src/common/module.cc - nest-cam/v350/breakpad - Git at Google

 // Copyright (c) 2011 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.

 // Original author: Jim Blandy <jimb@mozilla.com> <jimb@red-bean.com>

 // module.cc: Implement google_breakpad::Module.  See module.h.

 #include "common/module.h"

 #include <assert.h>
 #include <errno.h>
 #include <stdio.h>
 #include <string.h>

 #include <iostream>
 #include <utility>

 namespace google_breakpad {

 using std::dec;
 using std::hex;


 Module::Module(const string& name, const string& os,
                const string& architecture, const string& id,
                const string& code_id /* = "" */) :
     name_(name),
     os_(os),
     architecture_(architecture),
     id_(id),
     code_id_(code_id),
     load_address_(0) { }

 Module::~Module() {
   for (FileByNameMap::iterator it = files_.begin(); it != files_.end(); ++it)
     delete it->second;
   for (FunctionSet::iterator it = functions_.begin();
        it != functions_.end(); ++it) {
     delete *it;
   }
   for (vector<StackFrameEntry*>::iterator it = stack_frame_entries_.begin();
        it != stack_frame_entries_.end(); ++it) {
     delete *it;
   }
   for (ExternSet::iterator it = externs_.begin(); it != externs_.end(); ++it)
     delete *it;
 }

 void Module::SetLoadAddress(Address address) {
   load_address_ = address;
 }

 void Module::SetAddressRanges(const vector<Range>& ranges) {
   address_ranges_ = ranges;
 }

 void Module::AddFunction(Function* function) {
   // FUNC lines must not hold an empty name, so catch the problem early if
   // callers try to add one.
   assert(!function->name.empty());

   if (!AddressIsInModule(function->address)) {
     return;
   }

   // FUNCs are better than PUBLICs as they come with sizes, so remove an extern
   // with the same address if present.
   Extern ext(function->address);
   ExternSet::iterator it_ext = externs_.find(&ext);
   if (it_ext == externs_.end() &&
       architecture_ == "arm" &&
       (function->address & 0x1) == 0) {
     // ARM THUMB functions have bit 0 set. ARM64 does not have THUMB.
     Extern arm_thumb_ext(function->address | 0x1);
     it_ext = externs_.find(&arm_thumb_ext);
   }
   if (it_ext != externs_.end()) {
     delete *it_ext;
     externs_.erase(it_ext);
   }
 #if _DEBUG
   {
     // There should be no other PUBLIC symbols that overlap with the function.
     for (const Range& range : function->ranges) {
       Extern debug_ext(range.address);
       ExternSet::iterator it_debug = externs_.lower_bound(&ext);
       assert(it_debug == externs_.end() ||
              (*it_debug)->address >= range.address + range.size);
     }
   }
 #endif

   std::pair<FunctionSet::iterator,bool> ret = functions_.insert(function);
   if (!ret.second && (*ret.first != function)) {
     // Free the duplicate that was not inserted because this Module
     // now owns it.
     delete function;
   }
 }

 void Module::AddFunctions(vector<Function*>::iterator begin,
                           vector<Function*>::iterator end) {
   for (vector<Function*>::iterator it = begin; it != end; ++it)
     AddFunction(*it);
 }

 void Module::AddStackFrameEntry(StackFrameEntry* stack_frame_entry) {
   if (!AddressIsInModule(stack_frame_entry->address)) {
     return;
   }

   stack_frame_entries_.push_back(stack_frame_entry);
 }

 void Module::AddExtern(Extern* ext) {
   if (!AddressIsInModule(ext->address)) {
     return;
   }

   std::pair<ExternSet::iterator,bool> ret = externs_.insert(ext);
   if (!ret.second) {
     // Free the duplicate that was not inserted because this Module
     // now owns it.
     delete ext;
   }
 }

 void Module::GetFunctions(vector<Function*>* vec,
                           vector<Function*>::iterator i) {
   vec->insert(i, functions_.begin(), functions_.end());
 }

 void Module::GetExterns(vector<Extern*>* vec,
                         vector<Extern*>::iterator i) {
   vec->insert(i, externs_.begin(), externs_.end());
 }

