/* * Copyright 2010 The WebRTC Project Authors. All rights reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #ifndef WEBRTC_BASE_WIN32TOOLHELP_H_ #define WEBRTC_BASE_WIN32TOOLHELP_H_ #if !defined(WEBRTC_WIN) #error WEBRTC_WIN Only #endif #include "webrtc/base/win32.h" // Should be included first, but that causes redefinitions. #include #include "webrtc/base/constructormagic.h" namespace rtc { // The toolhelp api used to enumerate processes and their modules // on Windows is very repetetive and clunky to use. This little // template wraps it to make it a little more programmer friendly. // // Traits: Traits type that adapts the enumerator to the corresponding // win32 toolhelp api. Each traits class need to: // - define the type of the enumerated data as a public symbol Type // // - implement bool First(HANDLE, T*) normally calls a // Xxxx32First method in the toolhelp API. Ex Process32First(...) // // - implement bool Next(HANDLE, T*) normally calls a // Xxxx32Next method in the toolhelp API. Ex Process32Next(...) // // - implement bool CloseHandle(HANDLE) // template class ToolhelpEnumeratorBase { public: ToolhelpEnumeratorBase(HANDLE snapshot) : snapshot_(snapshot), broken_(false), first_(true) { // Clear out the Traits::Type structure instance. Zero(¤t_); } virtual ~ToolhelpEnumeratorBase() { Close(); } // Moves forward to the next object using the First and Next // pointers. If either First or Next ever indicates an failure // all subsequent calls to this method will fail; the enumerator // object is considered broken. bool Next() { if (!Valid()) { return false; } // Move the iteration forward. current_.dwSize = sizeof(typename Traits::Type); bool incr_ok = false; if (first_) { incr_ok = Traits::First(snapshot_, ¤t_); first_ = false; } else { incr_ok = Traits::Next(snapshot_, ¤t_); } if (!incr_ok) { Zero(¤t_); broken_ = true; } return incr_ok; } const typename Traits::Type& current() const { return current_; } void Close() { if (snapshot_ != INVALID_HANDLE_VALUE) { Traits::CloseHandle(snapshot_); snapshot_ = INVALID_HANDLE_VALUE; } } private: // Checks the state of the snapshot handle. bool Valid() { return snapshot_ != INVALID_HANDLE_VALUE && !broken_; } static void Zero(typename Traits::Type* buff) { ZeroMemory(buff, sizeof(typename Traits::Type)); } HANDLE snapshot_; typename Traits::Type current_; bool broken_; bool first_; }; class ToolhelpTraits { public: static HANDLE CreateSnapshot(uint32 flags, uint32 process_id) { return CreateToolhelp32Snapshot(flags, process_id); } static bool CloseHandle(HANDLE handle) { return ::CloseHandle(handle) == TRUE; } }; class ToolhelpProcessTraits : public ToolhelpTraits { public: typedef PROCESSENTRY32 Type; static bool First(HANDLE handle, Type* t) { return ::Process32First(handle, t) == TRUE; } static bool Next(HANDLE handle, Type* t) { return ::Process32Next(handle, t) == TRUE; } }; class ProcessEnumerator : public ToolhelpEnumeratorBase { public: ProcessEnumerator() : ToolhelpEnumeratorBase( ToolhelpProcessTraits::CreateSnapshot(TH32CS_SNAPPROCESS, 0)) { } private: DISALLOW_EVIL_CONSTRUCTORS(ProcessEnumerator); }; class ToolhelpModuleTraits : public ToolhelpTraits { public: typedef MODULEENTRY32 Type; static bool First(HANDLE handle, Type* t) { return ::Module32First(handle, t) == TRUE; } static bool Next(HANDLE handle, Type* t) { return ::Module32Next(handle, t) == TRUE; } }; class ModuleEnumerator : public ToolhelpEnumeratorBase { public: explicit ModuleEnumerator(uint32 process_id) : ToolhelpEnumeratorBase( ToolhelpModuleTraits::CreateSnapshot(TH32CS_SNAPMODULE, process_id)) { } private: DISALLOW_EVIL_CONSTRUCTORS(ModuleEnumerator); }; } // namespace rtc #endif // WEBRTC_BASE_WIN32TOOLHELP_H_