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同步操作将从 winshining/nginx-http-flv-module 强制同步,此操作会覆盖自 Fork 仓库以来所做的任何修改,且无法恢复!!!
确定后同步将在后台操作,完成时将刷新页面,请耐心等待。
/*
* Copyright (C) Roman Arutyunyan
* Copyright (C) Winshining
*/
#include <ngx_config.h>
#include <ngx_core.h>
#include <ngx_event.h>
#include <nginx.h>
#include "ngx_rtmp.h"
static char *ngx_rtmp_block(ngx_conf_t *cf, ngx_command_t *cmd, void *conf);
static ngx_int_t ngx_rtmp_optimize_servers(ngx_conf_t *cf,
ngx_rtmp_core_main_conf_t *cmcf, ngx_array_t *ports);
static ngx_int_t ngx_rtmp_server_names(ngx_conf_t *cf,
ngx_rtmp_core_main_conf_t *cmcf, ngx_rtmp_conf_addr_t *addr);
static int ngx_libc_cdecl ngx_rtmp_cmp_dns_wildcards(const void *one,
const void *two);
static ngx_int_t ngx_rtmp_init_listening(ngx_conf_t *cf,
ngx_rtmp_conf_port_t *port);
static ngx_listening_t *ngx_rtmp_add_listening(ngx_conf_t *cf,
ngx_rtmp_conf_addr_t *addr);
static ngx_int_t ngx_rtmp_add_addrs(ngx_conf_t *cf, ngx_rtmp_port_t *mport,
ngx_rtmp_conf_addr_t *addr);
#if (NGX_HAVE_INET6)
static ngx_int_t ngx_rtmp_add_addrs6(ngx_conf_t *cf, ngx_rtmp_port_t *mport,
ngx_rtmp_conf_addr_t *addr);
#endif
static ngx_int_t ngx_rtmp_cmp_conf_addrs(const void *one, const void *two);
static ngx_int_t ngx_rtmp_find_virtual_server(ngx_connection_t *c,
ngx_rtmp_virtual_names_t *virtual_names, ngx_str_t *host,
ngx_rtmp_session_t *s, ngx_rtmp_core_srv_conf_t **cscfp);
static ngx_int_t ngx_rtmp_init_events(ngx_conf_t *cf,
ngx_rtmp_core_main_conf_t *cmcf);
static ngx_int_t ngx_rtmp_init_event_handlers(ngx_conf_t *cf,
ngx_rtmp_core_main_conf_t *cmcf);
static char * ngx_rtmp_merge_applications(ngx_conf_t *cf,
ngx_array_t *applications, void **app_conf, ngx_rtmp_module_t *module,
ngx_uint_t ctx_index);
static ngx_int_t ngx_rtmp_init_process(ngx_cycle_t *cycle);
#if (nginx_version >= 1007011)
ngx_queue_t ngx_rtmp_init_queue;
#elif (nginx_version >= 1007005)
ngx_thread_volatile ngx_queue_t ngx_rtmp_init_queue;
#else
ngx_thread_volatile ngx_event_t *ngx_rtmp_init_queue;
#endif
ngx_uint_t ngx_rtmp_max_module;
static ngx_command_t ngx_rtmp_commands[] = {
{ ngx_string("rtmp"),
NGX_MAIN_CONF|NGX_CONF_BLOCK|NGX_CONF_NOARGS,
ngx_rtmp_block,
0,
0,
NULL },
ngx_null_command
};
static ngx_core_module_t ngx_rtmp_module_ctx = {
ngx_string("rtmp"),
NULL,
NULL
};
ngx_module_t ngx_rtmp_module = {
NGX_MODULE_V1,
&ngx_rtmp_module_ctx, /* module context */
ngx_rtmp_commands, /* module directives */
NGX_CORE_MODULE, /* module type */
NULL, /* init master */
NULL, /* init module */
ngx_rtmp_init_process, /* init process */
NULL, /* init thread */
NULL, /* exit thread */
NULL, /* exit process */
NULL, /* exit master */
NGX_MODULE_V1_PADDING
};
static char *
ngx_rtmp_block(ngx_conf_t *cf, ngx_command_t *cmd, void *conf)
{
char *rv;
ngx_uint_t m, mi, s;
ngx_conf_t pcf;
ngx_module_t **modules;
ngx_rtmp_module_t *module;
ngx_rtmp_conf_ctx_t *ctx;
ngx_rtmp_core_srv_conf_t *cscf, **cscfp;
ngx_rtmp_core_main_conf_t *cmcf;
ctx = ngx_pcalloc(cf->pool, sizeof(ngx_rtmp_conf_ctx_t));
if (ctx == NULL) {
return NGX_CONF_ERROR;
}
*(ngx_rtmp_conf_ctx_t **) conf = ctx;
/* count the number of the rtmp modules and set up their indices */
#if (nginx_version >= 1009011)
ngx_rtmp_max_module = ngx_count_modules(cf->cycle, NGX_RTMP_MODULE);
#else
ngx_rtmp_max_module = 0;
for (m = 0; ngx_modules[m]; m++) {
if (ngx_modules[m]->type != NGX_RTMP_MODULE) {
continue;
}
ngx_modules[m]->ctx_index = ngx_rtmp_max_module++;
}
#endif
/* the rtmp main_conf context, it is the same in the all rtmp contexts */
ctx->main_conf = ngx_pcalloc(cf->pool,
sizeof(void *) * ngx_rtmp_max_module);
if (ctx->main_conf == NULL) {
return NGX_CONF_ERROR;
}
/*
* the rtmp null srv_conf context, it is used to merge
* the server{}s' srv_conf's