 Module::File* Module::FindFile(const string& name) {
   // A tricky bit here.  The key of each map entry needs to be a
   // pointer to the entry's File's name string.  This means that we
   // can't do the initial lookup with any operation that would create
   // an empty entry for us if the name isn't found (like, say,
   // operator[] or insert do), because such a created entry's key will
   // be a pointer the string passed as our argument.  Since the key of
   // a map's value type is const, we can't fix it up once we've
   // created our file.  lower_bound does the lookup without doing an
   // insertion, and returns a good hint iterator to pass to insert.
   // Our "destiny" is where we belong, whether we're there or not now.
   FileByNameMap::iterator destiny = files_.lower_bound(&name);
   if (destiny == files_.end()
       || *destiny->first != name) {  // Repeated string comparison, boo hoo.
     File* file = new File(name);
     file->source_id = -1;
     destiny = files_.insert(destiny,
                             FileByNameMap::value_type(&file->name, file));
   }
   return destiny->second;
 }

 Module::File* Module::FindFile(const char* name) {
   string name_string = name;
   return FindFile(name_string);
 }

 Module::File* Module::FindExistingFile(const string& name) {
   FileByNameMap::iterator it = files_.find(&name);
   return (it == files_.end()) ? NULL : it->second;
 }

 void Module::GetFiles(vector<File*>* vec) {
   vec->clear();
   for (FileByNameMap::iterator it = files_.begin(); it != files_.end(); ++it)
     vec->push_back(it->second);
 }

 void Module::GetStackFrameEntries(vector<StackFrameEntry*>* vec) const {
   *vec = stack_frame_entries_;
 }

 void Module::AssignSourceIds() {
   // First, give every source file an id of -1.
   for (FileByNameMap::iterator file_it = files_.begin();
        file_it != files_.end(); ++file_it) {
     file_it->second->source_id = -1;
   }

   // Next, mark all files actually cited by our functions' line number
   // info, by setting each one's source id to zero.
   for (FunctionSet::const_iterator func_it = functions_.begin();
        func_it != functions_.end(); ++func_it) {
     Function* func = *func_it;
     for (vector<Line>::iterator line_it = func->lines.begin();
          line_it != func->lines.end(); ++line_it)
       line_it->file->source_id = 0;
   }

   // Finally, assign source ids to those files that have been marked.
   // We could have just assigned source id numbers while traversing
   // the line numbers, but doing it this way numbers the files in
   // lexicographical order by name, which is neat.
   int next_source_id = 0;
   for (FileByNameMap::iterator file_it = files_.begin();
        file_it != files_.end(); ++file_it) {
     if (!file_it->second->source_id)
       file_it->second->source_id = next_source_id++;
   }
 }

 bool Module::ReportError() {
   fprintf(stderr, "error writing symbol file: %s\n",
           strerror(errno));
   return false;
 }

 bool Module::WriteRuleMap(const RuleMap& rule_map, std::ostream& stream) {
   for (RuleMap::const_iterator it = rule_map.begin();
        it != rule_map.end(); ++it) {
     if (it != rule_map.begin())
       stream << ' ';
     stream << it->first << ": " << it->second;
   }
   return stream.good();
 }

 bool Module::AddressIsInModule(Address address) const {
   if (address_ranges_.empty()) {
     return true;
   }
   for (const auto& segment : address_ranges_) {
     if (address >= segment.address &&
         address < segment.address + segment.size) {
       return true;
     }
   }
   return false;
 }

 bool Module::Write(std::ostream& stream, SymbolData symbol_data) {
   stream << "MODULE " << os_ << " " << architecture_ << " "
          << id_ << " " << name_ << "\n";
   if (!stream.good())
     return ReportError();

   if (!code_id_.empty()) {
     stream << "INFO CODE_ID " << code_id_ << "\n";
   }

   if (symbol_data != ONLY_CFI) {
     AssignSourceIds();

     // Write out files.
     for (FileByNameMap::iterator file_it = files_.begin();
          file_it != files_.end(); ++file_it) {
       File* file = file_it->second;
       if (file->source_id >= 0) {
         stream << "FILE " << file->source_id << " " <<  file->name << "\n";
         if (!stream.good())
           return ReportError();
       }
     }

