fullpath = h2o_configurator_get_cmd_path(cmd), *argv[] = {cmd_fullpath, (char *)cert_fn, NULL};
int child_status, ret;
if (h2o_read_command(cmd_fullpath, argv, resp, &child_status) != 0) {
fprintf(stderr, "[OCSP Stapling] failed to execute %s:%s\n", cmd, strerror(errno));
switch (errno) {
case EACCES:
case ENOENT:
case ENOEXEC:
/* permanent errors */
ret = EX_CONFIG;
goto Exit;
default:
ret = EX_TEMPFAIL;
goto Exit;
}
}
if (!(WIFEXITED(child_status) && WEXITSTATUS(child_status) == 0))
h2o_buffer_dispose(resp);
if (!WIFEXITED(child_status)) {
fprintf(stderr, "[OCSP Stapling] command %s was killed by signal %d\n", cmd_fullpath, WTERMSIG(child_status));
ret = EX_TEMPFAIL;
goto Exit;
}
ret = WEXITSTATUS(child_status);
Exit:
free(cmd_fullpath);
return ret;
}
static h2o_sem_t ocsp_updater_semaphore;
static void *ocsp_updater_thread(void *_ssl_conf)
{
struct listener_ssl_config_t *ssl_conf = _ssl_conf;
time_t next_at = 0, now;
unsigned fail_cnt = 0;
int status;
h2o_buffer_t *resp;
assert(ssl_conf->ocsp_stapling.interval != 0);
while (1) {
/* sleep until next_at */
if ((now = time(NULL)) < next_at) {
time_t sleep_secs = next_at - now;
sleep(sleep_secs < UINT_MAX ? (unsigned)sleep_secs : UINT_MAX);
continue;
}
/* fetch the response */
h2o_sem_wait(&ocsp_updater_semaphore);
status = get_ocsp_response(ssl_conf->certificate_file, ssl_conf->ocsp_stapling.cmd, &resp);
h2o_sem_post(&ocsp_updater_semaphore);
switch (status) {
case 0: /* success */
fail_cnt = 0;
update_ocsp_stapling(ssl_conf, resp);
fprintf(stderr, "[OCSP Stapling] successfully updated the response for certificate file:%s\n",
ssl_conf->certificate_file);
break;
case EX_TEMPFAIL: /* temporary failure */
if (fail_cnt == ssl_conf->ocsp_stapling.max_failures) {
fprintf(stderr,
"[OCSP Stapling] OCSP stapling is temporary disabled due to repeated errors for certificate file:%s\n",
ssl_conf->certificate_file);
update_ocsp_stapling(ssl_conf, NULL);
} else {
fprintf(stderr, "[OCSP Stapling] reusing old response due to a temporary error occurred while fetching OCSP "
"response for certificate file:%s\n",
ssl_conf->certificate_file);
++fail_cnt;
}
break;
default: /* permanent failure */
update_ocsp_stapling(ssl_conf, NULL);
fprintf(stderr, "[OCSP Stapling] disabled for certificate file:%s\n", ssl_conf->certificate_file);
goto Exit;
}
/* update next_at */
next_at = time(NULL) + ssl_conf->ocsp_stapling.interval;
}
Exit:
return NULL;
}
#ifndef OPENSSL_NO_OCSP
static int on_staple_ocsp_ossl(SSL *ssl, void *_ssl_conf)
{
struct listener_ssl_config_t *ssl_conf = _ssl_conf;
void *resp = NULL;
size_t len = 0;
/* fetch ocsp response */
pthread_mutex_lock(&ssl_conf->ocsp_stapling.response.mutex);
if (ssl_conf->ocsp_stapling.response.data != NULL) {
resp = CRYPTO_malloc((int)ssl_conf->ocsp_stapling.response.data->size, __FILE__, __LINE__);
if (resp != NULL) {
len = ssl_conf->ocsp_stapling.response.data->size;
memcpy(resp, ssl_conf->ocsp_stapling.response.data->bytes, len);
}
}
pthread_mutex_unlock(&ssl_conf->ocsp_stapling.response.mutex);
if (resp != NULL) {
SSL_set_tlsext_status_ocsp_resp(ssl, resp, len);
return SSL_TLSEXT_ERR_OK;
} else {
return SSL_TLSEXT_ERR_NOACK;
}
}
#endif
#if H2O_USE_PICOTLS
struct st_staple_ocsp_ptls_t {
ptls_staple_ocsp_t super;
struct listener_ssl_config_t *conf;
};
static int on_staple_ocsp_ptls(ptls_staple_ocsp_t *_self, ptls_t *tls, ptls_buffer_t *output, size_t cert_index)
{
struct st_staple_ocsp_ptls_t *self = (struct st_staple_ocsp_ptls_t *)_self;
int locked = 0, ret;
if (cert_index != 0) {
ret = PTLS_ERROR_LIBRARY;
goto Exit;
}
pthread_mutex_lock(&self->conf->ocsp_stapling.response.mutex);
locked = 1;
if (self->conf->ocsp_stapling.response.data == NULL) {
ret = PTLS_ERROR_LIBRARY;
goto Exit;
}
ptls_buffer_pushv(output, self->conf->ocsp_stapling.response.data->bytes, self->conf->ocsp_stapling.response.data->size);
ret = 0;
Exit:
if (locked)
pthread_mutex_unlock(&self->conf->ocsp_stapling.response.mutex);
return ret;
}
static const char *listener_setup_ssl_picotls(struct listener_config_t *listener, struct listener_ssl_config_t *ssl_config,
SSL_CTX *ssl_ctx)
{
static const ptls_key_exchange_algorithm_t *key_exchanges[] = {&ptls_minicrypto_x25519, &ptls_openssl_secp256r1, NULL};
struct st_fat_context_t {
ptls_context_t ctx;
struct st_on_client_hello_ptls_t ch;
struct st_staple_ocsp_ptls_t so;
ptls_openssl_sign_certificate_t sc;
} *pctx = h2o_mem_alloc(sizeof(*pctx));
EVP_PKEY *key;
X509 *cert;
STACK_OF(X509) * cert_chain;
int ret;
*pctx = (struct st_fat_context_t){{ptls_openssl_random_bytes,
&ptls_get_time,
key_exchanges,
ptls_openssl_cipher_suites,
{NULL, 0},
&pctx->ch.super,
&pctx->so.super,
&pctx->sc.super,
NULL,
0,
8192,
1},
{{on_client_hello_ptls}, listener},
{{on_staple_ocsp_ptls}, ssl_config}};
{ /* obtain key and cert (via fake connection for libressl compatibility) */
SSL *fakeconn = SSL_new(ssl_ctx);
assert(fakeconn != NULL);
key = SSL_get_privatekey(fakeconn);
assert(key != NULL);
cert = SSL_get_certificate(fakeconn);
assert(cert != NULL);
SSL_free(fakeconn);
}
if (ptls_openssl_init_sign_certificate(&pctx->sc, key) != 0) {
free(pctx);
return "failed to setup private key";
}
SSL_CTX_get_extra_chain_certs(ssl_ctx, &cert_chain);
ret = ptls_openssl_load_certificates(&pctx->ctx, cert, cert_chain);
assert(ret == 0);
h2o_socket_ssl_set_picotls_context(ssl_ctx, &pctx->ctx);
return NULL;
}
#endif
static void listener_setup_ssl_add_host(struct listener_ssl_config_t *ssl_config, h2o_iovec_t host)
{
const char *host_end = memchr(host.base, ':', host.len);
if (host_end == NULL)
host_end = host.base + host.len;
h2o_vector_reserve(NULL, &ssl_config->hostnames, ssl_config->hostnames.size + 1);
ssl_config->hostnames.entries[ssl_config->hostnames.size++] = h2o_iovec_init(host.base, host_end - host.base);
}
static int listener_setup_ssl(h2o_configurator_command_t *cmd, h2o_configurator_context_t *ctx, yoml_t *listen_node,
yoml_t *ssl_node, struct listener_config_t *listener, int listener_is_new)
{
SSL_CTX *ssl_ctx = NULL;
yoml_t *certificate_file = NULL, *key_file = NULL, *dh_file = NULL, *min_version = NULL, *max_version = NULL,
*cipher_suite = NULL, *ocsp_update_cmd = NULL, *ocsp_update_interval_node = NULL, *ocsp_max_failures_node = NULL;
long ssl_options = SSL_OP_ALL;
uint64_t ocsp_update_interval = 4 * 60 * 60; /* defaults to 4 hours */
unsigned ocsp_max_failures = 3; /* defaults to 3; permit 3 failures before temporary disabling OCSP stapling */
int use_neverbleed = 1, use_picotls = 1; /* enabled by default */
if (!listener_is_new) {
if (listener->ssl.size != 0 && ssl_node == NULL) {
h2o_configurator_errprintf(cmd, listen_node, "cannot accept HTTP; already defined to accept HTTPS");
return -1;
}
if (listener->ssl.size == 0 && ssl_node != NULL) {
h2o_configurator_errprintf(cmd, ssl_node, "cannot accept HTTPS; already defined to accept HTTP");
return -1;
}
}
if (ssl_node == NULL)
return 0;
if (ssl_node->type != YOML_TYPE_MAPPING) {
h2o_configurator_errprintf(cmd, ssl_node, "`ssl` is not a mapping");
return -1;
}
{ /* parse */
size_t i;
for (i = 0; i != ssl_node->data.sequence.size; ++i) {
yoml_t *key = ssl_node->data.mapping.elements[i].key, *value = ssl_node->data.mapping.elements[i].value;
/* obtain the target command */
if (key->type != YOML_TYPE_SCALAR) {
