// Copyright (c) 2010, Google Inc.
// All rights reserved.
//
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// 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.
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// 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,
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
// module_comparer.cc: ModuleComparer implementation.
// See module_comparer.h for documentation.
//
// Author: lambxsy@google.com (Siyang Xie)
#include "processor/module_comparer.h"
#include <map>
#include <string>
#include "common/scoped_ptr.h"
#include "processor/basic_code_module.h"
#include "processor/logging.h"
#define ASSERT_TRUE(condition) \
if (!(condition)) { \
BPLOG(ERROR) << "FAIL: " << #condition << " @ " \
<< __FILE__ << ":" << __LINE__; \
return false; \
}
#define ASSERT_FALSE(condition) ASSERT_TRUE(!(condition))
namespace google_breakpad {
bool ModuleComparer::Compare(const string &symbol_data) {
scoped_ptr<BasicModule> basic_module(new BasicModule("test_module"));
scoped_ptr<FastModule> fast_module(new FastModule("test_module"));
// Load symbol data into basic_module
scoped_array<char> buffer(new char[symbol_data.size() + 1]);
memcpy(buffer.get(), symbol_data.c_str(), symbol_data.size());
buffer.get()[symbol_data.size()] = '\0';
ASSERT_TRUE(basic_module->LoadMapFromMemory(buffer.get(),
symbol_data.size() + 1));
buffer.reset();
// Serialize BasicSourceLineResolver::Module.
unsigned int serialized_size = 0;
scoped_array<char> serialized_data(
serializer_.Serialize(*(basic_module.get()), &serialized_size));
ASSERT_TRUE(serialized_data.get());
BPLOG(INFO) << "Serialized size = " << serialized_size << " Bytes";
// Load FastSourceLineResolver::Module using serialized data.
ASSERT_TRUE(fast_module->LoadMapFromMemory(serialized_data.get(),
serialized_size));
ASSERT_TRUE(fast_module->IsCorrupt() == basic_module->IsCorrupt());
// Compare FastSourceLineResolver::Module with
// BasicSourceLineResolver::Module.
ASSERT_TRUE(CompareModule(basic_module.get(), fast_module.get()));
return true;
}
// Traversal the content of module and do comparison
bool ModuleComparer::CompareModule(const BasicModule *basic_module,
const FastModule *fast_module) const {
// Compare name_.
ASSERT_TRUE(basic_module->name_ == fast_module->name_);
// Compare files_:
{
BasicModule::FileMap::const_iterator iter1 = basic_module->files_.begin();
FastModule::FileMap::iterator iter2 = fast_module->files_.begin();
while (iter1 != basic_module->files_.end()
&& iter2 != fast_module->files_.end()) {
ASSERT_TRUE(iter1->first == iter2.GetKey());
string tmp(iter2.GetValuePtr());
ASSERT_TRUE(iter1->second == tmp);
++iter1;
++iter2;
}
ASSERT_TRUE(iter1 == basic_module->files_.end());
ASSERT_TRUE(iter2 == fast_module->files_.end());
}
// Compare functions_:
{
RangeMap<MemAddr, linked_ptr<BasicFunc> >::MapConstIterator iter1;
StaticRangeMap<MemAddr, FastFunc>::MapConstIterator iter2;
iter1 = basic_module->functions_.map_.begin();
iter2 = fast_module->functions_.map_.begin();
while (iter1 != basic_module->functions_.map_.end()
&& iter2 != fast_module->functions_.map_.end()) {
ASSERT_TRUE(iter1->first == iter2.GetKey());