     // Write out functions and their lines.
     for (FunctionSet::const_iterator func_it = functions_.begin();
          func_it != functions_.end(); ++func_it) {
       Function* func = *func_it;
       vector<Line>::iterator line_it = func->lines.begin();
       for (auto range_it = func->ranges.cbegin();
            range_it != func->ranges.cend(); ++range_it) {
         stream << "FUNC " << hex
                << (range_it->address - load_address_) << " "
                << range_it->size << " "
                << func->parameter_size << " "
                << func->name << dec << "\n";

         if (!stream.good())
           return ReportError();

         while ((line_it != func->lines.end()) &&
                (line_it->address >= range_it->address) &&
                (line_it->address < (range_it->address + range_it->size))) {
           stream << hex
                  << (line_it->address - load_address_) << " "
                  << line_it->size << " "
                  << dec
                  << line_it->number << " "
                  << line_it->file->source_id << "\n";

           if (!stream.good())
             return ReportError();

           ++line_it;
         }
       }
     }

     // Write out 'PUBLIC' records.
     for (ExternSet::const_iterator extern_it = externs_.begin();
          extern_it != externs_.end(); ++extern_it) {
       Extern* ext = *extern_it;
       stream << "PUBLIC " << hex
              << (ext->address - load_address_) << " 0 "
              << ext->name << dec << "\n";
     }
   }

   if (symbol_data != NO_CFI) {
     // Write out 'STACK CFI INIT' and 'STACK CFI' records.
     vector<StackFrameEntry*>::const_iterator frame_it;
     for (frame_it = stack_frame_entries_.begin();
          frame_it != stack_frame_entries_.end(); ++frame_it) {
       StackFrameEntry* entry = *frame_it;
       stream << "STACK CFI INIT " << hex
              << (entry->address - load_address_) << " "
              << entry->size << " " << dec;
       if (!stream.good()
           || !WriteRuleMap(entry->initial_rules, stream))
         return ReportError();

       stream << "\n";

       // Write out this entry's delta rules as 'STACK CFI' records.
       for (RuleChangeMap::const_iterator delta_it = entry->rule_changes.begin();
            delta_it != entry->rule_changes.end(); ++delta_it) {
         stream << "STACK CFI " << hex
                << (delta_it->first - load_address_) << " " << dec;
         if (!stream.good()
             || !WriteRuleMap(delta_it->second, stream))
           return ReportError();

         stream << "\n";
       }
     }
   }

   return true;
 }

 }  // namespace google_breakpad
	// Copyright (c) 2011 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.

	// Original author: Jim Blandy <jimb@mozilla.com> <jimb@red-bean.com>

	// module.cc: Implement google_breakpad::Module. See module.h.

	#include "common/module.h"

	#include <assert.h>
	#include <errno.h>
	#include <stdio.h>
	#include <string.h>

	#include <iostream>
	#include <utility>

	namespace google_breakpad {

	using std::dec;
	using std::hex;


	Module::Module(const string& name, const string& os,
	const string& architecture, const string& id,
	const string& code_id /* = "" */) :
	name_(name),
	os_(os),
	architecture_(architecture),
	id_(id),
	code_id_(code_id),
	load_address_(0) { }

	Module::~Module() {
	for (FileByNameMap::iterator it = files_.begin(); it != files_.end(); ++it)
	delete it->second;
	for (FunctionSet::iterator it = functions_.begin();
	it != functions_.end(); ++it) {
	delete *it;
	}
	for (vector<StackFrameEntry*>::iterator it = stack_frame_entries_.begin();
	it != stack_frame_entries_.end(); ++it) {
	delete *it;
	}
	for (ExternSet::iterator it = externs_.begin(); it != externs_.end(); ++it)
	delete *it;
	}

	void Module::SetLoadAddress(Address address) {
	load_address_ = address;
	}

	void Module::SetAddressRanges(const vector<Range>& ranges) {
	address_ranges_ = ranges;
	}

	void Module::AddFunction(Function* function) {
	// FUNC lines must not hold an empty name, so catch the problem early if
	// callers try to add one.
	assert(!function->name.empty());

