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icecast-server/src/connection.c

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/* Icecast
*
* This program is distributed under the GNU General Public License, version 2.
* A copy of this license is included with this source.
*
* Copyright 2000-2004, Jack Moffitt <jack@xiph.org,
* Michael Smith <msmith@xiph.org>,
* oddsock <oddsock@xiph.org>,
* Karl Heyes <karl@xiph.org>
* and others (see AUTHORS for details).
* Copyright 2011, Dave 'justdave' Miller <justdave@mozilla.com>,
* Copyright 2011-2022, Philipp "ph3-der-loewe" Schafft <lion@lion.leolix.org>,
*/
/* -*- c-basic-offset: 4; indent-tabs-mode: nil; -*- */
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdio.h>
#include <stdlib.h>
#include <stdbool.h>
#include <errno.h>
#include <string.h>
#ifdef HAVE_POLL
#include <poll.h>
#endif
#include <sys/types.h>
#ifndef _WIN32
#include <sys/socket.h>
#include <netinet/in.h>
#else
#include <winsock2.h>
#endif
#include "common/thread/thread.h"
#include "common/avl/avl.h"
#include "common/net/sock.h"
#include "common/httpp/httpp.h"
#include "compat.h"
#include "connection.h"
#include "cfgfile.h"
#include "global.h"
#include "util.h"
#include "refobject.h"
#include "refbuf.h"
#include "client.h"
#include "errors.h"
#include "stats.h"
#include "logging.h"
#include "fserve.h"
#include "slave.h"
#include "source.h"
#include "admin.h"
#include "auth.h"
#include "matchfile.h"
#include "tls.h"
#include "acl.h"
#include "refobject.h"
#include "listensocket.h"
#include "fastevent.h"
#include "navigation.h"
#define CATMODULE "connection"
/* Two different major types of source authentication.
Shoutcast style is used only by the Shoutcast DSP
and is a crazy version of HTTP. It looks like :
Source Client -> Connects to port + 1
Source Client -> sends encoder password (plaintext)\r\n
Icecast -> reads encoder password, if ok, sends OK2\r\n, else disconnects
Source Client -> reads OK2\r\n, then sends http-type request headers
that contain the stream details (icy-name, etc..)
Icecast -> reads headers, stores them
Source Client -> starts sending MP3 data
Source Client -> periodically updates metadata via admin.cgi call
Icecast auth style uses HTTP and Basic Authorization.
*/
typedef struct client_queue_tag {
client_t *client;
int offset;
int shoutcast;
char *shoutcast_mount;
char *bodybuffer;
size_t bodybufferlen;
int tried_body;
struct client_queue_tag *next;
} client_queue_t;
static spin_t _connection_lock; // protects _current_id, _con_queue, _con_queue_tail
static volatile connection_id_t _current_id = 0;
static int _initialized = 0;
static volatile client_queue_t *_req_queue = NULL, **_req_queue_tail = &_req_queue;
static volatile client_queue_t *_con_queue = NULL, **_con_queue_tail = &_con_queue;
static volatile client_queue_t *_body_queue = NULL, **_body_queue_tail = &_body_queue;
static bool tls_ok = false;
static tls_ctx_t *tls_ctx;
/* filtering client connection based on IP */
static matchfile_t *banned_ip, *allowed_ip;
rwlock_t _source_shutdown_rwlock;
static int _update_admin_command(client_t *client);
static void _handle_connection(void);
static void get_tls_certificate(ice_config_t *config);
void connection_initialize(void)
{
if (_initialized)
return;
thread_spin_create (&_connection_lock);
thread_mutex_create(&move_clients_mutex);
thread_rwlock_create(&_source_shutdown_rwlock);
thread_cond_create(&global.shutdown_cond);
_req_queue = NULL;
_req_queue_tail = &_req_queue;
_con_queue = NULL;
_con_queue_tail = &_con_queue;
_body_queue = NULL;
_body_queue_tail = &_body_queue;
_initialized = 1;
}
void connection_shutdown(void)
{
if (!_initialized)
return;
tls_ctx_unref(tls_ctx);
matchfile_release(banned_ip);
matchfile_release(allowed_ip);
thread_cond_destroy(&global.shutdown_cond);
thread_rwlock_destroy(&_source_shutdown_rwlock);
thread_spin_destroy (&_connection_lock);
thread_mutex_destroy(&move_clients_mutex);
_initialized = 0;
}
void connection_reread_config(ice_config_t *config)
{
get_tls_certificate(config);
listensocket_container_configure_and_setup(global.listensockets, config);
}
static connection_id_t _next_connection_id(void)
{
connection_id_t id;
thread_spin_lock(&_connection_lock);
id = _current_id++;
thread_spin_unlock(&_connection_lock);
return id;
}
#ifdef ICECAST_CAP_TLS
static void get_tls_certificate(ice_config_t *config)
{
const char *keyfile;
tls_ok = false;
keyfile = config->tls_context.key_file;
if (!keyfile)
keyfile = config->tls_context.cert_file;
tls_ctx_unref(tls_ctx);
tls_ctx = tls_ctx_new(config->tls_context.cert_file, keyfile, config->tls_context.cipher_list);
if (!tls_ctx) {
ICECAST_LOG_INFO("No TLS capability on any configured ports");
return;
}
tls_ok = true;
}
/* handlers for reading and writing a connection_t when there is TLS
* configured on the listening port
*/
static int connection_read_tls(connection_t *con, void *buf, size_t len)
{
ssize_t bytes = tls_read(con->tls, buf, len);
if (bytes <= 0) {
if (tls_want_io(con->tls) > 0)
return -1;
con->error = 1;
}
return bytes;
}
