#ifndef SRC_NODE_REPORT_H_ #define SRC_NODE_REPORT_H_ #include #include #include #include #include #include #include #include #include #include #include #include "v8.h" #include #include #include #include #include #include #ifdef _WIN32 #include #else #include #include #include #endif namespace report { #ifdef _WIN32 typedef SYSTEMTIME TIME_TYPE; #define PATHSEP "\\" #else // UNIX, OSX typedef struct tm TIME_TYPE; #define PATHSEP "/" #endif // Function declarations - functions in src/node_report.cc std::string TriggerNodeReport(v8::Isolate* isolate, node::Environment* env, const char* message, const char* location, std::string name, v8::Local stackstr); void GetNodeReport(v8::Isolate* isolate, node::Environment* env, const char* message, const char* location, v8::Local stackstr, std::ostream& out); // Function declarations - utility functions in src/node_report_utils.cc void WalkHandle(uv_handle_t* h, void* arg); std::string EscapeJsonChars(const std::string& str); template std::string ValueToHexString(T value) { std::stringstream hex; hex << "0x" << std::setfill('0') << std::setw(sizeof(T) * 2) << std::hex << value; return hex.str(); } // Function declarations - export functions in src/node_report_module.cc void TriggerReport(const v8::FunctionCallbackInfo& info); void GetReport(const v8::FunctionCallbackInfo& info); // Node.js boot time - defined in src/node.cc extern double prog_start_time; // JSON compiler definitions. class JSONWriter { public: explicit JSONWriter(std::ostream& out) : out_(out) {} inline void indent() { indent_ += 2; } inline void deindent() { indent_ -= 2; } inline void advance() { for (int i = 0; i < indent_; i++) out_ << ' '; } inline void json_start() { if (state_ == kAfterValue) out_ << ','; out_ << '\n'; advance(); out_ << '{'; indent(); state_ = kObjectStart; } inline void json_end() { out_ << '\n'; deindent(); advance(); out_ << '}'; state_ = kAfterValue; } template inline void json_objectstart(T key) { if (state_ == kAfterValue) out_ << ','; out_ << '\n'; advance(); write_string(key); out_ << ": {"; indent(); state_ = kObjectStart; } template inline void json_arraystart(T key) { if (state_ == kAfterValue) out_ << ','; out_ << '\n'; advance(); write_string(key); out_ << ": ["; indent(); state_ = kObjectStart; } inline void json_objectend() { out_ << '\n'; deindent(); advance(); out_ << '}'; state_ = kAfterValue; } inline void json_arrayend() { out_ << '\n'; deindent(); advance(); out_ << ']'; state_ = kAfterValue; } template inline void json_keyvalue(const T& key, const U& value) { if (state_ == kAfterValue) out_ << ','; out_ << '\n'; advance(); write_string(key); out_ << ": "; write_value(value); state_ = kAfterValue; } template inline void json_element(const U& value) { if (state_ == kAfterValue) out_ << ','; out_ << '\n'; advance(); write_value(value); state_ = kAfterValue; } struct Null {}; // Usable as a JSON value. private: template ::is_specialized, bool>::type> inline void write_value(T number) { if (std::is_same::value) out_ << (number ? "true" : "false"); else out_ << number; } inline void write_value(Null null) { out_ << "null"; } inline void write_value(const char* str) { write_string(str); } inline void write_value(const std::string& str) { write_string(str); } inline void write_string(const std::string& str) { out_ << '"' << EscapeJsonChars(str) << '"'; } inline void write_string(const char* str) { write_string(std::string(str)); } enum JSONState { kObjectStart, kAfterValue }; std::ostream& out_; int indent_ = 0; int state_ = kObjectStart; }; } // namespace report #endif // SRC_NODE_REPORT_H_