h2o_configurator_errprintf(NULL, key, "command must be a string");
return -1;
}
#define FETCH_PROPERTY(n, p) \
if (strcmp(key->data.scalar, n) == 0) { \
if (value->type != YOML_TYPE_SCALAR) { \
h2o_configurator_errprintf(cmd, value, "property of `" n "` must be a string"); \
return -1; \
} \
p = value; \
continue; \
}
FETCH_PROPERTY("certificate-file", certificate_file);
FETCH_PROPERTY("key-file", key_file);
FETCH_PROPERTY("min-version", min_version);
FETCH_PROPERTY("minimum-version", min_version);
FETCH_PROPERTY("max-version", max_version);
FETCH_PROPERTY("maximum-version", max_version);
FETCH_PROPERTY("cipher-suite", cipher_suite);
FETCH_PROPERTY("ocsp-update-cmd", ocsp_update_cmd);
FETCH_PROPERTY("ocsp-update-interval", ocsp_update_interval_node);
FETCH_PROPERTY("ocsp-max-failures", ocsp_max_failures_node);
FETCH_PROPERTY("dh-file", dh_file);
if (strcmp(key->data.scalar, "cipher-preference") == 0) {
if (value->type == YOML_TYPE_SCALAR && strcasecmp(value->data.scalar, "client") == 0) {
ssl_options &= ~SSL_OP_CIPHER_SERVER_PREFERENCE;
} else if (value->type == YOML_TYPE_SCALAR && strcasecmp(value->data.scalar, "server") == 0) {
ssl_options |= SSL_OP_CIPHER_SERVER_PREFERENCE;
} else {
h2o_configurator_errprintf(cmd, value, "property of `cipher-preference` must be either of: `client`, `server`");
return -1;
}
continue;
}
if (strcmp(key->data.scalar, "neverbleed") == 0) {
if (value->type == YOML_TYPE_SCALAR && strcasecmp(value->data.scalar, "ON") == 0) {
/* no need to enable neverbleed for daemon / master */
use_neverbleed = 1;
} else if (value->type == YOML_TYPE_SCALAR && strcasecmp(value->data.scalar, "OFF") == 0) {
use_neverbleed = 0;
} else {
h2o_configurator_errprintf(cmd, value, "property of `neverbleed` must be either of: `ON`, `OFF");
return -1;
}
continue;
}
h2o_configurator_errprintf(cmd, key, "unknown property: %s", key->data.scalar);
return -1;
#undef FETCH_PROPERTY
}
if (certificate_file == NULL) {
h2o_configurator_errprintf(cmd, ssl_node, "could not find mandatory property `certificate-file`");
return -1;
}
if (key_file == NULL) {
h2o_configurator_errprintf(cmd, ssl_node, "could not find mandatory property `key-file`");
return -1;
}
if (min_version != NULL) {
#define MAP(tok, op) \
if (strcasecmp(min_version->data.scalar, tok) == 0) { \
ssl_options |= (op); \
goto VersionFound; \
}
MAP("sslv2", 0);
MAP("sslv3", SSL_OP_NO_SSLv2);
MAP("tlsv1", SSL_OP_NO_SSLv2 | SSL_OP_NO_SSLv3);
MAP("tlsv1.1", SSL_OP_NO_SSLv2 | SSL_OP_NO_SSLv3 | SSL_OP_NO_TLSv1);
#ifdef SSL_OP_NO_TLSv1_1
MAP("tlsv1.2", SSL_OP_NO_SSLv2 | SSL_OP_NO_SSLv3 | SSL_OP_NO_TLSv1 | SSL_OP_NO_TLSv1_1);
#endif
#ifdef SSL_OP_NO_TLSv1_2
MAP("tlsv1.3", SSL_OP_NO_SSLv2 | SSL_OP_NO_SSLv3 | SSL_OP_NO_TLSv1 | SSL_OP_NO_TLSv1_1 | SSL_OP_NO_TLSv1_2);
#endif
#undef MAP
h2o_configurator_errprintf(cmd, min_version, "unknown protocol version: %s", min_version->data.scalar);
VersionFound:;
} else {
/* default is >= TLSv1 */
ssl_options |= SSL_OP_NO_SSLv2 | SSL_OP_NO_SSLv3;
}
if (max_version != NULL) {
if (strcasecmp(max_version->data.scalar, "tlsv1.3") < 0)
use_picotls = 0;
}
if (ocsp_update_interval_node != NULL) {
if (h2o_configurator_scanf(cmd, ocsp_update_interval_node, "%" PRIu64, &ocsp_update_interval) != 0)
goto Error;
}
if (ocsp_max_failures_node != NULL) {
if (h2o_configurator_scanf(cmd, ocsp_max_failures_node, "%u", &ocsp_max_failures) != 0)
goto Error;
}
}
/* add the host to the existing SSL config, if the certificate file is already registered */
if (ctx->hostconf != NULL) {
size_t i;
for (i = 0; i != listener->ssl.size; ++i) {
struct listener_ssl_config_t *ssl_config = listener->ssl.entries[i];
if (strcmp(ssl_config->certificate_file, certificate_file->data.scalar) == 0) {
listener_setup_ssl_add_host(ssl_config, ctx->hostconf->authority.hostport);
return 0;
}
}
}
/* disable tls compression to avoid "CRIME" attacks (see http://en.wikipedia.org/wiki/CRIME) */
#ifdef SSL_OP_NO_COMPRESSION
ssl_options |= SSL_OP_NO_COMPRESSION;
#endif
/* setup */
ssl_ctx = SSL_CTX_new(SSLv23_server_method());
SSL_CTX_set_options(ssl_ctx, ssl_options);
setup_ecc_key(ssl_ctx);
if (SSL_CTX_use_certificate_chain_file(ssl_ctx, certificate_file->data.scalar) != 1) {
h2o_configurator_errprintf(cmd, certificate_file, "failed to load certificate file:%s\n", certificate_file->data.scalar);
ERR_print_errors_cb(on_openssl_print_errors, stderr);
goto Error;
}
if (use_neverbleed) {
/* disable neverbleed in case the process is not going to serve requests */
switch (conf.run_mode) {
case RUN_MODE_DAEMON:
case RUN_MODE_MASTER:
use_neverbleed = 0;
break;
default:
break;
}
}
if (use_neverbleed) {
char errbuf[NEVERBLEED_ERRBUF_SIZE];
if (neverbleed == NULL) {
neverbleed = h2o_mem_alloc(sizeof(*neverbleed));
if (neverbleed_init(neverbleed, errbuf) != 0) {
fprintf(stderr, "%s\n", errbuf);
abort();
}
}
if (neverbleed_load_private_key_file(neverbleed, ssl_ctx, key_file->data.scalar, errbuf) != 1) {
h2o_configurator_errprintf(cmd, key_file, "failed to load private key file:%s:%s\n", key_file->data.scalar, errbuf);
goto Error;
}
} else {
if (SSL_CTX_use_PrivateKey_file(ssl_ctx, key_file->data.scalar, SSL_FILETYPE_PEM) != 1) {
h2o_configurator_errprintf(cmd, key_file, "failed to load private key file:%s\n", key_file->data.scalar);
ERR_print_errors_cb(on_openssl_print_errors, stderr);
goto Error;
}
}
if (cipher_suite != NULL && SSL_CTX_set_cipher_list(ssl_ctx, cipher_suite->data.scalar) != 1) {
h2o_configurator_errprintf(cmd, cipher_suite, "failed to setup SSL cipher suite\n");
ERR_print_errors_cb(on_openssl_print_errors, stderr);
goto Error;
}
if (dh_file != NULL) {
BIO *bio = BIO_new_file(dh_file->data.scalar, "r");
if (bio == NULL) {
h2o_configurator_errprintf(cmd, dh_file, "failed to load dhparam file:%s\n", dh_file->data.scalar);
ERR_print_errors_cb(on_openssl_print_errors, stderr);
goto Error;
}
DH *dh = PEM_read_bio_DHparams(bio, NULL, NULL, NULL);
BIO_free(bio);
if (dh == NULL) {
h2o_configurator_errprintf(cmd, dh_file, "failed to load dhparam file:%s\n", dh_file->data.scalar);
ERR_print_errors_cb(on_openssl_print_errors, stderr);
goto Error;
}
SSL_CTX_set_tmp_dh(ssl_ctx, dh);
SSL_CTX_set_options(ssl_ctx, SSL_OP_SINGLE_DH_USE);
DH_free(dh);
}
/* setup protocol negotiation methods */
#if H2O_USE_NPN
h2o_ssl_register_npn_protocols(ssl_ctx, h2o_npn_protocols);
#endif
#if H2O_USE_ALPN
h2o_ssl_register_alpn_protocols(ssl_ctx, h2o_alpn_protocols);
#endif
/* set SNI callback to the first SSL context, when and only when it should be used */
if (listener->ssl.size == 1) {
SSL_CTX_set_tlsext_servername_callback(listener->ssl.entries[0]->ctx, on_sni_callback);
SSL_CTX_set_tlsext_servername_arg(listener->ssl.entries[0]->ctx, listener);
}
/* create a new entry in the SSL context list */
struct listener_ssl_config_t *ssl_config = h2o_mem_alloc(sizeof(*ssl_config));
memset(ssl_config, 0, sizeof(*ssl_config));
h2o_vector_reserve(NULL, &listener->ssl, listener->ssl.size + 1);
listener->ssl.entries[listener->ssl.size++] = ssl_config;
if (ctx->hostconf != NULL) {
listener_setup_ssl_add_host(ssl_config, ctx->hostconf->authority.hostport);
}
ssl_config->ctx = ssl_ctx;
ssl_config->certificate_file = h2o_strdup(NULL, certificate_file->data.scalar, SIZE_MAX).base;
#if !H2O_USE_OCSP
if (ocsp_update_interval != 0)
fprintf(stderr, "[OCSP Stapling] disabled (not support by the SSL library)\n");