static int connection_send_tls(connection_t *con, const void *buf, size_t len)
{
ssize_t bytes = tls_write(con->tls, buf, len);
if (bytes < 0) {
con->error = 1;
} else {
con->sent_bytes += bytes;
}
return bytes;
}
#else
/* TLS not compiled in, so at least log it */
static void get_tls_certificate(ice_config_t *config)
{
tls_ok = false;
ICECAST_LOG_INFO("No TLS capability. "
"Rebuild Icecast with OpenSSL support to enable this.");
}
#endif /* ICECAST_CAP_TLS */
/* handlers (default) for reading and writing a connection_t, no encrpytion
* used just straight access to the socket
*/
static int connection_read(connection_t *con, void *buf, size_t len)
{
int bytes = sock_read_bytes(con->sock, buf, len);
if (bytes == 0)
con->error = 1;
if (bytes == -1 && !sock_recoverable(sock_error()))
con->error = 1;
return bytes;
}
static int connection_send(connection_t *con, const void *buf, size_t len)
{
int bytes = sock_write_bytes(con->sock, buf, len);
if (bytes < 0) {
if (!sock_recoverable(sock_error()))
con->error = 1;
} else {
con->sent_bytes += bytes;
}
return bytes;
}
connection_t *connection_create(sock_t sock, listensocket_t *listensocket_real, listensocket_t* listensocket_effective, char *ip)
{
connection_t *con;
if (!matchfile_match_allow_deny(allowed_ip, banned_ip, ip))
return NULL;
con = (connection_t *)calloc(1, sizeof(connection_t));
if (con) {
refobject_ref(listensocket_real);
refobject_ref(listensocket_effective);
con->sock = sock;
con->listensocket_real = listensocket_real;
con->listensocket_effective = listensocket_effective;
con->con_time = time(NULL);
con->id = _next_connection_id();
con->ip = ip;
con->tlsmode = ICECAST_TLSMODE_AUTO;
con->read = connection_read;
con->send = connection_send;
}
fastevent_emit(FASTEVENT_TYPE_CONNECTION_CREATE, FASTEVENT_FLAG_MODIFICATION_ALLOWED, FASTEVENT_DATATYPE_CONNECTION, con);
return con;
}
/* prepare connection for interacting over a TLS connection
*/
void connection_uses_tls(connection_t *con)
{
#ifdef ICECAST_CAP_TLS
if (con->tls)
return;
if (con->readbufferlen) {
ICECAST_LOG_ERROR("Connection is now using TLS but has data put back. BAD. Discarding putback data.");
free(con->readbuffer);
con->readbufferlen = 0;
}
con->tlsmode = ICECAST_TLSMODE_RFC2818;
con->read = connection_read_tls;
con->send = connection_send_tls;
con->tls = tls_new(tls_ctx);
tls_set_incoming(con->tls);
tls_set_socket(con->tls, con->sock);
#endif
}
ssize_t connection_send_bytes(connection_t *con, const void *buf, size_t len)
{
ssize_t ret = con->send(con, buf, len);
fastevent_emit(FASTEVENT_TYPE_CONNECTION_WRITE, FASTEVENT_FLAG_MODIFICATION_ALLOWED, FASTEVENT_DATATYPE_OBRD, con, buf, len, ret);
return ret;
}
static inline ssize_t connection_read_bytes_real(connection_t *con, void *buf, size_t len)
{
ssize_t done = 0;
ssize_t ret;
if (con->readbufferlen) {
ICECAST_LOG_DEBUG("On connection %p we read from putback buffer, filled with %zu bytes, requested are %zu bytes", con, con->readbufferlen, len);
if (len >= con->readbufferlen) {
memcpy(buf, con->readbuffer, con->readbufferlen);
free(con->readbuffer);
con->readbuffer = NULL;
ICECAST_LOG_DEBUG("New fill in buffer=<empty>");
if (len == con->readbufferlen) {
con->readbufferlen = 0;
return len;
} else {
len -= con->readbufferlen;
buf += con->readbufferlen;
done = con->readbufferlen;
con->readbufferlen = 0;
}
} else {
memcpy(buf, con->readbuffer, len);
memmove(con->readbuffer, con->readbuffer+len, con->readbufferlen-len);
con->readbufferlen -= len;
return len;
}
}
ret = con->read(con, buf, len);
if (ret < 0) {
if (done == 0) {
return ret;
} else {
return done;
}
}
return done + ret;
}
ssize_t connection_read_bytes(connection_t *con, void *buf, size_t len)
{
ssize_t ret = connection_read_bytes_real(con, buf, len);
fastevent_emit(FASTEVENT_TYPE_CONNECTION_READ, FASTEVENT_FLAG_MODIFICATION_ALLOWED, FASTEVENT_DATATYPE_OBRD, con, buf, len, ret);
return ret;
}
int connection_read_put_back(connection_t *con, const void *buf, size_t len)
{
void *n;
fastevent_emit(FASTEVENT_TYPE_CONNECTION_PUTBACK, FASTEVENT_FLAG_MODIFICATION_ALLOWED, FASTEVENT_DATATYPE_OBR, con, buf, len);
if (con->readbufferlen) {
n = realloc(con->readbuffer, con->readbufferlen + len);
if (!n)
return -1;
memcpy(n + con->readbufferlen, buf, len);
con->readbuffer = n;
con->readbufferlen += len;
ICECAST_LOG_DEBUG("On connection %p %zu bytes have been put back.", con, len);
return 0;
} else {
n = malloc(len);
if (!n)
return -1;
memcpy(n, buf, len);
con->readbuffer = n;
con->readbufferlen = len;
ICECAST_LOG_DEBUG("On connection %p %zu bytes have been put back.", con, len);
return 0;
}
}
/* add client to connection queue. At this point some header information
* has been collected, so we now pass it onto the connection thread for
* further processing
*/
static void _add_connection(client_queue_t *node)
{
thread_spin_lock(&_connection_lock);
*_con_queue_tail = node;
_con_queue_tail = (volatile client_queue_t **) &node->next;
thread_spin_unlock(&_connection_lock);
}
/* this returns queued clients for the connection thread. headers are
* already provided, but need to be parsed.
