From 26a029d407be480d791972afb5975cf62c9360a6 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Fri, 19 Apr 2024 02:47:55 +0200 Subject: Adding upstream version 124.0.1. Signed-off-by: Daniel Baumann --- .../src/google_breakpad/processor/minidump.h | 1498 ++++++++++++++++++++ 1 file changed, 1498 insertions(+) create mode 100644 toolkit/crashreporter/google-breakpad/src/google_breakpad/processor/minidump.h (limited to 'toolkit/crashreporter/google-breakpad/src/google_breakpad/processor/minidump.h') diff --git a/toolkit/crashreporter/google-breakpad/src/google_breakpad/processor/minidump.h b/toolkit/crashreporter/google-breakpad/src/google_breakpad/processor/minidump.h new file mode 100644 index 0000000000..b2eab95d8a --- /dev/null +++ b/toolkit/crashreporter/google-breakpad/src/google_breakpad/processor/minidump.h @@ -0,0 +1,1498 @@ +// Copyright (c) 2010 Google Inc. +// All rights reserved. +// +// Redistribution and use in source and binary forms, with or without +// modification, are permitted provided that the following conditions are +// met: +// +// * Redistributions of source code must retain the above copyright +// notice, this list of conditions and the following disclaimer. +// * Redistributions in binary form must reproduce the above +// copyright notice, this list of conditions and the following disclaimer +// in the documentation and/or other materials provided with the +// distribution. +// * Neither the name of Google Inc. nor the names of its +// contributors may be used to endorse or promote products derived from +// this software without specific prior written permission. +// +// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT +// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +// minidump.h: A minidump reader. +// +// The basic structure of this module tracks the structure of the minidump +// file itself. At the top level, a minidump file is represented by a +// Minidump object. Like most other classes in this module, Minidump +// provides a Read method that initializes the object with information from +// the file. Most of the classes in this file are wrappers around the +// "raw" structures found in the minidump file itself, and defined in +// minidump_format.h. For example, each thread is represented by a +// MinidumpThread object, whose parameters are specified in an MDRawThread +// structure. A properly byte-swapped MDRawThread can be obtained from a +// MinidumpThread easily by calling its thread() method. +// +// Most of the module lazily reads only the portion of the minidump file +// necessary to fulfill the user's request. Calling Minidump::Read +// only reads the minidump's directory. The thread list is not read until +// it is needed, and even once it's read, the memory regions for each +// thread's stack aren't read until they're needed. This strategy avoids +// unnecessary file input, and allocating memory for data in which the user +// has no interest. Note that although memory allocations for a typical +// minidump file are not particularly large, it is possible for legitimate +// minidumps to be sizable. A full-memory minidump, for example, contains +// a snapshot of the entire mapped memory space. Even a normal minidump, +// with stack memory only, can be large if, for example, the dump was +// generated in response to a crash that occurred due to an infinite- +// recursion bug that caused the stack's limits to be exceeded. Finally, +// some users of this library will unfortunately find themselves in the +// position of having to process potentially-hostile minidumps that might +// attempt to cause problems by forcing the minidump processor to over- +// allocate memory. +// +// Memory management in this module is based on a strict +// you-don't-own-anything policy. The only object owned by the user is +// the top-level Minidump object, the creation and destruction of which +// must be the user's own responsibility. All other objects obtained +// through interaction with this module are ultimately owned by the +// Minidump object, and will be freed upon the Minidump object's destruction. +// Because memory regions can potentially involve large allocations, a +// FreeMemory method is provided by MinidumpMemoryRegion, allowing the user +// to release data when it is no longer needed. Use of this method is +// optional but recommended. If freed data is later required, it will +// be read back in from the minidump file again. +// +// There is one exception to this memory management policy: +// Minidump::ReadString will return a string object to the user, and the user +// is responsible for its deletion. +// +// Author: Mark Mentovai + +#ifndef GOOGLE_BREAKPAD_PROCESSOR_MINIDUMP_H__ +#define GOOGLE_BREAKPAD_PROCESSOR_MINIDUMP_H__ + +#include + +#ifndef _WIN32 +#include +#endif + +#include +#include +#include +#include + +#include "common/basictypes.h" +#include "common/using_std_string.h" +#include "google_breakpad/processor/code_module.h" +#include "google_breakpad/processor/code_modules.h" +#include "google_breakpad/processor/dump_context.h" +#include "google_breakpad/processor/dump_object.h" +#include "google_breakpad/processor/memory_region.h" +#include "google_breakpad/processor/proc_maps_linux.h" + + +namespace google_breakpad { + + +using std::map; +using std::vector; + + +class Minidump; +template class RangeMap; + + +// MinidumpObject is the base of all Minidump* objects except for Minidump +// itself. +class MinidumpObject : public DumpObject { + public: + virtual ~MinidumpObject() {} + + protected: + explicit MinidumpObject(Minidump* minidump); + + // Refers to the Minidump object that is the ultimate parent of this + // Some MinidumpObjects are owned by other MinidumpObjects, but at the + // root of the ownership tree is always a Minidump. The Minidump object + // is kept here for access to its seeking and reading facilities, and + // for access to data about the minidump file itself, such as whether + // it should be byte-swapped. + Minidump* minidump_; +}; + + +// This class exists primarily to provide a virtual destructor in a base +// class common to all objects that might be stored in +// Minidump::mStreamObjects. Some object types will never be stored in +// Minidump::mStreamObjects, but are represented as streams and adhere to the +// same interface, and may be derived from this class. +class MinidumpStream : public MinidumpObject { + public: + virtual ~MinidumpStream() {} + + protected: + explicit MinidumpStream(Minidump* minidump); + + private: + // Populate (and validate) the MinidumpStream. minidump_ is expected + // to be positioned at the beginning of the stream, so that the next + // read