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RTC: Covert server ARQ for DTLS

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This commit is contained in:
winlin 2020-08-19 17:22:34 +08:00
parent f33c83a26f
commit e4b0dd56f0
3 changed files with 205 additions and 10 deletions
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6
trunk/src/app/srs_app_rtc_dtls.cpp
View file

@ -328,6 +328,8 @@ SrsDtls::SrsDtls(ISrsDtlsCallback* callback)
trd = NULL; trd = NULL;
state_ = SrsDtlsStateInit; state_ = SrsDtlsStateInit;
arq_first = 50 * SRS_UTIME_MILLISECONDS;
arq_interval = 100 * SRS_UTIME_MILLISECONDS;
} }
SrsDtls::~SrsDtls() SrsDtls::~SrsDtls()
@ -559,7 +561,7 @@ srs_error_t SrsDtls::cycle()
srs_error_t err = srs_success; srs_error_t err = srs_success;
// The first ARQ delay. // The first ARQ delay.
srs_usleep(50 * SRS_UTIME_MILLISECONDS); srs_usleep(arq_first);
while (true) { while (true) {
srs_info("arq cycle, state=%u", state_); srs_info("arq cycle, state=%u", state_);
@ -595,7 +597,7 @@ srs_error_t SrsDtls::cycle()
} }
// TODO: Use ARQ step timeouts. // TODO: Use ARQ step timeouts.
srs_usleep(100 * SRS_UTIME_MILLISECONDS); srs_usleep(arq_interval);
} }
return err; return err;

3
trunk/src/app/srs_app_rtc_dtls.hpp
View file

@ -125,6 +125,9 @@ private:
SrsCoroutine* trd; SrsCoroutine* trd;
// The DTLS-client state to drive the ARQ thread. // The DTLS-client state to drive the ARQ thread.
SrsDtlsState state_; SrsDtlsState state_;
// The timeout for ARQ.
srs_utime_t arq_first;
srs_utime_t arq_interval;
private: private:
// @remark: dtls_role_ default value is DTLS_SERVER. // @remark: dtls_role_ default value is DTLS_SERVER.
SrsDtlsRole role_; SrsDtlsRole role_;

