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https://github.com/yuzu-emu/breakpad.git
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Let x86 stackwalker scan stack in cases where program evaluation fails. Original patch by Jeff Muizelaar <jmuizelaar@mozilla.com> with some changes by me. r=mento at http://breakpad.appspot.com/32003/show
git-svn-id: http://google-breakpad.googlecode.com/svn/trunk@409 4c0a9323-5329-0410-9bdc-e9ce6186880e
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@ -58,7 +58,23 @@ struct StackFrameX86 : public StackFrame {
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CONTEXT_VALID_ALL = -1
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};
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StackFrameX86() : context(), context_validity(CONTEXT_VALID_NONE) {}
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// Indicates how well we trust the instruction pointer we derived
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// during stack walking. Since the stack walker can resort to
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// stack scanning, we can wind up with dubious frames.
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// In rough order of "trust metric".
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enum FrameTrust {
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FRAME_TRUST_NONE, // Unknown
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FRAME_TRUST_SCAN, // Scanned the stack, found this
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FRAME_TRUST_CFI_SCAN, // Scanned the stack using call frame info, found this
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FRAME_TRUST_FP, // Derived from frame pointer
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FRAME_TRUST_CFI, // Derived from call frame info
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FRAME_TRUST_CONTEXT // Given as instruction pointer in a context
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};
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StackFrameX86()
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: context(),
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context_validity(CONTEXT_VALID_NONE),
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trust(FRAME_TRUST_NONE) {}
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// Register state. This is only fully valid for the topmost frame in a
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// stack. In other frames, the values of nonvolatile registers may be
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@ -70,6 +86,10 @@ struct StackFrameX86 : public StackFrame {
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// the OR operator doesn't work well with enumerated types. This indicates
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// which fields in context are valid.
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int context_validity;
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// Amount of trust the stack walker has in the instruction pointer
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// of this frame.
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FrameTrust trust;
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};
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struct StackFramePPC : public StackFrame {
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@ -42,6 +42,7 @@
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#define GOOGLE_BREAKPAD_PROCESSOR_STACKWALKER_H__
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#include <vector>
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#include "google_breakpad/common/breakpad_types.h"
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namespace google_breakpad {
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@ -95,6 +96,16 @@ class Stackwalker {
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SymbolSupplier *supplier,
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SourceLineResolverInterface *resolver);
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// This can be used to filter out potential return addresses when
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// the stack walker resorts to stack scanning.
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// Returns true if any of:
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// * This address is within a loaded module, but we don't have symbols
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// for that module.
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// * This address is within a loaded module for which we have symbols,
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// and falls inside a function in that module.
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// Returns false otherwise.
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bool InstructionAddressSeemsValid(u_int64_t address);
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// Information about the system that produced the minidump. Subclasses
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// and the SymbolSupplier may find this information useful.
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const SystemInfo *system_info_;
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@ -160,6 +160,28 @@ static void PrintStack(const CallStack *stack, const string &cpu) {
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sequence = PrintRegister("edx", frame_x86->context.edx, sequence);
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sequence = PrintRegister("efl", frame_x86->context.eflags, sequence);
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}
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const char *trust_name;
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switch (frame_x86->trust) {
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case StackFrameX86::FRAME_TRUST_NONE:
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trust_name = "unknown";
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break;
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case StackFrameX86::FRAME_TRUST_CONTEXT:
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trust_name = "given as instruction pointer in context";
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break;
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case StackFrameX86::FRAME_TRUST_CFI:
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trust_name = "call frame info";
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break;
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case StackFrameX86::FRAME_TRUST_CFI_SCAN:
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trust_name = "call frame info with scanning";
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break;
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case StackFrameX86::FRAME_TRUST_FP:
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trust_name = "previous frame's frame pointer";
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break;
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case StackFrameX86::FRAME_TRUST_SCAN:
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trust_name = "stack scanning";
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break;
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}
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printf("\n Found by: %s", trust_name);
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} else if (cpu == "ppc") {
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const StackFramePPC *frame_ppc =
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reinterpret_cast<const StackFramePPC*>(frame);
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@ -189,5 +189,39 @@ Stackwalker* Stackwalker::StackwalkerForCPU(
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return cpu_stackwalker;
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}
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bool Stackwalker::InstructionAddressSeemsValid(u_int64_t address) {
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const CodeModule *module = modules_->GetModuleForAddress(address);
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if (!module) {
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// not inside any loaded module
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return false;
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}
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if (!resolver_ || !supplier_) {
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// we don't have a resolver and or symbol supplier,
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// but we're inside a known module
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return true;
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}
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if (!resolver_->HasModule(module->code_file())) {
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string symbol_data, symbol_file;
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SymbolSupplier::SymbolResult symbol_result =
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supplier_->GetSymbolFile(module, system_info_,
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&symbol_file, &symbol_data);
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if (symbol_result != SymbolSupplier::FOUND ||
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!resolver_->LoadModuleUsingMapBuffer(module->code_file(),
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symbol_data)) {
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// we don't have symbols, but we're inside a loaded module
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return true;
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}
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}
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StackFrame frame;
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frame.module = module;
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frame.instruction = address;
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resolver_->FillSourceLineInfo(&frame);
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// we have symbols, so return true if inside a function
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return !frame.function_name.empty();
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}
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} // namespace google_breakpad
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@ -79,6 +79,7 @@ StackFrame* StackwalkerX86::GetContextFrame() {
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// straight out of the CPU context structure.
