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// Original author: Jim Blandy <jimb@mozilla.com> <jimb@red-bean.com>
// cfi_frame_info.cc: Implementation of CFIFrameInfo class.
// See cfi_frame_info.h for details.
#include "processor/cfi_frame_info.h"
#include <string.h>
#include <sstream>
#include "common/scoped_ptr.h"
#include "processor/postfix_evaluator-inl.h"
namespace google_breakpad {
#ifdef _WIN32
#define strtok_r strtok_s
#endif
template<typename V>
bool CFIFrameInfo::FindCallerRegs(const RegisterValueMap<V> ®isters,
const MemoryRegion &memory,
RegisterValueMap<V> *caller_registers) const {
// If there are not rules for both .ra and .cfa in effect at this address,
// don't use this CFI data for stack walking.
if (cfa_rule_.empty() || ra_rule_.empty())
return false;
RegisterValueMap<V> working;
PostfixEvaluator<V> evaluator(&working, &memory);
caller_registers->clear();
// First, compute the CFA.
V cfa;
working = registers;
if (!evaluator.EvaluateForValue(cfa_rule_, &cfa))
return false;
// Then, compute the return address.
V ra;
working = registers;
working[".cfa"] = cfa;
if (!evaluator.EvaluateForValue(ra_rule_, &ra))
return false;
// Now, compute values for all the registers register_rules_ mentions.
for (RuleMap::const_iterator it = register_rules_.begin();
it != register_rules_.end(); it++) {
V value;
working = registers;
working[".cfa"] = cfa;
if (!evaluator.EvaluateForValue(it->second, &value))
return false;
(*caller_registers)[it->first] = value;
}
(*caller_registers)[".ra"] = ra;
(*caller_registers)[".cfa"] = cfa;
return true;
}
// Explicit instantiations for 32-bit and 64-bit architectures.
template bool CFIFrameInfo::FindCallerRegs<uint32_t>(
const RegisterValueMap<uint32_t> ®isters,
const MemoryRegion &memory,
RegisterValueMap<uint32_t> *caller_registers) const;
template bool CFIFrameInfo::FindCallerRegs<uint64_t>(
const RegisterValueMap<uint64_t> ®isters,
const MemoryRegion &memory,
RegisterValueMap<uint64_t> *caller_registers) const;
string CFIFrameInfo::Serialize() const {
std::ostringstream stream;
if (!cfa_rule_.empty()) {
stream << ".cfa: " << cfa_rule_;
}
if (!ra_rule_.empty()) {
if (static_cast<std::streamoff>(stream.tellp()) != 0)
stream << " ";
stream << ".ra: " << ra_rule_;
}
for (RuleMap::const_iterator iter = register_rules_.begin();
iter != register_rules_.end();
++iter) {
if (static_cast<std::streamoff>(stream.tellp()) != 0)
stream << " ";
stream << iter->first << ": " << iter->second;
}
return stream.str();
}
bool CFIRuleParser::Parse(const string &rule_set) {
size_t rule_set_len = rule_set.size();
scoped_array<char> working_copy(new char[rule_set_len + 1]);
memcpy(working_copy.get(), rule_set.data(), rule_set_len);
working_copy[rule_set_len] = '\0';
name_.clear();
expression_.clear();
char *cursor;
static const char token_breaks[] = " \t\r\n";
char *token = strtok_r(working_copy.get(), token_breaks, &cursor);
for (;;) {
// End of rule set?
if (!token) return Report();
// Register/pseudoregister name?
size_t token_len = strlen(token);
if (token_len >= 1 && token[token_len - 1] == ':') {
// Names can't be empty.
if (token_len < 2) return false;
// If there is any pending content, report it.
if (!name_.empty() || !expression_.empty()) {
if (!Report()) return false;
}
name_.assign(token, token_len - 1);
expression_.clear();
} else {
// Another expression component.
assert(token_len > 0); // strtok_r guarantees this, I think.
if (!expression_.empty())
expression_ += ' ';
expression_ += token;
}
token = strtok_r(NULL, token_breaks, &cursor);
}
}
bool CFIRuleParser::Report() {
if (name_.empty() || expression_.empty()) return false;
if (name_ == ".cfa") handler_->CFARule(expression_);
else if (name_ == ".ra") handler_->RARule(expression_);
else handler_->RegisterRule(name_, expression_);
return true;
}
void CFIFrameInfoParseHandler::CFARule(const string &expression) {
frame_info_->SetCFARule(expression);
}
void CFIFrameInfoParseHandler::RARule(const string &expression) {
frame_info_->SetRARule(expression);
}
void CFIFrameInfoParseHandler::RegisterRule(const string &name,
const string &expression) {
frame_info_->SetRegisterRule(name, expression);
}
} // namespace google_breakpad