*/
ctx->srv_conf = ngx_pcalloc(cf->pool, sizeof(void *) * ngx_rtmp_max_module);
if (ctx->srv_conf == NULL) {
return NGX_CONF_ERROR;
}
/*
* the rtmp null app_conf context, it is used to merge
* the server{}s' app_conf's
*/
ctx->app_conf = ngx_pcalloc(cf->pool, sizeof(void *) * ngx_rtmp_max_module);
if (ctx->app_conf == NULL) {
return NGX_CONF_ERROR;
}
/*
* create the main_conf's, the null srv_conf's, and the null app_conf's
* of the all rtmp modules
*/
#if (nginx_version >= 1009011)
modules = cf->cycle->modules;
#else
modules = ngx_modules;
#endif
for (m = 0; modules[m]; m++) {
if (modules[m]->type != NGX_RTMP_MODULE) {
continue;
}
module = modules[m]->ctx;
mi = modules[m]->ctx_index;
if (module->create_main_conf) {
ctx->main_conf[mi] = module->create_main_conf(cf);
if (ctx->main_conf[mi] == NULL) {
return NGX_CONF_ERROR;
}
}
if (module->create_srv_conf) {
ctx->srv_conf[mi] = module->create_srv_conf(cf);
if (ctx->srv_conf[mi] == NULL) {
return NGX_CONF_ERROR;
}
}
if (module->create_app_conf) {
ctx->app_conf[mi] = module->create_app_conf(cf);
if (ctx->app_conf[mi] == NULL) {
return NGX_CONF_ERROR;
}
}
}
pcf = *cf;
cf->ctx = ctx;
for (m = 0; modules[m]; m++) {
if (modules[m]->type != NGX_RTMP_MODULE) {
continue;
}
module = modules[m]->ctx;
if (module->preconfiguration) {
if (module->preconfiguration(cf) != NGX_OK) {
return NGX_CONF_ERROR;
}
}
}
/* parse inside the rtmp{} block */
cf->module_type = NGX_RTMP_MODULE;
cf->cmd_type = NGX_RTMP_MAIN_CONF;
rv = ngx_conf_parse(cf, NULL);
if (rv != NGX_CONF_OK) {
*cf = pcf;
return rv;
}
/* init rtmp{} main_conf's, merge the server{}s' srv_conf's */
cmcf = ctx->main_conf[ngx_rtmp_core_module.ctx_index];
cscfp = cmcf->servers.elts;
for (m = 0; modules[m]; m++) {
if (modules[m]->type != NGX_RTMP_MODULE) {
continue;
}
module = modules[m]->ctx;
mi = modules[m]->ctx_index;
/* init rtmp{} main_conf's */
cf->ctx = ctx;
if (module->init_main_conf) {
rv = module->init_main_conf(cf, ctx->main_conf[mi]);
if (rv != NGX_CONF_OK) {
*cf = pcf;
return rv;
}
}
for (s = 0; s < cmcf->servers.nelts; s++) {
/* merge the server{}s' srv_conf's */
cf->ctx = cscfp[s]->ctx;
if (module->merge_srv_conf) {
rv = module->merge_srv_conf(cf,
ctx->srv_conf[mi],
cscfp[s]->ctx->srv_conf[mi]);
if (rv != NGX_CONF_OK) {
*cf = pcf;
return rv;
}
}
if (module->merge_app_conf) {
/* merge the server{}'s app_conf */
/*ctx->app_conf = cscfp[s]->ctx->app_conf;*/
rv = module->merge_app_conf(cf,
ctx->app_conf[mi],
cscfp[s]->ctx->app_conf[mi]);
if (rv != NGX_CONF_OK) {
*cf = pcf;
return rv;
}
/* merge the applications{}' app_conf's */
cscf = cscfp[s]->ctx->srv_conf[ngx_rtmp_core_module.ctx_index];
rv = ngx_rtmp_merge_applications(cf, &cscf->applications,
cscfp[s]->ctx->app_conf,
module, mi);
if (rv != NGX_CONF_OK) {
*cf = pcf;
return rv;
}
}
}
}
cf->ctx = ctx;
if (ngx_rtmp_init_events(cf, cmcf) != NGX_OK) {
return NGX_CONF_ERROR;
}
for (m = 0; modules[m]; m++) {
if (modules[m]->type != NGX_RTMP_MODULE) {
continue;
}
module = modules[m]->ctx;
if (module->postconfiguration) {
if (module->postconfiguration(cf) != NGX_OK) {
return NGX_CONF_ERROR;
}
}
}
*cf = pcf;
cscfp = cmcf->servers.elts;
for (s = 0; s < cmcf->servers.nelts; s++) {
cscfp[s]->index = s;
}
if (ngx_rtmp_init_event_handlers(cf, cmcf) != NGX_OK) {
return NGX_CONF_ERROR;
}
if (ngx_rtmp_optimize_servers(cf, cmcf, cmcf->ports) != NGX_OK) {
return NGX_CONF_ERROR;
}
return NGX_CONF_OK;
}
static char *
ngx_rtmp_merge_applications(ngx_conf_t *cf, ngx_array_t *applications,
void **app_conf, ngx_rtmp_module_t *module, ngx_uint_t ctx_index)
{
char *rv;
ngx_rtmp_conf_ctx_t *ctx, saved;
ngx_rtmp_core_app_conf_t **cacfp;
ngx_uint_t n;
ngx_rtmp_core_app_conf_t *cacf;
if (applications == NULL) {
return NGX_CONF_OK;
}
ctx = (ngx_rtmp_conf_ctx_t *) cf->ctx;
