#include "inspector_socket.h" #include "util-inl.h" #include "gtest/gtest.h" #include #define PORT 9444 namespace { using node::inspector::InspectorSocket; static const int MAX_LOOP_ITERATIONS = 10000; static uv_loop_t loop; class Timeout { public: explicit Timeout(uv_loop_t* loop) : timed_out(false), done_(false) { uv_timer_init(loop, &timer_); uv_timer_start(&timer_, Timeout::set_flag, 5000, 0); } ~Timeout() { uv_timer_stop(&timer_); uv_close(reinterpret_cast(&timer_), mark_done); while (!done_) { uv_run(&loop, UV_RUN_NOWAIT); } } bool timed_out; private: static void set_flag(uv_timer_t* timer) { Timeout* t = node::ContainerOf(&Timeout::timer_, timer); t->timed_out = true; } static void mark_done(uv_handle_t* timer) { Timeout* t = node::ContainerOf(&Timeout::timer_, reinterpret_cast(timer)); t->done_ = true; } bool done_; uv_timer_t timer_; }; #define SPIN_WHILE(condition) \ { \ Timeout timeout(&loop); \ while ((condition) && !timeout.timed_out) { \ uv_run(&loop, UV_RUN_NOWAIT); \ } \ ASSERT_FALSE((condition)); \ } enum inspector_handshake_event { kInspectorHandshakeHttpGet, kInspectorHandshakeUpgraded, kInspectorHandshakeNoEvents }; static bool waiting_to_close = true; void handle_closed(uv_handle_t* handle) { waiting_to_close = false; } static void really_close(uv_handle_t* handle) { waiting_to_close = true; if (!uv_is_closing(handle)) { uv_close(handle, handle_closed); SPIN_WHILE(waiting_to_close); } } static void buffer_alloc_cb(uv_handle_t* stream, size_t len, uv_buf_t* buf) { buf->base = new char[len]; buf->len = len; } class TestInspectorDelegate; static TestInspectorDelegate* delegate = nullptr; // Gtest asserts can't be used in dtor directly. static void assert_is_delegate(TestInspectorDelegate* d) { GTEST_ASSERT_EQ(delegate, d); } class TestInspectorDelegate : public InspectorSocket::Delegate { public: using delegate_fn = void(*)(inspector_handshake_event, const std::string&, bool* should_continue); TestInspectorDelegate() : inspector_ready(false), last_event(kInspectorHandshakeNoEvents), handshake_events(0), handshake_delegate_(stop_if_stop_path), fail_on_ws_frame_(false) { } ~TestInspectorDelegate() override { assert_is_delegate(this); delegate = nullptr; } void OnHttpGet(const std::string& host, const std::string& path) override { process(kInspectorHandshakeHttpGet, path); } void OnSocketUpgrade(const std::string& host, const std::string& path, const std::string& ws_key) override { ws_key_ = ws_key; process(kInspectorHandshakeUpgraded, path); } void OnWsFrame(const std::vector& buffer) override { ASSERT_FALSE(fail_on_ws_frame_); frames.push(buffer); } void SetDelegate(delegate_fn d) { handshake_delegate_ = d; } void SetInspector(InspectorSocket::Pointer inspector) { socket_ = std::move(inspector); } void Write(const char* buf, size_t len) { socket_->Write(buf, len); } void ExpectReadError() { SPIN_WHILE(frames.empty() || !frames.back().empty()); } void ExpectData(const char* data, size_t len) { const char* cur = data; const char* end = data + len; while (cur < end) { SPIN_WHILE(frames.empty()); const std::vector& frame = frames.front(); EXPECT_FALSE(frame.empty()); auto c = frame.begin(); for (; c < frame.end() && cur < end; c++) { GTEST_ASSERT_EQ(*cur, *c) << "Character #" << cur - data; cur = cur + 1; } EXPECT_EQ(c, frame.end()); frames.pop(); } } void FailOnWsFrame() { fail_on_ws_frame_ = true; } void WaitForDispose() { SPIN_WHILE(delegate != nullptr); } void Close() { socket_.reset(); } bool inspector_ready; std::string last_path; // NOLINT(runtime/string) inspector_handshake_event last_event; int handshake_events; std::queue> frames; private: static void stop_if_stop_path(enum inspector_handshake_event state, const std::string& path, bool* cont) { *cont = path.empty() || path != "/close"; } void process(inspector_handshake_event event, const std::string& path); delegate_fn handshake_delegate_; InspectorSocket::Pointer socket_; std::string ws_key_; bool fail_on_ws_frame_; }; static bool connected = false; static uv_tcp_t server, client_socket; static const char SERVER_CLOSE_FRAME[] = {'\x88', '\x00'}; struct read_expects { const char* expected; size_t expected_len; size_t pos; bool read_expected; bool callback_called; }; static const char HANDSHAKE_REQ[] = "GET /ws/path HTTP/1.1\r\n" "Host: localhost:9229\r\n" "Upgrade: websocket\r\n" "Connection: Upgrade\r\n" "Sec-WebSocket-Key: aaa==\r\n" "Sec-WebSocket-Version: 13\r\n\r\n"; void TestInspectorDelegate::process(inspector_handshake_event event, const std::string& path) { inspector_ready = event == kInspectorHandshakeUpgraded; last_event = event; if (path.empty()) { last_path = "@@@ Nothing received @@@"; } else { last_path = path; } handshake_events++; bool should_continue = true; handshake_delegate_(event, path, &should_continue); if (should_continue) { if (inspector_ready) socket_->AcceptUpgrade(ws_key_); } else { socket_->CancelHandshake(); } } static void on_new_connection(uv_stream_t* server, int status) { GTEST_ASSERT_EQ(0, status); connected = true; delegate = new TestInspectorDelegate(); delegate->SetInspector( InspectorSocket::Accept(server, InspectorSocket::DelegatePointer(delegate))); GTEST_ASSERT_NE(nullptr, delegate); } void write_done(uv_write_t* req, int status) { req->data = nullptr; } static void do_write(const char* data, int len) { uv_write_t req; bool done = false; req.data = &done; uv_buf_t buf[1]; buf[0].base = const_cast(data); buf[0].len = len; GTEST_ASSERT_EQ(0, uv_write(&req, reinterpret_cast(&client_socket), buf, 1, write_done)); SPIN_WHILE(req.data); } static void check_data_cb(read_expects* expectation, ssize_t nread, const uv_buf_t* buf, bool* retval) { *retval = false; EXPECT_TRUE(nread >= 0 && nread != UV_EOF); ssize_t i; char c, actual; CHECK_GT(expectation->expected_len, 0); for (i = 0; i < nread && expectation->pos <= expectation->expected_len; i++) { c = expectation->expected[expectation->pos++]; actual = buf->base[i]; if (c != actual) { fprintf(stderr, "Unexpected character at position %zd\n", expectation->pos - 1); GTEST_ASSERT_EQ(c, actual); } } GTEST_ASSERT_EQ(i, nread); delete[] buf->base; if (expectation->pos == expectation->expected_len) { expectation->read_expected = true; *retval = true; } } static void check_data_cb(uv_stream_t* stream, ssize_t nread, const uv_buf_t* buf) { bool retval = false; read_expects* expects = static_cast(stream->data); expects->callback_called = true; check_data_cb(expects, nread, buf, &retval); if (retval) { stream->data = nullptr; uv_read_stop(stream); } } static read_expects prepare_expects(const char* data, size_t len) { read_expects expectation; expectation.expected = data; expectation.expected_len = len; expectation.pos = 0; expectation.read_expected = false; expectation.callback_called = false; return expectation; } static void fail_callback(uv_stream_t* stream, ssize_t nread, const uv_buf_t* buf) { if (nread < 0) { fprintf(stderr, "IO error: %s\n", uv_strerror(nread)); } else { fprintf(stderr, "Read %zd bytes\n", nread); } ASSERT_TRUE(false); // Shouldn't have been called } static void expect_nothing_on_client() { uv_stream_t* stream = reinterpret_cast(&client_socket); int err = uv_read_start(stream, buffer_alloc_cb, fail_callback); GTEST_ASSERT_EQ(0, err); for (int i = 0; i < MAX_LOOP_ITERATIONS; i++) uv_run(&loop, UV_RUN_NOWAIT); uv_read_stop(stream); } static void expect_on_client(const char* data, size_t len) { read_expects expectation = prepare_expects(data, len); client_socket.data = ℰ uv_read_start(reinterpret_cast(&client_socket), buffer_alloc_cb, check_data_cb); SPIN_WHILE(!expectation.read_expected); } static void expect_handshake() { const char UPGRADE_RESPONSE[] = "HTTP/1.1 101 Switching Protocols\r\n" "Upgrade: websocket\r\n" "Connection: Upgrade\r\n" "Sec-WebSocket-Accept: Dt87H1OULVZnSJo/KgMUYI7xPCg=\r\n\r\n"; expect_on_client(UPGRADE_RESPONSE, sizeof(UPGRADE_RESPONSE) - 1); } static void expect_handshake_failure() { const char UPGRADE_RESPONSE[] = "HTTP/1.0 400 Bad Request\r\n" "Content-Type: text/html; charset=UTF-8\r\n\r\n" "WebSockets request was expected\r\n"; expect_on_client(UPGRADE_RESPONSE, sizeof(UPGRADE_RESPONSE) - 1); } static void on_connection(uv_connect_t* connect, int status) { GTEST_ASSERT_EQ(0, status); connect->data = connect; } class InspectorSocketTest : public ::testing::Test { protected: void SetUp() override { connected = false; GTEST_ASSERT_EQ(0, uv_loop_init(&loop)); server = uv_tcp_t(); client_socket = uv_tcp_t(); sockaddr_in addr; uv_tcp_init(&loop, &server); uv_tcp_init(&loop, &client_socket); GTEST_ASSERT_EQ(0, uv_ip4_addr("127.0.0.1", PORT, &addr)); uv_tcp_bind(&server, reinterpret_cast(&addr), 0); GTEST_ASSERT_EQ(0, uv_listen(reinterpret_cast(&server), 1, on_new_connection)); uv_connect_t connect; connect.data = nullptr; GTEST_ASSERT_EQ(0, uv_tcp_connect(&connect, &client_socket, reinterpret_cast(&addr), on_connection)); uv_tcp_nodelay(&client_socket, 1); // The buffering messes up the test SPIN_WHILE(!connect.data || !connected); really_close(reinterpret_cast(&server)); } void TearDown() override { really_close(reinterpret_cast(&client_socket)); SPIN_WHILE(delegate != nullptr); const int err = uv_loop_close(&loop); if (err != 0) { uv_print_all_handles(&loop, stderr); } EXPECT_EQ(0, err); } }; TEST_F(InspectorSocketTest, ReadsAndWritesInspectorMessage) { ASSERT_TRUE(connected); ASSERT_FALSE(delegate->inspector_ready); do_write(const_cast(HANDSHAKE_REQ), sizeof(HANDSHAKE_REQ) - 1); SPIN_WHILE(!delegate->inspector_ready); expect_handshake(); // 2. Brief exchange const char SERVER_MESSAGE[] = "abcd"; const char