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breakpad/src/processor/stackwalker_amd64.cc
Ian Barkley-Yeung f5123d7196 Add #include <config.h> to the beginning of all cc files 
Added
 #ifdef HAVE_CONFIG_H
 #include <config.h>
 #endif
to the beginning of all source files that didn't have it.

This ensures that configuration options are respected in all source
files. In particular, it ensures that the defines needed to fix Large
File System issues are set before including system headers.

More generally, it ensures consistency between the source files, and
avoids the possibility of ODR violations between source files that were
including config.h and source files that were not.

Process:
Ran
find . \( -name third_party -prune \) -o \( -name '.git*' -prune \) -o \( \( -name '*.cc' -o -name '*.c' \) -exec sed -i '0,/^#include/ s/^#include/#ifdef HAVE_CONFIG_H\n#include <config.h>  \/\/ Must come first\n#endif\n\n#include/' {} + \)
and then manually fixed up src/common/linux/guid_creator.cc,
src/tools/solaris/dump_syms/testdata/dump_syms_regtest.cc,
src/tools/windows/dump_syms/testdata/dump_syms_regtest.cc,
src/common/stabs_reader.h, and src/common/linux/breakpad_getcontext.h.

BUG=google-breakpad:877
Fixed: google-breakpad:877
TEST=./configure && make && make check
TEST=Did the find/sed in ChromeOS's copy, ensured emerge-hana google-breakpad
worked and had fewer LFS violations.
TEST=Did the find/sed in Chrome's copy, ensured compiling hana, windows, linux, and
eve still worked (since Chrome doesn't used config.h)

Change-Id: I16cededbba0ea0c28e919b13243e35300999e799
Reviewed-on: https://chromium-review.googlesource.com/c/breakpad/breakpad/+/4289676
Reviewed-by: Mike Frysinger <vapier@chromium.org>
2023-02-27 19:31:32 +00:00