saved = *ctx;
cacfp = applications->elts;
for (n = 0; n < applications->nelts; ++n, ++cacfp) {
ctx->app_conf = (*cacfp)->app_conf;
rv = module->merge_app_conf(cf, app_conf[ctx_index],
(*cacfp)->app_conf[ctx_index]);
if (rv != NGX_CONF_OK) {
return rv;
}
cacf = (*cacfp)->app_conf[ngx_rtmp_core_module.ctx_index];
rv = ngx_rtmp_merge_applications(cf, &cacf->applications,
(*cacfp)->app_conf,
module, ctx_index);
if (rv != NGX_CONF_OK) {
return rv;
}
}
*ctx = saved;
return NGX_CONF_OK;
}
static ngx_int_t
ngx_rtmp_init_events(ngx_conf_t *cf, ngx_rtmp_core_main_conf_t *cmcf)
{
size_t n;
for(n = 0; n < NGX_RTMP_MAX_EVENT; ++n) {
if (ngx_array_init(&cmcf->events[n], cf->pool, 1,
sizeof(ngx_rtmp_handler_pt)) != NGX_OK)
{
return NGX_ERROR;
}
}
if (ngx_array_init(&cmcf->amf, cf->pool, 1,
sizeof(ngx_rtmp_amf_handler_t)) != NGX_OK)
{
return NGX_ERROR;
}
return NGX_OK;
}
static ngx_int_t
ngx_rtmp_init_event_handlers(ngx_conf_t *cf, ngx_rtmp_core_main_conf_t *cmcf)
{
ngx_hash_init_t calls_hash;
ngx_rtmp_handler_pt *eh;
ngx_rtmp_amf_handler_t *h;
ngx_hash_key_t *ha;
size_t n, m;
static size_t pm_events[] = {
NGX_RTMP_MSG_CHUNK_SIZE,
NGX_RTMP_MSG_ABORT,
NGX_RTMP_MSG_ACK,
NGX_RTMP_MSG_ACK_SIZE,
NGX_RTMP_MSG_BANDWIDTH
};
static size_t amf_events[] = {
NGX_RTMP_MSG_AMF_CMD,
NGX_RTMP_MSG_AMF_META,
NGX_RTMP_MSG_AMF_SHARED,
NGX_RTMP_MSG_AMF3_CMD,
NGX_RTMP_MSG_AMF3_META,
NGX_RTMP_MSG_AMF3_SHARED
};
/* init standard protocol events */
for(n = 0; n < sizeof(pm_events) / sizeof(pm_events[0]); ++n) {
eh = ngx_array_push(&cmcf->events[pm_events[n]]);
*eh = ngx_rtmp_protocol_message_handler;
}
/* init amf events */
for(n = 0; n < sizeof(amf_events) / sizeof(amf_events[0]); ++n) {
eh = ngx_array_push(&cmcf->events[amf_events[n]]);
*eh = ngx_rtmp_amf_message_handler;
}
/* init user protocol events */
eh = ngx_array_push(&cmcf->events[NGX_RTMP_MSG_USER]);
*eh = ngx_rtmp_user_message_handler;
/* aggregate to audio/video map */
eh = ngx_array_push(&cmcf->events[NGX_RTMP_MSG_AGGREGATE]);
*eh = ngx_rtmp_aggregate_message_handler;
/* init amf callbacks */
ngx_array_init(&cmcf->amf_arrays, cf->pool, 1, sizeof(ngx_hash_key_t));
h = cmcf->amf.elts;
for(n = 0; n < cmcf->amf.nelts; ++n, ++h) {
ha = cmcf->amf_arrays.elts;
for(m = 0; m < cmcf->amf_arrays.nelts; ++m, ++ha) {
if (h->name.len == ha->key.len
&& !ngx_strncmp(h->name.data, ha->key.data, ha->key.len))
{
break;
}
}
if (m == cmcf->amf_arrays.nelts) {
ha = ngx_array_push(&cmcf->amf_arrays);
ha->key = h->name;
ha->key_hash = ngx_hash_key_lc(ha->key.data, ha->key.len);
ha->value = ngx_array_create(cf->pool, 1,
sizeof(ngx_rtmp_handler_pt));
if (ha->value == NULL) {
return NGX_ERROR;
}
}
eh = ngx_array_push((ngx_array_t*)ha->value);
*eh = h->handler;
}
calls_hash.hash = &cmcf->amf_hash;
calls_hash.key = ngx_hash_key_lc;
calls_hash.max_size = 512;
calls_hash.bucket_size = ngx_cacheline_size;
calls_hash.name = "amf_hash";
calls_hash.pool = cf->pool;
calls_hash.temp_pool = NULL;
if (ngx_hash_init(&calls_hash, cmcf->amf_arrays.elts, cmcf->amf_arrays.nelts)
!= NGX_OK)
{
return NGX_ERROR;
}
return NGX_OK;
}
static ngx_int_t
ngx_rtmp_optimize_servers(ngx_conf_t *cf, ngx_rtmp_core_main_conf_t *cmcf,
ngx_array_t *ports)
{
ngx_uint_t p, a;
ngx_rtmp_conf_port_t *port;
ngx_rtmp_conf_addr_t *addr;
if (ports == NULL) {
return NGX_OK;
}
port = ports->elts;
for (p = 0; p < ports->nelts; p++) {
ngx_sort(port[p].addrs.elts, (size_t) port[p].addrs.nelts,
sizeof(ngx_rtmp_conf_addr_t), ngx_rtmp_cmp_conf_addrs);
/*
* check whether all name-based servers have the same
* configuration as a default server for given address:port
*/
addr = port[p].addrs.elts;
for (a = 0; a < port[p].addrs.nelts; a++) {
if (addr[a].servers.nelts > 1
#if (NGX_PCRE)
|| addr[a].default_server->captures