CLIENT_FRAME[] = {'\x81', '\x04', 'a', 'b', 'c', 'd'}; delegate->Write(SERVER_MESSAGE, sizeof(SERVER_MESSAGE) - 1); expect_on_client(CLIENT_FRAME, sizeof(CLIENT_FRAME)); const char SERVER_FRAME[] = {'\x81', '\x84', '\x7F', '\xC2', '\x66', '\x31', '\x4E', '\xF0', '\x55', '\x05'}; const char CLIENT_MESSAGE[] = "1234"; do_write(SERVER_FRAME, sizeof(SERVER_FRAME)); delegate->ExpectData(CLIENT_MESSAGE, sizeof(CLIENT_MESSAGE) - 1); // 3. Close const char CLIENT_CLOSE_FRAME[] = {'\x88', '\x80', '\x2D', '\x0E', '\x1E', '\xFA'}; const char SERVER_CLOSE_FRAME[] = {'\x88', '\x00'}; do_write(CLIENT_CLOSE_FRAME, sizeof(CLIENT_CLOSE_FRAME)); expect_on_client(SERVER_CLOSE_FRAME, sizeof(SERVER_CLOSE_FRAME)); GTEST_ASSERT_EQ(0, uv_is_active( reinterpret_cast(&client_socket))); } TEST_F(InspectorSocketTest, BufferEdgeCases) { do_write(const_cast(HANDSHAKE_REQ), sizeof(HANDSHAKE_REQ) - 1); expect_handshake(); const char MULTIPLE_REQUESTS[] = { '\x81', '\xCB', '\x76', '\xCA', '\x06', '\x0C', '\x0D', '\xE8', '\x6F', '\x68', '\x54', '\xF0', '\x37', '\x3E', '\x5A', '\xE8', '\x6B', '\x69', '\x02', '\xA2', '\x69', '\x68', '\x54', '\xF0', '\x24', '\x5B', '\x19', '\xB8', '\x6D', '\x69', '\x04', '\xE4', '\x75', '\x69', '\x02', '\x8B', '\x73', '\x78', '\x19', '\xA9', '\x69', '\x62', '\x18', '\xAF', '\x65', '\x78', '\x22', '\xA5', '\x51', '\x63', '\x04', '\xA1', '\x63', '\x7E', '\x05', '\xE8', '\x2A', '\x2E', '\x06', '\xAB', '\x74', '\x6D', '\x1B', '\xB9', '\x24', '\x36', '\x0D', '\xE8', '\x70', '\x6D', '\x1A', '\xBF', '\x63', '\x2E', '\x4C', '\xBE', '\x74', '\x79', '\x13', '\xB7', '\x7B', '\x81', '\xA2', '\xFC', '\x9E', '\x0D', '\x15', '\x87', '\xBC', '\x64', '\x71', '\xDE', '\xA4', '\x3C', '\x26', '\xD0', '\xBC', '\x60', '\x70', '\x88', '\xF6', '\x62', '\x71', '\xDE', '\xA4', '\x2F', '\x42', '\x93', '\xEC', '\x66', '\x70', '\x8E', '\xB0', '\x68', '\x7B', '\x9D', '\xFC', '\x61', '\x70', '\xDE', '\xE3', '\x81', '\xA4', '\x4E', '\x37', '\xB0', '\x22', '\x35', '\x15', '\xD9', '\x46', '\x6C', '\x0D', '\x81', '\x16', '\x62', '\x15', '\xDD', '\x47', '\x3A', '\x5F', '\xDF', '\x46', '\x6C', '\x0D', '\x92', '\x72', '\x3C', '\x58', '\xD6', '\x4B', '\x22', '\x52', '\xC2', '\x0C', '\x2B', '\x59', '\xD1', '\x40', '\x22', '\x52', '\x92', '\x5F', '\x81', '\xCB', '\xCD', '\xF0', '\x30', '\xC5', '\xB6', '\xD2', '\x59', '\xA1', '\xEF', '\xCA', '\x01', '\xF0', '\xE1', '\xD2', '\x5D', '\xA0', '\xB9', '\x98', '\x5F', '\xA1', '\xEF', '\xCA', '\x12', '\x95', '\xBF', '\x9F', '\x56', '\xAC', '\xA1', '\x95', '\x42', '\xEB', '\xBE', '\x95', '\x44', '\x96', '\xAC', '\x9D', '\x40', '\xA9', '\xA4', '\x9E', '\x57', '\x8C', '\xA3', '\x84', '\x55', '\xB7', '\xBB', '\x91', '\x5C', '\xE7', '\xE1', '\xD2', '\x40', '\xA4', '\xBF', '\x91', '\x5D', '\xB6', '\xEF', '\xCA', '\x4B', '\xE7', '\xA4', '\x9E', '\x44', '\xA0', '\xBF', '\x86', '\x51', '\xA9', '\xEF', '\xCA', '\x01', '\xF5', '\xFD', '\x8D', '\x4D', '\x81', '\xA9', '\x74', '\x6B', '\x72', '\x43', '\x0F', '\x49', '\x1B', '\x27', '\x56', '\x51', '\x43', '\x75', '\x58', '\x49', '\x1F', '\x26', '\x00', '\x03', '\x1D', '\x27', '\x56', '\x51', '\x50', '\x10', '\x11', '\x19', '\x04', '\x2A', '\x17', '\x0E', '\x25', '\x2C', '\x06', '\x00', '\x17', '\x31', '\x5A', '\x0E', '\x1C', '\x22', '\x16', '\x07', '\x17', '\x61', '\x09', '\x81', '\xB8', '\x7C', '\x1A', '\xEA', '\xEB', '\x07', '\x38', '\x83', '\x8F', '\x5E', '\x20', '\xDB', '\xDC', '\x50', '\x38', '\x87', '\x8E', '\x08', '\x72', '\x85', '\x8F', '\x5E', '\x20', '\xC8', '\xA5', '\x19', '\x6E', '\x9D', '\x84', '\x0E', '\x71', '\xC4', '\x88', '\x1D', '\x74', '\xAF', '\x86', '\x09', '\x76', '\x8B', '\x9F', '\x19', '\x54', '\x8F', '\x9F', '\x0B', '\x75', '\x98', '\x80', '\x3F', '\x75', '\x84', '\x8F', '\x15', '\x6E', '\x83', '\x84', '\x12', '\x69', '\xC8', '\x96'}; const char EXPECT[] = { "{\"id\":12,\"method\":\"Worker.setAutoconnectToWorkers\"," "\"params\":{\"value\":true}}" "{\"id\":13,\"method\":\"Worker.enable\"}" "{\"id\":14,\"method\":\"Profiler.enable\"}" "{\"id\":15,\"method\":\"Profiler.setSamplingInterval\"," "\"params\":{\"interval\":100}}" "{\"id\":16,\"method\":\"ServiceWorker.enable\"}" "{\"id\":17,\"method\":\"Network.canEmulateNetworkConditions\"}"}; do_write(MULTIPLE_REQUESTS, sizeof(MULTIPLE_REQUESTS)); delegate->ExpectData(EXPECT, sizeof(EXPECT) - 1); } TEST_F(InspectorSocketTest, AcceptsRequestInSeveralWrites) { ASSERT_TRUE(connected); ASSERT_FALSE(delegate->inspector_ready); // Specifically, break up the request in the "Sec-WebSocket-Key" header name // and value const int write1 = 95; const int write2 = 5; const int write3 = sizeof(HANDSHAKE_REQ) - write1 - write2 - 1; do_write(const_cast(HANDSHAKE_REQ), write1); ASSERT_FALSE(delegate->inspector_ready); do_write(const_cast(HANDSHAKE_REQ) + write1, write2); ASSERT_FALSE(delegate->inspector_ready); do_write(const_cast(HANDSHAKE_REQ) + write1 + write2, write3); SPIN_WHILE(!delegate->inspector_ready); expect_handshake(); GTEST_ASSERT_EQ(uv_is_active(reinterpret_cast(&client_socket)), 0); } TEST_F(InspectorSocketTest, ExtraTextBeforeRequest) { delegate->last_event = kInspectorHandshakeUpgraded; char UNCOOL_BRO[] = "Text before the first req, shouldn't be her\r\n"; do_write(const_cast(UNCOOL_BRO), sizeof(UNCOOL_BRO) - 1); expect_handshake_failure(); GTEST_ASSERT_EQ(nullptr, delegate); } TEST_F(InspectorSocketTest, RequestWithoutKey) { const char BROKEN_REQUEST[] = "GET / HTTP/1.1\r\n" "Host: localhost:9229\r\n" "Upgrade: websocket\r\n" "Connection: Upgrade\r\n" "Sec-WebSocket-Version: 13\r\n\r\n"; do_write(const_cast(BROKEN_REQUEST), sizeof(BROKEN_REQUEST) - 1); expect_handshake_failure(); } TEST_F(InspectorSocketTest, KillsConnectionOnProtocolViolation) { ASSERT_TRUE(connected); ASSERT_FALSE(delegate->inspector_ready); do_write(const_cast(HANDSHAKE_REQ), sizeof(HANDSHAKE_REQ) - 1); SPIN_WHILE(!delegate->inspector_ready); ASSERT_TRUE(delegate->inspector_ready); expect_handshake(); const char SERVER_FRAME[] = "I'm not a good WS frame. Nope!"; do_write(SERVER_FRAME, sizeof(SERVER_FRAME)); SPIN_WHILE(delegate != nullptr); GTEST_ASSERT_EQ(uv_is_active(reinterpret_cast(&client_socket)), 0); } TEST_F(InspectorSocketTest, CanStopReadingFromInspector) { ASSERT_TRUE(connected); ASSERT_FALSE(delegate->inspector_ready); do_write(const_cast(HANDSHAKE_REQ), sizeof(HANDSHAKE_REQ) - 1); expect_handshake(); ASSERT_TRUE(delegate->inspector_ready); // 2. Brief exchange const char