	if (!AddressIsInModule(function->address)) {
	return;
	}

	// FUNCs are better than PUBLICs as they come with sizes, so remove an extern
	// with the same address if present.
	Extern ext(function->address);
	ExternSet::iterator it_ext = externs_.find(&ext);
	if (it_ext == externs_.end() &&
	architecture_ == "arm" &&
	(function->address & 0x1) == 0) {
	// ARM THUMB functions have bit 0 set. ARM64 does not have THUMB.
	Extern arm_thumb_ext(function->address \| 0x1);
	it_ext = externs_.find(&arm_thumb_ext);
	}
	if (it_ext != externs_.end()) {
	delete *it_ext;
	externs_.erase(it_ext);
	}
	#if _DEBUG
	{
	// There should be no other PUBLIC symbols that overlap with the function.
	for (const Range& range : function->ranges) {
	Extern debug_ext(range.address);
	ExternSet::iterator it_debug = externs_.lower_bound(&ext);
	assert(it_debug == externs_.end() \|\|
	(*it_debug)->address >= range.address + range.size);
	}
	}
	#endif

	std::pair<FunctionSet::iterator,bool> ret = functions_.insert(function);
	if (!ret.second && (*ret.first != function)) {
	// Free the duplicate that was not inserted because this Module
	// now owns it.
	delete function;
	}
	}

	void Module::AddFunctions(vector<Function*>::iterator begin,
	vector<Function*>::iterator end) {
	for (vector<Function*>::iterator it = begin; it != end; ++it)
	AddFunction(*it);
	}

	void Module::AddStackFrameEntry(StackFrameEntry* stack_frame_entry) {
	if (!AddressIsInModule(stack_frame_entry->address)) {
	return;
	}

	stack_frame_entries_.push_back(stack_frame_entry);
	}

	void Module::AddExtern(Extern* ext) {
	if (!AddressIsInModule(ext->address)) {
	return;
	}

	std::pair<ExternSet::iterator,bool> ret = externs_.insert(ext);
	if (!ret.second) {
	// Free the duplicate that was not inserted because this Module
	// now owns it.
	delete ext;
	}
	}

	void Module::GetFunctions(vector<Function> vec,
	vector<Function*>::iterator i) {
	vec->insert(i, functions_.begin(), functions_.end());
	}

	void Module::GetExterns(vector<Extern> vec,
	vector<Extern*>::iterator i) {
	vec->insert(i, externs_.begin(), externs_.end());
	}

	Module::File* Module::FindFile(const string& name) {
	// A tricky bit here. The key of each map entry needs to be a
	// pointer to the entry's File's name string. This means that we
	// can't do the initial lookup with any operation that would create
	// an empty entry for us if the name isn't found (like, say,
	// operator[] or insert do), because such a created entry's key will
	// be a pointer the string passed as our argument. Since the key of
	// a map's value type is const, we can't fix it up once we've
	// created our file. lower_bound does the lookup without doing an
	// insertion, and returns a good hint iterator to pass to insert.
	// Our "destiny" is where we belong, whether we're there or not now.
	FileByNameMap::iterator destiny = files_.lower_bound(&name);
	if (destiny == files_.end()
	\|\| *destiny->first != name) { // Repeated string comparison, boo hoo.
	File* file = new File(name);
	file->source_id = -1;
	destiny = files_.insert(destiny,
	FileByNameMap::value_type(&file->name, file));
	}
	return destiny->second;
	}

	Module::File* Module::FindFile(const char* name) {
	string name_string = name;
	return FindFile(name_string);
	}

	Module::File* Module::FindExistingFile(const string& name) {
	FileByNameMap::iterator it = files_.find(&name);
	return (it == files_.end()) ? NULL : it->second;
	}

	void Module::GetFiles(vector<File> vec) {
	vec->clear();
	for (FileByNameMap::iterator it = files_.begin(); it != files_.end(); ++it)
	vec->push_back(it->second);
	}

	void Module::GetStackFrameEntries(vector<StackFrameEntry> vec) const {
	*vec = stack_frame_entries_;
	}

	void Module::AssignSourceIds() {
	// First, give every source file an id of -1.
	for (FileByNameMap::iterator file_it = files_.begin();
	file_it != files_.end(); ++file_it) {
	file_it->second->source_id = -1;
	}

	// Next, mark all files actually cited by our functions' line number
	// info, by setting each one's source id to zero.
	for (FunctionSet::const_iterator func_it = functions_.begin();
	func_it != functions_.end(); ++func_it) {
	Function* func = *func_it;
	for (vector<Line>::iterator line_it = func->lines.begin();
	line_it != func->lines.end(); ++line_it)
	line_it->file->source_id = 0;
	}

