// Copyright (c) 2006, 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.
// PDBSourceLineWriter uses a pdb file produced by Visual C++ to output
// a line/address map for use with BasicSourceLineResolver.
#ifndef COMMON_WINDOWS_PDB_SOURCE_LINE_WRITER_H_
#define COMMON_WINDOWS_PDB_SOURCE_LINE_WRITER_H_
#include <atlcomcli.h>
#include <unordered_map>
#include <string>
#include "common/windows/omap.h"
struct IDiaEnumLineNumbers;
struct IDiaSession;
struct IDiaSymbol;
namespace google_breakpad {
using std::wstring;
using std::unordered_map;
// A structure that carries information that identifies a pdb file.
struct PDBModuleInfo {
public:
// The basename of the pdb file from which information was loaded.
wstring debug_file;
// The pdb's identifier. For recent pdb files, the identifier consists
// of the pdb's guid, in uppercase hexadecimal form without any dashes
// or separators, followed immediately by the pdb's age, also in
// uppercase hexadecimal form. For older pdb files which have no guid,
// the identifier is the pdb's 32-bit signature value, in zero-padded
// hexadecimal form, followed immediately by the pdb's age, in lowercase
// hexadecimal form.
wstring debug_identifier;
// A string identifying the cpu that the pdb is associated with.
// Currently, this may be "x86" or "unknown".
wstring cpu;
};
// A structure that carries information that identifies a PE file,
// either an EXE or a DLL.
struct PEModuleInfo {
// The basename of the PE file.
wstring code_file;
// The PE file's code identifier, which consists of its timestamp
// and file size concatenated together into a single hex string.
// (The fields IMAGE_OPTIONAL_HEADER::SizeOfImage and
// IMAGE_FILE_HEADER::TimeDateStamp, as defined in the ImageHlp
// documentation.) This is not well documented, if it's documented
// at all, but it's what symstore does and what DbgHelp supports.
wstring code_identifier;
};
class PDBSourceLineWriter {
public:
enum FileFormat {
PDB_FILE, // a .pdb file containing debug symbols
EXE_FILE, // a .exe or .dll file
ANY_FILE // try PDB_FILE and then EXE_FILE
};
explicit PDBSourceLineWriter();
~PDBSourceLineWriter();
// Opens the given file. For executable files, the corresponding pdb
// file must be available; Open will be if it is not.
// If there is already a pdb file open, it is automatically closed.
// Returns true on success.
bool Open(const wstring &file, FileFormat format);
// Sets the code file full path. This is optional for 32-bit modules. It is
// also optional for 64-bit modules when there is an executable file stored
// in the same directory as the PDB file. It is only required for 64-bit
// modules when the executable file is not in the same location as the PDB
// file and it must be called after Open() and before WriteMap().
// If Open() was called for an executable file, then it is an error to call
// SetCodeFile() with a different file path and it will return false.
bool SetCodeFile(const wstring &exe_file);
// Writes a map file from the current pdb file to the given file stream.
// Returns true on success.
bool WriteMap(FILE *map_file);
// Closes the current pdb file and its associated resources.
void Close();
// Retrieves information about the module's debugging file. Returns
// true on success and false on failure.
bool GetModuleInfo(PDBModuleInfo *info);
// Retrieves information about the module's PE file. Returns
// true on success and false on failure.
bool GetPEInfo(PEModuleInfo *info);
// Sets uses_guid to true if the opened file uses a new-style CodeView
// record with a 128-bit GUID, or false if the opened file uses an old-style
// CodeView record. When no GUID is available, a 32-bit signature should be
// used to identify the module instead. If the information cannot be
// determined, this method returns false.
bool UsesGUID(bool *uses_guid);
private:
// Outputs the line/address pairs for each line in the enumerator.
// Returns true on success.
bool PrintLines(IDiaEnumLineNumbers *lines);
// Outputs a function address and name, followed by its source line list.
// block can be the same object as function, or it can be a reference
// to a code block that is lexically part of this function, but
// resides at a separate address.