SERVER_FRAME[] = {'\x81', '\x84', '\x7F', '\xC2', '\x66', '\x31', '\x4E', '\xF0', '\x55', '\x05'}; const char CLIENT_MESSAGE[] = "1234"; do_write(SERVER_FRAME, sizeof(SERVER_FRAME)); delegate->ExpectData(CLIENT_MESSAGE, sizeof(CLIENT_MESSAGE) - 1); do_write(SERVER_FRAME, sizeof(SERVER_FRAME)); GTEST_ASSERT_EQ(uv_is_active( reinterpret_cast(&client_socket)), 0); } TEST_F(InspectorSocketTest, CloseDoesNotNotifyReadCallback) { do_write(const_cast(HANDSHAKE_REQ), sizeof(HANDSHAKE_REQ) - 1); expect_handshake(); delegate->Close(); char CLOSE_FRAME[] = {'\x88', '\x00'}; expect_on_client(CLOSE_FRAME, sizeof(CLOSE_FRAME)); const char CLIENT_CLOSE_FRAME[] = {'\x88', '\x80', '\x2D', '\x0E', '\x1E', '\xFA'}; delegate->FailOnWsFrame(); do_write(CLIENT_CLOSE_FRAME, sizeof(CLIENT_CLOSE_FRAME)); SPIN_WHILE(delegate != nullptr); } TEST_F(InspectorSocketTest, CloseWorksWithoutReadEnabled) { do_write(const_cast(HANDSHAKE_REQ), sizeof(HANDSHAKE_REQ) - 1); expect_handshake(); delegate->Close(); char CLOSE_FRAME[] = {'\x88', '\x00'}; expect_on_client(CLOSE_FRAME, sizeof(CLOSE_FRAME)); const char CLIENT_CLOSE_FRAME[] = {'\x88', '\x80', '\x2D', '\x0E', '\x1E', '\xFA'}; do_write(CLIENT_CLOSE_FRAME, sizeof(CLIENT_CLOSE_FRAME)); } // Make sure buffering works static void send_in_chunks(const char* data, size_t len) { const int step = 7; size_t i = 0; // Do not send it all at once - test the buffering! for (; i < len - step; i += step) { do_write(data + i, step); } if (i < len) { do_write(data + i, len - i); } } static const char TEST_SUCCESS[] = "Test Success\n\n"; static int ReportsHttpGet_eventsCount = 0; static void ReportsHttpGet_handshake(enum inspector_handshake_event state, const std::string& path, bool* cont) { *cont = true; enum inspector_handshake_event expected_state = kInspectorHandshakeHttpGet; std::string expected_path; switch (delegate->handshake_events) { case 1: expected_path = "/some/path"; break; case 2: expected_path = "/respond/withtext"; delegate->Write(TEST_SUCCESS, sizeof(TEST_SUCCESS) - 1); break; case 3: expected_path = "/some/path2"; break; case 4: expected_path = "/close"; *cont = false; break; default: ASSERT_TRUE(false); } EXPECT_EQ(expected_state, state); EXPECT_EQ(expected_path, path); ReportsHttpGet_eventsCount = delegate->handshake_events; } TEST_F(InspectorSocketTest, ReportsHttpGet) { delegate->SetDelegate(ReportsHttpGet_handshake); const char GET_REQ[] = "GET /some/path HTTP/1.1\r\n" "Host: localhost:9229\r\n" "Sec-WebSocket-Key: aaa==\r\n" "Sec-WebSocket-Version: 13\r\n\r\n"; send_in_chunks(GET_REQ, sizeof(GET_REQ) - 1); expect_nothing_on_client(); const char WRITE_REQUEST[] = "GET /respond/withtext HTTP/1.1\r\n" "Host: localhost:9229\r\n\r\n"; send_in_chunks(WRITE_REQUEST, sizeof(WRITE_REQUEST) - 1); expect_on_client(TEST_SUCCESS, sizeof(TEST_SUCCESS) - 1); const char GET_REQS[] = "GET /some/path2 HTTP/1.1\r\n" "Host: localhost:9229\r\n" "Sec-WebSocket-Key: aaa==\r\n" "Sec-WebSocket-Version: 13\r\n\r\n" "GET /close HTTP/1.1\r\n" "Host: localhost:9229\r\n" "Sec-WebSocket-Key: aaa==\r\n" "Sec-WebSocket-Version: 13\r\n\r\n"; send_in_chunks(GET_REQS, sizeof(GET_REQS) - 1); expect_handshake_failure(); EXPECT_EQ(4, ReportsHttpGet_eventsCount); EXPECT_EQ(nullptr, delegate); } static