*/
static client_queue_t *_get_connection(void)
{
client_queue_t *node = NULL;
thread_spin_lock(&_connection_lock);
if (_con_queue){
node = (client_queue_t *)_con_queue;
_con_queue = node->next;
if (_con_queue == NULL)
_con_queue_tail = &_con_queue;
node->next = NULL;
}
thread_spin_unlock(&_connection_lock);
return node;
}
/* run along queue checking for any data that has come in or a timeout */
static void process_request_queue (void)
{
client_queue_t **node_ref = (client_queue_t **)&_req_queue;
ice_config_t *config;
int timeout;
char peak;
config = config_get_config();
timeout = config->header_timeout;
config_release_config();
while (*node_ref) {
client_queue_t *node = *node_ref;
client_t *client = node->client;
int len = PER_CLIENT_REFBUF_SIZE - 1 - node->offset;
char *buf = client->refbuf->data + node->offset;
ICECAST_LOG_DDEBUG("Checking on client %p", client);
if (client->con->tlsmode == ICECAST_TLSMODE_AUTO || client->con->tlsmode == ICECAST_TLSMODE_AUTO_NO_PLAIN) {
if (recv(client->con->sock, &peak, 1, MSG_PEEK) == 1) {
if (peak == 0x16) { /* TLS Record Protocol Content type 0x16 == Handshake */
connection_uses_tls(client->con);
}
}
}
if (len > 0) {
if (client->con->con_time + timeout <= time(NULL)) {
len = 0;
} else {
len = client_read_bytes(client, buf, len);
}
}
if (len > 0 || node->shoutcast > 1) {
ssize_t stream_offset = -1;
int pass_it = 1;
char *ptr;
if (len < 0 && node->shoutcast > 1)
len = 0;
/* handle \n, \r\n and nsvcap which for some strange reason has
* EOL as \r\r\n */
node->offset += len;
client->refbuf->data[node->offset] = '\000';
do {
if (node->shoutcast == 1) {
/* password line */
if (strstr (client->refbuf->data, "\r\r\n") != NULL)
break;
if (strstr (client->refbuf->data, "\r\n") != NULL)
break;
if (strstr (client->refbuf->data, "\n") != NULL)
break;
}
/* stream_offset refers to the start of any data sent after the
* http style headers, we don't want to lose those */
ptr = strstr(client->refbuf->data, "\r\r\n\r\r\n");
if (ptr) {
stream_offset = (ptr+6) - client->refbuf->data;
break;
}
ptr = strstr(client->refbuf->data, "\r\n\r\n");
if (ptr) {
stream_offset = (ptr+4) - client->refbuf->data;
break;
}
ptr = strstr(client->refbuf->data, "\n\n");
if (ptr) {
stream_offset = (ptr+2) - client->refbuf->data;
break;
}
pass_it = 0;
} while (0);
ICECAST_LOG_DDEBUG("pass_it=%i, len=%i", pass_it, (int)len);
ICECAST_LOG_DDEBUG("Client %p has buffer: %H", client, client->refbuf->data);
if (pass_it) {
if (stream_offset != -1) {
connection_read_put_back(client->con, client->refbuf->data + stream_offset, node->offset - stream_offset);
node->offset = stream_offset;
}
if ((client_queue_t **)_req_queue_tail == &(node->next))
_req_queue_tail = (volatile client_queue_t **)node_ref;
*node_ref = node->next;
node->next = NULL;
_add_connection(node);
continue;
}
} else {
if (len == 0 || client->con->error) {
if ((client_queue_t **)_req_queue_tail == &node->next)
_req_queue_tail = (volatile client_queue_t **)node_ref;
*node_ref = node->next;
client_destroy(client);
free(node);
continue;
}
}
node_ref = &node->next;
}
_handle_connection();
}
/* add client to body queue.
*/
static void _add_body_client(client_queue_t *node)
{
ICECAST_LOG_DEBUG("Putting client %p in body queue.", node->client);
thread_spin_lock(&_connection_lock);
*_body_queue_tail = node;
_body_queue_tail = (volatile client_queue_t **) &node->next;
thread_spin_unlock(&_connection_lock);
}
static client_slurp_result_t process_request_body_queue_one(client_queue_t *node, time_t timeout, size_t body_size_limit)
{
client_t *client = node->client;
client_slurp_result_t res;
if (client->parser->req_type == httpp_req_post) {
if (node->bodybuffer == NULL && client->request_body_read == 0) {
if (client->request_body_length < 0) {
node->bodybufferlen = body_size_limit;
node->bodybuffer = malloc(node->bodybufferlen);
} else if (client->request_body_length <= (ssize_t)body_size_limit) {
node->bodybufferlen = client->request_body_length;
node->bodybuffer = malloc(node->bodybufferlen);
}
}
}
if (node->bodybuffer) {
res = client_body_slurp(client, node->bodybuffer, &(node->bodybufferlen));
if (res == CLIENT_SLURP_SUCCESS) {
httpp_parse_postdata(client->parser, node->bodybuffer, node->bodybufferlen);
free(node->bodybuffer);
node->bodybuffer = NULL;
}
} else {
res = client_body_skip(client);
}
if (res != CLIENT_SLURP_SUCCESS) {
if (client->con->con_time <= timeout || client->request_body_read >= body_size_limit) {
return CLIENT_SLURP_ERROR;
}
}
return res;
}
/* This queue reads data from the body of clients. */
static void process_request_body_queue (void)
{
client_queue_t **node_ref = (client_queue_t **)&_body_queue;
ice_config_t *config;
time_t timeout;
size_t body_size_limit;
ICECAST_LOG_DDEBUG("Processing body queue.");
ICECAST_LOG_DDEBUG("_body_queue=%p, &_body_queue=%p, _body_queue_tail=%p", _body_queue, &_body_queue, _body_queue_tail);
config = config_get_config();
timeout = time(NULL) - config->body_timeout;
body_size_limit = config->body_size_limit;
config_release_config();
while (*node_ref) {
client_queue_t *node = *node_ref;
client_t *client = node->client;
client_slurp_result_t res;
node->tried_body = 1;
ICECAST_LOG_DEBUG("Got client %p in body queue.", client);
res = process_request_body_queue_one(node, timeout, body_size_limit);
if (res != CLIENT_SLURP_NEEDS_MORE_DATA) {
ICECAST_LOG_DEBUG("Putting client %p back in connection queue.", client);
if ((client_queue_t **)_body_queue_tail == &(node->next))
_body_queue_tail = (volatile client_queue_t **)node_ref;
*node_ref = node->next;
node->next = NULL;
_add_connection(node);
continue;
}
node_ref = &node->next;
}
}
/* add node to the queue of requests. This is where the clients are when
* initial http details are read.
*/
static void _add_request_queue(client_queue_t *node)
{
*_req_queue_tail = node;
_req_queue_tail = (volatile client_queue_t **)&node->next;
}
static client_queue_t *create_client_node(client_t *client)
{
client_queue_t *node = calloc (1, sizeof (client_queue_t));
const listener_t *listener;
if (!node)
return NULL;
node->client = client;
listener = listensocket_get_listener(client->con->listensocket_effective);
if (listener) {
if (listener->shoutcast_compat)
node->shoutcast = 1;
client->con->tlsmode = listener->tls;
if (listener->tls == ICECAST_TLSMODE_RFC2818 && tls_ok)
connection_uses_tls(client->con);
if (listener->shoutcast_mount)
node->shoutcast_mount = strdup(listener->shoutcast_mount);
}
listensocket_release_listener(client->con->listensocket_effective);
return node;
}
void connection_queue(connection_t *con)
{
client_queue_t *node;
client_t *client = NULL;
global_lock();
if (client_create(&client, con, NULL) < 0) {
global_unlock();
client_send_error_by_id(client, ICECAST_ERROR_GEN_CLIENT_LIMIT);
/* don't be too eager as this is an imposed hard limit */
thread_sleep(400000);
return;
}
/* setup client for reading incoming http */
client->refbuf->data[PER_CLIENT_REFBUF_SIZE-1] = '\000';
if (sock_set_blocking(client->con->sock, 0) || sock_set_nodelay(client->con->sock)) {
global_unlock();
ICECAST_LOG_WARN("Failed to set tcp options on client connection, dropping");
client_destroy(client);
return;
}
node = create_client_node(client);
global_unlock();
if (node == NULL) {
client_destroy(client);
return;
}
_add_request_queue(node);
stats_event_inc(NULL, "connections");
}
void connection_accept_loop(void)
{
connection_t *con;
ice_config_t *config;
int duration = 300;
config = config_get_config();
get_tls_certificate(config);
config_release_config();
while (global.running == ICECAST_RUNNING) {
con = listensocket_container_accept(global.listensockets, duration);
if (con) {
connection_queue(con);
duration = 5;
} else {
if (_req_queue == NULL)
duration = 300; /* use longer timeouts when nothing waiting */
}
process_request_queue();
process_request_body_queue();
}
/* Give all the other threads notification to shut down */
thread_cond_broadcast(&global.shutdown_cond);
/* wait for all the sources to shutdown */
thread_rwlock_wlock(&_source_shutdown_rwlock);
thread_rwlock_unlock(&_source_shutdown_rwlock);
}
/* Called when activating a source. Verifies that the source count is not
* exceeded and applies any initial parameters.
