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winlin
7c2576e5 2 parents bee313e9 cc6aca9a

Merge branch 'srs.master'

内嵌 并排对比
正在显示 8 个修改的文件 包含 246 行增加24 行删除
... ... @@ -242,6 +242,7 @@ Supported operating systems and hardware:
* 2013-10-17, Created.<br/>
## History
* v2.0, 2014-11-08, fix [#194](https://github.com/winlinvip/simple-rtmp-server/issues/194), writev multiple msgs, support 6k+ 250kbps clients. 2.0.15.
* v2.0, 2014-11-08, fix [#194](https://github.com/winlinvip/simple-rtmp-server/issues/194), optmized st for timeout recv. pulse to 500ms. 2.0.14.
* v2.0, 2014-11-08, fix [#195](https://github.com/winlinvip/simple-rtmp-server/issues/195), remove the confuse code st_usleep(0). 2.0.13.
* v2.0, 2014-11-08, fix [#191](https://github.com/winlinvip/simple-rtmp-server/issues/191), configure --export-librtmp-project and --export-librtmp-single. 2.0.11.
... ... @@ -449,6 +450,7 @@ Performance benchmark history, on virtual box:
* 2014-11-11, SRS 1.0.5, 2700clients, 85%CPU, 66MB. (1.0 equals 2.0.12)
* 2014-11-12, SRS 2.0.14, 2700clients, 69%CPU, 59MB.
* 2014-11-12, SRS 2.0.14, 3500clients, 95%CPU, 78MB.
* 2014-11-13, SRS 2.0.15, 6000clients, 82%CPU, 203MB.
Latest benchmark(2014-07-12):
... ...
... ... @@ -525,10 +525,7 @@ int SrsRtmpConn::playing(SrsSource* source)
int64_t starttime = -1;
while (true) {
// collect elapse for pithy print.
pithy_print.elapse();
// to use isolate thread to recv, can improve about 5% performance.
// TODO: to use isolate thread to recv, can improve about 5% performance.
// @see: https://github.com/winlinvip/simple-rtmp-server/issues/196
// read from client.
if (true) {
... ... @@ -539,6 +536,7 @@ int SrsRtmpConn::playing(SrsSource* source)
if (ret == ERROR_SOCKET_TIMEOUT) {
// it's ok, do nothing.
ret = ERROR_SUCCESS;
srs_verbose("recv timeout, ignore. ret=%d", ret);
} else if (ret != ERROR_SUCCESS) {
if (!srs_is_client_gracefully_close(ret)) {
srs_error("recv client control message failed. ret=%d", ret);
... ... @@ -554,6 +552,9 @@ int SrsRtmpConn::playing(SrsSource* source)
}
}
// collect elapse for pithy print.
pithy_print.elapse();
// get messages from consumer.
int count = 0;
if ((ret = consumer->dump_packets(msgs.size, msgs.msgs, count)) != ERROR_SUCCESS) {
... ... @@ -568,22 +569,16 @@ int SrsRtmpConn::playing(SrsSource* source)
" time=%"PRId64", msgs=%d, okbps=%d,%d,%d, ikbps=%d,%d,%d",
pithy_print.age(), count,
kbps->get_send_kbps(), kbps->get_send_kbps_30s(), kbps->get_send_kbps_5m(),
kbps->get_recv_kbps(), kbps->get_recv_kbps_30s(), kbps->get_recv_kbps_5m());
kbps->get_recv_kbps(), kbps->get_recv_kbps_30s(), kbps->get_recv_kbps_5m()
);
}
// sendout messages
// @remark, becareful, all msgs must be free explicitly,
// free by send_and_free_message or srs_freep.
for (int i = 0; i < count; i++) {
SrsSharedPtrMessage* msg = msgs.msgs[i];
// the send_message will free the msg,
// so set the msgs[i] to NULL.
msgs.msgs[i] = NULL;
// only when user specifies the duration,
// we start to collect the durations for each message.
if (user_specified_duration_to_stop) {
for (int i = 0; i < count; i++) {
SrsSharedPtrMessage* msg = msgs.msgs[i];
// foreach msg, collect the duration.