int HandshakeCanBeCanceled_eventCount = 0; static void HandshakeCanBeCanceled_handshake(enum inspector_handshake_event state, const std::string& path, bool* cont) { switch (delegate->handshake_events - 1) { case 0: EXPECT_EQ(kInspectorHandshakeUpgraded, state); EXPECT_EQ("/ws/path", path); break; default: EXPECT_TRUE(false); break; } *cont = false; HandshakeCanBeCanceled_eventCount = delegate->handshake_events; } TEST_F(InspectorSocketTest, HandshakeCanBeCanceled) { delegate->SetDelegate(HandshakeCanBeCanceled_handshake); do_write(const_cast(HANDSHAKE_REQ), sizeof(HANDSHAKE_REQ) - 1); expect_handshake_failure(); EXPECT_EQ(1, HandshakeCanBeCanceled_eventCount); EXPECT_EQ(nullptr, delegate); } static void GetThenHandshake_handshake(enum inspector_handshake_event state, const std::string& path, bool* cont) { *cont = true; std::string expected_path = "/ws/path"; switch (delegate->handshake_events - 1) { case 0: EXPECT_EQ(kInspectorHandshakeHttpGet, state); expected_path = "/respond/withtext"; delegate->Write(TEST_SUCCESS, sizeof(TEST_SUCCESS) - 1); break; case 1: EXPECT_EQ(kInspectorHandshakeUpgraded, state); break; default: EXPECT_TRUE(false); break; } EXPECT_EQ(expected_path, path); } TEST_F(InspectorSocketTest, GetThenHandshake) { delegate->SetDelegate(GetThenHandshake_handshake); const char WRITE_REQUEST[] = "GET /respond/withtext HTTP/1.1\r\n" "Host: localhost:9229\r\n\r\n"; send_in_chunks(WRITE_REQUEST, sizeof(WRITE_REQUEST) - 1); expect_on_client(TEST_SUCCESS, sizeof(TEST_SUCCESS) - 1); do_write(const_cast(HANDSHAKE_REQ), sizeof(HANDSHAKE_REQ) - 1); expect_handshake(); EXPECT_EQ(2, delegate->handshake_events); } TEST_F(InspectorSocketTest, WriteBeforeHandshake) { const char MESSAGE1[] = "Message 1"; const char MESSAGE2[] = "Message 2"; const char EXPECTED[] = "Message 1Message 2"; delegate->Write(MESSAGE1, sizeof(MESSAGE1) - 1); delegate->Write(MESSAGE2, sizeof(MESSAGE2) - 1); expect_on_client(EXPECTED, sizeof(EXPECTED) - 1); really_close(reinterpret_cast(&client_socket)); SPIN_WHILE(delegate != nullptr); } TEST_F(InspectorSocketTest, CleanupSocketAfterEOF) { do_write(const_cast(HANDSHAKE_REQ), sizeof(HANDSHAKE_REQ) - 1); expect_handshake(); for (int i = 0; i < MAX_LOOP_ITERATIONS; ++i) { uv_run(&loop, UV_RUN_NOWAIT); } uv_close(reinterpret_cast(&client_socket), nullptr); SPIN_WHILE(delegate != nullptr); } TEST_F(InspectorSocketTest, EOFBeforeHandshake) { const char MESSAGE[] = "We'll send EOF afterwards"; delegate->Write(MESSAGE, sizeof(MESSAGE) - 1); expect_on_client(MESSAGE, sizeof(MESSAGE) - 1); uv_close(reinterpret_cast(&client_socket), nullptr); SPIN_WHILE(delegate != nullptr); } static void fill_message(std::string* buffer) { for (size_t i = 0; i < buffer->size(); i += 1) { (*buffer)[i] = 'a' + (i % ('z' - 'a')); } } static void mask_message(const std::string& message, char* buffer, const char mask[]) { const size_t mask_len = 4; for (size_t i = 0; i < message.size(); i += 1) { buffer[i] = message[i] ^ mask[i % mask_len]; } } TEST_F(InspectorSocketTest, Send1Mb) { ASSERT_TRUE(connected); ASSERT_FALSE(delegate->inspector_ready); do_write(const_cast(HANDSHAKE_REQ), sizeof(HANDSHAKE_REQ) - 1); SPIN_WHILE(!delegate->inspector_ready); expect_handshake(); // 