from the minidump will be at the beginning of the stream. + // expected_size should be set to the stream's length as contained in + // the MDRawDirectory record or other identifying record. A class + // that implements MinidumpStream can compare expected_size to a + // known size as an integrity check. + virtual bool Read(uint32_t expected_size) = 0; + + DISALLOW_COPY_AND_ASSIGN(MinidumpStream); +}; + + +// MinidumpContext carries a CPU-specific MDRawContext structure, which +// contains CPU context such as register states. Each thread has its +// own context, and the exception record, if present, also has its own +// context. Note that if the exception record is present, the context it +// refers to is probably what the user wants to use for the exception +// thread, instead of that thread's own context. The exception thread's +// context (as opposed to the exception record's context) will contain +// context for the exception handler (which performs minidump generation), +// and not the context that caused the exception (which is probably what the +// user wants). +class MinidumpContext : public DumpContext { + public: + virtual ~MinidumpContext(); + + protected: + explicit MinidumpContext(Minidump* minidump); + + private: + friend class MinidumpThread; + friend class MinidumpException; + + bool Read(uint32_t expected_size); + + // If the minidump contains a SYSTEM_INFO_STREAM, makes sure that the + // system info stream gives an appropriate CPU type matching the context + // CPU type in context_cpu_type. Returns false if the CPU type does not + // match. Returns true if the CPU type matches or if the minidump does + // not contain a system info stream. + bool CheckAgainstSystemInfo(uint32_t context_cpu_type); + + // Refers to the Minidump object that is the ultimate parent of this + // Some MinidumpObjects are owned by other MinidumpObjects, but at the + // root of the ownership tree is always a Minidump. The Minidump object + // is kept here for access to its seeking and reading facilities, and + // for access to data about the minidump file itself, such as whether + // it should be byte-swapped. + Minidump* minidump_; + + DISALLOW_COPY_AND_ASSIGN(MinidumpContext); +}; + + +// MinidumpMemoryRegion does not wrap any MDRaw structure, and only contains +// a reference to an MDMemoryDescriptor. This object is intended to wrap +// portions of a minidump file that contain memory dumps. In normal +// minidumps, each MinidumpThread owns a MinidumpMemoryRegion corresponding +// to the thread's stack memory. MinidumpMemoryList also gives access to +// memory regions in its list as MinidumpMemoryRegions. This class +// adheres to MemoryRegion so that it may be used as a data provider to +// the Stackwalker family of classes. +class MinidumpMemoryRegion : public MinidumpObject, + public MemoryRegion { + public: + virtual ~MinidumpMemoryRegion(); + + static void set_max_bytes(uint32_t max_bytes) { max_bytes_ = max_bytes; } + static uint32_t max_bytes() { return max_bytes_; } + + // Returns a pointer to the base of the memory region. Returns the + // cached value if available, otherwise, reads the minidump file and + // caches the memory region. + const uint8_t* GetMemory() const; + + // The address of the base of the memory region. + uint64_t GetBase() const; + + // The size, in bytes, of the memory region. + uint32_t GetSize() const; + + // Frees the cached memory region, if cached. + void FreeMemory(); + + // Obtains the value of memory at the pointer specified by address. + bool GetMemoryAtAddress(uint64_t address, uint8_t* value) const; + bool GetMemoryAtAddress(uint64_t address, uint16_t* value) const; + bool GetMemoryAtAddress(uint64_t address, uint32_t* value) const; + bool GetMemoryAtAddress(uint64_t address, uint64_t* value) const; + + // Print a human-readable representation of the object to stdout. + void Print() const; + void SetPrintMode(bool hexdump, unsigned int width); + + protected: + explicit MinidumpMemoryRegion(Minidump* minidump); + + private: + friend class MinidumpThread; + friend class MinidumpMemoryList; + + // Identify the base address and size of the memory region, and the + // location it may be found in the minidump file. + void SetDescriptor(MDMemoryDescriptor* descriptor); + + // Implementation for GetMemoryAtAddress + template bool GetMemoryAtAddressInternal(uint64_t address, + T* value) const; + + // Knobs for controlling display of memory printing. + bool hexdump_; + unsigned int hexdump_width_; + + // The largest memory region that will be read from a minidump. + static uint32_t max_bytes_; + + // Base address and size of the memory region, and its position in the + // minidump file. + MDMemoryDescriptor* descriptor_; + + // Cached memory. + mutable vector* memory_; +}; + + +// MinidumpThread contains information about a thread of execution, +// including a snapshot of the thread's stack and CPU context. For +// the thread that caused an exception, the context carried by +// MinidumpException is probably desired instead of the CPU context +// provided here. +// Note that a MinidumpThread may be valid() even if it does not +// contain a memory region or context. +class MinidumpThread : public MinidumpObject { + public: + virtual ~MinidumpThread(); + + const MDRawThread* thread() const { return valid_ ? &thread_ : NULL; } + // GetMemory may return NULL even if the MinidumpThread is valid, + // if the thread memory cannot be read. + virtual MinidumpMemoryRegion* GetMemory(); + // Corresponds to win32's GetLastError function, which records the last + // error value set by the OS for this thread. A more useful error message + // can be produced by passing this value to FormatMessage: + // + // https://docs.microsoft.com/windows/win32/debug/retrieving-the-last-error-code + // + // The value may also be looked up in Microsoft's System Error Codes listing: + // + // https://docs.microsoft.com/windows/win32/debug/system-error-codes + virtual uint32_t GetLastError(); + // GetContext may return NULL even if the MinidumpThread is valid. + virtual MinidumpContext* GetContext(); + + // The thread ID is used to determine if a thread is the exception thread, + // so a special getter is provided to retrieve this data from the + // MDRawThread structure. Returns false if the thread ID cannot be + // determined. + virtual bool GetThreadID(uint32_t *thread_id) const; + + // Print a human-readable representation of the object to stdout. + void Print(); + + // Returns the start address of the thread stack memory region. Returns 0 if + // MinidumpThread is invalid. Note that this method can be called even when + // the thread memory cannot be read