*/
int connection_complete_source(source_t *source, int response)
{
ice_config_t *config;
global_lock();
ICECAST_LOG_DEBUG("sources count is %d", global.sources);
config = config_get_config();
if (global.sources < config->source_limit) {
const char *contenttype;
mount_proxy *mountinfo;
format_type_t format_type;
/* setup format handler */
contenttype = httpp_getvar (source->parser, "content-type");
if (contenttype != NULL) {
format_type = format_get_type(contenttype);
if (format_type == FORMAT_ERROR) {
config_release_config();
global_unlock();
if (response) {
client_send_error_by_id(source->client, ICECAST_ERROR_CON_CONTENT_TYPE_NOSYS);
source->client = NULL;
}
ICECAST_LOG_WARN("Content-type \"%s\" not supported, dropping source", contenttype);
return -1;
}
} else if (source->parser->req_type == httpp_req_put) {
config_release_config();
global_unlock();
if (response) {
client_send_error_by_id(source->client, ICECAST_ERROR_CON_NO_CONTENT_TYPE_GIVEN);
source->client = NULL;
}
ICECAST_LOG_ERROR("Content-type not given in PUT request, dropping source");
return -1;
} else {
ICECAST_LOG_ERROR("No content-type header, falling back to backwards compatibility mode "
"for icecast 1.x relays. Assuming content is mp3. This behaviour is deprecated "
"and the source client will NOT work with future Icecast versions!");
format_type = FORMAT_TYPE_GENERIC;
}
if (format_get_plugin (format_type, source) < 0) {
global_unlock();
config_release_config();
if (response) {
client_send_error_by_id(source->client, ICECAST_ERROR_CON_INTERNAL_FORMAT_ALLOC_ERROR);
source->client = NULL;
}
ICECAST_LOG_WARN("plugin format failed for \"%s\"", source->mount);
return -1;
}
global.sources++;
stats_event_args(NULL, "sources", "%d", global.sources);
global_unlock();
source->running = 1;
mountinfo = config_find_mount(config, source->mount, MOUNT_TYPE_NORMAL);
source_update_settings(config, source, mountinfo);
config_release_config();
slave_rebuild_mounts();
source->shutdown_rwlock = &_source_shutdown_rwlock;
ICECAST_LOG_DEBUG("source is ready to start");
return 0;
}
ICECAST_LOG_WARN("Request to add source when maximum source limit "
"reached %d", global.sources);
global_unlock();
config_release_config();
if (response) {
client_send_error_by_id(source->client, ICECAST_ERROR_CON_SOURCE_CLIENT_LIMIT);
source->client = NULL;
}
return -1;
}
static inline void source_startup(client_t *client)
{
source_t *source;
source = source_reserve(client->uri);
if (source) {
source->client = client;
source->parser = client->parser;
source->con = client->con;
if (connection_complete_source(source, 1) < 0) {
source_clear_source(source);
source_free_source(source);
return;
}
client->respcode = 200;
if (client->protocol == ICECAST_PROTOCOL_SHOUTCAST) {
client->respcode = 200;
/* send this non-blocking but if there is only a partial write
* then leave to header timeout */
client_send_bytes(client, "OK2\r\nicy-caps:11\r\n\r\n", 20); /* TODO: Replace Magic Number! */
source->shoutcast_compat = 1;
source_client_callback(client, source);
} else {
refbuf_t *ok = refbuf_new(PER_CLIENT_REFBUF_SIZE);
const char *expectcontinue;
const char *transfer_encoding;
int status_to_send = 0;
ssize_t ret;
transfer_encoding = httpp_getvar(source->parser, "transfer-encoding");
if (transfer_encoding && strcasecmp(transfer_encoding, HTTPP_ENCODING_IDENTITY) != 0) {
client->encoding = httpp_encoding_new(transfer_encoding);
if (!client->encoding) {
client_send_error_by_id(client, ICECAST_ERROR_CON_UNIMPLEMENTED);
return;
}
}
if (source->parser && source->parser->req_type == httpp_req_source) {
status_to_send = 200;
} else {
/* For PUT support we check for 100-continue and send back a 100 to stay in spec */
expectcontinue = httpp_getvar (source->parser, "expect");
if (expectcontinue != NULL) {
#ifdef HAVE_STRCASESTR
if (strcasestr (expectcontinue, "100-continue") != NULL)
#else
ICECAST_LOG_WARN("OS doesn't support case insensitive substring checks...");
if (strstr (expectcontinue, "100-continue") != NULL)
#endif
{
status_to_send = 100;
}
}
}
client->respcode = 200;
if (status_to_send) {
ret = util_http_build_header(ok->data, PER_CLIENT_REFBUF_SIZE, 0, 0, status_to_send, NULL, NULL, NULL, NULL, NULL, client);
snprintf(ok->data + ret, PER_CLIENT_REFBUF_SIZE - ret, "Content-Length: 0\r\n\r\n");
ok->len = strlen(ok->data);
} else {
ok->len = 0;
}
refbuf_release(client->refbuf);
client->refbuf = ok;
fserve_add_client_callback(client, source_client_callback, source);
}
} else {
client_send_error_by_id(client, ICECAST_ERROR_CON_MOUNT_IN_USE);
ICECAST_LOG_WARN("Mountpoint %s in use", client->uri);
}
}
/* only called for native icecast source clients */
static void _handle_source_request(client_t *client)
{
const char *method = httpp_getvar(client->parser, HTTPP_VAR_REQ_TYPE);
ICECAST_LOG_INFO("Source logging in at mountpoint \"%s\" using %s%H%s from %s as role %s with acl %s",
client->uri,
((method) ? "\"" : "<"), ((method) ? method : "unknown"), ((method) ? "\"" : ">"),
client->con->ip, client->role, acl_get_name(client->acl));
if (client->parser && client->parser->req_type == httpp_req_source) {
ICECAST_LOG_DEBUG("Source at mountpoint \"%s\" connected using deprecated SOURCE method.", client->uri);
}
if (client->uri[0] != '/') {
ICECAST_LOG_WARN("source mountpoint not starting with /");
client_send_error_by_id(client, ICECAST_ERROR_CON_MOUNTPOINT_NOT_STARTING_WITH_SLASH);
return;
}
source_startup(client);
}
static void _handle_stats_request(client_t *client)
{
stats_event_inc(NULL, "stats_connections");
client->respcode = 200;
snprintf (client->refbuf->data, PER_CLIENT_REFBUF_SIZE,
"HTTP/1.0 200 OK\r\n\r\n");