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frame->context = *context_;
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frame->context_validity = StackFrameX86::CONTEXT_VALID_ALL;
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frame->trust = StackFrameX86::FRAME_TRUST_CONTEXT;
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frame->instruction = frame->context.eip;
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return frame;
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@ -92,7 +93,7 @@ StackFrame* StackwalkerX86::GetCallerFrame(
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BPLOG(ERROR) << "Can't get caller frame without memory or stack";
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return NULL;
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}
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StackFrameX86::FrameTrust trust = StackFrameX86::FRAME_TRUST_NONE;
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StackFrameX86 *last_frame = static_cast<StackFrameX86*>(
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stack->frames()->back());
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StackFrameInfo *last_frame_info = stack_frame_info.back().get();
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@ -183,6 +184,7 @@ StackFrame* StackwalkerX86::GetCallerFrame(
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if (last_frame_info && last_frame_info->valid == StackFrameInfo::VALID_ALL) {
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// FPO data available.
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traditional_frame = false;
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trust = StackFrameX86::FRAME_TRUST_CFI;
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if (!last_frame_info->program_string.empty()) {
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// The FPO data has its own program string, which will tell us how to
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// get to the caller frame, and may even fill in the values of
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@ -280,6 +282,7 @@ StackFrame* StackwalkerX86::GetCallerFrame(
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// %eip_new = *(%ebp_old + 4)
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// %esp_new = %ebp_old + 8
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// %ebp_new = *(%ebp_old)
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trust = StackFrameX86::FRAME_TRUST_FP;
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program_string = "$eip $ebp 4 + ^ = "
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"$esp $ebp 8 + = "
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"$ebp $ebp ^ =";
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@ -293,7 +296,26 @@ StackFrame* StackwalkerX86::GetCallerFrame(
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if (!evaluator.Evaluate(program_string, &dictionary_validity) ||
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dictionary_validity.find("$eip") == dictionary_validity.end() ||
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dictionary_validity.find("$esp") == dictionary_validity.end()) {
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return NULL;
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// Program string evaluation failed. It may be that %eip is not somewhere
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// with stack frame info, and %ebp is pointing to non-stack memory, so
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// our evaluation couldn't succeed. We'll scan the stack for a return
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// address. This can happen if the stack is in a module for which
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// we don't have symbols, and that module is compiled without a
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// frame pointer.
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u_int32_t location_start = last_frame->context.esp;
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u_int32_t location, eip;
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if (!ScanForReturnAddress(location_start, location, eip)) {
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// if we can't find an instruction pointer even with stack scanning,
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// give up.
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return NULL;
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}
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// This seems like a reasonable return address. Since program string
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// evaluation failed, use it and set %esp to the location above the
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// one where the return address was found.
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dictionary["$eip"] = eip;
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dictionary["$esp"] = location + 4;
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trust = StackFrameX86::FRAME_TRUST_SCAN;
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}
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// If this stack frame did not use %ebp in a traditional way, locating the
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@ -321,33 +343,18 @@ StackFrame* StackwalkerX86::GetCallerFrame(
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u_int32_t eip = dictionary["$eip"];
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if (modules_ && !modules_->GetModuleForAddress(eip)) {
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const int kRASearchWords = 15;
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// The instruction pointer at .raSearchStart was invalid, so start
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// looking one 32-bit word above that location.