and GetMemory returns NULL. + virtual uint64_t GetStartOfStackMemoryRange() const; + + protected: + explicit MinidumpThread(Minidump* minidump); + + private: + // These objects are managed by MinidumpThreadList. + friend class MinidumpThreadList; + + // This works like MinidumpStream::Read, but is driven by + // MinidumpThreadList. No size checking is done, because + // MinidumpThreadList handles that directly. + bool Read(); + + MDRawThread thread_; + MinidumpMemoryRegion* memory_; + MinidumpContext* context_; +}; + + +// MinidumpThreadList contains all of the threads (as MinidumpThreads) in +// a process. +class MinidumpThreadList : public MinidumpStream { + public: + virtual ~MinidumpThreadList(); + + static void set_max_threads(uint32_t max_threads) { + max_threads_ = max_threads; + } + static uint32_t max_threads() { return max_threads_; } + + virtual unsigned int thread_count() const { + return valid_ ? thread_count_ : 0; + } + + // Sequential access to threads. + virtual MinidumpThread* GetThreadAtIndex(unsigned int index) const; + + // Random access to threads. + MinidumpThread* GetThreadByID(uint32_t thread_id); + + // Print a human-readable representation of the object to stdout. + void Print(); + + protected: + explicit MinidumpThreadList(Minidump* aMinidump); + + private: + friend class Minidump; + + typedef map IDToThreadMap; + typedef vector MinidumpThreads; + + static const uint32_t kStreamType = MD_THREAD_LIST_STREAM; + + bool Read(uint32_t aExpectedSize) override; + + // The largest number of threads that will be read from a minidump. The + // default is 256. + static uint32_t max_threads_; + + // Access to threads using the thread ID as the key. + IDToThreadMap id_to_thread_map_; + + // The list of threads. + MinidumpThreads* threads_; + uint32_t thread_count_; + + DISALLOW_COPY_AND_ASSIGN(MinidumpThreadList); +}; + + +// MinidumpModule wraps MDRawModule, which contains information about loaded +// code modules. Access is provided to various data referenced indirectly +// by MDRawModule, such as the module's name and a specification for where +// to locate debugging information for the module. +class MinidumpModule : public MinidumpObject, + public CodeModule { + public: + virtual ~MinidumpModule(); + + static void set_max_cv_bytes(uint32_t max_cv_bytes) { + max_cv_bytes_ = max_cv_bytes; + } + static uint32_t max_cv_bytes() { return max_cv_bytes_; } + + static void set_max_misc_bytes(uint32_t max_misc_bytes) { + max_misc_bytes_ = max_misc_bytes; + } + static uint32_t max_misc_bytes() { return max_misc_bytes_; } + + const MDRawModule* module() const { return valid_ ? &module_ : NULL; } + + // CodeModule implementation + virtual uint64_t base_address() const { + return valid_ ? module_.base_of_image : static_cast(-1); + } + virtual uint64_t size() const { return valid_ ? module_.size_of_image : 0; } + virtual string code_file() const; + virtual string code_identifier() const; + virtual string debug_file() const; + virtual string debug_identifier() const; + virtual string version() const; + virtual CodeModule* Copy() const; + virtual bool is_unloaded() const { return false; } + + // Getter and setter for shrink_down_delta. This is used when the address + // range for a module is shrunk down due to address range conflicts with + // other modules. The base_address and size fields are not updated and they + // should always reflect the original values (reported in the minidump). + virtual uint64_t shrink_down_delta() const; + virtual void SetShrinkDownDelta(uint64_t shrink_down_delta); + + // The CodeView record, which contains information to locate the module's + // debugging information (pdb). This is returned as uint8_t* because + // the data can be of types MDCVInfoPDB20* or MDCVInfoPDB70*, or it may be + // of a type unknown to Breakpad, in which case the raw data will still be + // returned but no byte-swapping will have been performed. Check the + // record's signature in the first four bytes to differentiate between + // the various types. Current toolchains generate modules which carry + // MDCVInfoPDB70 by default. Returns a pointer to the CodeView record on + // success, and NULL on failure. On success, the optional |size| argument + // is set to the size of the CodeView record. + const uint8_t* GetCVRecord(uint32_t* size); + + // The miscellaneous debug record, which is obsolete. Current toolchains + // do not generate this type of debugging information (dbg), and this + // field is not expected to be present. Returns a pointer to the debugging + // record on success, and NULL on failure. On success, the optional |size| + // argument is set to the size of the debugging record. + const MDImageDebugMisc* GetMiscRecord(uint32_t* size); + + // Print a human-readable representation of the object to stdout. + void Print(); + + private: + // These objects are managed by MinidumpModuleList. + friend class MinidumpModuleList; + + explicit MinidumpModule(Minidump* minidump); + + // This works like MinidumpStream::Read, but is driven by + // MinidumpModuleList. No size checking is done, because + // MinidumpModuleList handles that directly. + bool Read(); + + // Reads indirectly-referenced data, including the module name, CodeView + // record, and miscellaneous debugging record. This is necessary to allow + // MinidumpModuleList to fully construct MinidumpModule objects without + // requiring seeks to read a contiguous set of MinidumpModule objects. + // All auxiliary data should be available when Read is called, in order to + // allow the CodeModule getters to be const methods. + bool ReadAuxiliaryData(); + + // The largest number of bytes that will be read from a minidump for a + // CodeView record or miscellaneous debugging record, respectively. The + // default for each is 1024. + static uint32_t max_cv_bytes_; + static uint32_t max_misc_bytes_; + + // True after a successful Read. This is different from valid_, which is + // not set true until ReadAuxiliaryData also completes successfully. + // module_valid_ is only used by ReadAuxiliaryData and the functions it + // calls to determine whether the object is ready for auxiliary data to + // be read. + bool module_valid_; + + // True if debug info was read from the module. Certain modules + // may contain debug records in formats we don't support, + // so we can just set this to false to ignore them. + bool has_debug_info_; + + MDRawModule module_; + + // Cached module name. + const string* name_; + + // Cached CodeView record - this is MDCVInfoPDB20 or (likely) + // MDCVInfoPDB70, or possibly something else entirely. Stored as a uint8_t + // because the structure contains a variable-sized