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call_graph.cc
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call_graph.cc
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// Copyright 2011-2024 Google LLC
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// https://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "third_party/zynamics/binexport/call_graph.h"
#include <algorithm>
#include <iomanip>
#include <iterator>
#include <ostream>
#include <string>
#include <utility>
#include "third_party/zynamics/binexport/flow_graph.h"
#include "third_party/zynamics/binexport/util/format.h"
#include "third_party/zynamics/binexport/util/hash.h"
using security::binexport::FormatAddress;
namespace {
bool EdgeFunctionIsNull(const EdgeInfo& edge) { return edge.function_ == 0; }
bool AreDuplicateRegularComments(const Comment& lhs, const Comment& rhs) {
return lhs.address == rhs.address && lhs.type == Comment::REGULAR &&
rhs.type == Comment::REGULAR;
}
} // namespace
thread_local CallGraph::StringCache CallGraph::string_cache_;
thread_local int CallGraph::instance_count_ = 0;
// Attention: do _not_ use source_basic_block_id for sorting!
// We change that after putting EdgeInfos in a set!
bool operator<(const EdgeInfo& one, const EdgeInfo& two) {
if (one.source_ != two.source_) {
return one.source_ < two.source_;
}
if (one.function_ != two.function_) {
return one.function_->GetEntryPoint() < two.function_->GetEntryPoint();
}
return one.target_ < two.target_;
}
bool operator==(const EdgeInfo& one, const EdgeInfo& two) {
return one.function_ == two.function_ && one.source_ == two.source_ &&
one.target_ == two.target_;
}
void CallGraph::Render(std::ostream* stream,
const FlowGraph& flow_graph) const {
for (const auto& function_address : functions_) {
const Function* function = flow_graph.GetFunction(function_address);
*stream << FormatAddress(function_address) << " " << std::setfill(' ')
<< std::setw(8)
<< (function->GetTypeHeuristic() != Function::TYPE_STANDARD
? Function::GetTypeName(function->GetTypeHeuristic())
: "")
<< " " << function->GetModuleName()
<< (function->GetModuleName().empty() ? "" : ".")
<< function->GetName(Function::DEMANGLED);
int library_index = function->GetLibraryIndex();
if (library_index != -1) {
const auto& library = library_manager_.GetKnownLibrary(library_index);
*stream << " from " << (library.IsStatic() ? "static" : "dynamic")
<< " library " << library.name;
}
// Prefer "\n" over endl when calling it in a loop as std::endl flushes the
// stream every time.
*stream << "\n";
}
for (const auto& edge : edges_) {
const Function* function = flow_graph.GetFunction(edge.target_);
*stream << FormatAddress(edge.function_->GetEntryPoint()) << ":"
<< FormatAddress(edge.source_) << " -> "
<< FormatAddress(edge.target_) << " "
<< edge.function_->GetName(Function::DEMANGLED) << " -> "
<< (function ? function->GetName(Function::DEMANGLED) : "") << "\n";
}
}
CallGraph::CallGraph() { ++instance_count_; }
CallGraph::~CallGraph() {
--instance_count_;
if (instance_count_ == 0) {
StringCache().swap(string_cache_);
}
}
const std::string* CallGraph::CacheString(const std::string& text) {
return &*string_cache_.insert(text).first;
}
void CallGraph::AddFunction(Address address) { functions_.insert(address); }
void CallGraph::AddEdge(Address source, Address target) {
edges_.push_back(EdgeInfo(0, source, target));
}
void CallGraph::ScheduleEdgeAdd(Function* function, Address source,
Address target) {
temp_edges_.push_back(EdgeInfo(function, source, target));
}
void CallGraph::SortEdges() { std::sort(edges_.begin(), edges_.end()); }
void CallGraph::CommitEdges() {
std::copy(temp_edges_.begin(), temp_edges_.end(),
std::back_inserter<Edges>(edges_));
Edges().swap(temp_edges_);
edges_.erase(std::remove_if(edges_.begin(), edges_.end(), EdgeFunctionIsNull),
edges_.end()); // Remove edges without source functions.