#endif
)
{
if (ngx_rtmp_server_names(cf, cmcf, &addr[a]) != NGX_OK) {
return NGX_ERROR;
}
}
}
if (ngx_rtmp_init_listening(cf, &port[p]) != NGX_OK) {
return NGX_ERROR;
}
}
return NGX_OK;
}
static ngx_int_t
ngx_rtmp_server_names(ngx_conf_t *cf, ngx_rtmp_core_main_conf_t *cmcf,
ngx_rtmp_conf_addr_t *addr)
{
ngx_int_t rc;
ngx_uint_t n, s;
ngx_hash_init_t hash;
ngx_hash_keys_arrays_t ha;
ngx_rtmp_server_name_t *name;
ngx_rtmp_core_srv_conf_t **cscfp;
#if (NGX_PCRE)
ngx_uint_t regex, i;
regex = 0;
#endif
ngx_memzero(&ha, sizeof(ngx_hash_keys_arrays_t));
ha.temp_pool = ngx_create_pool(NGX_DEFAULT_POOL_SIZE, cf->log);
if (ha.temp_pool == NULL) {
return NGX_ERROR;
}
ha.pool = cf->pool;
if (ngx_hash_keys_array_init(&ha, NGX_HASH_LARGE) != NGX_OK) {
goto failed;
}
cscfp = addr->servers.elts;
for (s = 0; s < addr->servers.nelts; s++) {
name = cscfp[s]->server_names.elts;
for (n = 0; n < cscfp[s]->server_names.nelts; n++) {
#if (NGX_PCRE)
if (name[n].regex) {
regex++;
continue;
}
#endif
rc = ngx_hash_add_key(&ha, &name[n].name, name[n].server,
NGX_HASH_WILDCARD_KEY);
if (rc == NGX_ERROR) {
return NGX_ERROR;
}
if (rc == NGX_DECLINED) {
ngx_log_error(NGX_LOG_EMERG, cf->log, 0,
"invalid server name or wildcard \"%V\" on %s",
&name[n].name, addr->opt.addr);
return NGX_ERROR;
}
if (rc == NGX_BUSY) {
ngx_log_error(NGX_LOG_WARN, cf->log, 0,
"conflicting server name \"%V\" on %s, ignored",
&name[n].name, addr->opt.addr);
}
}
}
hash.key = ngx_hash_key_lc;
hash.max_size = cmcf->server_names_hash_max_size;
hash.bucket_size = cmcf->server_names_hash_bucket_size;
hash.name = "server_names_hash";
hash.pool = cf->pool;
if (ha.keys.nelts) {
hash.hash = &addr->hash;
hash.temp_pool = NULL;
if (ngx_hash_init(&hash, ha.keys.elts, ha.keys.nelts) != NGX_OK) {
goto failed;
}
}
if (ha.dns_wc_head.nelts) {
ngx_qsort(ha.dns_wc_head.elts, (size_t) ha.dns_wc_head.nelts,
sizeof(ngx_hash_key_t), ngx_rtmp_cmp_dns_wildcards);
hash.hash = NULL;
hash.temp_pool = ha.temp_pool;
if (ngx_hash_wildcard_init(&hash, ha.dns_wc_head.elts,
ha.dns_wc_head.nelts)
!= NGX_OK)
{
goto failed;
}
addr->wc_head = (ngx_hash_wildcard_t *) hash.hash;
}
if (ha.dns_wc_tail.nelts) {
ngx_qsort(ha.dns_wc_tail.elts, (size_t) ha.dns_wc_tail.nelts,
sizeof(ngx_hash_key_t), ngx_rtmp_cmp_dns_wildcards);
hash.hash = NULL;
hash.temp_pool = ha.temp_pool;
if (ngx_hash_wildcard_init(&hash, ha.dns_wc_tail.elts,
ha.dns_wc_tail.nelts)
!= NGX_OK)
{
goto failed;
}
addr->wc_tail = (ngx_hash_wildcard_t *) hash.hash;
}
ngx_destroy_pool(ha.temp_pool);
#if (NGX_PCRE)
if (regex == 0) {
return NGX_OK;
}
addr->nregex = regex;
addr->regex = ngx_palloc(cf->pool, regex * sizeof(ngx_rtmp_server_name_t));
if (addr->regex == NULL) {
return NGX_ERROR;
}
i = 0;
for (s = 0; s < addr->servers.nelts; s++) {
name = cscfp[s]->server_names.elts;
for (n = 0; n < cscfp[s]->server_names.nelts; n++) {
if (name[n].regex) {
addr->regex[i++] = name[n];
}
}
}
#endif
return NGX_OK;
failed:
ngx_destroy_pool(ha.temp_pool);
return NGX_ERROR;
}
static int ngx_libc_cdecl
ngx_rtmp_cmp_dns_wildcards(const void *one, const void *two)
{
ngx_hash_key_t *first, *second;
first = (ngx_hash_key_t *) one;
second = (ngx_hash_key_t *) two;
return ngx_dns_strcmp(first->key.data, second->key.data);
}
static ngx_int_t
ngx_rtmp_init_listening(ngx_conf_t *cf, ngx_rtmp_conf_port_t *port)
{
ngx_uint_t i, last, bind_wildcard;
ngx_listening_t *ls;
ngx_rtmp_port_t *rport;
ngx_rtmp_conf_addr_t *addr;
addr = port->addrs.elts;
last = port->addrs.nelts;
/*
* If there is a binding to an "*:port" then we need to bind() to
* the "*:port" only and ignore other implicit bindings. The bindings
* have been already sorted: explicit bindings are on the start, then
* implicit bindings go, and wildcard binding is in the end.