// @remark: never use msg when sent it, for the protocol sdk will free it.
if (starttime < 0 || starttime > msg->header.timestamp) {
... ... @@ -592,12 +587,23 @@ int SrsRtmpConn::playing(SrsSource* source)
duration += msg->header.timestamp - starttime;
starttime = msg->header.timestamp;
}
}
// sendout messages
// @remark, becareful, all msgs must be free explicitly,
// free by send_and_free_message or srs_freep.
if (count > 0) {
// no need to assert msg, for the rtmp will assert it.
if ((ret = rtmp->send_and_free_message(msg, res->stream_id)) != ERROR_SUCCESS) {
srs_error("send message to client failed. ret=%d", ret);
return ret;
ret = rtmp->send_and_free_messages(msgs.msgs, count, res->stream_id);
}
for (int i = 0; i < count; i++) {
// the send_message will free the msg,
// so set the msgs[i] to NULL.
msgs.msgs[i] = NULL;
}
if (ret != ERROR_SUCCESS) {
srs_error("send messages to client failed. ret=%d", ret);
return ret;
}
// if duration specified, and exceed it, stop play live.
... ...
... ... @@ -31,7 +31,7 @@ CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
// current release version
#define VERSION_MAJOR 2
#define VERSION_MINOR 0
#define VERSION_REVISION 14
#define VERSION_REVISION 15
// server info.
#define RTMP_SIG_SRS_KEY "SRS"
#define RTMP_SIG_SRS_ROLE "origin/edge server"
... ...
... ... @@ -97,6 +97,19 @@ CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
// always use fmt0 as cache.
//#define SRS_CONSTS_RTMP_MAX_FMT3_HEADER_SIZE 5
/**
* for performance issue,
* the iovs cache, @see https://github.com/winlinvip/simple-rtmp-server/issues/194
* iovs cache for multiple messages for each connections.
*/
#define SRS_CONSTS_IOVS_MAX 1024
/**
* for performance issue,
* the c0c3 cache, @see https://github.com/winlinvip/simple-rtmp-server/issues/194
* c0c3 cache for multiple messages for each connections.
*/
#define SRS_CONSTS_C0C3_HEADERS_MAX 4096
///////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////
... ...
... ... @@ -771,6 +771,11 @@ int SrsRtmpServer::send_and_free_message(SrsMessage* msg, int stream_id)
return protocol->send_and_free_message(msg, stream_id);
}
int SrsRtmpServer::send_and_free_messages(SrsSharedPtrMessage** msgs, int nb_msgs, int stream_id)
{
return protocol->send_and_free_messages(msgs, nb_msgs, stream_id);
}
int SrsRtmpServer::send_and_free_packet(SrsPacket* packet, int stream_id)
{
return protocol->send_and_free_packet(packet, stream_id);
... ...
... ... @@ -368,6 +368,15 @@ public:
*/
virtual int send_and_free_message(SrsMessage* msg, int stream_id);
/**
* send the RTMP message and always free it.
* user must never free or use the msg after this method,
* for it will always free the msg.
* @param msgs, the msgs to send out, never be NULL.
* @param nb_msgs, the size of msgs to send out.
* @param stream_id, the stream id of packet to send over, 0 for control message.
*/
virtual int send_and_free_messages(SrsSharedPtrMessage** msgs, int nb_msgs, int stream_id);
/**
* send the RTMP packet and always free it.
* user must never free or use the packet after this method,
* for it will always free the packet.
... ...
... ... @@ -29,6 +29,7 @@ CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
#include <srs_core_autofree.hpp>
#include <srs_kernel_utility.hpp>
#include <stdlib.h>
using namespace std;
// when got a messae header, there must be some data,
... ... @@ -404,7 +405,15 @@ SrsProtocol::SrsProtocol(ISrsProtocolReaderWriter* io)
in_buffer = new SrsBuffer();
skt = io;
in_chunk_size = out_chunk_size = SRS_CONSTS_RTMP_PROTOCOL_CHUNK_SIZE;
in_chunk_size = SRS_CONSTS_RTMP_PROTOCOL_CHUNK_SIZE;
out_chunk_size = SRS_CONSTS_RTMP_PROTOCOL_CHUNK_SIZE;
nb_out_iovs = SRS_CONSTS_IOVS_MAX;
out_iovs = (iovec*)malloc(sizeof(iovec) * nb_out_iovs);
// each chunk consumers atleast 2 iovs
srs_assert(nb_out_iovs >= 2);
warned_c0c3_caches = false;
}
SrsProtocol::~SrsProtocol()
... ... @@ -421,6 +430,12 @@ SrsProtocol::~SrsProtocol()
}
srs_freep(in_buffer);
// alloc by malloc, use free directly.