client->refbuf->len = strlen(client->refbuf->data);
fserve_add_client_callback(client, stats_callback, NULL);
}
/* if 0 is returned then the client should not be touched, however if -1
* is returned then the caller is responsible for handling the client
*/
static void __add_listener_to_source(source_t *source, client_t *client)
{
size_t loop = 10;
do {
ICECAST_LOG_DEBUG("max on %s is %ld (cur %lu)", source->mount,
source->max_listeners, source->listeners);
if (source->max_listeners == -1)
break;
if (source->listeners < (unsigned long)source->max_listeners)
break;
if (loop && source->fallback_when_full && source->fallback_mount) {
source_t *next = source_find_mount (source->fallback_mount);
if (!next) {
ICECAST_LOG_ERROR("Fallback '%s' for full source '%s' not found",
source->mount, source->fallback_mount);
client_send_error_by_id(client, ICECAST_ERROR_SOURCE_MAX_LISTENERS);
return;
}
ICECAST_LOG_INFO("stream full, trying %s", next->mount);
source = next;
navigation_history_navigate_to(&(client->history), source->identifier, NAVIGATION_DIRECTION_DOWN);
loop--;
continue;
}
/* now we fail the client */
client_send_error_by_id(client, ICECAST_ERROR_SOURCE_MAX_LISTENERS);
return;
} while (1);
client->write_to_client = format_generic_write_to_client;
client->check_buffer = format_check_http_buffer;
client->refbuf->len = PER_CLIENT_REFBUF_SIZE;
memset(client->refbuf->data, 0, PER_CLIENT_REFBUF_SIZE);
/* lets add the client to the active list */
avl_tree_wlock(source->pending_tree);
avl_insert(source->pending_tree, client);
avl_tree_unlock(source->pending_tree);
if (source->running == 0 && source->on_demand) {
/* enable on-demand relay to start, wake up the slave thread */
ICECAST_LOG_DEBUG("kicking off on-demand relay");
source->on_demand_req = 1;
}
ICECAST_LOG_DEBUG("Added client to %s", source->mount);
}
/* count the number of clients on a mount with same username and same role as the given one */
static inline ssize_t __count_user_role_on_mount (source_t *source, client_t *client) {
ssize_t ret = 0;
avl_node *node;
avl_tree_rlock(source->client_tree);
node = avl_get_first(source->client_tree);
while (node) {
client_t *existing_client = (client_t *)node->key;
if (existing_client->username && client->username &&
strcmp(existing_client->username, client->username) == 0 &&
existing_client->role && client->role &&
strcmp(existing_client->role, client->role) == 0) {
ret++;
}
node = avl_get_next(node);
}
avl_tree_unlock(source->client_tree);
avl_tree_rlock(source->pending_tree);
node = avl_get_first(source->pending_tree);
while (node) {
client_t *existing_client = (client_t *)node->key;
if (existing_client->username && client->username &&
strcmp(existing_client->username, client->username) == 0 &&
existing_client->role && client->role &&
strcmp(existing_client->role, client->role) == 0){
ret++;
}
node = avl_get_next(node);
}
avl_tree_unlock(source->pending_tree);
return ret;
}
static void _handle_get_request(client_t *client) {
source_t *source = NULL;
ICECAST_LOG_DEBUG("Got client %p with URI %H", client, client->uri);
/* there are several types of HTTP GET clients
* media clients, which are looking for a source (eg, URI = /stream.ogg),
* stats clients, which are looking for /admin/stats.xml and
* fserve clients, which are looking for static files.
*/
stats_event_inc(NULL, "client_connections");
/* this is a web/ request. let's check if we are allowed to do that. */
if (acl_test_web(client->acl) != ACL_POLICY_ALLOW) {
/* doesn't seem so, sad client :( */
auth_reject_client_on_deny(client);
return;
}
if (client->parser->req_type == httpp_req_options) {
client_send_204(client);
return;
}
if (util_check_valid_extension(client->uri) == XSLT_CONTENT) {
/* If the file exists, then transform it, otherwise, write a 404 */
ICECAST_LOG_DEBUG("Stats request, sending XSL transformed stats");
stats_transform_xslt(client);
return;
}
avl_tree_rlock(global.source_tree);
/* let's see if this is a source or just a random fserve file */
source = source_find_mount_with_history(client->uri, &(client->history));
if (source) {
/* true mount */
do {
ssize_t max_connections_per_user = acl_get_max_connections_per_user(client->acl);
/* check for duplicate_logins */
if (max_connections_per_user > 0) { /* -1 = not set (-> default=unlimited), 0 = unlimited */
if (max_connections_per_user <= __count_user_role_on_mount(source, client)) {
client_send_error_by_id(client, ICECAST_ERROR_CON_PER_CRED_CLIENT_LIMIT);
break;
}
}
if (!source->allow_direct_access) {
client_send_error_by_id(client, ICECAST_ERROR_CON_MOUNT_NO_FOR_DIRECT_ACCESS);
break;
}
/* Set max listening duration in case not already set. */
if (client->con->discon_time == 0) {
time_t connection_duration = acl_get_max_connection_duration(client->acl);
if (connection_duration == -1) {
ice_config_t *config = config_get_config();
mount_proxy *mount = config_find_mount(config, source->mount, MOUNT_TYPE_NORMAL);
if (mount && mount->max_listener_duration)
connection_duration = mount->max_listener_duration;
config_release_config();
}
if (connection_duration > 0) /* -1 = not set (-> default=unlimited), 0 = unlimited */
client->con->discon_time = connection_duration + time(NULL);
}
__add_listener_to_source(source, client);
} while (0);
avl_tree_unlock(global.source_tree);
} else {
/* file */
avl_tree_unlock(global.source_tree);
fserve_client_create(client);
}
}
static void _handle_delete_request(client_t *client) {
source_t *source;
avl_tree_wlock(global.source_tree);
source = source_find_mount_raw(client->uri);
if (source) {
source->running = 0;
avl_tree_unlock(global.source_tree);
client_send_204(client);