*/
if (addr[last - 1].opt.wildcard) {
addr[last - 1].opt.bind = 1;
bind_wildcard = 1;
} else {
bind_wildcard = 0;
}
i = 0;
while (i < last) {
if (bind_wildcard && !addr[i].opt.bind) {
i++;
continue;
}
ls = ngx_rtmp_add_listening(cf, &addr[i]);
if (ls == NULL) {
return NGX_ERROR;
}
rport = ngx_pcalloc(cf->pool, sizeof(ngx_rtmp_port_t));
if (rport == NULL) {
return NGX_ERROR;
}
/* used in ngx_rtmp_init_connection */
ls->servers = rport;
rport->naddrs = i + 1;
switch (ls->sockaddr->sa_family) {
#if (NGX_HAVE_INET6)
case AF_INET6:
if (ngx_rtmp_add_addrs6(cf, rport, addr) != NGX_OK) {
return NGX_ERROR;
}
break;
#endif
default: /* AF_INET */
if (ngx_rtmp_add_addrs(cf, rport, addr) != NGX_OK) {
return NGX_ERROR;
}
break;
}
#if (nginx_version >= 1009001 && nginx_version <= 1015001)
if (ngx_clone_listening(cf, ls) != NGX_OK) {
return NGX_ERROR;
}
#endif
addr++;
last--;
}
return NGX_OK;
}
static ngx_listening_t *
ngx_rtmp_add_listening(ngx_conf_t *cf, ngx_rtmp_conf_addr_t *addr)
{
ngx_listening_t *ls;
ngx_rtmp_core_srv_conf_t *cscf;
ls = ngx_create_listening(cf, &addr->opt.sockaddr.sockaddr,
addr->opt.socklen);
if (ls == NULL) {
return NULL;
}
ls->addr_ntop = 1;
ls->handler = ngx_rtmp_init_connection;
cscf = addr->default_server;
ls->pool_size = cscf->connection_pool_size;
ls->logp = &cf->cycle->new_log;
ls->log.data = &ls->addr_text;
ls->log.handler = ngx_accept_log_error;
#if (NGX_WIN32)
{
ngx_iocp_conf_t *iocpcf = NULL;
if (ngx_get_conf(cf->cycle->conf_ctx, ngx_events_module)) {
iocpcf = ngx_event_get_conf(cf->cycle->conf_ctx, ngx_iocp_module);
}
if (iocpcf && iocpcf->acceptex_read) {
ls->post_accept_buffer_size = 1024;
}
}
#endif
ls->backlog = addr->opt.backlog;
ls->rcvbuf = addr->opt.rcvbuf;
ls->sndbuf = addr->opt.sndbuf;
ls->keepalive = addr->opt.so_keepalive;
#if (NGX_HAVE_KEEPALIVE_TUNABLE)
ls->keepidle = addr->opt.tcp_keepidle;
ls->keepintvl = addr->opt.tcp_keepintvl;
ls->keepcnt = addr->opt.tcp_keepcnt;
#endif
#if (NGX_HAVE_DEFERRED_ACCEPT && defined SO_ACCEPTFILTER)
ls->accept_filter = addr->opt.accept_filter;
#endif
#if (NGX_HAVE_DEFERRED_ACCEPT && defined TCP_DEFER_ACCEPT)
ls->deferred_accept = addr->opt.deferred_accept;
#endif
#if (NGX_HAVE_INET6)
ls->ipv6only = addr->opt.ipv6only;
#endif
#if (NGX_HAVE_SETFIB)
ls->setfib = addr->opt.setfib;
#endif
#if (NGX_HAVE_TCP_FASTOPEN)
ls->fastopen = addr->opt.fastopen;
#endif
#if (NGX_HAVE_REUSEPORT)
ls->reuseport = addr->opt.reuseport;
#endif
return ls;
}
static ngx_int_t
ngx_rtmp_add_addrs(ngx_conf_t *cf, ngx_rtmp_port_t *mport,
ngx_rtmp_conf_addr_t *addr)
{
ngx_uint_t i;
ngx_rtmp_in_addr_t *addrs;
struct sockaddr_in *sin;
ngx_rtmp_virtual_names_t *vn;
u_char *p, buf[NGX_SOCKADDR_STRLEN];
size_t len;
mport->addrs = ngx_pcalloc(cf->pool,
mport->naddrs * sizeof(ngx_rtmp_in_addr_t));
if (mport->addrs == NULL) {
return NGX_ERROR;
}
addrs = mport->addrs;
for (i = 0; i < mport->naddrs; i++) {
sin = &addr[i].opt.sockaddr.sockaddr_in;
addrs[i].addr = sin->sin_addr.s_addr;
addrs[i].conf.default_server = addr[i].default_server;
addrs[i].conf.proxy_protocol = addr[i].opt.proxy_protocol;
len = ngx_sock_ntop(&addr[i].opt.sockaddr.sockaddr,
#if (nginx_version >= 1005003)
addr[i].opt.socklen,
#endif
buf, NGX_SOCKADDR_STRLEN, 1);
p = ngx_pcalloc(cf->pool, len);
if (p == NULL) {
return NGX_ERROR;
}
ngx_memcpy(p, buf, len);
