// Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. #ifndef SRC_ETW_INL_H_ #define SRC_ETW_INL_H_ #include "node_win32_etw_provider.h" #include "node_etw_provider.h" namespace node { using namespace v8; // From node_win32_etw_provider.cc extern REGHANDLE node_provider; extern EventWriteFunc event_write; extern int events_enabled; #define ETW_WRITE_STRING_DATA(data_descriptor, data) \ EventDataDescCreate(data_descriptor, \ data, \ (strlen(data) + 1) * sizeof(char)); #define ETW_WRITE_INT32_DATA(data_descriptor, data) \ EventDataDescCreate(data_descriptor, data, sizeof(int32_t)); #define ETW_WRITE_INT64_DATA(data_descriptor, data) \ EventDataDescCreate(data_descriptor, data, sizeof(int64_t)); #define ETW_WRITE_ADDRESS_DATA(data_descriptor, data) \ EventDataDescCreate(data_descriptor, data, sizeof(intptr_t)); #define ETW_WRITE_INT16_DATA(data_descriptor, data) \ EventDataDescCreate(data_descriptor, data, sizeof(int16_t)); #define ETW_WRITE_WSTRING_DATA_LENGTH(data_descriptor, data, data_len_bytes) \ EventDataDescCreate(data_descriptor, \ data, \ data_len_bytes); #define ETW_WRITE_NET_CONNECTION(descriptors, conn) \ ETW_WRITE_INT32_DATA(descriptors, &conn->fd); \ ETW_WRITE_INT32_DATA(descriptors + 1, &conn->port); \ ETW_WRITE_STRING_DATA(descriptors + 2, conn->remote); \ ETW_WRITE_INT32_DATA(descriptors + 3, &conn->buffered); #define ETW_WRITE_HTTP_SERVER_REQUEST(descriptors, req) \ ETW_WRITE_STRING_DATA(descriptors, req->url); \ ETW_WRITE_STRING_DATA(descriptors + 1, req->method); \ ETW_WRITE_STRING_DATA(descriptors + 2, req->forwardedFor); #define ETW_WRITE_HTTP_CLIENT_REQUEST(descriptors, req) \ ETW_WRITE_STRING_DATA(descriptors, req->url); \ ETW_WRITE_STRING_DATA(descriptors + 1, req->method); #define ETW_WRITE_GC(descriptors, type, flags) \ ETW_WRITE_INT32_DATA(descriptors, &type); \ ETW_WRITE_INT32_DATA(descriptors + 1, &flags); #define ETW_WRITE_V8ADDRESSCHANGE(descriptors, addr1, addr2) \ ETW_WRITE_ADDRESS_DATA(descriptors, &addr1); \ ETW_WRITE_ADDRESS_DATA(descriptors + 1, &addr2); #define ETW_WRITE_JSMETHOD_LOADUNLOAD(descriptors, \ context, \ startAddr, \ size, \ id, \ flags, \ rangeId, \ sourceId, \ line, \ col, \ name, \ name_len_bytes) \ ETW_WRITE_ADDRESS_DATA(descriptors, &context); \ ETW_WRITE_ADDRESS_DATA(descriptors + 1, &startAddr); \ ETW_WRITE_INT64_DATA(descriptors + 2, &size); \ ETW_WRITE_INT32_DATA(descriptors + 3, &id); \ ETW_WRITE_INT16_DATA(descriptors + 4, &flags); \ ETW_WRITE_INT16_DATA(descriptors + 5, &rangeId); \ ETW_WRITE_INT64_DATA(descriptors + 6, &sourceId); \ ETW_WRITE_INT32_DATA(descriptors + 7, &line); \ ETW_WRITE_INT32_DATA(descriptors + 8, &col); \ ETW_WRITE_WSTRING_DATA_LENGTH(descriptors + 9, name, name_len_bytes); #define ETW_WRITE_EVENT(eventDescriptor, dataDescriptors) \ DWORD status = event_write(node_provider, \ &eventDescriptor, \ sizeof(dataDescriptors)/sizeof(*dataDescriptors),\ dataDescriptors); \ assert(status == ERROR_SUCCESS); void NODE_HTTP_SERVER_REQUEST(node_dtrace_http_server_request_t* req, node_dtrace_connection_t* conn) { EVENT_DATA_DESCRIPTOR descriptors[7]; ETW_WRITE_HTTP_SERVER_REQUEST(descriptors, req); ETW_WRITE_NET_CONNECTION(descriptors + 3, conn); ETW_WRITE_EVENT(NODE_HTTP_SERVER_REQUEST_EVENT, descriptors); } void NODE_HTTP_SERVER_RESPONSE(node_dtrace_connection_t* conn) { EVENT_DATA_DESCRIPTOR descriptors[4]; ETW_WRITE_NET_CONNECTION(descriptors, conn); ETW_WRITE_EVENT(NODE_HTTP_SERVER_RESPONSE_EVENT, descriptors); } void