#else
#ifndef OPENSSL_NO_OCSP
SSL_CTX_set_tlsext_status_cb(ssl_ctx, on_staple_ocsp_ossl);
SSL_CTX_set_tlsext_status_arg(ssl_ctx, ssl_config);
#endif
pthread_mutex_init(&ssl_config->ocsp_stapling.response.mutex, NULL);
ssl_config->ocsp_stapling.cmd =
ocsp_update_cmd != NULL ? h2o_strdup(NULL, ocsp_update_cmd->data.scalar, SIZE_MAX).base : "share/h2o/fetch-ocsp-response";
if (ocsp_update_interval != 0) {
switch (conf.run_mode) {
case RUN_MODE_WORKER:
ssl_config->ocsp_stapling.interval =
ocsp_update_interval; /* is also used as a flag for indicating if the updater thread was spawned */
ssl_config->ocsp_stapling.max_failures = ocsp_max_failures;
h2o_multithread_create_thread(&ssl_config->ocsp_stapling.updater_tid, NULL, ocsp_updater_thread, ssl_config);
break;
case RUN_MODE_MASTER:
case RUN_MODE_DAEMON:
/* nothing to do */
break;
case RUN_MODE_TEST: {
h2o_buffer_t *respbuf;
fprintf(stderr, "[OCSP Stapling] testing for certificate file:%s\n", certificate_file->data.scalar);
switch (get_ocsp_response(certificate_file->data.scalar, ssl_config->ocsp_stapling.cmd, &respbuf)) {
case 0:
h2o_buffer_dispose(&respbuf);
fprintf(stderr, "[OCSP Stapling] stapling works for file:%s\n", certificate_file->data.scalar);
break;
case EX_TEMPFAIL:
h2o_configurator_errprintf(cmd, certificate_file, "[OCSP Stapling] temporary failed for file:%s\n",
certificate_file->data.scalar);
break;
default:
h2o_configurator_errprintf(cmd, certificate_file, "[OCSP Stapling] does not work, will be disabled for file:%s\n",
certificate_file->data.scalar);
break;
}
} break;
}
}
#endif
#if H2O_USE_PICOTLS
if (use_picotls) {
const char *errstr = listener_setup_ssl_picotls(listener, ssl_config, ssl_ctx);
if (errstr != NULL)
h2o_configurator_errprintf(cmd, ssl_node, "%s; TLS 1.3 will be disabled\n", errstr);
}
#endif
return 0;
Error:
if (ssl_ctx != NULL)
SSL_CTX_free(ssl_ctx);
return -1;
}
static struct listener_config_t *find_listener(struct sockaddr *addr, socklen_t addrlen)
{
size_t i;
for (i = 0; i != conf.num_listeners; ++i) {
struct listener_config_t *listener = conf.listeners[i];
if (listener->addrlen == addrlen && h2o_socket_compare_address((void *)&listener->addr, addr) == 0)
return listener;
}
return NULL;
}
static struct listener_config_t *add_listener(int fd, struct sockaddr *addr, socklen_t addrlen, int is_global, int proxy_protocol)
{
struct listener_config_t *listener = h2o_mem_alloc(sizeof(*listener));
memcpy(&listener->addr, addr, addrlen);
listener->fd = fd;
listener->addrlen = addrlen;
if (is_global) {
listener->hosts = NULL;
} else {
listener->hosts = h2o_mem_alloc(sizeof(listener->hosts[0]));
listener->hosts[0] = NULL;
}
memset(&listener->ssl, 0, sizeof(listener->ssl));
listener->proxy_protocol = proxy_protocol;
conf.listeners = h2o_mem_realloc(conf.listeners, sizeof(*conf.listeners) * (conf.num_listeners + 1));
conf.listeners[conf.num_listeners++] = listener;
return listener;
}
static int find_listener_from_server_starter(struct sockaddr *addr)
{
size_t i;
assert(conf.server_starter.fds != NULL);
assert(conf.server_starter.num_fds != 0);
for (i = 0; i != conf.server_starter.num_fds; ++i) {
struct sockaddr_storage sa;
socklen_t salen = sizeof(sa);
if (getsockname(conf.server_starter.fds[i], (void *)&sa, &salen) != 0) {
fprintf(stderr, "could not get the socket address of fd %d given as $SERVER_STARTER_PORT\n",
conf.server_starter.fds[i]);
exit(EX_CONFIG);
}
if (h2o_socket_compare_address((void *)&sa, addr) == 0)
goto Found;
}
/* not found */
return -1;
Found:
conf.server_starter.bound_fd_map[i] = 1;
return conf.server_starter.fds[i];
}
static int open_unix_listener(h2o_configurator_command_t *cmd, yoml_t *node, struct sockaddr_un *sa)
{
struct stat st;
int fd = -1;
struct passwd *owner = NULL, pwbuf;
char pwbuf_buf[65536];
unsigned mode = UINT_MAX;
yoml_t *t;
/* obtain owner and permission */
if ((t = yoml_get(node, "owner")) != NULL) {
if (t->type != YOML_TYPE_SCALAR) {
h2o_configurator_errprintf(cmd, t, "`owner` is not a scalar");
goto ErrorExit;
}
if (getpwnam_r(t->data.scalar, &pwbuf, pwbuf_buf, sizeof(pwbuf_buf), &owner) != 0 || owner == NULL) {
h2o_configurator_errprintf(cmd, t, "failed to obtain uid of user:%s: %s", t->data.scalar, strerror(errno));
goto ErrorExit;
}
}
if ((t = yoml_get(node, "permission")) != NULL) {
if (t->type != YOML_TYPE_SCALAR || sscanf(t->data.scalar, "%o", &mode) != 1) {
h2o_configurator_errprintf(cmd, t, "`permission` must be an octal number");
goto ErrorExit;
}
}
/* remove existing socket file as suggested in #45 */
if (lstat(sa->sun_path, &st) == 0) {
if (S_ISSOCK(st.st_mode)) {
unlink(sa->sun_path);
} else {
h2o_configurator_errprintf(cmd, node, "path:%s already exists and is not an unix socket.", sa->sun_path);
goto ErrorExit;
}
}
/* add new listener */
if ((fd = socket(AF_UNIX, SOCK_STREAM, 0)) == -1 || bind(fd, (void *)sa, sizeof(*sa)) != 0 || listen(fd, H2O_SOMAXCONN) != 0) {
h2o_configurator_errprintf(NULL, node, "failed to listen to socket:%s: %s", sa->sun_path, strerror(errno));
goto ErrorExit;
}
set_cloexec(fd);
/* set file owner and permission */
if (owner != NULL && chown(sa->sun_path, owner->pw_uid, owner->pw_gid) != 0) {
h2o_configurator_errprintf(NULL, node, "failed to chown socket:%s to %s: %s", sa->sun_path, owner->pw_name,
strerror(errno));
goto ErrorExit;
}
if (mode != UINT_MAX && chmod(sa->sun_path, mode) != 0) {
h2o_configurator_errprintf(NULL, node, "failed to chmod socket:%s to %o: %s", sa->sun_path, mode, strerror(errno));
goto ErrorExit;
}
return fd;
ErrorExit:
if (fd != -1)
close(fd);
return -1;
}
static int open_tcp_listener(h2o_configurator_command_t *cmd, yoml_t *node, const char *hostname, const char *servname, int domain,
int type, int protocol, struct sockaddr *addr, socklen_t addrlen)
{
int fd;
if ((fd = socket(domain, type, protocol)) == -1)
goto Error;
set_cloexec(fd);
{ /* set reuseaddr */
int flag = 1;
if (setsockopt(fd, SOL_SOCKET, SO_REUSEADDR, &flag, sizeof(flag)) != 0)
goto Error;
}
#ifdef TCP_DEFER_ACCEPT
{ /* set TCP_DEFER_ACCEPT */
int flag = 1;
if (setsockopt(fd, IPPROTO_TCP, TCP_DEFER_ACCEPT, &flag, sizeof(flag)) != 0)
goto Error;
}
#endif
#ifdef IPV6_V6ONLY
/* set IPv6only */
if (domain == AF_INET6) {
int flag = 1;
if (setsockopt(fd, IPPROTO_IPV6, IPV6_V6ONLY, &flag, sizeof(flag)) != 0)
goto Error;
}
#endif
if (bind(fd, addr, addrlen) != 0)
goto Error;
if (listen(fd, H2O_SOMAXCONN) != 0)
goto Error;
/* set TCP_FASTOPEN; when tfo_queues is zero TFO is always disabled */
if (conf.tfo_queues > 0) {
#ifdef TCP_FASTOPEN
int tfo_queues;
#ifdef __APPLE__
/* In OS X, the option value for TCP_FASTOPEN must be 1 if is's enabled */
tfo_queues = 1;
#else
tfo_queues = conf.tfo_queues;
#endif
if (setsockopt(fd, IPPROTO_TCP, TCP_FASTOPEN, (const void *)&tfo_queues, sizeof(tfo_queues)) != 0)
fprintf(stderr, "[warning] failed to set TCP_FASTOPEN:%s\n", strerror(errno));
#else
assert(!"conf.tfo_queues not zero on platform without TCP_FASTOPEN");
#endif
}
return fd;
Error:
if (fd != -1)
close(fd);
h2o_configurator_errprintf(NULL, node, "failed to listen to port %s:%s: %s", hostname != NULL ? hostname : "ANY", servname,
strerror(errno));
return -1;
}
static int on_config_listen(h2o_configurator_command_t *cmd, h2o_configurator_context_t *ctx, yoml_t *node)
{
const char *hostname = NULL, *servname = NULL, *type = "tcp";