string and its exact + // size cannot be known until it is processed. + vector* cv_record_; + + // If cv_record_ is present, cv_record_signature_ contains a copy of the + // CodeView record's first four bytes, for ease of determinining the + // type of structure that cv_record_ contains. + uint32_t cv_record_signature_; + + // Cached MDImageDebugMisc (usually not present), stored as uint8_t + // because the structure contains a variable-sized string and its exact + // size cannot be known until it is processed. + vector* misc_record_; +}; + + +// MinidumpModuleList contains all of the loaded code modules for a process +// in the form of MinidumpModules. It maintains a map of these modules +// so that it may easily provide a code module corresponding to a specific +// address. +class MinidumpModuleList : public MinidumpStream, + public CodeModules { + public: + virtual ~MinidumpModuleList(); + + static void set_max_modules(uint32_t max_modules) { + max_modules_ = max_modules; + } + static uint32_t max_modules() { return max_modules_; } + + // CodeModules implementation. + virtual unsigned int module_count() const { + return valid_ ? module_count_ : 0; + } + virtual const MinidumpModule* GetModuleForAddress(uint64_t address) const; + virtual const MinidumpModule* GetMainModule() const; + virtual const MinidumpModule* GetModuleAtSequence( + unsigned int sequence) const; + virtual const MinidumpModule* GetModuleAtIndex(unsigned int index) const; + virtual const CodeModules* Copy() const; + + // Returns a vector of all modules which address ranges needed to be shrunk + // down due to address range conflicts with other modules. + virtual vector > GetShrunkRangeModules() const; + + // Print a human-readable representation of the object to stdout. + void Print(); + + protected: + explicit MinidumpModuleList(Minidump* minidump); + + private: + friend class Minidump; + + typedef vector MinidumpModules; + + static const uint32_t kStreamType = MD_MODULE_LIST_STREAM; + + bool Read(uint32_t expected_size); + + bool StoreRange(const MinidumpModule& module, + uint64_t base_address, + uint32_t module_index, + uint32_t module_count, + bool is_android); + + // The largest number of modules that will be read from a minidump. The + // default is 1024. + static uint32_t max_modules_; + + // Access to modules using addresses as the key. + RangeMap *range_map_; + + MinidumpModules *modules_; + uint32_t module_count_; + + DISALLOW_COPY_AND_ASSIGN(MinidumpModuleList); +}; + + +// MinidumpMemoryList corresponds to a minidump's MEMORY_LIST_STREAM stream, +// which references the snapshots of all of the memory regions contained +// within the minidump. For a normal minidump, this includes stack memory +// (also referenced by each MinidumpThread, in fact, the MDMemoryDescriptors +// here and in MDRawThread both point to exactly the same data in a +// minidump file, conserving space), as well as a 256-byte snapshot of memory +// surrounding the instruction pointer in the case of an exception. Other +// types of minidumps may contain significantly more memory regions. Full- +// memory minidumps contain all of a process' mapped memory. +class MinidumpMemoryList : public MinidumpStream { + public: + virtual ~MinidumpMemoryList(); + + static void set_max_regions(uint32_t max_regions) { + max_regions_ = max_regions; + } + static uint32_t max_regions() { return max_regions_; } + + unsigned int region_count() const { return valid_ ? region_count_ : 0; } + + // Sequential access to memory regions. + MinidumpMemoryRegion* GetMemoryRegionAtIndex(unsigned int index); + + // Random access to memory regions. Returns the region encompassing + // the address identified by address. + virtual MinidumpMemoryRegion* GetMemoryRegionForAddress(uint64_t address); + + // Print a human-readable representation of the object to stdout. + void Print(); + + private: + friend class Minidump; + friend class MockMinidumpMemoryList; + + typedef vector MemoryDescriptors; + typedef vector MemoryRegions; + + static const uint32_t kStreamType = MD_MEMORY_LIST_STREAM; + + explicit MinidumpMemoryList(Minidump* minidump); + + bool Read(uint32_t expected_size) override; + + // The largest number of memory regions that will be read from a minidump. + // The default is 256. + static uint32_t max_regions_; + + // Access to memory regions using addresses as the key. + RangeMap *range_map_; + + // The list of descriptors. This is maintained separately from the list + // of regions, because MemoryRegion doesn't own its MemoryDescriptor, it + // maintains a pointer to it. descriptors_ provides the storage for this + // purpose. + MemoryDescriptors *descriptors_; + + // The list of regions. + MemoryRegions *regions_; + uint32_t region_count_; + + DISALLOW_COPY_AND_ASSIGN(MinidumpMemoryList); +}; + + +// MinidumpException wraps MDRawExceptionStream, which contains information +// about the exception that caused the minidump to be generated, if the +// minidump was generated in an exception handler called as a result of an +// exception. It also provides access to a MinidumpContext object, which +// contains the CPU context for the exception thread at the time the exception +// occurred. +class MinidumpException : public MinidumpStream { + public: + virtual ~MinidumpException(); + + const MDRawExceptionStream* exception() const { + return valid_ ? &exception_ : NULL; + } + + // The thread ID is used to determine if a thread is the exception thread, + // so a special getter is provided to retrieve this data from the + // MDRawExceptionStream structure. Returns false if the thread ID cannot + // be determined. + bool GetThreadID(uint32_t *thread_id) const; + + MinidumpContext* GetContext(); + + // Print a human-readable representation of the object to stdout. + void Print(); + + private: + friend class Minidump; + + static const uint32_t kStreamType = MD_EXCEPTION_STREAM; + + explicit MinidumpException(Minidump* minidump); + + bool Read(uint32_t expected_size) override; + + MDRawExceptionStream exception_; + MinidumpContext* context_; + + DISALLOW_COPY_AND_ASSIGN(MinidumpException); +}; + +// MinidumpAssertion wraps MDRawAssertionInfo, which contains information +// about an assertion that caused the minidump to be generated. +class MinidumpAssertion : public MinidumpStream { + public: + virtual ~MinidumpAssertion(); + + const MDRawAssertionInfo* assertion() const { + return valid_ ? &assertion_ : NULL; + } + + string expression() const { + return valid_ ? expression_ : ""; + } + + string function() const { + return valid_ ? function_ : ""; + } + + string file() const { + return valid_ ? file_ : ""; + } + + // Print a human-readable