// Copyright 2015 The Crashpad Authors. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #ifndef CRASHPAD_UTIL_WIN_PROCESS_INFO_H_ #define CRASHPAD_UTIL_WIN_PROCESS_INFO_H_ #include #include #include #include #include "base/basictypes.h" #include "util/misc/initialization_state_dcheck.h" #include "util/numeric/checked_range.h" #include "util/win/address_types.h" namespace crashpad { //! \brief Gathers information about a process given its `HANDLE`. This consists //! primarily of information stored in the Process Environment Block. class ProcessInfo { public: //! \brief Contains information about a module loaded into a process. struct Module { Module(); ~Module(); //! \brief The pathname used to load the module from disk. std::wstring name; //! \brief The base address of the loaded DLL. WinVMAddress dll_base; //! \brief The size of the module. WinVMSize size; //! \brief The module's timestamp. time_t timestamp; }; struct Handle { Handle(); ~Handle(); //! \brief A string representation of the handle's type. std::wstring type_name; //! \brief The handle's value. uint32_t handle; //! \brief The attributes for the handle, e.g. `OBJ_INHERIT`, //! `OBJ_CASE_INSENSITIVE`, etc. uint32_t attributes; //! \brief The `ACCESS_MASK` for the handle in this process. //! //! See //! http://blogs.msdn.com/b/openspecification/archive/2010/04/01/about-the-access-mask-structure.aspx //! for more information. uint32_t granted_access; //! \brief The number of kernel references to the object that this handle //! refers to. uint32_t pointer_count; //! \brief The number of open handles to the object that this handle refers //! to. uint32_t handle_count; }; ProcessInfo(); ~ProcessInfo(); //! \brief Initializes this object with information about the given //! \a process. //! //! This method must be called successfully prior to calling any other //! method in this class. This method may only be called once. //! //! \return `true` on success, `false` on failure with a message logged. bool Initialize(HANDLE process); //! \return `true` if the target process is a 64-bit process. bool Is64Bit() const; //! \return `true` if the target process is running on the Win32-on-Win64 //! subsystem. bool IsWow64() const; //! \return The target process's process ID. pid_t ProcessID() const; //! \return The target process's parent process ID. pid_t ParentProcessID() const; //! \return The command line from the target process's Process Environment //! Block. bool CommandLine(std::wstring* command_line) const; //! \brief Gets the address and size of the process's Process Environment //! Block. //! //! \param[out] peb_address The address of the Process Environment Block. //! \param[out] peb_size The size of the Process Environment Block. void Peb(WinVMAddress* peb_address, WinVMSize* peb_size) const; //! \brief Retrieves the modules loaded into the target process. //! //! The modules are enumerated in initialization order as detailed in the //! Process Environment Block. The main executable will always be the //! first element. bool Modules(std::vector* modules) const; //! \brief Retrieves information about all pages mapped into the process. const std::vector& MemoryInfo() const; //! \brief Given a range to be read from the target process, returns a vector //! of ranges, representing the readable portions of the original range. //! //! \param[in] range The range being identified. //! //! \return A vector of ranges corresponding to the portion of \a range that //! is readable based on the memory map. std::vector> GetReadableRanges( const CheckedRange& range) const; //! \brief Given a range in the target process, determines if the entire range //! is readable. //! //! \param[in] range The range being inspected. //! //! \return `true` if the range is fully readable, otherwise `false` with a //! message logged. bool LoggingRangeIsFullyReadable( const CheckedRange& range) const; //! \brief Retrieves information about open handles in the target process. const std::vector& Handles() const; private: template friend bool GetProcessBasicInformation(HANDLE process, bool is_wow64, ProcessInfo* process_info, WinVMAddress* peb_address, WinVMSize* peb_size); template friend bool ReadProcessData(HANDLE process, WinVMAddress peb_address_vmaddr, ProcessInfo* process_info); friend bool ReadMemoryInfo(HANDLE process, bool is_64_bit, ProcessInfo* process_info); std::vector BuildHandleVector(HANDLE process) const; pid_t process_id_; pid_t inherited_from_process_id_; HANDLE process_; std::wstring command_line_; WinVMAddress peb_address_; WinVMSize peb_size_; std::vector modules_; std::vector memory_info_; // Handles() is logically const, but updates this member on first retrieval. // See https://crashpad.chromium.org/bug/9. mutable std::vector handles_; bool is_64_bit_; bool is_wow64_; InitializationStateDcheck initialized_; DISALLOW_COPY_AND_ASSIGN(ProcessInfo); }; //! \brief Given a memory map of a process, and a range to be read from the //! target process, returns a vector of ranges, representing the readable //! portions of the original range. //! //! This is a free function for testing, but prefer //! ProcessInfo::GetReadableRanges(). std::vector> GetReadableRangesOfMemoryMap( const CheckedRange& range, const std::vector& memory_info); } // namespace crashpad #endif // CRASHPAD_UTIL_WIN_PROCESS_INFO_H_