yoml_t *ssl_node = NULL;
int proxy_protocol = 0;
/* fetch servname (and hostname) */
switch (node->type) {
case YOML_TYPE_SCALAR:
servname = node->data.scalar;
break;
case YOML_TYPE_MAPPING: {
yoml_t *t;
if ((t = yoml_get(node, "host")) != NULL) {
if (t->type != YOML_TYPE_SCALAR) {
h2o_configurator_errprintf(cmd, t, "`host` is not a string");
return -1;
}
hostname = t->data.scalar;
}
if ((t = yoml_get(node, "port")) == NULL) {
h2o_configurator_errprintf(cmd, node, "cannot find mandatory property `port`");
return -1;
}
if (t->type != YOML_TYPE_SCALAR) {
h2o_configurator_errprintf(cmd, node, "`port` is not a string");
return -1;
}
servname = t->data.scalar;
if ((t = yoml_get(node, "type")) != NULL) {
if (t->type != YOML_TYPE_SCALAR) {
h2o_configurator_errprintf(cmd, t, "`type` is not a string");
return -1;
}
type = t->data.scalar;
}
if ((t = yoml_get(node, "ssl")) != NULL)
ssl_node = t;
if ((t = yoml_get(node, "proxy-protocol")) != NULL) {
if (t->type != YOML_TYPE_SCALAR) {
h2o_configurator_errprintf(cmd, node, "`proxy-protocol` must be a string");
return -1;
}
if (strcasecmp(t->data.scalar, "ON") == 0) {
proxy_protocol = 1;
} else if (strcasecmp(t->data.scalar, "OFF") == 0) {
proxy_protocol = 0;
} else {
h2o_configurator_errprintf(cmd, node, "value of `proxy-protocol` must be either of: ON,OFF");
return -1;
}
}
} break;
default:
h2o_configurator_errprintf(cmd, node, "value must be a string or a mapping (with keys: `port` and optionally `host`)");
return -1;
}
if (strcmp(type, "unix") == 0) {
/* unix socket */
struct sockaddr_un sa;
int listener_is_new;
struct listener_config_t *listener;
/* build sockaddr */
memset(&sa, 0, sizeof(sa));
if (strlen(servname) >= sizeof(sa.sun_path)) {
h2o_configurator_errprintf(cmd, node, "path:%s is too long as a unix socket name", servname);
return -1;
}
sa.sun_family = AF_UNIX;
strcpy(sa.sun_path, servname);
/* find existing listener or create a new one */
listener_is_new = 0;
if ((listener = find_listener((void *)&sa, sizeof(sa))) == NULL) {
int fd = -1;
switch (conf.run_mode) {
case RUN_MODE_WORKER:
if (conf.server_starter.fds != NULL) {
if ((fd = find_listener_from_server_starter((void *)&sa)) == -1) {
h2o_configurator_errprintf(cmd, node, "unix socket:%s is not being bound to the server\n", sa.sun_path);
return -1;
}
} else {
if ((fd = open_unix_listener(cmd, node, &sa)) == -1)
return -1;
}
break;
default:
break;
}
listener = add_listener(fd, (struct sockaddr *)&sa, sizeof(sa), ctx->hostconf == NULL, proxy_protocol);
listener_is_new = 1;
} else if (listener->proxy_protocol != proxy_protocol) {
goto ProxyConflict;
}
if (listener_setup_ssl(cmd, ctx, node, ssl_node, listener, listener_is_new) != 0)
return -1;
if (listener->hosts != NULL && ctx->hostconf != NULL)
h2o_append_to_null_terminated_list((void *)&listener->hosts, ctx->hostconf);
} else if (strcmp(type, "tcp") == 0) {
/* TCP socket */
struct addrinfo hints, *res, *ai;
int error;
/* call getaddrinfo */
memset(&hints, 0, sizeof(hints));
hints.ai_socktype = SOCK_STREAM;
hints.ai_protocol = IPPROTO_TCP;
hints.ai_flags = AI_ADDRCONFIG | AI_NUMERICSERV | AI_PASSIVE;
if ((error = getaddrinfo(hostname, servname, &hints, &res)) != 0) {
h2o_configurator_errprintf(cmd, node, "failed to resolve the listening address: %s", gai_strerror(error));
return -1;
} else if (res == NULL) {
h2o_configurator_errprintf(cmd, node, "failed to resolve the listening address: getaddrinfo returned an empty list");
return -1;
}
/* listen to the returned addresses */
for (ai = res; ai != NULL; ai = ai->ai_next) {
struct listener_config_t *listener = find_listener(ai->ai_addr, ai->ai_addrlen);
int listener_is_new = 0;
if (listener == NULL) {
int fd = -1;
switch (conf.run_mode) {
case RUN_MODE_WORKER:
if (conf.server_starter.fds != NULL) {
if ((fd = find_listener_from_server_starter(ai->ai_addr)) == -1) {
h2o_configurator_errprintf(cmd, node, "tcp socket:%s:%s is not being bound to the server\n", hostname,
servname);
freeaddrinfo(res);
return -1;
}
} else {
if ((fd = open_tcp_listener(cmd, node, hostname, servname, ai->ai_family, ai->ai_socktype, ai->ai_protocol,
ai->ai_addr, ai->ai_addrlen)) == -1) {
freeaddrinfo(res);
return -1;
}
}
break;
default:
break;
}
listener = add_listener(fd, ai->ai_addr, ai->ai_addrlen, ctx->hostconf == NULL, proxy_protocol);
listener_is_new = 1;
} else if (listener->proxy_protocol != proxy_protocol) {
freeaddrinfo(res);
goto ProxyConflict;
}
if (listener_setup_ssl(cmd, ctx, node, ssl_node, listener, listener_is_new) != 0) {
freeaddrinfo(res);
return -1;
}
if (listener->hosts != NULL && ctx->hostconf != NULL)
h2o_append_to_null_terminated_list((void *)&listener->hosts, ctx->hostconf);
}
/* release res */
freeaddrinfo(res);
} else {
h2o_configurator_errprintf(cmd, node, "unknown listen type: %s", type);
return -1;
}
return 0;
ProxyConflict:
h2o_configurator_errprintf(cmd, node, "`proxy-protocol` cannot be turned %s, already defined as opposite",
proxy_protocol ? "on" : "off");
return -1;
}
static int on_config_listen_enter(h2o_configurator_t *_configurator, h2o_configurator_context_t *ctx, yoml_t *node)
{
return 0;
}
static int on_config_listen_exit(h2o_configurator_t *_configurator, h2o_configurator_context_t *ctx, yoml_t *node)
{
if (ctx->pathconf != NULL) {
/* skip */
} else if (ctx->hostconf == NULL) {
/* at global level: bind all hostconfs to the global-level listeners */
size_t i;
for (i = 0; i != conf.num_listeners; ++i) {
struct listener_config_t *listener = conf.listeners[i];
if (listener->hosts == NULL)
listener->hosts = conf.globalconf.hosts;
}
} else if (ctx->pathconf == NULL) {
/* at host-level */
if (conf.num_listeners == 0) {
h2o_configurator_errprintf(
NULL, node,
"mandatory configuration directive `listen` does not exist, neither at global level or at this host level");
return -1;
}
}
return 0;
}
static int on_config_user(h2o_configurator_command_t *cmd, h2o_configurator_context_t *ctx, yoml_t *node)
{
errno = 0;
if (getpwnam(node->data.scalar) == NULL) {
if (errno == 0) {
h2o_configurator_errprintf(cmd, node, "user:%s does not exist", node->data.scalar);
} else {
perror("getpwnam");
}
return -1;
}
ctx->globalconf->user = h2o_strdup(NULL, node->data.scalar, SIZE_MAX).base;
return 0;
}
static int on_config_pid_file(h2o_configurator_command_t *cmd, h2o_configurator_context_t *ctx, yoml_t *node)
{
conf.pid_file = h2o_strdup(NULL, node->data.scalar, SIZE_MAX).base;
return 0;
}
static int on_config_error_log(h2o_configurator_command_t *cmd, h2o_configurator_context_t *ctx, yoml_t *node)
{
conf.error_log = h2o_strdup(NULL, node->data.scalar, SIZE_MAX).base;
return 0;
}
static int on_config_max_connections(h2o_configurator_command_t *cmd, h2o_configurator_context_t *ctx, yoml_t *node)
{
return h2o_configurator_scanf(cmd, node, "%d", &conf.max_connections);
}
static int on_config_num_threads(h2o_configurator_command_t *cmd, h2o_configurator_context_t *ctx, yoml_t *node)
{
if (h2o_configurator_scanf(cmd, node, "%zu", &conf.num_threads) != 0)
return -1;
if (conf.num_threads == 0) {
h2o_configurator_errprintf(cmd, node, "num-threads must be >=1");
return -1;
}
return 0;
}
static int on_config_num_name_resolution_threads(h2o_configurator_command_t *cmd, h2o_configurator_context_t *ctx, yoml_t *node)
{