representation of the object to stdout. + void Print(); + + private: + friend class Minidump; + + static const uint32_t kStreamType = MD_ASSERTION_INFO_STREAM; + + explicit MinidumpAssertion(Minidump* minidump); + + bool Read(uint32_t expected_size) override; + + MDRawAssertionInfo assertion_; + string expression_; + string function_; + string file_; + + DISALLOW_COPY_AND_ASSIGN(MinidumpAssertion); +}; + + +// MinidumpSystemInfo wraps MDRawSystemInfo and provides information about +// the system on which the minidump was generated. See also MinidumpMiscInfo. +class MinidumpSystemInfo : public MinidumpStream { + public: + virtual ~MinidumpSystemInfo(); + + const MDRawSystemInfo* system_info() const { + return valid_ ? &system_info_ : NULL; + } + + // GetOS and GetCPU return textual representations of the operating system + // and CPU that produced the minidump. Unlike most other Minidump* methods, + // they return string objects, not weak pointers. Defined values for + // GetOS() are "mac", "windows", and "linux". Defined values for GetCPU + // are "x86" and "ppc". These methods return an empty string when their + // values are unknown. + string GetOS(); + string GetCPU(); + + // I don't know what CSD stands for, but this field is documented as + // returning a textual representation of the OS service pack. On other + // platforms, this provides additional information about an OS version + // level beyond major.minor.micro. Returns NULL if unknown. + const string* GetCSDVersion(); + + // If a CPU vendor string can be determined, returns a pointer to it, + // otherwise, returns NULL. CPU vendor strings can be determined from + // x86 CPUs with CPUID 0. + const string* GetCPUVendor(); + + // Print a human-readable representation of the object to stdout. + void Print(); + + protected: + explicit MinidumpSystemInfo(Minidump* minidump); + MDRawSystemInfo system_info_; + + // Textual representation of the OS service pack, for minidumps produced + // by MiniDumpWriteDump on Windows. + const string* csd_version_; + + private: + friend class Minidump; + + static const uint32_t kStreamType = MD_SYSTEM_INFO_STREAM; + + bool Read(uint32_t expected_size) override; + + // A string identifying the CPU vendor, if known. + const string* cpu_vendor_; + + DISALLOW_COPY_AND_ASSIGN(MinidumpSystemInfo); +}; + + +// MinidumpUnloadedModule wraps MDRawUnloadedModule +class MinidumpUnloadedModule : public MinidumpObject, + public CodeModule { + public: + ~MinidumpUnloadedModule() override; + + const MDRawUnloadedModule* module() const { + return valid_ ? &unloaded_module_ : NULL; + } + + // CodeModule implementation + uint64_t base_address() const override { + return valid_ ? unloaded_module_.base_of_image : 0; + } + uint64_t size() const override { + return valid_ ? unloaded_module_.size_of_image : 0; + } + string code_file() const override; + string code_identifier() const override; + string debug_file() const override; + string debug_identifier() const override; + string version() const override; + CodeModule* Copy() const override; + bool is_unloaded() const override { return true; } + uint64_t shrink_down_delta() const override; + void SetShrinkDownDelta(uint64_t shrink_down_delta) override; + + // Print a human-readable representation of the object to stdout. + void Print(); + + protected: + explicit MinidumpUnloadedModule(Minidump* minidump); + + private: + // These objects are managed by MinidumpUnloadedModuleList + friend class MinidumpUnloadedModuleList; + + // This works like MinidumpStream::Read, but is driven by + // MinidumpUnloadedModuleList. + bool Read(uint32_t expected_size); + + // Reads the module name. This is done separately from Read to + // allow contiguous reading of code modules by MinidumpUnloadedModuleList. + bool ReadAuxiliaryData(); + + // True after a successful Read. This is different from valid_, which + // is not set true until ReadAuxiliaryData also completes successfully. + // module_valid_ is only used by ReadAuxiliaryData and the functions it + // calls to determine whether the object is ready for auxiliary data to + // be read. + bool module_valid_; + + MDRawUnloadedModule unloaded_module_; + + // Cached module name + const string* name_; +}; + + +// MinidumpUnloadedModuleList contains all the unloaded code modules for a +// process in the form of MinidumpUnloadedModules. It maintains a map of +// these modules so that it may easily provide a code module corresponding +// to a specific address. If multiple modules in the list have identical +// ranges, only the first module encountered is recorded in the range map. +class MinidumpUnloadedModuleList : public MinidumpStream, + public CodeModules { + public: + ~MinidumpUnloadedModuleList() override; + + static void set_max_modules(uint32_t max_modules) { + max_modules_ = max_modules; + } + static uint32_t max_modules() { return max_modules_; } + + // CodeModules implementation. + unsigned int module_count() const override { + return valid_ ? module_count_ : 0; + } + const MinidumpUnloadedModule* + GetModuleForAddress(uint64_t address) const override; + const MinidumpUnloadedModule* GetMainModule() const override; + const MinidumpUnloadedModule* + GetModuleAtSequence(unsigned int sequence) const override; + const MinidumpUnloadedModule* + GetModuleAtIndex(unsigned int index) const override; + const CodeModules* Copy() const override; + vector> GetShrunkRangeModules() const override; + + // Print a human-readable representation of the object to stdout. + void Print(); + + protected: + explicit MinidumpUnloadedModuleList(Minidump* minidump_); + + private: + friend class Minidump; + + typedef vector MinidumpUnloadedModules; + + static const uint32_t kStreamType = MD_UNLOADED_MODULE_LIST_STREAM; + + bool Read(uint32_t expected_size_) override; + + // The largest number of modules that will be read from a minidump. The + // default is 1024. + static uint32_t max_modules_; + + // Access to module indices using addresses as the key. + RangeMap *range_map_; + + MinidumpUnloadedModules *unloaded_modules_; + uint32_t module_count_; + + DISALLOW_COPY_AND_ASSIGN(MinidumpUnloadedModuleList); +}; + + +// MinidumpMiscInfo wraps MDRawMiscInfo and provides information about +// the process that generated the minidump, and optionally additional system +// information. See also MinidumpSystemInfo. +class MinidumpMiscInfo : public MinidumpStream { + public: + const MDRawMiscInfo* misc_info() const { + return valid_ ? &misc_info_ : NULL; + } + + // Print a human-readable representation of the object to stdout. + void Print(); + + private: + friend class Minidump; + friend class TestMinidumpMiscInfo; + + static const uint32_t