addrs[i].conf.addr_text.len = len;
addrs[i].conf.addr_text.data = p;
if (addr[i].hash.buckets == NULL
&& (addr[i].wc_head == NULL
|| addr[i].wc_head->hash.buckets == NULL)
&& (addr[i].wc_tail == NULL
|| addr[i].wc_tail->hash.buckets == NULL)
#if (NGX_PCRE)
&& addr[i].nregex == 0
#endif
)
{
continue;
}
vn = ngx_palloc(cf->pool, sizeof(ngx_rtmp_virtual_names_t));
if (vn == NULL) {
return NGX_ERROR;
}
addrs[i].conf.virtual_names = vn;
vn->names.hash = addr[i].hash;
vn->names.wc_head = addr[i].wc_head;
vn->names.wc_tail = addr[i].wc_tail;
#if (NGX_PCRE)
vn->nregex = addr[i].nregex;
vn->regex = addr[i].regex;
#endif
}
return NGX_OK;
}
#if (NGX_HAVE_INET6)
static ngx_int_t
ngx_rtmp_add_addrs6(ngx_conf_t *cf, ngx_rtmp_port_t *mport,
ngx_rtmp_conf_addr_t *addr)
{
ngx_uint_t i;
ngx_rtmp_in6_addr_t *addrs6;
struct sockaddr_in6 *sin6;
ngx_rtmp_virtual_names_t *vn;
u_char *p, buf[NGX_SOCKADDR_STRLEN];
size_t len;
mport->addrs = ngx_pcalloc(cf->pool,
mport->naddrs * sizeof(ngx_rtmp_in6_addr_t));
if (mport->addrs == NULL) {
return NGX_ERROR;
}
addrs6 = mport->addrs;
for (i = 0; i < mport->naddrs; i++) {
sin6 = &addr[i].opt.sockaddr.sockaddr_in6;
addrs6[i].addr6 = sin6->sin6_addr;
addrs6[i].conf.default_server = addr[i].default_server;
addrs6[i].conf.proxy_protocol = addr[i].opt.proxy_protocol;
len = ngx_sock_ntop(&addr[i].opt.sockaddr.sockaddr,
#if (nginx_version >= 1005003)
addr[i].opt.socklen,
#endif
buf, NGX_SOCKADDR_STRLEN, 1);
p = ngx_pcalloc(cf->pool, len);
if (p == NULL) {
return NGX_ERROR;
}
ngx_memcpy(p, buf, len);
addrs6[i].conf.addr_text.len = len;
addrs6[i].conf.addr_text.data = p;
if (addr[i].hash.buckets == NULL
&& (addr[i].wc_head == NULL
|| addr[i].wc_head->hash.buckets == NULL)
&& (addr[i].wc_tail == NULL
|| addr[i].wc_tail->hash.buckets == NULL)
#if (NGX_PCRE)
&& addr[i].nregex == 0
#endif
)
{
continue;
}
vn = ngx_palloc(cf->pool, sizeof(ngx_rtmp_virtual_names_t));
if (vn == NULL) {
return NGX_ERROR;
}
addrs6[i].conf.virtual_names = vn;
vn->names.hash = addr[i].hash;
vn->names.wc_head = addr[i].wc_head;
vn->names.wc_tail = addr[i].wc_tail;
#if (NGX_PCRE)
vn->nregex = addr[i].nregex;
vn->regex = addr[i].regex;
#endif
}
return NGX_OK;
}
#endif
static ngx_int_t
ngx_rtmp_cmp_conf_addrs(const void *one, const void *two)
{
ngx_rtmp_conf_addr_t *first, *second;
first = (ngx_rtmp_conf_addr_t *) one;
second = (ngx_rtmp_conf_addr_t *) two;
if (first->opt.wildcard) {
/* a wildcard address must be the last resort, shift it to the end */
return 1;
}
if (second->opt.wildcard) {
/* a wildcard address must be the last resort, shift it to the end */
return -1;
}
if (first->opt.bind && !second->opt.bind) {
/* shift explicit bind()ed addresses to the start */
return -1;
}
if (!first->opt.bind && second->opt.bind) {
/* shift explicit bind()ed addresses to the start */
return 1;
}
/* do not sort by default */
return 0;
}
ngx_int_t
ngx_rtmp_fire_event(ngx_rtmp_session_t *s, ngx_uint_t evt,
ngx_rtmp_header_t *h, ngx_chain_t *in)
{
ngx_rtmp_core_main_conf_t *cmcf;
ngx_array_t *ch;
ngx_rtmp_handler_pt *hh;
size_t n;
cmcf = ngx_rtmp_get_module_main_conf(s, ngx_rtmp_core_module);
ch = &cmcf->events[evt];
hh = ch->elts;
for(n = 0; n < ch->nelts; ++n, ++hh) {
if (*hh && (*hh)(s, h, in) != NGX_OK) {
return NGX_ERROR;
}
}
return NGX_OK;
}
void *