2. Brief exchange std::string message(1000000, '\0'); fill_message(&message); // 1000000 is 0xF4240 hex const char EXPECTED_FRAME_HEADER[] = { '\x81', '\x7f', '\x00', '\x00', '\x00', '\x00', '\x00', '\x0F', '\x42', '\x40' }; std::string expected(EXPECTED_FRAME_HEADER, sizeof(EXPECTED_FRAME_HEADER)); expected.append(message); delegate->Write(&message[0], message.size()); expect_on_client(&expected[0], expected.size()); char MASK[4] = {'W', 'h', 'O', 'a'}; const char FRAME_TO_SERVER_HEADER[] = { '\x81', '\xff', '\x00', '\x00', '\x00', '\x00', '\x00', '\x0F', '\x42', '\x40', MASK[0], MASK[1], MASK[2], MASK[3] }; std::string outgoing(FRAME_TO_SERVER_HEADER, sizeof(FRAME_TO_SERVER_HEADER)); outgoing.resize(outgoing.size() + message.size()); mask_message(message, &outgoing[sizeof(FRAME_TO_SERVER_HEADER)], MASK); do_write(&outgoing[0], outgoing.size()); delegate->ExpectData(&message[0], message.size()); // 3. Close const char CLIENT_CLOSE_FRAME[] = {'\x88', '\x80', '\x2D', '\x0E', '\x1E', '\xFA'}; do_write(CLIENT_CLOSE_FRAME, sizeof(CLIENT_CLOSE_FRAME)); expect_on_client(SERVER_CLOSE_FRAME, sizeof(SERVER_CLOSE_FRAME)); GTEST_ASSERT_EQ(0, uv_is_active( reinterpret_cast(&client_socket))); } TEST_F(InspectorSocketTest, ErrorCleansUpTheSocket) { do_write(const_cast(HANDSHAKE_REQ), sizeof(HANDSHAKE_REQ) - 1); expect_handshake(); const char NOT_A_GOOD_FRAME[] = {'H', 'e', 'l', 'l', 'o'}; do_write(NOT_A_GOOD_FRAME, sizeof(NOT_A_GOOD_FRAME)); SPIN_WHILE(delegate != nullptr); } TEST_F(InspectorSocketTest, NoCloseResponseFromClient) { ASSERT_TRUE(connected); ASSERT_FALSE(delegate->inspector_ready); do_write(const_cast(HANDSHAKE_REQ), sizeof(HANDSHAKE_REQ) - 1); SPIN_WHILE(!delegate->inspector_ready); expect_handshake(); // 2. Brief exchange const char SERVER_MESSAGE[] = "abcd"; const char CLIENT_FRAME[] = {'\x81', '\x04', 'a', 'b', 'c', 'd'}; delegate->Write(SERVER_MESSAGE, sizeof(SERVER_MESSAGE) - 1); expect_on_client(CLIENT_FRAME, sizeof(CLIENT_FRAME)); delegate->Close(); expect_on_client(SERVER_CLOSE_FRAME, sizeof(SERVER_CLOSE_FRAME)); uv_close(reinterpret_cast(&client_socket), nullptr); GTEST_ASSERT_EQ(0, uv_is_active( reinterpret_cast(&client_socket))); delegate->WaitForDispose(); } static bool delegate_called = false; void shouldnt_be_called(enum inspector_handshake_event state, const std::string& path, bool* cont) { delegate_called = true; } void expect_failure_no_delegate(const std::string& request) { delegate->SetDelegate(shouldnt_be_called); delegate_called = false; send_in_chunks(request.c_str(), request.length()); expect_handshake_failure(); SPIN_WHILE(delegate != nullptr); ASSERT_FALSE(delegate_called); } TEST_F(InspectorSocketTest, HostCheckedForGET) { const char GET_REQUEST[] = "GET /respond/withtext HTTP/1.1\r\n" "Host: notlocalhost:9229\r\n\r\n"; expect_failure_no_delegate(GET_REQUEST); } TEST_F(InspectorSocketTest, HostCheckedForUPGRADE) { const char UPGRADE_REQUEST[] = "GET /ws/path HTTP/1.1\r\n" "Host: nonlocalhost:9229\r\n" "Upgrade: websocket\r\n" "Connection: Upgrade\r\n" "Sec-WebSocket-Key: aaa==\r\n" "Sec-WebSocket-Version: 13\r\n\r\n"; expect_failure_no_delegate(UPGRADE_REQUEST); } } // anonymous namespace