kStreamType = MD_MISC_INFO_STREAM; + + explicit MinidumpMiscInfo(Minidump* minidump_); + + bool Read(uint32_t expected_size_) override; + + MDRawMiscInfo misc_info_; + + // Populated by Read. Contains the converted strings from the corresponding + // UTF-16 fields in misc_info_ + string standard_name_; + string daylight_name_; + string build_string_; + string dbg_bld_str_; + + DISALLOW_COPY_AND_ASSIGN(MinidumpMiscInfo); +}; + + +// MinidumpBreakpadInfo wraps MDRawBreakpadInfo, which is an optional stream in +// a minidump that provides additional information about the process state +// at the time the minidump was generated. +class MinidumpBreakpadInfo : public MinidumpStream { + public: + const MDRawBreakpadInfo* breakpad_info() const { + return valid_ ? &breakpad_info_ : NULL; + } + + // These thread IDs are used to determine if threads deserve special + // treatment, so special getters are provided to retrieve this data from + // the MDRawBreakpadInfo structure. The getters return false if the thread + // IDs cannot be determined. + bool GetDumpThreadID(uint32_t *thread_id) const; + bool GetRequestingThreadID(uint32_t *thread_id) const; + + // Print a human-readable representation of the object to stdout. + void Print(); + + private: + friend class Minidump; + + static const uint32_t kStreamType = MD_BREAKPAD_INFO_STREAM; + + explicit MinidumpBreakpadInfo(Minidump* minidump_); + + bool Read(uint32_t expected_size_) override; + + MDRawBreakpadInfo breakpad_info_; + + DISALLOW_COPY_AND_ASSIGN(MinidumpBreakpadInfo); +}; + +// MinidumpMemoryInfo wraps MDRawMemoryInfo, which provides information +// about mapped memory regions in a process, including their ranges +// and protection. +class MinidumpMemoryInfo : public MinidumpObject { + public: + const MDRawMemoryInfo* info() const { return valid_ ? &memory_info_ : NULL; } + + // The address of the base of the memory region. + uint64_t GetBase() const { return valid_ ? memory_info_.base_address : 0; } + + // The size, in bytes, of the memory region. + uint64_t GetSize() const { return valid_ ? memory_info_.region_size : 0; } + + // Return true if the memory protection allows execution. + bool IsExecutable() const; + + // Return true if the memory protection allows writing. + bool IsWritable() const; + + // Print a human-readable representation of the object to stdout. + void Print(); + + private: + // These objects are managed by MinidumpMemoryInfoList. + friend class MinidumpMemoryInfoList; + + explicit MinidumpMemoryInfo(Minidump* minidump_); + + // This works like MinidumpStream::Read, but is driven by + // MinidumpMemoryInfoList. No size checking is done, because + // MinidumpMemoryInfoList handles that directly. + bool Read(); + + MDRawMemoryInfo memory_info_; +}; + +// MinidumpMemoryInfoList contains a list of information about +// mapped memory regions for a process in the form of MDRawMemoryInfo. +// It maintains a map of these structures so that it may easily provide +// info corresponding to a specific address. +class MinidumpMemoryInfoList : public MinidumpStream { + public: + virtual ~MinidumpMemoryInfoList(); + + unsigned int info_count() const { return valid_ ? info_count_ : 0; } + + const MinidumpMemoryInfo* GetMemoryInfoForAddress(uint64_t address) const; + const MinidumpMemoryInfo* GetMemoryInfoAtIndex(unsigned int index) const; + + // Print a human-readable representation of the object to stdout. + void Print(); + + private: + friend class Minidump; + + typedef vector MinidumpMemoryInfos; + + static const uint32_t kStreamType = MD_MEMORY_INFO_LIST_STREAM; + + explicit MinidumpMemoryInfoList(Minidump* minidump_); + + bool Read(uint32_t expected_size) override; + + // Access to memory info using addresses as the key. + RangeMap *range_map_; + + MinidumpMemoryInfos* infos_; + uint32_t info_count_; + + DISALLOW_COPY_AND_ASSIGN(MinidumpMemoryInfoList); +}; + +// MinidumpLinuxMaps wraps information about a single mapped memory region +// from /proc/self/maps. +class MinidumpLinuxMaps : public MinidumpObject { + public: + // The memory address of the base of the mapped region. + uint64_t GetBase() const { return valid_ ? region_.start : 0; } + // The size of the mapped region. + uint64_t GetSize() const { return valid_ ? region_.end - region_.start : 0; } + + // The permissions of the mapped region. + bool IsReadable() const { + return valid_ ? region_.permissions & MappedMemoryRegion::READ : false; + } + bool IsWriteable() const { + return valid_ ? region_.permissions & MappedMemoryRegion::WRITE : false; + } + bool IsExecutable() const { + return valid_ ? region_.permissions & MappedMemoryRegion::EXECUTE : false; + } + bool IsPrivate() const { + return valid_ ? region_.permissions & MappedMemoryRegion::PRIVATE : false; + } + + // The offset of the mapped region. + uint64_t GetOffset() const { return valid_ ? region_.offset : 0; } + + // The major device number. + uint8_t GetMajorDevice() const { return valid_ ? region_.major_device : 0; } + // The minor device number. + uint8_t GetMinorDevice() const { return valid_ ? region_.minor_device : 0; } + + // The inode of the mapped region. + uint64_t GetInode() const { return valid_ ? region_.inode : 0; } + + // The pathname of the mapped region. + const string GetPathname() const { return valid_ ? region_.path : ""; } + + // Print the contents of this mapping. + void Print() const; + + private: + // These objects are managed by MinidumpLinuxMapsList. + friend class MinidumpLinuxMapsList; + + // This caller owns the pointer. + explicit MinidumpLinuxMaps(Minidump *minidump); + + // The memory region struct that this class wraps. + MappedMemoryRegion region_; + + DISALLOW_COPY_AND_ASSIGN(MinidumpLinuxMaps); +}; + +// MinidumpLinuxMapsList corresponds to the Linux-exclusive MD_LINUX_MAPS +// stream, which contains the contents of /prod/self/maps, which contains +// the mapped memory regions and their access permissions. +class MinidumpLinuxMapsList : public MinidumpStream { + public: + virtual ~MinidumpLinuxMapsList(); + + // Get number of mappings. + unsigned int get_maps_count() const { return valid_ ? maps_count_ : 0; } + + // Get mapping at the given memory address. The caller owns the pointer. + const MinidumpLinuxMaps *GetLinuxMapsForAddress(uint64_t address) const; + // Get mapping at the given index. The caller owns the pointer. + const MinidumpLinuxMaps *GetLinuxMapsAtIndex(unsigned int index) const; + + // Print the contents of /proc/self/maps to stdout. + void Print() const; + + private: + friend class Minidump; + + typedef vector MinidumpLinuxMappings; + + static const uint32_t kStreamType = MD_LINUX_MAPS; + + // The caller owns the