	// Finally, assign source ids to those files that have been marked.
	// We could have just assigned source id numbers while traversing
	// the line numbers, but doing it this way numbers the files in
	// lexicographical order by name, which is neat.
	int next_source_id = 0;
	for (FileByNameMap::iterator file_it = files_.begin();
	file_it != files_.end(); ++file_it) {
	if (!file_it->second->source_id)
	file_it->second->source_id = next_source_id++;
	}
	}

	bool Module::ReportError() {
	fprintf(stderr, "error writing symbol file: %s\n",
	strerror(errno));
	return false;
	}

	bool Module::WriteRuleMap(const RuleMap& rule_map, std::ostream& stream) {
	for (RuleMap::const_iterator it = rule_map.begin();
	it != rule_map.end(); ++it) {
	if (it != rule_map.begin())
	stream << ' ';
	stream << it->first << ": " << it->second;
	}
	return stream.good();
	}

	bool Module::AddressIsInModule(Address address) const {
	if (address_ranges_.empty()) {
	return true;
	}
	for (const auto& segment : address_ranges_) {
	if (address >= segment.address &&
	address < segment.address + segment.size) {
	return true;
	}
	}
	return false;
	}

	bool Module::Write(std::ostream& stream, SymbolData symbol_data) {
	stream << "MODULE " << os_ << " " << architecture_ << " "
	<< id_ << " " << name_ << "\n";
	if (!stream.good())
	return ReportError();

	if (!code_id_.empty()) {
	stream << "INFO CODE_ID " << code_id_ << "\n";
	}

	if (symbol_data != ONLY_CFI) {
	AssignSourceIds();

	// Write out files.
	for (FileByNameMap::iterator file_it = files_.begin();
	file_it != files_.end(); ++file_it) {
	File* file = file_it->second;
	if (file->source_id >= 0) {
	stream << "FILE " << file->source_id << " " << file->name << "\n";
	if (!stream.good())
	return ReportError();
	}
	}

	// Write out functions and their lines.
	for (FunctionSet::const_iterator func_it = functions_.begin();
	func_it != functions_.end(); ++func_it) {
	Function* func = *func_it;
	vector<Line>::iterator line_it = func->lines.begin();
	for (auto range_it = func->ranges.cbegin();
	range_it != func->ranges.cend(); ++range_it) {
	stream << "FUNC " << hex
	<< (range_it->address - load_address_) << " "
	<< range_it->size << " "
	<< func->parameter_size << " "
	<< func->name << dec << "\n";

	if (!stream.good())
	return ReportError();

	while ((line_it != func->lines.end()) &&
	(line_it->address >= range_it->address) &&
	(line_it->address < (range_it->address + range_it->size))) {
	stream << hex
	<< (line_it->address - load_address_) << " "
	<< line_it->size << " "
	<< dec
	<< line_it->number << " "
	<< line_it->file->source_id << "\n";

	if (!stream.good())
	return ReportError();

	++line_it;
	}
	}
	}

	// Write out 'PUBLIC' records.
	for (ExternSet::const_iterator extern_it = externs_.begin();
	extern_it != externs_.end(); ++extern_it) {
	Extern* ext = *extern_it;
	stream << "PUBLIC " << hex
	<< (ext->address - load_address_) << " 0 "
	<< ext->name << dec << "\n";
	}
	}

	if (symbol_data != NO_CFI) {
	// Write out 'STACK CFI INIT' and 'STACK CFI' records.
	vector<StackFrameEntry*>::const_iterator frame_it;
	for (frame_it = stack_frame_entries_.begin();
	frame_it != stack_frame_entries_.end(); ++frame_it) {
	StackFrameEntry* entry = *frame_it;
	stream << "STACK CFI INIT " << hex
	<< (entry->address - load_address_) << " "
	<< entry->size << " " << dec;
	if (!stream.good()
	\|\| !WriteRuleMap(entry->initial_rules, stream))
	return ReportError();

	stream << "\n";

	// Write out this entry's delta rules as 'STACK CFI' records.
	for (RuleChangeMap::const_iterator delta_it = entry->rule_changes.begin();
	delta_it != entry->rule_changes.end(); ++delta_it) {
	stream << "STACK CFI " << hex
	<< (delta_it->first - load_address_) << " " << dec;
	if (!stream.good()
	\|\| !WriteRuleMap(delta_it->second, stream))
	return ReportError();

	stream << "\n";
	}
	}
	}

	return true;
	}

	} // namespace google_breakpad