SortEdges();
// Remove duplicates.
edges_.erase(std::unique(edges_.begin(), edges_.end()), edges_.end());
}
int CallGraph::DeleteInvalidFunctions(FlowGraph* flow_graph) {
// Delete all edges with invalid source or target functions.
edges_.erase(std::remove_if(edges_.begin(), edges_.end(),
[&flow_graph](const EdgeInfo& edge) {
// The source function must exist and be valid.
const Function* source = edge.function_;
if (!source || source->GetTypeHeuristic() ==
Function::TYPE_INVALID) {
return true;
}
// The target function must not exist or be
// valid. The "target not exist" case covers
// calls into imported functions such as
// operating system dlls.
const Function* target =
flow_graph->GetFunction(edge.target_);
return target && target->GetTypeHeuristic() ==
Function::TYPE_INVALID;
}),
edges_.end());
int num_invalid_functions = 0;
for (auto function = flow_graph->GetFunctions().begin();
function != flow_graph->GetFunctions().end();) {
if (function->second->GetTypeHeuristic() == Function::TYPE_INVALID) {
functions_.erase(function->first);
delete function->second;
// Note: btree_map<>::erase() invalidates iterators
function = flow_graph->GetFunctions().erase(function);
++num_invalid_functions;
} else {
function++;
}
}
return num_invalid_functions;
}
CallGraph::Edges::const_iterator CallGraph::GetEdges(Address source) const {
EdgeInfo edge(0, source, 0);
Edges::const_iterator i =
std::lower_bound(edges_.begin(), edges_.end(), edge);
return i != edges_.end() && i->source_ == source ? i : edges_.end();
}
CallGraph::FunctionEntryPoints& CallGraph::GetFunctions() { return functions_; }
const CallGraph::FunctionEntryPoints& CallGraph::GetFunctions() const {
return functions_;
}
const CallGraph::Edges& CallGraph::GetEdges() const { return edges_; }
CallGraph::Edges& CallGraph::GetEdges() { return edges_; }
const Comments& CallGraph::GetComments() const { return comments_; }
Comments& CallGraph::GetComments() { return comments_; }
std::pair<Comments::const_iterator, Comments::const_iterator>
CallGraph::GetComments(Address address) const {
return std::equal_range(comments_.begin(), comments_.end(),
Comment(address, 0, nullptr, Comment::REGULAR),
&SortComments);
}
void CallGraph::AddComment(Address address, size_t operand,
const std::string& comment, Comment::Type type,
bool repeatable) {
comments_.push_back(
Comment(address, operand, CacheString(comment), type, repeatable));
}
size_t CallGraph::GetStringReference(Address address) const {
auto it = string_references_.find(address);
if (it != string_references_.end()) {
return it->second;
}
return 0;
}
void CallGraph::AddStringReference(Address address, const std::string& ref) {
if (ref.empty()) {
return;
}
// TODO(jduart): Concat multiple hashes.
string_references_[address] = GetSdbmHash(ref);
}
// Fold the strings of all comments that are of type regular and share the same
// address, since the database schema doesn't allow more than one comment per
// address.
void CallGraph::PostProcessComments() {
std::stable_sort(comments_.begin(), comments_.end(), &SortComments);
FoldComments();
}
// Removes comments with identical addresses and combines their strings but
// only if both are regular comments, since this is the only comment type that
// is actually written to the database.
// This method assumes that the comments are sorted by address.
void CallGraph::FoldComments() {
if (comments_.empty()) {
return;
}
Comments::iterator first = comments_.begin();
const Comments::iterator last = comments_.end();
Comments::iterator result = first;
while (++first != last) {
if (!AreDuplicateRegularComments(*result, *first)) {
*(++result) = *first;
} else {
std::string accumulated_comment(*result->comment);
while (first != last && AreDuplicateRegularComments(*result, *first)) {
accumulated_comment.append("\n");
accumulated_comment.append(*first->comment);
++first;
}
--first;
result->comment = CacheString(accumulated_comment);
}
}
comments_.erase(++result, comments_.end());
}