} else {
avl_tree_unlock(global.source_tree);
client_send_error_by_id(client, ICECAST_ERROR_CON_UNKNOWN_REQUEST);
}
}
static void _handle_shoutcast_compatible(client_queue_t *node)
{
char *http_compliant;
int http_compliant_len = 0;
http_parser_t *parser;
const char *shoutcast_mount;
client_t *client = node->client;
ice_config_t *config;
ICECAST_LOG_DDEBUG("Client %p is a shoutcast client of stage %i", client, (int)node->shoutcast);
if (node->shoutcast == 1)
{
char *ptr, *headers;
ICECAST_LOG_DDEBUG("Client %p has buffer: %H", client, client->refbuf->data);
/* Get rid of trailing \r\n or \n after password */
ptr = strstr(client->refbuf->data, "\r\r\n");
if (ptr) {
headers = ptr+3;
} else {
ptr = strstr(client->refbuf->data, "\r\n");
if (ptr) {
headers = ptr+2;
} else {
ptr = strstr(client->refbuf->data, "\n");
if (ptr)
headers = ptr+1;
}
}
if (ptr == NULL){
client_destroy(client);
free(node->shoutcast_mount);
free(node);
return;
}
*ptr = '\0';
client->password = strdup(client->refbuf->data);
config = config_get_config();
client->username = strdup(config->shoutcast_user);
config_release_config();
node->offset -= (headers - client->refbuf->data);
memmove(client->refbuf->data, headers, node->offset+1);
node->shoutcast = 2;
/* we've checked the password, now send it back for reading headers */
_add_request_queue(node);
ICECAST_LOG_DDEBUG("Client %p re-added to request queue", client);
return;
}
/* actually make a copy as we are dropping the config lock */
/* Here we create a valid HTTP request based of the information
that was passed in via the non-HTTP style protocol above. This
means we can use some of our existing code to handle this case */
config = config_get_config();
if (node->shoutcast_mount) {
shoutcast_mount = node->shoutcast_mount;
} else {
shoutcast_mount = config->shoutcast_mount;
}
http_compliant_len = 20 + strlen(shoutcast_mount) + node->offset;
http_compliant = (char *)calloc(1, http_compliant_len);
snprintf(http_compliant, http_compliant_len,
"SOURCE %s HTTP/1.0\r\n%s", shoutcast_mount, client->refbuf->data);
config_release_config();
parser = httpp_create_parser();
httpp_initialize(parser, NULL);
if (httpp_parse(parser, http_compliant, strlen(http_compliant))) {
client->refbuf->len = 0;
client->parser = parser;
client->protocol = ICECAST_PROTOCOL_SHOUTCAST;
node->shoutcast = 0;
return;
} else {
httpp_destroy(parser);
client_destroy(client);
}
free(http_compliant);
free(node->shoutcast_mount);
free(node);
return;
}
/* Handle <resource> lookups here.
*/
static int _handle_resources(client_t *client, char **uri)
{
const char *http_host = httpp_getvar(client->parser, "host");
char *serverhost = NULL;
int serverport = 0;
char *vhost = NULL;
char *vhost_colon;
char *new_uri = NULL;
ice_config_t *config;
const listener_t *listen_sock;
resource_t *resource;
if (http_host) {
vhost = strdup(http_host);
if (vhost) {
vhost_colon = strstr(vhost, ":");
if (vhost_colon)
*vhost_colon = 0;
}
}
config = config_get_config();
listen_sock = listensocket_get_listener(client->con->listensocket_effective);
if (listen_sock) {
serverhost = listen_sock->bind_address;
serverport = listen_sock->port;
}
resource = config->resources;
/* We now go thru all resources and see if any matches. */
for (; resource; resource = resource->next) {
/* We check for several aspects, if they DO NOT match, we continue with our search. */
/* Check for the URI to match. */
if (resource->flags & ALIAS_FLAG_PREFIXMATCH) {
size_t len = strlen(resource->source);
if (strncmp(*uri, resource->source, len) != 0)
continue;
ICECAST_LOG_DEBUG("Match: *uri='%s', resource->source='%s', len=%zu", *uri, resource->source, len);
} else {
if (strcmp(*uri, resource->source) != 0)
continue;
}
/* Check for the server's port to match. */
if (resource->port != -1 && resource->port != serverport)
continue;
/* Check for the server's bind address to match. */
if (resource->bind_address != NULL && serverhost != NULL && strcmp(resource->bind_address, serverhost) != 0)
continue;
if (resource->listen_socket != NULL && (listen_sock->id == NULL || strcmp(resource->listen_socket, listen_sock->id) != 0))
continue;
/* Check for the vhost to match. */
if (resource->vhost != NULL && vhost != NULL && strcmp(resource->vhost, vhost) != 0)
continue;
/* Ok, we found a matching entry. */
if (resource->destination) {
if (resource->flags & ALIAS_FLAG_PREFIXMATCH) {
size_t len = strlen(resource->source);
asprintf(&new_uri, "%s%s", resource->destination, (*uri) + len);
} else {
new_uri = strdup(resource->destination);
}
}
if (resource->omode != OMODE_DEFAULT)
client->mode = resource->omode;
if (resource->module) {
module_t *module = module_container_get_module(global.modulecontainer, resource->module);
if (module != NULL) {
refobject_unref(client->handler_module);
client->handler_module = module;
} else {
ICECAST_LOG_ERROR("Module used in alias not found: %s", resource->module);
}
}
if (resource->handler) {
char *func = strdup(resource->handler);
if (func) {
free(client->handler_function);
client->handler_function = func;
} else {
ICECAST_LOG_ERROR("Can not allocate memory.");
}
}
ICECAST_LOG_DEBUG("resource has made %s into %s", *uri, new_uri);
break;
}
listensocket_release_listener(client->con->listensocket_effective);
config_release_config();
if (new_uri) {
free(*uri);
*uri = new_uri;
}
if (vhost)
free(vhost);
return 0;
}
static void _handle_admin_request(client_t *client, char *adminuri)
{
ICECAST_LOG_DEBUG("Client %p requesting admin interface.", client);
stats_event_inc(NULL, "client_connections");
admin_handle_request(client, adminuri);
}
/* Handle any client that passed the authing process.