if (h2o_configurator_scanf(cmd, node, "%zu", &h2o_hostinfo_max_threads) != 0)
return -1;
if (h2o_hostinfo_max_threads == 0) {
h2o_configurator_errprintf(cmd, node, "num-name-resolution-threads must be >=1");
return -1;
}
return 0;
}
static int on_config_tcp_fastopen(h2o_configurator_command_t *cmd, h2o_configurator_context_t *ctx, yoml_t *node)
{
if (h2o_configurator_scanf(cmd, node, "%d", &conf.tfo_queues) != 0)
return -1;
#ifndef TCP_FASTOPEN
if (conf.tfo_queues != 0) {
h2o_configurator_errprintf(cmd, node, "[warning] ignoring the value; the platform does not support TCP_FASTOPEN");
conf.tfo_queues = 0;
}
#endif
return 0;
}
static int on_config_num_ocsp_updaters(h2o_configurator_command_t *cmd, h2o_configurator_context_t *ctx, yoml_t *node)
{
ssize_t n;
if (h2o_configurator_scanf(cmd, node, "%zd", &n) != 0)
return -1;
if (n <= 0) {
h2o_configurator_errprintf(cmd, node, "num-ocsp-updaters must be >=1");
return -1;
}
h2o_sem_set_capacity(&ocsp_updater_semaphore, n);
return 0;
}
static int on_config_temp_buffer_path(h2o_configurator_command_t *cmd, h2o_configurator_context_t *ctx, yoml_t *node)
{
char buf[sizeof(h2o_socket_buffer_mmap_settings.fn_template)];
int len = snprintf(buf, sizeof(buf), "%s%s", node->data.scalar, strrchr(h2o_socket_buffer_mmap_settings.fn_template, '/'));
if (len >= sizeof(buf)) {
h2o_configurator_errprintf(cmd, node, "path is too long");
return -1;
}
strcpy(h2o_socket_buffer_mmap_settings.fn_template, buf);
return 0;
}
static int on_config_crash_handler(h2o_configurator_command_t *cmd, h2o_configurator_context_t *ctx, yoml_t *node)
{
conf.crash_handler = h2o_strdup(NULL, node->data.scalar, SIZE_MAX).base;
return 0;
}
static int on_config_crash_handler_wait_pipe_close(h2o_configurator_command_t *cmd, h2o_configurator_context_t *ctx, yoml_t *node)
{
ssize_t v;
if ((v = h2o_configurator_get_one_of(cmd, node, "OFF,ON")) == -1)
return -1;
conf.crash_handler_wait_pipe_close = (int)v;
return 0;
}
static yoml_t *load_config(yoml_parse_args_t *parse_args, yoml_t *source)
{
FILE *fp;
yaml_parser_t parser;
yoml_t *yoml;
if ((fp = fopen(parse_args->filename, "rb")) == NULL) {
fprintf(stderr, "could not open configuration file %s: %s\n", parse_args->filename, strerror(errno));
return NULL;
}
yaml_parser_initialize(&parser);
yaml_parser_set_input_file(&parser, fp);
yoml = yoml_parse_document(&parser, NULL, parse_args);
if (yoml == NULL) {
fprintf(stderr, "failed to parse configuration file %s line %d", parse_args->filename, (int)parser.problem_mark.line + 1);
if (source != NULL) {
fprintf(stderr, " (included from file %s line %d)", source->filename, (int)source->line + 1);
}
fprintf(stderr, ": %s\n", parser.problem);
}
yaml_parser_delete(&parser);
fclose(fp);
return yoml;
}
static yoml_t *resolve_tag(const char *tag, yoml_t *node, void *cb_arg);
static yoml_t *resolve_file_tag(yoml_t *node, resolve_tag_arg_t *arg)
{
size_t i;
yoml_t *loaded;
if (node->type != YOML_TYPE_SCALAR) {
fprintf(stderr, "value of the !file node must be a scalar");
return NULL;
}
char *filename = node->data.scalar;
/* check cache */
for (i = 0; i != arg->node_cache.size; ++i) {
resolve_tag_node_cache_entry_t *cached = arg->node_cache.entries + i;
if (strcmp(filename, cached->filename.base) == 0) {
++cached->node->_refcnt;
return cached->node;
}
}
yoml_parse_args_t parse_args = {
filename, /* filename */
NULL, /* mem_set */
{resolve_tag, arg} /* resolve_tag */
};
loaded = load_config(&parse_args, node);
if (loaded != NULL) {
/* cache newly loaded node */
h2o_vector_reserve(NULL, &arg->node_cache, arg->node_cache.size + 1);
resolve_tag_node_cache_entry_t entry = {h2o_strdup(NULL, filename, SIZE_MAX), loaded};
arg->node_cache.entries[arg->node_cache.size++] = entry;
++loaded->_refcnt;
}
return loaded;
}
static yoml_t *resolve_tag(const char *tag, yoml_t *node, void *cb_arg)
{
resolve_tag_arg_t *arg = (resolve_tag_arg_t *)cb_arg;
if (strcmp(tag, "!file") == 0) {
return resolve_file_tag(node, arg);
}
/* otherwise, return the node itself */
++node->_refcnt;
return node;
}
static void dispose_resolve_tag_arg(resolve_tag_arg_t *arg)
{
size_t i;
for (i = 0; i != arg->node_cache.size; ++i) {
resolve_tag_node_cache_entry_t *cached = arg->node_cache.entries + i;
free(cached->filename.base);
yoml_free(cached->node, NULL);
}
free(arg->node_cache.entries);
}
static void notify_all_threads(void)
{
unsigned i;
for (i = 0; i != conf.num_threads; ++i)
h2o_multithread_send_message(&conf.threads[i].server_notifications, NULL);
}
static void on_sigterm(int signo)
{
conf.shutdown_requested = 1;
if (!h2o_barrier_done(&conf.startup_sync_barrier)) {
/* initialization hasn't completed yet, exit right away */
exit(0);
}
notify_all_threads();
}
#ifdef __GLIBC__
static int popen_crash_handler(void)
{
char *cmd_fullpath = h2o_configurator_get_cmd_path(conf.crash_handler), *argv[] = {cmd_fullpath, NULL};
int pipefds[2];
/* create pipe */
if (pipe(pipefds) != 0) {
perror("pipe failed");
return -1;
}
if (fcntl(pipefds[1], F_SETFD, FD_CLOEXEC) == -1) {
perror("failed to set FD_CLOEXEC on pipefds[1]");
return -1;
}
/* spawn the logger */
int mapped_fds[] = {pipefds[0], 0, /* output of the pipe is connected to STDIN of the spawned process */
2, 1, /* STDOUT of the spawned process in connected to STDERR of h2o */
-1};
if (h2o_spawnp(cmd_fullpath, argv, mapped_fds, 0) == -1) {
/* silently ignore error */
close(pipefds[0]);
close(pipefds[1]);
return -1;
}
/* do the rest, and return the fd */
close(pipefds[0]);
return pipefds[1];
}
static int crash_handler_fd = -1;
static void on_sigfatal(int signo)
{
fprintf(stderr, "received fatal signal %d\n", signo);
h2o_set_signal_handler(signo, SIG_DFL);
void *frames[128];
int framecnt = backtrace(frames, sizeof(frames) / sizeof(frames[0]));
backtrace_symbols_fd(frames, framecnt, crash_handler_fd);
if (conf.crash_handler_wait_pipe_close) {
struct pollfd pfd[1];
pfd[0].fd = crash_handler_fd;
pfd[0].events = POLLERR | POLLHUP;
while (poll(pfd, 1, -1) == -1 && errno == EINTR)
;
}
raise(signo);
}
#endif
static void setup_signal_handlers(void)
{
h2o_set_signal_handler(SIGTERM, on_sigterm);
h2o_set_signal_handler(SIGPIPE, SIG_IGN);
#ifdef __GLIBC__
if ((crash_handler_fd = popen_crash_handler()) == -1)
crash_handler_fd = 2;
h2o_set_signal_handler(SIGABRT, on_sigfatal);
h2o_set_signal_handler(SIGBUS, on_sigfatal);
h2o_set_signal_handler(SIGFPE, on_sigfatal);
h2o_set_signal_handler(SIGILL, on_sigfatal);
h2o_set_signal_handler(SIGSEGV, on_sigfatal);
#endif
}
static int num_connections(int delta)
{
return __sync_fetch_and_add(&conf.state._num_connections, delta);
}
static unsigned long num_sessions(int delta)
{
return __sync_fetch_and_add(&conf.state._num_sessions, delta);
}
static void on_socketclose(void *data)
{
int prev_num_connections = num_connections(-1);
if (prev_num_connections == conf.max_connections) {
/* ready to accept new connections. wake up all the threads! */
notify_all_threads();
}
}
static void on_accept(h2o_socket_t *listener, const char *err)
{
struct listener_ctx_t *ctx = listener->data;
size_t num_accepts = conf.max_connections / 16 / conf.num_threads;
if (num_accepts < 8)
num_accepts = 8;
if (err != NULL) {
return;
}
do {
h2o_socket_t *sock;
if (num_connections(0) >= conf.max_connections) {
/* The accepting socket is disactivated before entering the next in `run_loop`.