pointer. + explicit MinidumpLinuxMapsList(Minidump *minidump); + + // Read and load the contents of the process mapping data. + // The stream should have data in the form of /proc/self/maps. + // This method returns whether the stream was read successfully. + bool Read(uint32_t expected_size) override; + + // The list of individual mappings. + MinidumpLinuxMappings *maps_; + // The number of mappings. + uint32_t maps_count_; + + DISALLOW_COPY_AND_ASSIGN(MinidumpLinuxMapsList); +}; + +// MinidumpCrashpadInfo wraps MDRawCrashpadInfo, which is an optional stream in +// a minidump that provides additional information about the process state +// at the time the minidump was generated. +class MinidumpCrashpadInfo : public MinidumpStream { + public: + const MDRawCrashpadInfo* crashpad_info() const { + return valid_ ? &crashpad_info_ : NULL; + } + + // Print a human-readable representation of the object to stdout. + void Print(); + + private: + friend class Minidump; + + static const uint32_t kStreamType = MD_CRASHPAD_INFO_STREAM; + + explicit MinidumpCrashpadInfo(Minidump* minidump_); + + bool Read(uint32_t expected_size); + + MDRawCrashpadInfo crashpad_info_; + std::vector module_crashpad_info_links_; + std::vector module_crashpad_info_; + std::vector> module_crashpad_info_list_annotations_; + std::vector> + module_crashpad_info_simple_annotations_; + std::map simple_annotations_; +}; + +// MinidumpMacCrashInfo wraps MDRawMacCrashInfo. It's an optional stream +// in a minidump that records information from the __DATA,__crash_info +// section of every module in the crashing process that contains one, and +// which isn't empty of useful information. Only present on macOS. + +// Friendly wrapper for the information in MDRawMacCrashInfoRecord. +typedef struct crash_info_record { + string module_path; + unsigned long version; + string message; + string signature_string; + string backtrace; + string message2; + unsigned long long thread; + unsigned int dialog_mode; + long long abort_cause; // Only valid when 'version' > 4 + crash_info_record() + : version(0), thread(0), dialog_mode(0), abort_cause(0) + {} +} crash_info_record_t; + +class MinidumpMacCrashInfo : public MinidumpStream { + public: + // A human-readable representation of the data from the __DATA,__crash_info + // sections in all of the crashing process's modules that have one, if + // it's not empty of useful data. Suitable for use by "minidump_stackwalk". + string description() const { return description_; } + // A "machine-readable" copy of the same information, suitable for use by + // "minidump_stalkwalk -m". + vector const records() { + return records_; + } + + // Print a human-readable representation of the object to stdout. + void Print(); + + private: + friend class Minidump; + + static const uint32_t kStreamType = MOZ_MACOS_CRASH_INFO_STREAM; + + explicit MinidumpMacCrashInfo(Minidump* minidump_); + + bool ReadCrashInfoRecord(MDLocationDescriptor location, + uint32_t record_start_size); + bool Read(uint32_t expected_size); + + string description_; + vector records_; +}; + +// MinidumpThreadName wraps MDRawThreadName +class MinidumpThreadName : public MinidumpObject { + public: + ~MinidumpThreadName() override; + + const MDRawThreadName* thread_name() const { + if (valid_) { + return &thread_name_; + } + + return NULL; + } + + uint32_t thread_id() const { + if (valid_) { + return thread_name_.thread_id; + } + + return 0; + } + + string name() const; + + // Print a human-readable representation of the object to stdout. + void Print(); + + protected: + explicit MinidumpThreadName(Minidump* minidump); + + private: + // These objects are managed by MinidumpThreadNameList + friend class MinidumpThreadNamesList; + + // This works like MinidumpStream::Read, but is driven by + // MinidumpThreadNameList. + bool Read(uint32_t expected_size); + + // Reads the thread name. This is done separately from Read to + // allow contiguous reading of thread names by MinidumpThreadNameList. + bool ReadAuxiliaryData(); + + bool valid_; + MDRawThreadName thread_name_; + const string* name_; +}; + + +// MinidumpThreadNamesList contains all the names for threads in a process +// in the form of MinidumpThreadNames. +class MinidumpThreadNamesList : public MinidumpStream { + public: + ~MinidumpThreadNamesList() override; + + unsigned int name_count() const { + return valid_ ? name_count_ : 0; + } + + const string GetNameForThreadId(uint32_t thread_id) const; + + // Print a human-readable representation of the object to stdout. + void Print(); + + protected: + explicit MinidumpThreadNamesList(Minidump* minidump_); + + private: + friend class Minidump; + + typedef vector MinidumpThreadNames; + + static const uint32_t kStreamType = MD_THREAD_NAMES_STREAM; + + bool Read(uint32_t expected_size_) override; + + MinidumpThreadNames* thread_names_; + uint32_t name_count_; + bool valid_; + + DISALLOW_COPY_AND_ASSIGN(MinidumpThreadNamesList); +}; + +// Minidump is the user's interface to a minidump file. It wraps MDRawHeader +// and provides access to the minidump's top-level stream directory. +class Minidump { + public: + // path is the pathname of a file containing the minidump. + explicit Minidump(const string& path, + bool hexdump=false, + unsigned int hexdump_width=16); + // input is an istream wrapping minidump data. Minidump holds a + // weak pointer to input, and the caller must ensure that the stream + // is valid as long as the Minidump object is. + explicit Minidump(std::istream& input); + + virtual ~Minidump(); + + // path may be empty if the minidump was not opened from a file + virtual string path() const { + return path_; + } + static void set_max_streams(uint32_t max_streams) { + max_streams_ = max_streams; + } + static uint32_t max_streams() { return max_streams_; } + + static void set_max_string_length(uint32_t max_string_length) { + max_string_length_ = max_string_length; + } + static uint32_t max_string_length() { return max_string_length_; } + + virtual const MDRawHeader* header() const { return valid_ ? &header_ : NULL; } + + // Reads the CPU information from the system info stream and generates the + // appropriate CPU flags. The returned context_cpu_flags are the same as + // if the CPU type bits were set in the context_flags of a context record. + // On success, context_cpu_flags will have the flags that identify the CPU. + // If a system info stream is missing, context_cpu_flags will be 0. + // Returns true if the current position in the stream was not changed. + // Returns false when the current location in the stream was changed and the + // attempt to restore the original position failed. + bool