206
trunk/src/utest/srs_utest_rtc.cpp
View file

@ -36,7 +36,7 @@ using namespace std;
extern SSL_CTX* srs_build_dtls_ctx(SrsDtlsVersion version); extern SSL_CTX* srs_build_dtls_ctx(SrsDtlsVersion version);
class MockDtls class MockDtls : public ISrsCoroutineHandler
{ {
public: public:
SSL_CTX* dtls_ctx; SSL_CTX* dtls_ctx;
@ -54,6 +54,7 @@ public:
srs_error_t start_active_handshake(); srs_error_t start_active_handshake();
srs_error_t on_dtls(char* data, int nb_data); srs_error_t on_dtls(char* data, int nb_data);
srs_error_t do_handshake(); srs_error_t do_handshake();
virtual srs_error_t cycle();
}; };
MockDtls::MockDtls(ISrsDtlsCallback* callback) MockDtls::MockDtls(ISrsDtlsCallback* callback)
@ -179,6 +180,11 @@ srs_error_t MockDtls::do_handshake()
return err; return err;
} }
srs_error_t MockDtls::cycle()
{
return srs_success;
}
class MockDtlsCallback : virtual public ISrsDtlsCallback, virtual public ISrsCoroutineHandler class MockDtlsCallback : virtual public ISrsDtlsCallback, virtual public ISrsCoroutineHandler
{ {
public: public:
@ -188,6 +194,23 @@ public:
srs_error_t r0; srs_error_t r0;
bool done; bool done;
std::vector<SrsSample> samples; std::vector<SrsSample> samples;
public:
int nn_client_hello_lost;
int nn_server_hello_lost;
int nn_certificate_lost;
int nn_new_session_lost;
int nn_change_cipher_lost;
public:
// client -> server
int nn_client_hello;
// server -> client
int nn_server_hello;
// client -> server
int nn_certificate;
// server -> client
int nn_new_session;
int nn_change_cipher;
public:
MockDtlsCallback(); MockDtlsCallback();
virtual ~MockDtlsCallback(); virtual ~MockDtlsCallback();
virtual srs_error_t on_dtls_handshake_done(); virtual srs_error_t on_dtls_handshake_done();
@ -204,6 +227,18 @@ MockDtlsCallback::MockDtlsCallback()
done = false; done = false;
trd = new SrsSTCoroutine("mock", this); trd = new SrsSTCoroutine("mock", this);
srs_assert(trd->start() == srs_success); srs_assert(trd->start() == srs_success);
nn_client_hello_lost = 0;
nn_server_hello_lost = 0;
nn_certificate_lost = 0;
nn_new_session_lost = 0;
nn_change_cipher_lost = 0;
nn_client_hello = 0;
nn_server_hello = 0;
nn_certificate = 0;
nn_new_session = 0;
nn_change_cipher = 0;
} }
MockDtlsCallback::~MockDtlsCallback() MockDtlsCallback::~MockDtlsCallback()
@ -228,10 +263,49 @@ srs_error_t MockDtlsCallback::on_dtls_application_data(const char* data, const i
srs_error_t MockDtlsCallback::write_dtls_data(void* data, int size) srs_error_t MockDtlsCallback::write_dtls_data(void* data, int size)
{ {
int nn_lost = 0;
if (true) {
uint8_t content_type = 0;
if (size >= 1) {
content_type = (uint8_t)((uint8_t*)data)[0];
}
uint8_t handshake_type = 0;
if (size >= 14) {
handshake_type = (uint8_t)((uint8_t*)data)[13];
}
if (content_type == 22) {
if (handshake_type == 1) {
nn_lost = nn_client_hello_lost--;
nn_client_hello++;
} else if (handshake_type == 2) {
nn_lost = nn_server_hello_lost--;
nn_server_hello++;
} else if (handshake_type == 11) {
nn_lost = nn_certificate_lost--;
nn_certificate++;
} else if (handshake_type == 4) {
nn_lost = nn_new_session_lost--;
nn_new_session++;
}
} else if (content_type == 20) {
nn_lost = nn_change_cipher_lost--;
nn_change_cipher++;
}
}
// Simulate to drop packet.
if (nn_lost > 0) {
return srs_success;
}
// Send out it.
char* cp = new char[size]; char* cp = new char[size];
memcpy(cp, data, size); memcpy(cp, data, size);
samples.push_back(SrsSample((char*)cp, size)); samples.push_back(SrsSample((char*)cp, size));
return srs_success; return srs_success;
} }
@ -249,10 +323,12 @@ srs_error_t MockDtlsCallback::cycle()
continue; continue;
} }
SrsSample p = *samples.erase(samples.begin()); SrsSample p = samples.at(0);
samples.erase(samples.begin());
if (peer) { if (peer) {
err = peer->on_dtls((char*)p.bytes, p.size); err = peer->on_dtls((char*)p.bytes, p.size);
} else { } else if (peer2) {
err = peer2->on_dtls((char*)p.bytes, p.size); err = peer2->on_dtls((char*)p.bytes, p.size);
} }
@ -266,10 +342,33 @@ srs_error_t MockDtlsCallback::cycle()
} }
// Wait for mock io to done, try to switch to coroutine many times. // Wait for mock io to done, try to switch to coroutine many times.
#define mock_wait_dtls_io_done(cio, sio) \ void mock_wait_dtls_io_done(int count = 100, int interval = 0)
for (int i = 0; i < 100 && (!cio.samples.empty() || !sio.samples.empty()); i++) { \ {
srs_usleep(0 * SRS_UTIME_MILLISECONDS); \ for (int i = 0; i < count; i++) {
srs_usleep(interval * SRS_UTIME_MILLISECONDS);
} }
}
// To avoid the crash when peer or peer2 is freed before io.
class MockBridgeDtlsIO
{
private:
MockDtlsCallback* io_;