* Note: it is possible that the server would accept at most `max_connections + num_threads` connections, since the
* server does not check if the number of connections has exceeded _after_ epoll notifies of a new connection _but_
* _before_ calling `accept`. In other words t/40max-connections.t may fail.
*/
break;
}
if ((sock = h2o_evloop_socket_accept(listener)) == NULL) {
break;
}
num_connections(1);
num_sessions(1);
sock->on_close.cb = on_socketclose;
sock->on_close.data = ctx->accept_ctx.ctx;
h2o_accept(&ctx->accept_ctx, sock);
} while (--num_accepts != 0);
}
static void update_listener_state(struct listener_ctx_t *listeners)
{
size_t i;
if (num_connections(0) < conf.max_connections) {
for (i = 0; i != conf.num_listeners; ++i) {
if (!h2o_socket_is_reading(listeners[i].sock))
h2o_socket_read_start(listeners[i].sock, on_accept);
}
} else {
for (i = 0; i != conf.num_listeners; ++i) {
if (h2o_socket_is_reading(listeners[i].sock))
h2o_socket_read_stop(listeners[i].sock);
}
}
}
static void on_server_notification(h2o_multithread_receiver_t *receiver, h2o_linklist_t *messages)
{
/* the notification is used only for exitting h2o_evloop_run; actual changes are done in the main loop of run_loop */
while (!h2o_linklist_is_empty(messages)) {
h2o_multithread_message_t *message = H2O_STRUCT_FROM_MEMBER(h2o_multithread_message_t, link, messages->next);
h2o_linklist_unlink(&message->link);
free(message);
}
}
H2O_NORETURN static void *run_loop(void *_thread_index)
{
size_t thread_index = (size_t)_thread_index;
struct listener_ctx_t *listeners = alloca(sizeof(*listeners) * conf.num_listeners);
size_t i;
h2o_context_init(&conf.threads[thread_index].ctx, h2o_evloop_create(), &conf.globalconf);
h2o_multithread_register_receiver(conf.threads[thread_index].ctx.queue, &conf.threads[thread_index].server_notifications,
on_server_notification);
h2o_multithread_register_receiver(conf.threads[thread_index].ctx.queue, &conf.threads[thread_index].memcached,
h2o_memcached_receiver);
conf.threads[thread_index].tid = pthread_self();
/* setup listeners */
for (i = 0; i != conf.num_listeners; ++i) {
struct listener_config_t *listener_config = conf.listeners[i];
int fd;
/* dup the listener fd for other threads than the main thread */
if (thread_index == 0) {
fd = listener_config->fd;
} else {
if ((fd = dup(listener_config->fd)) == -1) {
perror("failed to dup listening socket");
abort();
}
set_cloexec(fd);
}
memset(listeners + i, 0, sizeof(listeners[i]));
listeners[i].accept_ctx.ctx = &conf.threads[thread_index].ctx;
listeners[i].accept_ctx.hosts = listener_config->hosts;
if (listener_config->ssl.size != 0)
listeners[i].accept_ctx.ssl_ctx = listener_config->ssl.entries[0]->ctx;
listeners[i].accept_ctx.expect_proxy_line = listener_config->proxy_protocol;
listeners[i].accept_ctx.libmemcached_receiver = &conf.threads[thread_index].memcached;
listeners[i].sock = h2o_evloop_socket_create(conf.threads[thread_index].ctx.loop, fd, H2O_SOCKET_FLAG_DONT_READ);
listeners[i].sock->data = listeners + i;
}
/* and start listening */
update_listener_state(listeners);
/* make sure all threads are initialized before starting to serve requests */
h2o_barrier_wait(&conf.startup_sync_barrier);
/* the main loop */
while (1) {
if (conf.shutdown_requested)
break;
update_listener_state(listeners);
/* run the loop once */
h2o_evloop_run(conf.threads[thread_index].ctx.loop, INT32_MAX);
h2o_filecache_clear(conf.threads[thread_index].ctx.filecache);
}
if (thread_index == 0)
fprintf(stderr, "received SIGTERM, gracefully shutting down\n");
/* shutdown requested, unregister, close the listeners and notify the protocol handlers */
for (i = 0; i != conf.num_listeners; ++i)
h2o_socket_read_stop(listeners[i].sock);
h2o_evloop_run(conf.threads[thread_index].ctx.loop, 0);
for (i = 0; i != conf.num_listeners; ++i) {
h2o_socket_close(listeners[i].sock);
listeners[i].sock = NULL;
}
h2o_context_request_shutdown(&conf.threads[thread_index].ctx);
/* wait until all the connection gets closed */
while (num_connections(0) != 0)
h2o_evloop_run(conf.threads[thread_index].ctx.loop, INT32_MAX);
/* the process that detects num_connections becoming zero performs the last cleanup */
if (conf.pid_file != NULL)
unlink(conf.pid_file);
_exit(0);
}
static char **build_server_starter_argv(const char *h2o_cmd, const char *config_file)
{
H2O_VECTOR(char *) args = {NULL};
size_t i;
h2o_vector_reserve(NULL, &args, 1);
args.entries[args.size++] = h2o_configurator_get_cmd_path("share/h2o/start_server");
/* error-log and pid-file are the directives that are handled by server-starter */
if (conf.pid_file != NULL) {
h2o_vector_reserve(NULL, &args, args.size + 1);
args.entries[args.size++] =
h2o_concat(NULL, h2o_iovec_init(H2O_STRLIT("--pid-file=")), h2o_iovec_init(conf.pid_file, strlen(conf.pid_file))).base;
}
if (conf.error_log != NULL) {
h2o_vector_reserve(NULL, &args, args.size + 1);
args.entries[args.size++] =
h2o_concat(NULL, h2o_iovec_init(H2O_STRLIT("--log-file=")), h2o_iovec_init(conf.error_log, strlen(conf.error_log)))
.base;
}
switch (conf.run_mode) {
case RUN_MODE_DAEMON:
h2o_vector_reserve(NULL, &args, args.size + 1);
args.entries[args.size++] = "--daemonize";
break;
default:
break;
}
for (i = 0; i != conf.num_listeners; ++i) {
char *newarg;
switch (conf.listeners[i]->addr.ss_family) {
default: {
char host[NI_MAXHOST], serv[NI_MAXSERV];
int err;
if ((err = getnameinfo((void *)&conf.listeners[i]->addr, conf.listeners[i]->addrlen, host, sizeof(host), serv,
sizeof(serv), NI_NUMERICHOST | NI_NUMERICSERV)) != 0) {
fprintf(stderr, "failed to stringify the address of %zu-th listen directive:%s\n", i, gai_strerror(err));
exit(EX_OSERR);
}
newarg = h2o_mem_alloc(sizeof("--port=[]:") + strlen(host) + strlen(serv));
if (strchr(host, ':') != NULL) {
sprintf(newarg, "--port=[%s]:%s", host, serv);
} else {
sprintf(newarg, "--port=%s:%s", host, serv);
}
} break;
case AF_UNIX: {
struct sockaddr_un *sa = (void *)&conf.listeners[i]->addr;
newarg = h2o_mem_alloc(sizeof("--path=") + strlen(sa->sun_path));
sprintf(newarg, "--path=%s", sa->sun_path);
} break;
}
h2o_vector_reserve(NULL, &args, args.size + 1);
args.entries[args.size++] = newarg;
}
h2o_vector_reserve(NULL, &args, args.size + 5);
args.entries[args.size++] = "--";
args.entries[args.size++] = (char *)h2o_cmd;
args.entries[args.size++] = "-c";
args.entries[args.size++] = (char *)config_file;
args.entries[args.size] = NULL;
return args.entries;
}
static int run_using_server_starter(const char *h2o_cmd, const char *config_file)
{
char **args = build_server_starter_argv(h2o_cmd, config_file);
setenv("H2O_VIA_MASTER", "", 1);
execvp(args[0], args);
fprintf(stderr, "failed to spawn %s:%s\n", args[0], strerror(errno));
return EX_CONFIG;
}
/* make jemalloc linkage optional by marking the functions as 'weak',
* since upstream doesn't rely on it. */
struct extra_status_jemalloc_cb_arg {
h2o_iovec_t outbuf;
int err;
size_t written;
};
#if JEMALLOC_STATS == 1
static void extra_status_jemalloc_cb(void *ctx, const char *stats)
{
size_t cur_len;
struct extra_status_jemalloc_cb_arg *out = ctx;
h2o_iovec_t outbuf = out->outbuf;
int i;
if (out->written >= out->outbuf.len || out->err) {
return;
}
cur_len = out->written;
i = 0;
while (cur_len < outbuf.len && stats[i]) {
switch (stats[i]) {
#define JSON_ESCAPE(x, y) \
case x: \
outbuf.base[cur_len++] = '\\'; \
if (cur_len >= outbuf.len) { \
goto err; \
} \
outbuf.base[cur_len] = y; \
break;
JSON_ESCAPE('\b', 'b');
JSON_ESCAPE('\f', 'f');