GetContextCPUFlagsFromSystemInfo(uint32_t* context_cpu_flags); + + // Reads the minidump file's header and top-level stream directory. + // The minidump is expected to be positioned at the beginning of the + // header. Read() sets up the stream list and map, and validates the + // Minidump object. + virtual bool Read(); + + // The next set of methods are stubs that call GetStream. They exist to + // force code generation of the templatized API within the module, and + // to avoid exposing an ugly API (GetStream needs to accept a garbage + // parameter). + virtual MinidumpThreadList* GetThreadList(); + virtual MinidumpModuleList* GetModuleList(); + virtual MinidumpMemoryList* GetMemoryList(); + virtual MinidumpException* GetException(); + virtual MinidumpAssertion* GetAssertion(); + virtual MinidumpSystemInfo* GetSystemInfo(); + virtual MinidumpUnloadedModuleList* GetUnloadedModuleList(); + virtual MinidumpMiscInfo* GetMiscInfo(); + virtual MinidumpBreakpadInfo* GetBreakpadInfo(); + virtual MinidumpMemoryInfoList* GetMemoryInfoList(); + MinidumpCrashpadInfo* GetCrashpadInfo(); + MinidumpMacCrashInfo* GetMacCrashInfo(); + MinidumpThreadNamesList* GetThreadNamesList(); + + // The next method also calls GetStream, but is exclusive for Linux dumps. + virtual MinidumpLinuxMapsList *GetLinuxMapsList(); + + // The next set of methods are provided for users who wish to access + // data in minidump files directly, while leveraging the rest of + // this class and related classes to handle the basic minidump + // structure and known stream types. + + unsigned int GetDirectoryEntryCount() const { + return valid_ ? header_.stream_count : 0; + } + const MDRawDirectory* GetDirectoryEntryAtIndex(unsigned int index) const; + + // The next 2 methods are lower-level I/O routines. They use fd_. + + // Reads count bytes from the minidump at the current position into + // the storage area pointed to by bytes. bytes must be of sufficient + // size. After the read, the file position is advanced by count. + bool ReadBytes(void* bytes, size_t count); + + // Sets the position of the minidump file to offset. + bool SeekSet(off_t offset); + + // Returns the current position of the minidump file. + off_t Tell(); + + // Medium-level I/O routines. + + // ReadString returns a string which is owned by the caller! offset + // specifies the offset that a length-encoded string is stored at in the + // minidump file. + string* ReadString(off_t offset); + + bool ReadUTF8String(off_t offset, string* string_utf8); + + bool ReadStringList(off_t offset, std::vector* string_list); + + bool ReadSimpleStringDictionary( + off_t offset, + std::map* simple_string_dictionary); + + // SeekToStreamType positions the file at the beginning of a stream + // identified by stream_type, and informs the caller of the stream's + // length by setting *stream_length. Because stream_map maps each stream + // type to only one stream in the file, this might mislead the user into + // thinking that the stream that this seeks to is the only stream with + // type stream_type. That can't happen for streams that these classes + // deal with directly, because they're only supposed to be present in the + // file singly, and that's verified when stream_map_ is built. Users who + // are looking for other stream types should be aware of this + // possibility, and consider using GetDirectoryEntryAtIndex (possibly + // with GetDirectoryEntryCount) if expecting multiple streams of the same + // type in a single minidump file. + bool SeekToStreamType(uint32_t stream_type, uint32_t* stream_length); + + bool swap() const { return valid_ ? swap_ : false; } + + bool is_big_endian() const { return valid_ ? is_big_endian_ : false; } + + // Print a human-readable representation of the object to stdout. + void Print(); + + // Is the OS Android. + bool IsAndroid(); + + // Determines the platform where the minidump was produced. |platform| is + // valid iff this method returns true. + bool GetPlatform(MDOSPlatform* platform); + + // Get current hexdump display settings. + unsigned int HexdumpMode() const { return hexdump_ ? hexdump_width_ : 0; } + + private: + // MinidumpStreamInfo is used in the MinidumpStreamMap. It lets + // the Minidump object locate interesting streams quickly, and + // provides a convenient place to stash MinidumpStream objects. + struct MinidumpStreamInfo { + MinidumpStreamInfo() : stream_index(0), stream(NULL) {} + ~MinidumpStreamInfo() { delete stream; } + + // Index into the MinidumpDirectoryEntries vector + unsigned int stream_index; + + // Pointer to the stream if cached, or NULL if not yet populated + MinidumpStream* stream; + }; + + typedef vector MinidumpDirectoryEntries; + typedef map MinidumpStreamMap; + + template T* GetStream(T** stream); + + // Opens the minidump file, or if already open, seeks to the beginning. + bool Open(); + + // The largest number of top-level streams that will be read from a minidump. + // Note that streams are only read (and only consume memory) as needed, + // when directed by the caller. The default is 128. + static uint32_t max_streams_; + + // The maximum length of a UTF-16 string that will be read from a minidump + // in 16-bit words. The default is 1024. UTF-16 strings are converted + // to UTF-8 when stored in memory, and each UTF-16 word will be represented + // by as many as 3 bytes in UTF-8. + static unsigned int max_string_length_; + + MDRawHeader header_; + + // The list of streams. + MinidumpDirectoryEntries* directory_; + + // Access to streams using the stream type as the key. + MinidumpStreamMap* stream_map_; + + // The pathname of the minidump file to process, set in the constructor. + // This may be empty if the minidump was opened directly from a stream. + const string path_; + + // The stream for all file I/O. Used by ReadBytes and SeekSet. + // Set based on the path in Open, or directly in the constructor. + std::istream* stream_; + + // swap_ is true if the minidump file should be byte-swapped. If the + // minidump was produced by a CPU that is other-endian than the CPU + // processing the minidump, this will be true. If the two CPUs are + // same-endian, this will be false. + bool swap_; + + // true if the minidump was produced by a big-endian cpu. + bool is_big_endian_; + + // Validity of the Minidump structure, false immediately after + // construction or after a failed Read(); true following a successful + // Read(). + bool valid_; + + // Knobs for controlling display of memory printing. + bool hexdump_; + unsigned int hexdump_width_; + + DISALLOW_COPY_AND_ASSIGN(Minidump); +}; + + +} // namespace google_breakpad + + +#endif // GOOGLE_BREAKPAD_PROCESSOR_MINIDUMP_H__ -- cgit v1.2.3