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u_int32_t location_start = dictionary[".raSearchStart"] + 4;
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for (u_int32_t location = location_start;
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location <= location_start + kRASearchWords * 4;
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location += 4) {
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if (!memory_->GetMemoryAtAddress(location, &eip))
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break;
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if (modules_->GetModuleForAddress(eip)) {
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// This is a better return address that what program string
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// evaluation found. Use it, and set %esp to the location above the
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// one where the return address was found.
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//
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// TODO(mmentovai): The return-address check can be made even
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// stronger in modules for which debugging data is available. In
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// that case, it's possible to check that the candidate return
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// address is inside a known function.
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dictionary["$eip"] = eip;
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dictionary["$esp"] = location + 4;
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offset = location - location_start;
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break;
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}
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u_int32_t location;
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if (ScanForReturnAddress(location_start, location, eip)) {
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// This is a better return address that what program string
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// evaluation found. Use it, and set %esp to the location above the
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// one where the return address was found.
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dictionary["$eip"] = eip;
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dictionary["$esp"] = location + 4;
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offset = location - location_start;
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trust = StackFrameX86::FRAME_TRUST_CFI_SCAN;
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}
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}
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@ -392,6 +399,7 @@ StackFrame* StackwalkerX86::GetCallerFrame(
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// and fill it in.
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StackFrameX86 *frame = new StackFrameX86();
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frame->trust = trust;
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frame->context = last_frame->context;
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frame->context.eip = dictionary["$eip"];
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frame->context.esp = dictionary["$esp"];
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return frame;
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}
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bool StackwalkerX86::ScanForReturnAddress(u_int32_t location_start,
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u_int32_t &location_found,
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u_int32_t &eip_found) {
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const int kRASearchWords = 15;
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for (u_int32_t location = location_start;
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location <= location_start + kRASearchWords * 4;
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location += 4) {
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u_int32_t eip;
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if (!memory_->GetMemoryAtAddress(location, &eip))
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break;
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if (modules_->GetModuleForAddress(eip) &&
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InstructionAddressSeemsValid(eip)) {
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eip_found = eip;
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location_found = location;
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return true;
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}
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}
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// nothing found
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return false;
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}
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} // namespace google_breakpad
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@ -70,6 +70,19 @@ class StackwalkerX86 : public Stackwalker {
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const CallStack *stack,
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const vector< linked_ptr<StackFrameInfo> > &stack_frame_info);
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// Scan the stack starting at location_start, looking for an address
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// that looks like a valid instruction pointer. Addresses must
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// 1) be contained in the current stack memory
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// 2) pass the checks in Stackwalker::InstructionAddressSeemsValid
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//
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// Returns true if a valid-looking instruction pointer was found.
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// When returning true, sets location_found to the address at which
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// the value was found, and eip_found to the value contained at that
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// location in memory.
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bool ScanForReturnAddress(u_int32_t location_start,
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u_int32_t &location_found,
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u_int32_t &eip_found);
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// Stores the CPU context corresponding to the innermost stack frame to
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// be returned by GetContextFrame.
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const MDRawContextX86 *context_;
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@ -12,12 +12,16 @@ Thread 0 (crashed)
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eip = 0x0040429e esp = 0x0012fe84 ebp = 0x0012fe88 ebx = 0x7c80abc1
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esi = 0x00000002 edi = 0x00000a28 eax = 0x00000045 ecx = 0x0012fe94
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edx = 0x0042bc58 efl = 0x00010246
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Found by: given as instruction pointer in context
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1 test_app.exe!main [test_app.cc : 65 + 0x4]
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eip = 0x00404200 esp = 0x0012fe90 ebp = 0x0012ff70
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Found by: call frame info
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2 test_app.exe!__tmainCRTStartup [crt0.c : 327 + 0x11]
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eip = 0x004053ec esp = 0x0012ff78 ebp = 0x0012ffc0
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Found by: call frame info
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3 kernel32.dll!BaseProcessStart + 0x22
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eip = 0x7c816fd7 esp = 0x0012ffc8 ebp = 0x0012fff0
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Found by: call frame info
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Loaded modules:
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0x00400000 - 0x0042cfff test_app.exe ??? (main)
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