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// Copyright 2010 Google LLC
//
// 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 LLC 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.
// stackwalker_amd64.cc: amd64-specific stackwalker.
//
// See stackwalker_amd64.h for documentation.
//
// Author: Mark Mentovai, Ted Mielczarek
#ifdef HAVE_CONFIG_H
#include <config.h> // Must come first
#endif
#include <assert.h>
#include "common/scoped_ptr.h"
#include "google_breakpad/processor/call_stack.h"
#include "google_breakpad/processor/memory_region.h"
#include "google_breakpad/processor/source_line_resolver_interface.h"
#include "google_breakpad/processor/stack_frame_cpu.h"
#include "google_breakpad/processor/system_info.h"
#include "processor/cfi_frame_info.h"
#include "processor/logging.h"
#include "processor/stackwalker_amd64.h"
namespace google_breakpad {
const StackwalkerAMD64::CFIWalker::RegisterSet
StackwalkerAMD64::cfi_register_map_[] = {
// It may seem like $rip and $rsp are callee-saves, because the callee is
// responsible for having them restored upon return. But the callee_saves
// flags here really means that the walker should assume they're
// unchanged if the CFI doesn't mention them --- clearly wrong for $rip
// and $rsp.
{ "$rax", NULL, false,
StackFrameAMD64::CONTEXT_VALID_RAX, &MDRawContextAMD64::rax },
{ "$rdx", NULL, false,
StackFrameAMD64::CONTEXT_VALID_RDX, &MDRawContextAMD64::rdx },
{ "$rcx", NULL, false,
StackFrameAMD64::CONTEXT_VALID_RCX, &MDRawContextAMD64::rcx },
{ "$rbx", NULL, true,
StackFrameAMD64::CONTEXT_VALID_RBX, &MDRawContextAMD64::rbx },
{ "$rsi", NULL, false,
StackFrameAMD64::CONTEXT_VALID_RSI, &MDRawContextAMD64::rsi },
{ "$rdi", NULL, false,
StackFrameAMD64::CONTEXT_VALID_RDI, &MDRawContextAMD64::rdi },
{ "$rbp", NULL, true,
StackFrameAMD64::CONTEXT_VALID_RBP, &MDRawContextAMD64::rbp },
{ "$rsp", ".cfa", false,
StackFrameAMD64::CONTEXT_VALID_RSP, &MDRawContextAMD64::rsp },
{ "$r8", NULL, false,
StackFrameAMD64::CONTEXT_VALID_R8, &MDRawContextAMD64::r8 },
{ "$r9", NULL, false,
StackFrameAMD64::CONTEXT_VALID_R9, &MDRawContextAMD64::r9 },
{ "$r10", NULL, false,
StackFrameAMD64::CONTEXT_VALID_R10, &MDRawContextAMD64::r10 },
{ "$r11", NULL, false,
StackFrameAMD64::CONTEXT_VALID_R11, &MDRawContextAMD64::r11 },
{ "$r12", NULL, true,
StackFrameAMD64::CONTEXT_VALID_R12, &MDRawContextAMD64::r12 },
{ "$r13", NULL, true,
StackFrameAMD64::CONTEXT_VALID_R13, &MDRawContextAMD64::r13 },
{ "$r14", NULL, true,
StackFrameAMD64::CONTEXT_VALID_R14, &MDRawContextAMD64::r14 },
{ "$r15", NULL, true,
StackFrameAMD64::CONTEXT_VALID_R15, &MDRawContextAMD64::r15 },
{ "$rip", ".ra", false,
StackFrameAMD64::CONTEXT_VALID_RIP, &MDRawContextAMD64::rip },
};
StackwalkerAMD64::StackwalkerAMD64(const SystemInfo* system_info,
const MDRawContextAMD64* context,
MemoryRegion* memory,
const CodeModules* modules,
StackFrameSymbolizer* resolver_helper)
: Stackwalker(system_info, memory, modules, resolver_helper),
context_(context),
cfi_walker_(cfi_register_map_,
(sizeof(cfi_register_map_) / sizeof(cfi_register_map_[0]))) {
}
uint64_t StackFrameAMD64::ReturnAddress() const {
assert(context_validity & StackFrameAMD64::CONTEXT_VALID_RIP);
return context.rip;
}
StackFrame* StackwalkerAMD64::GetContextFrame() {
if (!context_) {
BPLOG(ERROR) << "Can't get context frame without context";
return NULL;
}
StackFrameAMD64* frame = new StackFrameAMD64();
// The instruction pointer is stored directly in a register, so pull it
// straight out of the CPU context structure.
frame->context = *context_;
frame->context_validity = StackFrameAMD64::CONTEXT_VALID_ALL;
frame->trust = StackFrame::FRAME_TRUST_CONTEXT;
frame->instruction = frame->context.rip;
return frame;
}
StackFrameAMD64* StackwalkerAMD64::GetCallerByCFIFrameInfo(
const vector<StackFrame*>& frames,
CFIFrameInfo* cfi_frame_info) {
StackFrameAMD64* last_frame = static_cast<StackFrameAMD64*>(frames.back());
scoped_ptr<StackFrameAMD64> frame(new StackFrameAMD64());
if (!cfi_walker_
.FindCallerRegisters(*memory_, *cfi_frame_info,
last_frame->context, last_frame->context_validity,
&frame->context, &frame->context_validity))
return NULL;
// Make sure we recovered all the essentials.
static const int essentials = (StackFrameAMD64::CONTEXT_VALID_RIP
| StackFrameAMD64::CONTEXT_VALID_RSP);
if ((frame->context_validity & essentials) != essentials)
return NULL;
if (!frame->context.rip || !frame->context.rsp) {
BPLOG(ERROR) << "invalid rip/rsp";
return NULL;
}
frame->trust = StackFrame::FRAME_TRUST_CFI;
return frame.release();
}
// Returns true if `ptr` is not in x86-64 canonical form.
// https://en.wikipedia.org/wiki/X86-64#Virtual_address_space_details
static bool is_non_canonical(uint64_t ptr) {
return ptr > 0x7FFFFFFFFFFF && ptr < 0xFFFF800000000000;
}