JSON_ESCAPE('\n', 'n');
JSON_ESCAPE('\r', 'r')
JSON_ESCAPE('\t', 't');
JSON_ESCAPE('/', '/');
JSON_ESCAPE('"', '"');
JSON_ESCAPE('\\', '\\');
#undef JSON_ESCAPE
default:
outbuf.base[cur_len] = stats[i];
}
i++;
cur_len++;
}
if (cur_len < outbuf.len) {
out->written = cur_len;
return;
}
err:
out->err = 1;
return;
}
#endif
static h2o_iovec_t on_extra_status(void *unused, h2o_globalconf_t *_conf, h2o_req_t *req)
{
#define BUFSIZE (16 * 1024)
h2o_iovec_t ret;
char current_time[H2O_TIMESTR_LOG_LEN + 1], restart_time[H2O_TIMESTR_LOG_LEN + 1];
const char *generation;
time_t now = time(NULL);
h2o_time2str_log(current_time, now);
h2o_time2str_log(restart_time, conf.launch_time);
if ((generation = getenv("SERVER_STARTER_GENERATION")) == NULL)
generation = "null";
ret.base = h2o_mem_alloc_pool(&req->pool, BUFSIZE);
ret.len = snprintf(ret.base, BUFSIZE, ",\n"
" \"server-version\": \"" H2O_VERSION "\",\n"
" \"openssl-version\": \"%s\",\n"
" \"current-time\": \"%s\",\n"
" \"restart-time\": \"%s\",\n"
" \"uptime\": %" PRIu64 ",\n"
" \"generation\": %s,\n"
" \"connections\": %d,\n"
" \"max-connections\": %d,\n"
" \"listeners\": %zu,\n"
" \"worker-threads\": %zu,\n"
" \"num-sessions\": %lu",
SSLeay_version(SSLEAY_VERSION), current_time, restart_time, (uint64_t)(now - conf.launch_time), generation,
num_connections(0), conf.max_connections, conf.num_listeners, conf.num_threads, num_sessions(0));
assert(ret.len < BUFSIZE);
#if JEMALLOC_STATS == 1
struct extra_status_jemalloc_cb_arg arg;
size_t sz, allocated, active, metadata, resident, mapped;
uint64_t epoch = 1;
/* internal jemalloc interface */
void malloc_stats_print(void (*write_cb)(void *, const char *), void *cbopaque, const char *opts);
int mallctl(const char *name, void *oldp, size_t *oldlenp, void *newp, size_t newlen);
arg.outbuf = h2o_iovec_init(alloca(BUFSIZE - ret.len), BUFSIZE - ret.len);
arg.err = 0;
arg.written = snprintf(arg.outbuf.base, arg.outbuf.len, ",\n"
" \"jemalloc\": {\n"
" \"jemalloc-raw\": \"");
malloc_stats_print(extra_status_jemalloc_cb, &arg, "ga" /* omit general info, only aggregated stats */);
if (arg.err || arg.written + 1 >= arg.outbuf.len) {
goto jemalloc_err;
}
/* terminate the jemalloc-raw json string */
arg.written += snprintf(&arg.outbuf.base[arg.written], arg.outbuf.len - arg.written, "\"");
if (arg.written + 1 >= arg.outbuf.len) {
goto jemalloc_err;
}
sz = sizeof(epoch);
mallctl("epoch", &epoch, &sz, &epoch, sz);
sz = sizeof(size_t);
if (!mallctl("stats.allocated", &allocated, &sz, NULL, 0) && !mallctl("stats.active", &active, &sz, NULL, 0) &&
!mallctl("stats.metadata", &metadata, &sz, NULL, 0) && !mallctl("stats.resident", &resident, &sz, NULL, 0) &&
!mallctl("stats.mapped", &mapped, &sz, NULL, 0)) {
arg.written += snprintf(&arg.outbuf.base[arg.written], arg.outbuf.len - arg.written, ",\n"
" \"allocated\": %zu,\n"
" \"active\": %zu,\n"
" \"metadata\": %zu,\n"
" \"resident\": %zu,\n"
" \"mapped\": %zu }",
allocated, active, metadata, resident, mapped);
}
if (arg.written + 1 >= arg.outbuf.len) {
goto jemalloc_err;
}
strncpy(&ret.base[ret.len], arg.outbuf.base, arg.written);
ret.base[ret.len + arg.written] = '\0';
ret.len += arg.written;
return ret;
jemalloc_err:
/* couldn't fit the jemalloc output, exiting */
ret.base[ret.len] = '\0';
#endif /* JEMALLOC_STATS == 1 */
return ret;
#undef BUFSIZE
}
static void setup_configurators(void)
{
h2o_config_init(&conf.globalconf);
/* let the default setuid user be "nobody", if run as root */
if (getuid() == 0 && getpwnam("nobody") != NULL)
conf.globalconf.user = "nobody";
{
h2o_configurator_t *c = h2o_configurator_create(&conf.globalconf, sizeof(*c));
c->enter = on_config_listen_enter;
c->exit = on_config_listen_exit;
h2o_configurator_define_command(c, "listen", H2O_CONFIGURATOR_FLAG_GLOBAL | H2O_CONFIGURATOR_FLAG_HOST, on_config_listen);
}
{
h2o_configurator_t *c = h2o_configurator_create(&conf.globalconf, sizeof(*c));
h2o_configurator_define_command(c, "user", H2O_CONFIGURATOR_FLAG_GLOBAL | H2O_CONFIGURATOR_FLAG_EXPECT_SCALAR,
on_config_user);
h2o_configurator_define_command(c, "pid-file", H2O_CONFIGURATOR_FLAG_GLOBAL | H2O_CONFIGURATOR_FLAG_EXPECT_SCALAR,
on_config_pid_file);
h2o_configurator_define_command(c, "error-log", H2O_CONFIGURATOR_FLAG_GLOBAL | H2O_CONFIGURATOR_FLAG_EXPECT_SCALAR,
on_config_error_log);
h2o_configurator_define_command(c, "max-connections", H2O_CONFIGURATOR_FLAG_GLOBAL, on_config_max_connections);
h2o_configurator_define_command(c, "num-threads", H2O_CONFIGURATOR_FLAG_GLOBAL, on_config_num_threads);
h2o_configurator_define_command(c, "num-name-resolution-threads", H2O_CONFIGURATOR_FLAG_GLOBAL,
on_config_num_name_resolution_threads);
h2o_configurator_define_command(c, "tcp-fastopen", H2O_CONFIGURATOR_FLAG_GLOBAL, on_config_tcp_fastopen);
h2o_configurator_define_command(c, "ssl-session-resumption",
H2O_CONFIGURATOR_FLAG_GLOBAL | H2O_CONFIGURATOR_FLAG_EXPECT_MAPPING,
ssl_session_resumption_on_config);
h2o_configurator_define_command(c, "num-ocsp-updaters", H2O_CONFIGURATOR_FLAG_GLOBAL | H2O_CONFIGURATOR_FLAG_EXPECT_SCALAR,
on_config_num_ocsp_updaters);
h2o_configurator_define_command(c, "temp-buffer-path", H2O_CONFIGURATOR_FLAG_GLOBAL | H2O_CONFIGURATOR_FLAG_EXPECT_SCALAR,
on_config_temp_buffer_path);
h2o_configurator_define_command(c, "crash-handler", H2O_CONFIGURATOR_FLAG_GLOBAL | H2O_CONFIGURATOR_FLAG_EXPECT_SCALAR,
on_config_crash_handler);
h2o_configurator_define_command(c, "crash-handler.wait-pipe-close",
H2O_CONFIGURATOR_FLAG_GLOBAL | H2O_CONFIGURATOR_FLAG_EXPECT_SCALAR,
on_config_crash_handler_wait_pipe_close);
}
h2o_access_log_register_configurator(&conf.globalconf);
h2o_compress_register_configurator(&conf.globalconf);
h2o_expires_register_configurator(&conf.globalconf);
h2o_errordoc_register_configurator(&conf.globalconf);
h2o_fastcgi_register_configurator(&conf.globalconf);
h2o_file_register_configurator(&conf.globalconf);
h2o_throttle_resp_register_configurator(&conf.globalconf);
h2o_headers_register_configurator(&conf.globalconf);
h2o_proxy_register_configurator(&conf.globalconf);
h2o_reproxy_register_configurator(&conf.globalconf);
h2o_redirect_register_configurator(&conf.globalconf);
h2o_status_register_configurator(&conf.globalconf);
h2o_http2_debug_state_register_configurator(&conf.globalconf);
#if H2O_USE_MRUBY
h2o_mruby_register_configurator(&conf.globalconf);
#endif
h2o_config_register_simple_status_handler(&conf.globalconf, (h2o_iovec_t){H2O_STRLIT("main")}, on_extra_status);
}
int main(int argc, char **argv)
{
const char *cmd = argv[0], *opt_config_file = H2O_TO_STR(H2O_CONFIG_PATH);
int error_log_fd = -1;
conf.num_threads = h2o_numproc();
conf.tfo_queues = H2O_DEFAULT_LENGTH_TCP_FASTOPEN_QUEUE;
conf.launch_time = time(NULL);
h2o_hostinfo_max_threads = H2O_DEFAULT_NUM_NAME_RESOLUTION_THREADS;
h2o_sem_init(&ocsp_updater_semaphore, H2O_DEFAULT_OCSP_UPDATER_MAX_THREADS);
init_openssl();
setup_configurators();
{ /* parse options */
int ch;
static struct option longopts[] = {{"conf", required_argument, NULL, 'c'}, {"mode", required_argument, NULL, 'm'},
{"test", no_argument, NULL, 't'}, {"version", no_argument, NULL, 'v'},
{"help", no_argument, NULL, 'h'}, {NULL}};
while ((ch = getopt_long(argc, argv, "c:m:tvh", longopts, NULL)) != -1) {
switch (ch) {
case 'c':
opt_config_file = optarg;
break;
case 'm':
if (strcmp(optarg, "worker") == 0) {
conf.run_mode = RUN_MODE_WORKER;
} else if (strcmp(optarg, "master") == 0) {
conf.run_mode = RUN_MODE_MASTER;