public:
MockBridgeDtlsIO(MockDtlsCallback* io, ISrsCoroutineHandler* dtls) {
io_ = io;
if (dynamic_cast<SrsDtls*>(dtls)) {
io->peer = dynamic_cast<SrsDtls*>(dtls);
}
if (dynamic_cast<MockDtls*>(dtls)) {
io->peer2 = dynamic_cast<MockDtls*>(dtls);
}
}
virtual ~MockBridgeDtlsIO() {
io_->peer = NULL;
io_->peer2 = NULL;
}
};
struct DTLSServerFlowCase struct DTLSServerFlowCase
{ {
@ -293,6 +392,97 @@ std::ostream& operator<< (std::ostream& stream, const DTLSServerFlowCase& c)
return stream; return stream;
} }
VOID TEST(KernelRTCTest, DTLSServerARQTest)
{
srs_error_t err = srs_success;
// No ARQ, check the number of packets.
if (true) {
MockDtlsCallback cio; SrsDtls client(&cio);
MockDtlsCallback sio; SrsDtls server(&sio);
cio.peer = &server; sio.peer = &client;
HELPER_EXPECT_SUCCESS(client.initialize("active", "dtls1.0"));
HELPER_EXPECT_SUCCESS(server.initialize("passive", "dtls1.0"));
HELPER_EXPECT_SUCCESS(client.start_active_handshake());
mock_wait_dtls_io_done(30, 1);
EXPECT_TRUE(sio.r0 == srs_success);
EXPECT_TRUE(cio.r0 == srs_success);
EXPECT_TRUE(cio.done);
EXPECT_TRUE(sio.done);
EXPECT_EQ(1, cio.nn_client_hello);
EXPECT_EQ(1, sio.nn_server_hello);
EXPECT_EQ(1, cio.nn_certificate);
EXPECT_EQ(1, sio.nn_new_session);
EXPECT_EQ(0, sio.nn_change_cipher);
}
// ServerHello lost, client retransmit the ClientHello.
if (true) {
MockDtlsCallback cio; SrsDtls client(&cio);
MockDtlsCallback sio; SrsDtls server(&sio);
MockBridgeDtlsIO b0(&cio, &server); MockBridgeDtlsIO b1(&sio, &client);
HELPER_EXPECT_SUCCESS(client.initialize("active", "dtls1.0"));
HELPER_EXPECT_SUCCESS(server.initialize("passive", "dtls1.0"));
// Use very short interval for utest.
client.arq_first = 1 * SRS_UTIME_MILLISECONDS;
client.arq_interval = 1 * SRS_UTIME_MILLISECONDS;
// Lost 2 packets, total packets should be 3.
sio.nn_server_hello_lost = 2;
HELPER_EXPECT_SUCCESS(client.start_active_handshake());
mock_wait_dtls_io_done(10, 3);
EXPECT_TRUE(sio.r0 == srs_success);
EXPECT_TRUE(cio.r0 == srs_success);
EXPECT_TRUE(cio.done);
EXPECT_TRUE(sio.done);
EXPECT_EQ(3, cio.nn_client_hello);
EXPECT_EQ(3, sio.nn_server_hello);
EXPECT_EQ(1, cio.nn_certificate);
EXPECT_EQ(1, sio.nn_new_session);
EXPECT_EQ(0, sio.nn_change_cipher);
}
// NewSessionTicket lost, client retransmit the Certificate.
if (true) {
MockDtlsCallback cio; SrsDtls client(&cio);
MockDtlsCallback sio; SrsDtls server(&sio);
MockBridgeDtlsIO b0(&cio, &server); MockBridgeDtlsIO b1(&sio, &client);
HELPER_EXPECT_SUCCESS(client.initialize("active", "dtls1.0"));
HELPER_EXPECT_SUCCESS(server.initialize("passive", "dtls1.0"));
// Use very short interval for utest.
client.arq_first = 1 * SRS_UTIME_MILLISECONDS;
client.arq_interval = 1 * SRS_UTIME_MILLISECONDS;
// Lost 2 packets, total packets should be 3.
sio.nn_new_session_lost = 2;
HELPER_EXPECT_SUCCESS(client.start_active_handshake());
mock_wait_dtls_io_done(10, 3);
EXPECT_TRUE(sio.r0 == srs_success);
EXPECT_TRUE(cio.r0 == srs_success);
EXPECT_TRUE(cio.done);
EXPECT_TRUE(sio.done);
EXPECT_EQ(1, cio.nn_client_hello);
EXPECT_EQ(1, sio.nn_server_hello);
EXPECT_EQ(3, cio.nn_certificate);
EXPECT_EQ(3, sio.nn_new_session);
EXPECT_EQ(0, sio.nn_change_cipher);
}
}
VOID TEST(KernelRTCTest, DTLSClientFlowTest) VOID TEST(KernelRTCTest, DTLSClientFlowTest)
{ {
srs_error_t err = srs_success; srs_error_t err = srs_success;
@ -326,7 +516,7 @@ VOID TEST(KernelRTCTest, DTLSClientFlowTest)
HELPER_EXPECT_SUCCESS(server.initialize("passive", c.ServerVersion)) << c; HELPER_EXPECT_SUCCESS(server.initialize("passive", c.ServerVersion)) << c;
HELPER_EXPECT_SUCCESS(client.start_active_handshake()) << c; HELPER_EXPECT_SUCCESS(client.start_active_handshake()) << c;
mock_wait_dtls_io_done(cio, sio); mock_wait_dtls_io_done();
// Note that the cio error is generated from server, vice versa. // Note that the cio error is generated from server, vice versa.
EXPECT_EQ(c.ClientError, sio.r0 != srs_success) << c; EXPECT_EQ(c.ClientError, sio.r0 != srs_success) << c;
@ -370,7 +560,7 @@ VOID TEST(KernelRTCTest, DTLSServerFlowTest)
HELPER_EXPECT_SUCCESS(server.initialize("passive", c.ServerVersion)) << c; HELPER_EXPECT_SUCCESS(server.initialize("passive", c.ServerVersion)) << c;
HELPER_EXPECT_SUCCESS(client.start_active_handshake()) << c; HELPER_EXPECT_SUCCESS(client.start_active_handshake()) << c;
mock_wait_dtls_io_done(cio, sio); mock_wait_dtls_io_done();
// Note that the cio error is generated from server, vice versa. // Note that the cio error is generated from server, vice versa.
EXPECT_EQ(c.ClientError, sio.r0 != srs_success) << c; EXPECT_EQ(c.ClientError, sio.r0 != srs_success) << c;