ASSERT_TRUE(iter1->second.base() == iter2.GetValuePtr()->base());
ASSERT_TRUE(CompareFunction(
iter1->second.entry().get(), iter2.GetValuePtr()->entryptr()));
++iter1;
++iter2;
}
ASSERT_TRUE(iter1 == basic_module->functions_.map_.end());
ASSERT_TRUE(iter2 == fast_module->functions_.map_.end());
}
// Compare public_symbols_:
{
AddressMap<MemAddr, linked_ptr<BasicPubSymbol> >::MapConstIterator iter1;
StaticAddressMap<MemAddr, FastPubSymbol>::MapConstIterator iter2;
iter1 = basic_module->public_symbols_.map_.begin();
iter2 = fast_module->public_symbols_.map_.begin();
while (iter1 != basic_module->public_symbols_.map_.end()
&& iter2 != fast_module->public_symbols_.map_.end()) {
ASSERT_TRUE(iter1->first == iter2.GetKey());
ASSERT_TRUE(ComparePubSymbol(
iter1->second.get(), iter2.GetValuePtr()));
++iter1;
++iter2;
}
ASSERT_TRUE(iter1 == basic_module->public_symbols_.map_.end());
ASSERT_TRUE(iter2 == fast_module->public_symbols_.map_.end());
}
// Compare windows_frame_info_[]:
for (int i = 0; i < WindowsFrameInfo::STACK_INFO_LAST; ++i) {
ASSERT_TRUE(CompareCRM(&(basic_module->windows_frame_info_[i]),
&(fast_module->windows_frame_info_[i])));
}
// Compare cfi_initial_rules_:
{
RangeMap<MemAddr, string>::MapConstIterator iter1;
StaticRangeMap<MemAddr, char>::MapConstIterator iter2;
iter1 = basic_module->cfi_initial_rules_.map_.begin();
iter2 = fast_module->cfi_initial_rules_.map_.begin();
while (iter1 != basic_module->cfi_initial_rules_.map_.end()
&& iter2 != fast_module->cfi_initial_rules_.map_.end()) {
ASSERT_TRUE(iter1->first == iter2.GetKey());
ASSERT_TRUE(iter1->second.base() == iter2.GetValuePtr()->base());
string tmp(iter2.GetValuePtr()->entryptr());
ASSERT_TRUE(iter1->second.entry() == tmp);
++iter1;
++iter2;
}
ASSERT_TRUE(iter1 == basic_module->cfi_initial_rules_.map_.end());
ASSERT_TRUE(iter2 == fast_module->cfi_initial_rules_.map_.end());
}
// Compare cfi_delta_rules_:
{
map<MemAddr, string>::const_iterator iter1;
StaticMap<MemAddr, char>::iterator iter2;
iter1 = basic_module->cfi_delta_rules_.begin();
iter2 = fast_module->cfi_delta_rules_.begin();
while (iter1 != basic_module->cfi_delta_rules_.end()
&& iter2 != fast_module->cfi_delta_rules_.end()) {
ASSERT_TRUE(iter1->first == iter2.GetKey());
string tmp(iter2.GetValuePtr());
ASSERT_TRUE(iter1->second == tmp);
++iter1;
++iter2;
}
ASSERT_TRUE(iter1 == basic_module->cfi_delta_rules_.end());
ASSERT_TRUE(iter2 == fast_module->cfi_delta_rules_.end());
}
return true;
}
bool ModuleComparer::CompareFunction(const BasicFunc *basic_func,
const FastFunc *fast_func_raw) const {
FastFunc* fast_func = new FastFunc();
fast_func->CopyFrom(fast_func_raw);
ASSERT_TRUE(basic_func->name == fast_func->name);
ASSERT_TRUE(basic_func->address == fast_func->address);
ASSERT_TRUE(basic_func->size == fast_func->size);
// compare range map of lines:
RangeMap<MemAddr, linked_ptr<BasicLine> >::MapConstIterator iter1;
StaticRangeMap<MemAddr, FastLine>::MapConstIterator iter2;
iter1 = basic_func->lines.map_.begin();
iter2 = fast_func->lines.map_.begin();
while (iter1 != basic_func->lines.map_.end()
&& iter2 != fast_func->lines.map_.end()) {
ASSERT_TRUE(iter1->first == iter2.GetKey());