*/
static void _handle_authed_client(client_t *client, void *userdata, auth_result result)
{
auth_stack_release(client->authstack);
client->authstack = NULL;
/* Update admin parameters just in case auth changed our URI */
if (_update_admin_command(client) == -1)
return;
fastevent_emit(FASTEVENT_TYPE_CLIENT_AUTHED, FASTEVENT_FLAG_MODIFICATION_ALLOWED, FASTEVENT_DATATYPE_CLIENT, client);
if (result != AUTH_OK) {
auth_reject_client_on_fail(client);
return;
}
if (acl_test_method(client->acl, client->parser->req_type) != ACL_POLICY_ALLOW) {
ICECAST_LOG_ERROR("Client (role=%s, acl=%s, username=%s) not allowed to use this request method on %H", client->role, acl_get_name(client->acl), client->username, client->uri);
auth_reject_client_on_deny(client);
return;
}
/* Dispatch legacy admin.cgi requests */
if (strcmp(client->uri, "/admin.cgi") == 0) {
_handle_admin_request(client, client->uri + 1);
return;
} /* Dispatch all admin requests */
else if (strncmp(client->uri, "/admin/", 7) == 0) {
_handle_admin_request(client, client->uri + 7);
return;
}
if (client->handler_module && client->handler_function) {
const module_client_handler_t *handler = module_get_client_handler(client->handler_module, client->handler_function);
if (handler) {
handler->cb(client->handler_module, client);
return;
} else {
ICECAST_LOG_ERROR("No such handler function in module: %s", client->handler_function);
}
}
switch (client->parser->req_type) {
case httpp_req_source:
case httpp_req_put:
_handle_source_request(client);
break;
case httpp_req_stats:
_handle_stats_request(client);
break;
case httpp_req_get:
case httpp_req_post:
case httpp_req_options:
_handle_get_request(client);
break;
case httpp_req_delete:
_handle_delete_request(client);
break;
default:
ICECAST_LOG_ERROR("Wrong request type from client");
client_send_error_by_id(client, ICECAST_ERROR_CON_UNKNOWN_REQUEST);
break;
}
}
/* Handle clients that still need to authenticate.
*/
static void _handle_authentication_global(client_t *client, void *userdata, auth_result result)
{
ice_config_t *config;
auth_stack_t *authstack;
auth_stack_release(client->authstack);
client->authstack = NULL;
if (result != AUTH_NOMATCH &&
/* Allow global admins access to all mount points */
!(result == AUTH_OK && client->admin_command != ADMIN_COMMAND_ERROR && acl_test_admin(client->acl, client->admin_command) == ACL_POLICY_DENY)) {
_handle_authed_client(client, userdata, result);
return;
}
ICECAST_LOG_DEBUG("Trying global authenticators for client %p.", client);
config = config_get_config();
authstack = config->authstack;
auth_stack_addref(authstack);
config_release_config();
auth_stack_add_client(authstack, client, _handle_authed_client, userdata);
auth_stack_release(authstack);
}
static inline mount_proxy * __find_non_admin_mount(ice_config_t *config, const char *name, mount_type type)
{
if (strcmp(name, "/admin.cgi") == 0 || strncmp(name, "/admin/", 7) == 0)
return NULL;
return config_find_mount(config, name, type);
}
static void _handle_authentication_mount_generic(client_t *client, void *userdata, mount_type type, void (*callback)(client_t*, void*, auth_result))
{
ice_config_t *config;
mount_proxy *mountproxy;
auth_stack_t *stack = NULL;
config = config_get_config();
mountproxy = __find_non_admin_mount(config, client->uri, type);
if (!mountproxy) {
int command_type = admin_get_command_type(client->admin_command);
if (command_type == ADMINTYPE_MOUNT || command_type == ADMINTYPE_HYBRID) {
const char *mount = httpp_get_param(client->parser, "mount");
if (mount)
mountproxy = __find_non_admin_mount(config, mount, type);
}
}
if (mountproxy && mountproxy->mounttype == type)
stack = mountproxy->authstack;
auth_stack_addref(stack);
config_release_config();
if (stack) {
auth_stack_add_client(stack, client, callback, userdata);
auth_stack_release(stack);
} else {
callback(client, userdata, AUTH_NOMATCH);
}
}
static void _handle_authentication_mount_default(client_t *client, void *userdata, auth_result result)
{
auth_stack_release(client->authstack);
client->authstack = NULL;
if (result != AUTH_NOMATCH &&
/* Allow global admins access to all mount points */
!(result == AUTH_OK && client->admin_command != ADMIN_COMMAND_ERROR && acl_test_admin(client->acl, client->admin_command) == ACL_POLICY_DENY)) {
_handle_authed_client(client, userdata, result);
return;
}
ICECAST_LOG_DEBUG("Trying <mount type=\"default\"> specific authenticators for client %p.", client);
_handle_authentication_mount_generic(client, userdata, MOUNT_TYPE_DEFAULT, _handle_authentication_global);
}
static void _handle_authentication_mount_normal(client_t *client, void *userdata, auth_result result)
{
auth_stack_release(client->authstack);
client->authstack = NULL;
if (result != AUTH_NOMATCH) {
_handle_authed_client(client, userdata, result);
return;
}
ICECAST_LOG_DEBUG("Trying <mount type=\"normal\"> specific authenticators for client %p.", client);
_handle_authentication_mount_generic(client, userdata, MOUNT_TYPE_NORMAL, _handle_authentication_mount_default);
}
static void _handle_authentication_listen_socket(client_t *client)
{
auth_stack_t *stack = NULL;
const listener_t *listener;
listener = listensocket_get_listener(client->con->listensocket_effective);
if (listener) {
if (listener->authstack) {
auth_stack_addref(stack = listener->authstack);
}
listensocket_release_listener(client->con->listensocket_effective);
}
if (stack) {
auth_stack_add_client(stack, client, _handle_authentication_mount_normal, NULL);
auth_stack_release(stack);
} else {
_handle_authentication_mount_normal(client, NULL, AUTH_NOMATCH);
}
}
static void _handle_authentication(client_t *client)
{
fastevent_emit(FASTEVENT_TYPE_CLIENT_READY_FOR_AUTH, FASTEVENT_FLAG_MODIFICATION_ALLOWED, FASTEVENT_DATATYPE_CLIENT, client);
_handle_authentication_listen_socket(client);
}
static void __prepare_shoutcast_admin_cgi_request(client_t *client)
{
ice_config_t *config;
const char *sc_mount;
const char *pass = httpp_get_query_param(client->parser, "pass");
const listener_t *listener;
if (pass == NULL) {
ICECAST_LOG_ERROR("missing pass parameter");
return;
}
if (client->password) {
ICECAST_LOG_INFO("Client already has password set");
return;
}
/* Why do we acquire a global lock here? -- ph3-der-loewe, 2018-05-11 */
global_lock();
config = config_get_config();
sc_mount = config->shoutcast_mount;
listener = listensocket_get_listener(client->con->listensocket_effective);
if (listener && listener->shoutcast_mount)
sc_mount = listener->shoutcast_mount;
httpp_set_query_param(client->parser, "mount", sc_mount);
listensocket_release_listener(client->con->listensocket_effective);
httpp_setvar(client->parser, HTTPP_VAR_PROTOCOL, "ICY");
client->password = strdup(pass);
config_release_config();
global_unlock();
}
/* Check if we need body of client */
static int _need_body(client_queue_t *node)
{
client_t *client = node->client;
if (node->tried_body)
return 0;
if (client->parser->req_type == httpp_req_source) {
/* SOURCE connection. */
return 0;
} else if (client->parser->req_type == httpp_req_put) {
/* PUT connection.