ngx_rtmp_rmemcpy(void *dst, const void* src, size_t n)
{
u_char *d, *s;
d = dst;
s = (u_char*)src + n - 1;
while(s >= (u_char*)src) {
*d++ = *s--;
}
return dst;
}
static ngx_int_t
ngx_rtmp_init_process(ngx_cycle_t *cycle)
{
#if (nginx_version >= 1007005)
ngx_queue_init(&ngx_rtmp_init_queue);
#endif
return NGX_OK;
}
ngx_int_t
ngx_rtmp_process_virtual_host(ngx_rtmp_session_t *s)
{
u_char *p;
ngx_int_t rc;
ngx_str_t host;
ngx_str_t hschema, rschema, *schema;
if (s->auto_pushed) {
goto next;
}
hschema.data = (u_char *)"http://";
hschema.len = ngx_strlen(hschema.data);
rschema.data = (u_char *) "rtmp://";
rschema.len = ngx_strlen(rschema.data);
do {
schema = &hschema;
if (s->tc_url.len > schema->len
&& ngx_strncasecmp(s->tc_url.data, schema->data, schema->len) == 0)
{
break;
}
schema = &rschema;
if (s->tc_url.len > schema->len
&& ngx_strncasecmp(s->tc_url.data, schema->data, schema->len) == 0)
{
break;
}
return NGX_ERROR;
} while (0);
s->host_start = s->tc_url.data + schema->len;
p = ngx_strlchr(s->host_start, s->tc_url.data + s->tc_url.len, ':');
if (p) {
s->host_end = p;
} else {
p = ngx_strlchr(s->host_start, s->tc_url.data + s->tc_url.len, '/');
s->host_end = p ? p : (s->host_start + s->tc_url.len - schema->len);
}
next:
host.len = s->host_end - s->host_start;
host.data = s->host_start;
rc = ngx_rtmp_validate_host(&host, s->connection->pool, 0);
if (rc == NGX_DECLINED) {
ngx_log_error(NGX_LOG_INFO, s->connection->log, 0,
"client send invalid host in request line");
return NGX_ERROR;
}
#if 0
/* TODO: send error details to client */
if (rc == NGX_ERROR) {
return NGX_ERROR;
}
#endif
if (ngx_rtmp_set_virtual_server(s, &host) == NGX_ERROR) {
return NGX_ERROR;
}
return NGX_OK;
}
ngx_int_t
ngx_rtmp_validate_host(ngx_str_t *host, ngx_pool_t *pool, ngx_uint_t alloc)
{
u_char *h, ch;
size_t i, dot_pos, host_len;
enum {
sw_usual = 0,
sw_literal,
sw_rest
} state;
dot_pos = host->len;
host_len = host->len;
h = host->data;
state = sw_usual;
for (i = 0; i < host->len; i++) {
ch = h[i];
switch (ch) {
case '.':
if (dot_pos == i - 1) {
return NGX_DECLINED;
}
dot_pos = i;
break;
case ':':
if (state == sw_usual) {
host_len = i;
state = sw_rest;
}
break;
case '[':
if (i == 0) {
state = sw_literal;
}
break;
case ']':
if (state == sw_literal) {
host_len = i + 1;
state = sw_rest;
}
break;
case '\0':
return NGX_DECLINED;
default:
if (ngx_path_separator(ch)) {
return NGX_DECLINED;
}
if (ch >= 'A' && ch <= 'Z') {
alloc = 1;
}
break;
}
}
if (dot_pos == host_len - 1) {
host_len--;
}
if (host_len == 0) {
return NGX_DECLINED;
}
if (alloc) {
host->data = ngx_pnalloc(pool, host_len);
if (host->data == NULL) {
return NGX_ERROR;
}
ngx_strlow(host->data, h, host_len);
}
host->len = host_len;
return NGX_OK;
}
ngx_int_t
ngx_rtmp_set_virtual_server(ngx_rtmp_session_t *s, ngx_str_t *host)
{
ngx_int_t rc;
ngx_int_t i;
ngx_rtmp_connection_t *rconn;
ngx_rtmp_core_srv_conf_t *cscf, *dcscf;
ngx_rtmp_stream_t *in_streams;
#if (NGX_SUPPRESS_WARN)
cscf = NULL;
#endif
rconn = s->rtmp_connection;
rc = ngx_rtmp_find_virtual_server(s->connection,
rconn->addr_conf->virtual_names,
host, s, &cscf);
if (rc == NGX_ERROR) {
ngx_rtmp_finalize_session(s);
return NGX_ERROR;
}
if (rc == NGX_DECLINED) {
return NGX_OK;
}
dcscf = ngx_rtmp_get_module_srv_conf(s, ngx_rtmp_core_module);
/* reinitialization */
s->server_changed = 1;