if (out_iovs) {
free(out_iovs);
out_iovs = NULL;
}
}
void SrsProtocol::set_recv_timeout(int64_t timeout_us)
... ... @@ -560,7 +575,7 @@ int SrsProtocol::do_send_message(SrsMessage* msg)
// always has header
int nbh = 0;
char* header = NULL;
generate_chunk_header(&msg->header, p == msg->payload, &nbh, &header);
generate_chunk_header(out_c0c3_cache, &msg->header, p == msg->payload, &nbh, &header);
srs_assert(nbh > 0);
// header iov
... ... @@ -590,10 +605,130 @@ int SrsProtocol::do_send_message(SrsMessage* msg)
return ret;
}
void SrsProtocol::generate_chunk_header(SrsMessageHeader* mh, bool c0, int* pnbh, char** ph)
int SrsProtocol::do_send_messages(SrsSharedPtrMessage** msgs, int nb_msgs)
{
char* cache = out_c0c3_cache;
int ret = ERROR_SUCCESS;
// TODO: FIXME: use cache system instead.
int iov_index = 0;
iovec* iov = out_iovs + iov_index;
int c0c3_cache_index = 0;
char* c0c3_cache = out_c0c3_caches + c0c3_cache_index;
// try to send use the c0c3 header cache,
// if cache is consumed, try another loop.
for (int i = 0; i < nb_msgs; i++) {
SrsMessage* msg = msgs[i];
// ignore empty message.
if (!msg->payload || msg->size <= 0) {
srs_info("ignore empty message.");
continue;
}
// we donot use the complex basic header,
// ensure the basic header is 1bytes.
if (msg->header.perfer_cid < 2) {
srs_warn("change the chunk_id=%d to default=%d",
msg->header.perfer_cid, RTMP_CID_ProtocolControl);
msg->header.perfer_cid = RTMP_CID_ProtocolControl;
}
// p set to current write position,
// it's ok when payload is NULL and size is 0.
char* p = msg->payload;
char* pend = msg->payload + msg->size;
// always write the header event payload is empty.
while (p < pend) {
// always has header
int nbh = 0;
char* header = NULL;
generate_chunk_header(c0c3_cache, &msg->header, p == msg->payload, &nbh, &header);
srs_assert(nbh > 0);
// header iov
iov[0].iov_base = header;
iov[0].iov_len = nbh;
// payload iov
int payload_size = pend - p;
if (payload_size > out_chunk_size) {
payload_size = out_chunk_size;
}
iov[1].iov_base = p;
iov[1].iov_len = payload_size;
// consume sendout bytes.
p += payload_size;
// realloc the iovs if exceed,
// for we donot know how many messges maybe to send entirely,
// we just alloc the iovs, it's ok.
if (iov_index >= nb_out_iovs - 2) {
nb_out_iovs += SRS_CONSTS_IOVS_MAX;
int realloc_size = sizeof(iovec) * nb_out_iovs;
out_iovs = (iovec*)realloc(out_iovs, realloc_size);
}
// to next pair of iovs
iov_index += 2;
iov = out_iovs + iov_index;
// to next c0c3 header cache
c0c3_cache_index += nbh;
c0c3_cache = out_c0c3_caches + c0c3_cache_index;
// the cache header should never be realloc again,
// for the ptr is set to iovs, so we just warn user to set larger
// and use another loop to send again.
int c0c3_left = SRS_CONSTS_C0C3_HEADERS_MAX - c0c3_cache_index;
if (c0c3_left < SRS_CONSTS_RTMP_MAX_FMT0_HEADER_SIZE) {
// only warn once for a connection.
if (!warned_c0c3_caches) {
srs_warn("c0c3 cache header too small, recoment to %d",
SRS_CONSTS_C0C3_HEADERS_MAX + SRS_CONSTS_RTMP_MAX_FMT0_HEADER_SIZE);
warned_c0c3_caches = true;
}
// when c0c3 cache dry,
// sendout all messages and reset the cache, then send again.
if ((ret = skt->writev(out_iovs, iov_index, NULL)) != ERROR_SUCCESS) {
srs_error("send with writev failed. ret=%d", ret);
return ret;
}
// reset caches, while these cache ensure
// atleast we can sendout a chunk.
iov_index = 0;
iov = out_iovs + iov_index;
c0c3_cache_index = 0;
c0c3_cache = out_c0c3_caches + c0c3_cache_index;
}
}
}
// maybe the iovs already sendout when c0c3 cache dry,
// so just ignore when no iovs to send.
if (iov_index <= 0) {
return ret;
}
// send by writev
// sendout header and payload by writev.