* TODO: We may need body for /admin/ but we do not know if it's an admin request yet.
*/
return 0;
} else if (client->request_body_length != -1 && (size_t)client->request_body_length != client->request_body_read) {
return 1;
} else if (client->request_body_length == -1 && client_body_eof(client) == 0) {
return 1;
}
return 0;
}
/* Updates client's admin_command */
static int _update_admin_command(client_t *client)
{
if (strcmp(client->uri, "/admin.cgi") == 0) {
client->admin_command = admin_get_command(client->uri + 1);
__prepare_shoutcast_admin_cgi_request(client);
if (!client->password) {
client_send_error_by_id(client, ICECAST_ERROR_CON_MISSING_PASS_PARAMETER);
return -1;
}
} else if (strncmp(client->uri, "/admin/", 7) == 0) {
client->admin_command = admin_get_command(client->uri + 7);
}
return 0;
}
/* Connection thread. Here we take clients off the connection queue and check
* the contents provided. We set up the parser then hand off to the specific
* request handler.
*/
static void _handle_connection(void)
{
http_parser_t *parser;
const char *rawuri;
client_queue_t *node;
while (1) {
node = _get_connection();
if (node) {
client_t *client = node->client;
int already_parsed = 0;
/* Check for special shoutcast compatability processing */
if (node->shoutcast) {
_handle_shoutcast_compatible (node);
if (node->shoutcast)
continue;
}
/* process normal HTTP headers */
if (client->parser) {
already_parsed = 1;
parser = client->parser;
} else {
parser = httpp_create_parser();
httpp_initialize(parser, NULL);
client->parser = parser;
}
if (already_parsed || httpp_parse (parser, client->refbuf->data, node->offset)) {
char *uri;
const char *upgrade, *connection;
client->refbuf->len = 0;
/* early check if we need more data */
client_complete(client);
if (_need_body(node)) {
/* Just calling _add_body_client() would do the job.
* However, if the client only has a small body this might work without moving it between queues.
* -> much faster.
*/
client_slurp_result_t res;
ice_config_t *config;
time_t timeout;
size_t body_size_limit;
config = config_get_config();
timeout = time(NULL) - config->body_timeout;
body_size_limit = config->body_size_limit;
config_release_config();
res = process_request_body_queue_one(node, timeout, body_size_limit);
if (res != CLIENT_SLURP_SUCCESS) {
_add_body_client(node);
continue;
} else {
ICECAST_LOG_DEBUG("Success on fast lane");
}
}
rawuri = httpp_getvar(parser, HTTPP_VAR_URI);
/* assign a port-based shoutcast mountpoint if required */
if (node->shoutcast_mount && strcmp (rawuri, "/admin.cgi") == 0)
httpp_set_query_param (client->parser, "mount", node->shoutcast_mount);
free (node->bodybuffer);
free (node->shoutcast_mount);
free (node);
if (strcmp("ICE", httpp_getvar(parser, HTTPP_VAR_PROTOCOL)) &&
strcmp("HTTP", httpp_getvar(parser, HTTPP_VAR_PROTOCOL))) {
ICECAST_LOG_ERROR("Bad HTTP protocol detected");
client_destroy (client);
continue;
}
upgrade = httpp_getvar(parser, "upgrade");
connection = httpp_getvar(parser, "connection");
if (upgrade && connection && strcasecmp(connection, "upgrade") == 0) {
if (client->con->tlsmode == ICECAST_TLSMODE_DISABLED || client->con->tls || strstr(upgrade, "TLS/1.0") == NULL) {
client_send_error_by_id(client, ICECAST_ERROR_CON_UPGRADE_ERROR);
continue;
} else {
client_send_101(client, ICECAST_REUSE_UPGRADETLS);
continue;
}
} else if (client->con->tlsmode != ICECAST_TLSMODE_DISABLED && client->con->tlsmode != ICECAST_TLSMODE_AUTO && !client->con->tls) {
client_send_426(client, ICECAST_REUSE_UPGRADETLS);
continue;
}
if (parser->req_type == httpp_req_options && strcmp(rawuri, "*") == 0) {
client->uri = strdup("*");
client_send_204(client);
continue;
}
uri = util_normalise_uri(rawuri);
if (!uri) {
client_destroy (client);
continue;
}
client->mode = config_str_to_omode(NULL, NULL, httpp_get_param(client->parser, "omode"));
if (_handle_resources(client, &uri) != 0) {
client_destroy (client);
continue;
}
client->uri = uri;
if (_update_admin_command(client) == -1)
continue;
_handle_authentication(client);
} else {
free (node);
ICECAST_LOG_ERROR("HTTP request parsing failed");
client_destroy (client);
}
continue;
}
break;
}
}
static void __on_sock_count(size_t count, void *userdata)
{
(void)userdata;
ICECAST_LOG_DEBUG("Listen socket count is now %zu.", count);
if (count == 0 && global.running == ICECAST_RUNNING) {
ICECAST_LOG_INFO("No more listen sockets. Exiting.");
global.running = ICECAST_HALTING;
}
}
/* called when listening thread is not checking for incoming connections */
void connection_setup_sockets (ice_config_t *config)
{
global_lock();
refobject_unref(global.listensockets);
if (config == NULL) {
global_unlock();
return;
}
/* setup the banned/allowed IP filenames from the xml */
if (config->banfile) {
matchfile_release(banned_ip);
banned_ip = matchfile_new(config->banfile);
if (!banned_ip)
ICECAST_LOG_ERROR("Can not create ban object, bad!");
}
if (config->allowfile) {
matchfile_release(allowed_ip);
allowed_ip = matchfile_new(config->allowfile);
}
global.listensockets = refobject_new(listensocket_container_t);
listensocket_container_configure(global.listensockets, config);
global_unlock();
listensocket_container_set_sockcount_cb(global.listensockets, __on_sock_count, NULL);
listensocket_container_setup(global.listensockets);;
}
void connection_close(connection_t *con)
{
if (!con)
return;
ICECAST_LOG_DEBUG("Closing connection %p (connection ID: %llu, sock=%R)", con, (long long unsigned int)con->id, con->sock);
fastevent_emit(FASTEVENT_TYPE_CONNECTION_DESTROY, FASTEVENT_FLAG_MODIFICATION_ALLOWED, FASTEVENT_DATATYPE_CONNECTION, con);
tls_unref(con->tls);
if (con->sock != SOCK_ERROR)
sock_close(con->sock);
if (con->ip)
free(con->ip);
if (con->readbuffer)
free(con->readbuffer);
refobject_unref(con->listensocket_real);
refobject_unref(con->listensocket_effective);
free(con);
}
void connection_queue_client(client_t *client)
{
client_queue_t *node = create_client_node(client);
_add_connection(node);
}
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