// Returns true on success.
bool PrintFunction(IDiaSymbol *function, IDiaSymbol *block);
// Outputs all functions as described above. Returns true on success.
bool PrintFunctions();
// Outputs all of the source files in the session's pdb file.
// Returns true on success.
bool PrintSourceFiles();
// Outputs all of the frame information necessary to construct stack
// backtraces in the absence of frame pointers. For x86 data stored in
// .pdb files. Returns true on success.
bool PrintFrameDataUsingPDB();
// Outputs all of the frame information necessary to construct stack
// backtraces in the absence of frame pointers. For x64 data stored in
// .exe, .dll files. Returns true on success.
bool PrintFrameDataUsingEXE();
// Outputs all of the frame information necessary to construct stack
// backtraces in the absence of frame pointers. Returns true on success.
bool PrintFrameData();
// Outputs a single public symbol address and name, if the symbol corresponds
// to a code address. Returns true on success. If symbol is does not
// correspond to code, returns true without outputting anything.
bool PrintCodePublicSymbol(IDiaSymbol *symbol);
// Outputs a line identifying the PDB file that is being dumped, along with
// its uuid and age.
bool PrintPDBInfo();
// Outputs a line identifying the PE file corresponding to the PDB
// file that is being dumped, along with its code identifier,
// which consists of its timestamp and file size.
bool PrintPEInfo();
// Returns true if this filename has already been seen,
// and an ID is stored for it, or false if it has not.
bool FileIDIsCached(const wstring &file) {
return unique_files_.find(file) != unique_files_.end();
}
// Cache this filename and ID for later reuse.
void CacheFileID(const wstring &file, DWORD id) {
unique_files_[file] = id;
}
// Store this ID in the cache as a duplicate for this filename.
void StoreDuplicateFileID(const wstring &file, DWORD id) {
unordered_map<wstring, DWORD>::iterator iter = unique_files_.find(file);
if (iter != unique_files_.end()) {
// map this id to the previously seen one
file_ids_[id] = iter->second;
}
}
// Given a file's unique ID, return the ID that should be used to
// reference it. There may be multiple files with identical filenames
// but different unique IDs. The cache attempts to coalesce these into
// one ID per unique filename.
DWORD GetRealFileID(DWORD id) {
unordered_map<DWORD, DWORD>::iterator iter = file_ids_.find(id);
if (iter == file_ids_.end())
return id;
return iter->second;
}
// Find the PE file corresponding to the loaded PDB file, and
// set the code_file_ member. Returns false on failure.
bool FindPEFile();
// Returns the function name for a symbol. If possible, the name is
// undecorated. If the symbol's decorated form indicates the size of
// parameters on the stack, this information is returned in stack_param_size.
// Returns true on success. If the symbol doesn't encode parameter size
// information, stack_param_size is set to -1.
static bool GetSymbolFunctionName(IDiaSymbol *function, BSTR *name,
int *stack_param_size);
// Returns the number of bytes of stack space used for a function's
// parameters. function must have the tag SymTagFunction. In the event of
// a failure, returns 0, which is also a valid number of bytes.
static int GetFunctionStackParamSize(IDiaSymbol *function);
// The filename of the PE file corresponding to the currently-open
// pdb file.
wstring code_file_;
// The session for the currently-open pdb file.
CComPtr<IDiaSession> session_;
// The current output file for this WriteMap invocation.
FILE *output_;
// There may be many duplicate filenames with different IDs.
// This maps from the DIA "unique ID" to a single ID per unique
// filename.
unordered_map<DWORD, DWORD> file_ids_;
// This maps unique filenames to file IDs.
unordered_map<wstring, DWORD> unique_files_;
// This is used for calculating post-transform symbol addresses and lengths.
ImageMap image_map_;
// Disallow copy ctor and operator=
PDBSourceLineWriter(const PDBSourceLineWriter&);
void operator=(const PDBSourceLineWriter&);
};
} // namespace google_breakpad
#endif // COMMON_WINDOWS_PDB_SOURCE_LINE_WRITER_H_