// decrease the sys invoke count to get higher performance.
if ((ret = skt->writev(out_iovs, iov_index, NULL)) != ERROR_SUCCESS) {
srs_error("send with writev failed. ret=%d", ret);
return ret;
}
return ret;
}
void SrsProtocol::generate_chunk_header(char* cache, SrsMessageHeader* mh, bool c0, int* pnbh, char** ph)
{
// to directly set the field.
char* pp = NULL;
... ... @@ -856,6 +991,34 @@ int SrsProtocol::send_and_free_message(SrsMessage* msg, int stream_id)
return ret;
}
int SrsProtocol::send_and_free_messages(SrsSharedPtrMessage** msgs, int nb_msgs, int stream_id)
{
// always not NULL msg.
srs_assert(msgs);
srs_assert(nb_msgs > 0);
// update the stream id in header.
for (int i = 0; i < nb_msgs; i++) {
SrsMessage* msg = msgs[i];
// we assume that the stream_id in a group must be the same.
if (msg->header.stream_id == stream_id) {
break;
}
msg->header.stream_id = stream_id;
}
// donot use the auto free to free the msg,
// for performance issue.
int ret = do_send_messages(msgs, nb_msgs);
for (int i = 0; i < nb_msgs; i++) {
SrsMessage* msg = msgs[i];
srs_freep(msg);
}
return ret;
}
int SrsProtocol::send_and_free_packet(SrsPacket* packet, int stream_id)
{
int ret = ERROR_SUCCESS;
... ...
... ... @@ -47,6 +47,7 @@ class SrsAmf0Any;
class SrsMessageHeader;
class SrsMessage;
class SrsChunkStream;
class SrsSharedPtrMessage;
/**
* 4.1. Message Header
... ... @@ -221,6 +222,15 @@ private:
*/
iovec out_iov[2];
/**
* cache for multiple messages send
*/
iovec* out_iovs;
int nb_out_iovs;
// the c0c3 cache cannot be realloc.
char out_c0c3_caches[SRS_CONSTS_C0C3_HEADERS_MAX];
// whether warned user to increase the c0c3 header cache.
bool warned_c0c3_caches;
/**
* output chunk size, default to 128, set by config.
*/
int32_t out_chunk_size;
... ... @@ -276,6 +286,15 @@ public:
*/
virtual int send_and_free_message(SrsMessage* msg, int stream_id);
/**
* send the RTMP message and always free it.
* user must never free or use the msg after this method,
* for it will always free the msg.
* @param msgs, the msgs to send out, never be NULL.
* @param nb_msgs, the size of msgs to send out.
* @param stream_id, the stream id of packet to send over, 0 for control message.
*/
virtual int send_and_free_messages(SrsSharedPtrMessage** msgs, int nb_msgs, int stream_id);
/**
* send the RTMP packet and always free it.
* user must never free or use the packet after this method,
* for it will always free the packet.
... ... @@ -349,6 +368,11 @@ private:
*/
virtual int do_send_message(SrsMessage* msg);
/**
* send out the messages, donot free it,
* the caller must free the param msgs.
*/
virtual int do_send_messages(SrsSharedPtrMessage** msgs, int nb_msgs);
/**
* generate the chunk header for msg.
* @param mh, the header of msg to send.
* @param c0, whether the first chunk, the c0 chunk.
... ... @@ -356,7 +380,7 @@ private:
* @param ph, output the header cache.
* user should never free it, it's cached header.
*/
virtual void generate_chunk_header(SrsMessageHeader* mh, bool c0, int* pnbh, char** ph);
virtual void generate_chunk_header(char* cache, SrsMessageHeader* mh, bool c0, int* pnbh, char** ph);
/**
* imp for decode_message
*/
... ...