} else if (strcmp(optarg, "daemon") == 0) {
conf.run_mode = RUN_MODE_DAEMON;
} else if (strcmp(optarg, "test") == 0) {
conf.run_mode = RUN_MODE_TEST;
} else {
fprintf(stderr, "unknown mode:%s\n", optarg);
}
switch (conf.run_mode) {
case RUN_MODE_MASTER:
case RUN_MODE_DAEMON:
if (getenv("SERVER_STARTER_PORT") != NULL) {
fprintf(stderr, "refusing to start in `%s` mode, environment variable SERVER_STARTER_PORT is already set\n",
optarg);
exit(EX_SOFTWARE);
}
break;
default:
break;
}
break;
case 't':
conf.run_mode = RUN_MODE_TEST;
break;
case 'v':
printf("h2o version " H2O_VERSION "\n");
printf("OpenSSL: %s\n", SSLeay_version(SSLEAY_VERSION));
#if H2O_USE_MRUBY
printf(
"mruby: YES\n"); /* TODO determine the way to obtain the version of mruby (that is being linked dynamically) */
#endif
exit(0);
case 'h':
printf("h2o version " H2O_VERSION "\n"
"\n"
"Usage:\n"
" h2o [options]\n"
"\n"
"Options:\n"
" -c, --conf FILE configuration file (default: %s)\n"
" -m, --mode <mode> specifies one of the following mode\n"
" - worker: invoked process handles incoming connections\n"
" (default)\n"
" - daemon: spawns a master process and exits. `error-log`\n"
" must be configured when using this mode, as all\n"
" the errors are logged to the file instead of\n"
" being emitted to STDERR\n"
" - master: invoked process becomes a master process (using\n"
" the `share/h2o/start_server` command) and spawns\n"
" a worker process for handling incoming\n"
" connections. Users may send SIGHUP to the master\n"
" process to reconfigure or upgrade the server.\n"
" - test: tests the configuration and exits\n"
" -t, --test synonym of `--mode=test`\n"
" -v, --version prints the version number\n"
" -h, --help print this help\n"
"\n"
"Please refer to the documentation under `share/doc/h2o` (or available online at\n"
"http://h2o.examp1e.net/) for how to configure the server.\n"
"\n",
H2O_TO_STR(H2O_CONFIG_PATH));
exit(0);
break;
case ':':
case '?':
exit(EX_CONFIG);
default:
assert(0);
break;
}
}
argc -= optind;
argv += optind;
}
/* setup conf.server_starter */
if ((conf.server_starter.num_fds = h2o_server_starter_get_fds(&conf.server_starter.fds)) == SIZE_MAX)
exit(EX_CONFIG);
if (conf.server_starter.fds != 0) {
size_t i;
for (i = 0; i != conf.server_starter.num_fds; ++i)
set_cloexec(conf.server_starter.fds[i]);
conf.server_starter.bound_fd_map = alloca(conf.server_starter.num_fds);
memset(conf.server_starter.bound_fd_map, 0, conf.server_starter.num_fds);
conf.server_starter.env_var = getenv("SERVER_STARTER_PORT");
}
unsetenv("SERVER_STARTER_PORT");
{ /* configure */
yoml_t *yoml;
resolve_tag_arg_t resolve_tag_arg = {{NULL}};
yoml_parse_args_t parse_args = {
opt_config_file, /* filename */
NULL, /* mem_set */
{resolve_tag, &resolve_tag_arg} /* resolve_tag */
};
if ((yoml = load_config(&parse_args, NULL)) == NULL)
exit(EX_CONFIG);
if (h2o_configurator_apply(&conf.globalconf, yoml, conf.run_mode != RUN_MODE_WORKER) != 0)
exit(EX_CONFIG);
dispose_resolve_tag_arg(&resolve_tag_arg);
yoml_free(yoml, NULL);
}
/* calculate defaults (note: open file cached is purged once every loop) */
conf.globalconf.filecache.capacity = conf.globalconf.http2.max_concurrent_requests_per_connection * 2;
/* check if all the fds passed in by server::starter were bound */
if (conf.server_starter.fds != NULL) {
size_t i;
int all_were_bound = 1;
for (i = 0; i != conf.server_starter.num_fds; ++i) {
if (!conf.server_starter.bound_fd_map[i]) {
fprintf(stderr, "no configuration found for fd:%d passed in by $SERVER_STARTER_PORT\n", conf.server_starter.fds[i]);
all_were_bound = 0;
}
}
if (!all_were_bound) {
fprintf(stderr, "note: $SERVER_STARTER_PORT was \"%s\"\n", conf.server_starter.env_var);
return EX_CONFIG;
}
}
h2o_srand();
/* handle run_mode == MASTER|TEST */
switch (conf.run_mode) {
case RUN_MODE_WORKER:
break;
case RUN_MODE_DAEMON:
if (conf.error_log == NULL) {
fprintf(stderr, "to run in `daemon` mode, `error-log` must be specified in the configuration file\n");
return EX_CONFIG;
}
return run_using_server_starter(cmd, opt_config_file);
case RUN_MODE_MASTER:
return run_using_server_starter(cmd, opt_config_file);
case RUN_MODE_TEST:
printf("configuration OK\n");
return 0;
}
if (getenv("H2O_VIA_MASTER") != NULL) {
/* pid_file and error_log are the directives that are handled by the master process (invoking start_server) */
conf.pid_file = NULL;
conf.error_log = NULL;
}
{ /* raise RLIMIT_NOFILE */
struct rlimit limit;
if (getrlimit(RLIMIT_NOFILE, &limit) == 0) {
limit.rlim_cur = limit.rlim_max;
if (setrlimit(RLIMIT_NOFILE, &limit) == 0
#ifdef __APPLE__
|| (limit.rlim_cur = OPEN_MAX, setrlimit(RLIMIT_NOFILE, &limit)) == 0
#endif
) {
fprintf(stderr, "[INFO] raised RLIMIT_NOFILE to %d\n", (int)limit.rlim_cur);
}
}
}
setup_signal_handlers();
/* open the log file to redirect STDIN/STDERR to, before calling setuid */
if (conf.error_log != NULL) {
if ((error_log_fd = h2o_access_log_open_log(conf.error_log)) == -1)
return EX_CONFIG;
}
setvbuf(stdout, NULL, _IOLBF, 0);
setvbuf(stderr, NULL, _IOLBF, 0);
/* setuid */
if (conf.globalconf.user != NULL) {
if (h2o_setuidgid(conf.globalconf.user) != 0) {
fprintf(stderr, "failed to change the running user (are you sure you are running as root?)\n");
return EX_OSERR;
}
if (neverbleed != NULL && neverbleed_setuidgid(neverbleed, conf.globalconf.user, 1) != 0) {
fprintf(stderr, "failed to change the running user of neverbleed daemon\n");
return EX_OSERR;
}
} else {
if (getuid() == 0) {
fprintf(stderr, "refusing to run as root (and failed to switch to `nobody`); you can use the `user` directive to set "
"the running user\n");
return EX_CONFIG;
}
}
/* pid file must be written after setuid, since we need to remove it */
if (conf.pid_file != NULL) {
FILE *fp = fopen(conf.pid_file, "wt");
if (fp == NULL) {
fprintf(stderr, "failed to open pid file:%s:%s\n", conf.pid_file, strerror(errno));
return EX_OSERR;
}
fprintf(fp, "%d\n", (int)getpid());
fclose(fp);
}
{ /* initialize SSL_CTXs for session resumption and ticket-based resumption (also starts memcached client threads for the
purpose) */
size_t i, j;
H2O_VECTOR(SSL_CTX *) ssl_contexts = {NULL};
for (i = 0; i != conf.num_listeners; ++i) {
for (j = 0; j != conf.listeners[i]->ssl.size; ++j) {
h2o_vector_reserve(NULL, &ssl_contexts, ssl_contexts.size + 1);
ssl_contexts.entries[ssl_contexts.size++] = conf.listeners[i]->ssl.entries[j]->ctx;
}
}
ssl_setup_session_resumption(ssl_contexts.entries, ssl_contexts.size);
free(ssl_contexts.entries);
}
/* all setup should be complete by now */
/* replace STDIN to an closed pipe */
{
int fds[2];
if (pipe(fds) != 0) {
perror("pipe failed");
return EX_OSERR;
}
close(fds[1]);
dup2(fds[0], 0);
close(fds[0]);
}
/* redirect STDOUT and STDERR to error_log (if specified) */
if (error_log_fd != -1) {
if (dup2(error_log_fd, 1) == -1 || dup2(error_log_fd, 2) == -1) {
perror("dup(2) failed");
return EX_OSERR;
}
close(error_log_fd);
error_log_fd = -1;
}
fprintf(stderr, "h2o server (pid:%d) is ready to serve requests\n", (int)getpid());
assert(conf.num_threads != 0);
/* start the threads */
conf.threads = alloca(sizeof(conf.threads[0]) * conf.num_threads);
h2o_barrier_init(&conf.startup_sync_barrier, conf.num_threads);
size_t i;
for (i = 1; i != conf.num_threads; ++i) {
pthread_t tid;
h2o_multithread_create_thread(&tid, NULL, run_loop, (void *)i);
}
/* this thread becomes the first thread */
run_loop((void *)0);
/* notreached */
return 0;
}
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