ASSERT_TRUE(iter1->second.base() == iter2.GetValuePtr()->base());
ASSERT_TRUE(CompareLine(iter1->second.entry().get(),
iter2.GetValuePtr()->entryptr()));
++iter1;
++iter2;
}
ASSERT_TRUE(iter1 == basic_func->lines.map_.end());
ASSERT_TRUE(iter2 == fast_func->lines.map_.end());
delete fast_func;
return true;
}
bool ModuleComparer::CompareLine(const BasicLine *basic_line,
const FastLine *fast_line_raw) const {
FastLine *fast_line = new FastLine;
fast_line->CopyFrom(fast_line_raw);
ASSERT_TRUE(basic_line->address == fast_line->address);
ASSERT_TRUE(basic_line->size == fast_line->size);
ASSERT_TRUE(basic_line->source_file_id == fast_line->source_file_id);
ASSERT_TRUE(basic_line->line == fast_line->line);
delete fast_line;
return true;
}
bool ModuleComparer::ComparePubSymbol(const BasicPubSymbol* basic_ps,
const FastPubSymbol* fastps_raw) const {
FastPubSymbol *fast_ps = new FastPubSymbol;
fast_ps->CopyFrom(fastps_raw);
ASSERT_TRUE(basic_ps->name == fast_ps->name);
ASSERT_TRUE(basic_ps->address == fast_ps->address);
ASSERT_TRUE(basic_ps->parameter_size == fast_ps->parameter_size);
delete fast_ps;
return true;
}
bool ModuleComparer::CompareWFI(const WindowsFrameInfo& wfi1,
const WindowsFrameInfo& wfi2) const {
ASSERT_TRUE(wfi1.type_ == wfi2.type_);
ASSERT_TRUE(wfi1.valid == wfi2.valid);
ASSERT_TRUE(wfi1.prolog_size == wfi2.prolog_size);
ASSERT_TRUE(wfi1.epilog_size == wfi2.epilog_size);
ASSERT_TRUE(wfi1.parameter_size == wfi2.parameter_size);
ASSERT_TRUE(wfi1.saved_register_size == wfi2.saved_register_size);
ASSERT_TRUE(wfi1.local_size == wfi2.local_size);
ASSERT_TRUE(wfi1.max_stack_size == wfi2.max_stack_size);
ASSERT_TRUE(wfi1.allocates_base_pointer == wfi2.allocates_base_pointer);
ASSERT_TRUE(wfi1.program_string == wfi2.program_string);
return true;
}
// Compare ContainedRangeMap
bool ModuleComparer::CompareCRM(
const ContainedRangeMap<MemAddr, linked_ptr<WFI> >* basic_crm,
const StaticContainedRangeMap<MemAddr, char>* fast_crm) const {
ASSERT_TRUE(basic_crm->base_ == fast_crm->base_);
if (!basic_crm->entry_.get() || !fast_crm->entry_ptr_) {
// empty entry:
ASSERT_TRUE(!basic_crm->entry_.get() && !fast_crm->entry_ptr_);
} else {
WFI newwfi;
newwfi.CopyFrom(fast_resolver_->CopyWFI(fast_crm->entry_ptr_));
ASSERT_TRUE(CompareWFI(*(basic_crm->entry_.get()), newwfi));
}
if ((!basic_crm->map_ || basic_crm->map_->empty())
|| fast_crm->map_.empty()) {
ASSERT_TRUE((!basic_crm->map_ || basic_crm->map_->empty())
&& fast_crm->map_.empty());
} else {
ContainedRangeMap<MemAddr, linked_ptr<WFI> >::MapConstIterator iter1;
StaticContainedRangeMap<MemAddr, char>::MapConstIterator iter2;
iter1 = basic_crm->map_->begin();
iter2 = fast_crm->map_.begin();
while (iter1 != basic_crm->map_->end()
&& iter2 != fast_crm->map_.end()) {
ASSERT_TRUE(iter1->first == iter2.GetKey());
StaticContainedRangeMap<MemAddr, char> *child =
new StaticContainedRangeMap<MemAddr, char>(
reinterpret_cast<const char*>(iter2.GetValuePtr()));
ASSERT_TRUE(CompareCRM(iter1->second, child));
delete child;
++iter1;
++iter2;
}
ASSERT_TRUE(iter1 == basic_crm->map_->end());
ASSERT_TRUE(iter2 == fast_crm->map_.end());
}
return true;
}
} // namespace google_breakpad