s->srv_conf = cscf->ctx->srv_conf;
if (dcscf->out_queue != cscf->out_queue) {
/* use new pool */
s->out_temp_pool = ngx_create_pool(4096, s->connection->log);
if (s->out_temp_pool == NULL) {
ngx_rtmp_finalize_session(s);
return NGX_ERROR;
}
/* save memory */
ngx_destroy_pool(s->out_pool);
s->out_pool = s->out_temp_pool;
/* send not used yet, need not copy data */
s->out = ngx_pcalloc(s->out_pool, sizeof(ngx_chain_t *)
* ((ngx_rtmp_core_srv_conf_t *)
cscf->ctx->srv_conf[ngx_rtmp_core_module
.ctx_index])->out_queue);
s->out_queue = cscf->out_queue;
}
if (dcscf->max_streams != cscf->max_streams) {
/* use new pool */
s->in_streams_temp_pool = ngx_create_pool(4096, s->connection->log);
if (s->in_streams_temp_pool == NULL) {
ngx_rtmp_finalize_session(s);
return NGX_ERROR;
}
in_streams = ngx_pcalloc(s->in_streams_temp_pool,
sizeof(ngx_rtmp_stream_t) * cscf->max_streams);
if (in_streams == NULL) {
ngx_rtmp_finalize_session(s);
return NGX_ERROR;
}
/* copy data from s->in_streams to in_streams */
ngx_memmove(in_streams, s->in_streams, sizeof(ngx_rtmp_stream_t)
* ngx_min(dcscf->max_streams, cscf->max_streams));
if (dcscf->max_streams > cscf->max_streams) {
for (i = cscf->max_streams; i < dcscf->max_streams; i++) {
if (s->in_streams[i].hdr.csid) {
ngx_rtmp_finalize_session(s);
return NGX_ERROR;
}
}
}
s->in_streams = in_streams;
/* save memory */
ngx_destroy_pool(s->in_streams_pool);
s->in_streams_pool = s->in_streams_temp_pool;
}
s->out_cork = cscf->out_cork;
s->timeout = cscf->timeout;
s->buflen = cscf->buflen;
return NGX_OK;
}
static ngx_int_t
ngx_rtmp_find_virtual_server(ngx_connection_t *c,
ngx_rtmp_virtual_names_t *virtual_names, ngx_str_t *host,
ngx_rtmp_session_t *s, ngx_rtmp_core_srv_conf_t **cscfp)
{
ngx_rtmp_core_srv_conf_t *cscf;
if (virtual_names == NULL) {
return NGX_DECLINED;
}
cscf = ngx_hash_find_combined(&virtual_names->names,
ngx_hash_key(host->data, host->len),
host->data, host->len);
if (cscf) {
*cscfp = cscf;
return NGX_OK;
}
#if (NGX_PCRE)
if (host->len && virtual_names->nregex) {
ngx_int_t n;
ngx_uint_t i;
ngx_rtmp_server_name_t *sn;
sn = virtual_names->regex;
for (i = 0; i < virtual_names->nregex; i++) {
n = ngx_rtmp_regex_exec(s, sn[i].regex, host);
if (n == NGX_DECLINED) {
continue;
}
if (n == NGX_OK) {
*cscfp = sn[i].server;
return NGX_OK;
}
return NGX_ERROR;
}
}
#endif /* NGX_PCRE */
return NGX_DECLINED;
}
#if (nginx_version <= 1011001)
in_port_t
ngx_inet_get_port(struct sockaddr *sa)
{
struct sockaddr_in *sin;
#if (NGX_HAVE_INET6)
struct sockaddr_in6 *sin6;
#endif
switch (sa->sa_family) {
#if (NGX_HAVE_INET6)
case AF_INET6:
sin6 = (struct sockaddr_in6 *) sa;
return ntohs(sin6->sin6_port);
#endif
#if (NGX_HAVE_UNIX_DOMAIN)
case AF_UNIX:
return 0;
#endif
default: /* AF_INET */
sin = (struct sockaddr_in *) sa;
return ntohs(sin->sin_port);
}
}
void
ngx_inet_set_port(struct sockaddr *sa, in_port_t port)
{
struct sockaddr_in *sin;
#if (NGX_HAVE_INET6)
struct sockaddr_in6 *sin6;
#endif
switch (sa->sa_family) {
#if (NGX_HAVE_INET6)
case AF_INET6:
sin6 = (struct sockaddr_in6 *) sa;
sin6->sin6_port = htons(port);
break;
#endif
#if (NGX_HAVE_UNIX_DOMAIN)
case AF_UNIX:
break;
#endif
default: /* AF_INET */
sin = (struct sockaddr_in *) sa;
sin->sin_port = htons(port);
break;
}
}
#endif
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