NODE_HTTP_CLIENT_REQUEST(node_dtrace_http_client_request_t* req, node_dtrace_connection_t* conn) { EVENT_DATA_DESCRIPTOR descriptors[6]; ETW_WRITE_HTTP_CLIENT_REQUEST(descriptors, req); ETW_WRITE_NET_CONNECTION(descriptors + 2, conn); ETW_WRITE_EVENT(NODE_HTTP_CLIENT_REQUEST_EVENT, descriptors); } void NODE_HTTP_CLIENT_RESPONSE(node_dtrace_connection_t* conn) { EVENT_DATA_DESCRIPTOR descriptors[4]; ETW_WRITE_NET_CONNECTION(descriptors, conn); ETW_WRITE_EVENT(NODE_HTTP_CLIENT_RESPONSE_EVENT, descriptors); } void NODE_NET_SERVER_CONNECTION(node_dtrace_connection_t* conn) { EVENT_DATA_DESCRIPTOR descriptors[4]; ETW_WRITE_NET_CONNECTION(descriptors, conn); ETW_WRITE_EVENT(NODE_NET_SERVER_CONNECTION_EVENT, descriptors); } void NODE_NET_STREAM_END(node_dtrace_connection_t* conn) { EVENT_DATA_DESCRIPTOR descriptors[4]; ETW_WRITE_NET_CONNECTION(descriptors, conn); ETW_WRITE_EVENT(NODE_NET_STREAM_END_EVENT, descriptors); } void NODE_GC_START(GCType type, GCCallbackFlags flags) { if (events_enabled > 0) { EVENT_DATA_DESCRIPTOR descriptors[2]; ETW_WRITE_GC(descriptors, type, flags); ETW_WRITE_EVENT(NODE_GC_START_EVENT, descriptors); } } void NODE_GC_DONE(GCType type, GCCallbackFlags flags) { if (events_enabled > 0) { EVENT_DATA_DESCRIPTOR descriptors[2]; ETW_WRITE_GC(descriptors, type, flags); ETW_WRITE_EVENT(NODE_GC_DONE_EVENT, descriptors); } } void NODE_V8SYMBOL_REMOVE(const void* addr1, const void* addr2) { if (events_enabled > 0) { EVENT_DATA_DESCRIPTOR descriptors[2]; ETW_WRITE_V8ADDRESSCHANGE(descriptors, addr1, addr2); ETW_WRITE_EVENT(NODE_V8SYMBOL_REMOVE_EVENT, descriptors); } } void NODE_V8SYMBOL_MOVE(const void* addr1, const void* addr2) { if (events_enabled > 0) { EVENT_DATA_DESCRIPTOR descriptors[2]; ETW_WRITE_V8ADDRESSCHANGE(descriptors, addr1, addr2); ETW_WRITE_EVENT(NODE_V8SYMBOL_MOVE_EVENT, descriptors); } } void NODE_V8SYMBOL_RESET() { if (events_enabled > 0) { int val = 0; EVENT_DATA_DESCRIPTOR descriptors[1]; ETW_WRITE_INT32_DATA(descriptors, &val); ETW_WRITE_EVENT(NODE_V8SYMBOL_RESET_EVENT, descriptors); } } #define SETSYMBUF(s) \ wcscpy(symbuf, s); \ symbol_len = ARRAY_SIZE(s) - 1; void NODE_V8SYMBOL_ADD(LPCSTR symbol, int symbol_len, const void* addr1, int len) { if (events_enabled > 0) { wchar_t symbuf[128]; if (symbol == NULL) { SETSYMBUF(L"NULL"); } else { symbol_len = MultiByteToWideChar(CP_ACP, 0, symbol, symbol_len, symbuf, 128); if (symbol_len == 0) { SETSYMBUF(L"Invalid"); } else { if (symbol_len > 127) { symbol_len = 127; } symbuf[symbol_len] = L'\0'; } } void* context = NULL; INT64 size = (INT64)len; INT32 id = (INT32)addr1; INT16 flags = 0; INT16 rangeid = 1; INT32 col = 1; INT32 line = 1; INT64 sourceid = 0; EVENT_DATA_DESCRIPTOR descriptors[10]; ETW_WRITE_JSMETHOD_LOADUNLOAD(descriptors, context, addr1, size, id, flags, rangeid, sourceid, line, col, symbuf, symbol_len * sizeof(symbuf[0])); ETW_WRITE_EVENT(MethodLoad, descriptors); } } #undef SETSYMBUF bool NODE_HTTP_SERVER_REQUEST_ENABLED() { return events_enabled > 0; } bool NODE_HTTP_SERVER_RESPONSE_ENABLED() { return events_enabled > 0; } bool NODE_HTTP_CLIENT_REQUEST_ENABLED() { return events_enabled > 0; } bool NODE_HTTP_CLIENT_RESPONSE_ENABLED() { return events_enabled > 0; } bool NODE_NET_SERVER_CONNECTION_ENABLED() { return events_enabled > 0; } bool NODE_NET_STREAM_END_ENABLED() { return events_enabled > 0; } bool NODE_NET_SOCKET_READ_ENABLED() { return events_enabled > 0; } bool NODE_NET_SOCKET_WRITE_ENABLED() { return events_enabled > 0; } bool NODE_V8SYMBOL_ENABLED() { return events_enabled > 0; } } #endif // SRC_ETW_INL_H_