StackFrameAMD64* StackwalkerAMD64::GetCallerByFramePointerRecovery(
const vector<StackFrame*>& frames) {
StackFrameAMD64* last_frame = static_cast<StackFrameAMD64*>(frames.back());
uint64_t last_rbp = last_frame->context.rbp;
// Assume the presence of a frame pointer. This is not mandated by the
// AMD64 ABI, c.f. section 3.2.2 footnote 7, though it is typical for
// compilers to still preserve the frame pointer and not treat %rbp as a
// general purpose register.
//
// With this assumption, the CALL instruction pushes the return address
// onto the stack and sets %rip to the procedure to enter. The procedure
// then establishes the stack frame with a prologue that PUSHes the current
// %rbp onto the stack, MOVes the current %rsp to %rbp, and then allocates
// space for any local variables. Using this procedure linking information,
// it is possible to locate frame information for the callee:
//
// %caller_rsp = *(%callee_rbp + 16)
// %caller_rip = *(%callee_rbp + 8)
// %caller_rbp = *(%callee_rbp)
// If rbp is not 8-byte aligned it can't be a frame pointer.
if (last_rbp % 8 != 0) {
return NULL;
}
uint64_t caller_rip, caller_rbp;
if (memory_->GetMemoryAtAddress(last_rbp + 8, &caller_rip) &&
memory_->GetMemoryAtAddress(last_rbp, &caller_rbp)) {
uint64_t caller_rsp = last_rbp + 16;
// If the recovered rip is not a canonical address it can't be
// the return address, so rbp must not have been a frame pointer.
if (is_non_canonical(caller_rip)) {
return NULL;
}
// Check that rbp is within the right frame
if (caller_rsp <= last_rbp || caller_rbp < caller_rsp) {
return NULL;
}
// Sanity check that resulting rbp is still inside stack memory.
uint64_t unused;
if (!memory_->GetMemoryAtAddress(caller_rbp, &unused)) {
return NULL;
}
StackFrameAMD64* frame = new StackFrameAMD64();
frame->trust = StackFrame::FRAME_TRUST_FP;
frame->context = last_frame->context;
frame->context.rip = caller_rip;
frame->context.rsp = caller_rsp;
frame->context.rbp = caller_rbp;
frame->context_validity = StackFrameAMD64::CONTEXT_VALID_RIP |
StackFrameAMD64::CONTEXT_VALID_RSP |
StackFrameAMD64::CONTEXT_VALID_RBP;
return frame;
}
return NULL;
}
StackFrameAMD64* StackwalkerAMD64::GetCallerBySimulatingReturn(
const vector<StackFrame*>& frames) {
assert(frames.back()->trust == StackFrame::FRAME_TRUST_CONTEXT);
StackFrameAMD64* last_frame = static_cast<StackFrameAMD64*>(frames.back());
uint64_t last_rsp = last_frame->context.rsp;
uint64_t caller_rip_address, caller_rip;
int searchwords = 1;
if (!ScanForReturnAddress(last_rsp, &caller_rip_address, &caller_rip,
searchwords)) {
// No plausible return address at the top of the stack. Unable to simulate
// a return.
return NULL;
}
// Create a new stack frame (ownership will be transferred to the caller)
// and fill it in.
StackFrameAMD64* frame = new StackFrameAMD64();
frame->trust = StackFrame::FRAME_TRUST_LEAF;
frame->context = last_frame->context;
frame->context.rip = caller_rip;
// The caller's %rsp is directly underneath the return address pushed by
// the call.
frame->context.rsp = caller_rip_address + 8;
frame->context_validity = last_frame->context_validity;
return frame;
}
StackFrameAMD64* StackwalkerAMD64::GetCallerByStackScan(
const vector<StackFrame*>& frames) {
StackFrameAMD64* last_frame = static_cast<StackFrameAMD64*>(frames.back());
uint64_t last_rsp = last_frame->context.rsp;
uint64_t caller_rip_address, caller_rip;
if (!ScanForReturnAddress(last_rsp, &caller_rip_address, &caller_rip,
/*is_context_frame=*/last_frame->trust ==
StackFrame::FRAME_TRUST_CONTEXT)) {
// No plausible return address was found.
return NULL;
}
// Create a new stack frame (ownership will be transferred to the caller)
// and fill it in.
StackFrameAMD64* frame = new StackFrameAMD64();
frame->trust = StackFrame::FRAME_TRUST_SCAN;
frame->context = last_frame->context;
frame->context.rip = caller_rip;
// The caller's %rsp is directly underneath the return address pushed by
// the call.
frame->context.rsp = caller_rip_address + 8;
frame->context_validity = StackFrameAMD64::CONTEXT_VALID_RIP |
StackFrameAMD64::CONTEXT_VALID_RSP;
// Other unwinders give up if they don't have an %rbp value, so see if we
// can pass some plausible value on.
if (last_frame->context_validity & StackFrameAMD64::CONTEXT_VALID_RBP) {
// Functions typically push their caller's %rbp immediately upon entry,
// and then set %rbp to point to that. So if the callee's %rbp is
// pointing to the first word below the alleged return address, presume
// that the caller's %rbp is saved there.
if (caller_rip_address - 8 == last_frame->context.rbp) {
uint64_t caller_rbp = 0;
if (memory_->GetMemoryAtAddress(last_frame->context.rbp, &caller_rbp) &&
caller_rbp > caller_rip_address) {
frame->context.rbp = caller_rbp;
frame->context_validity |= StackFrameAMD64::CONTEXT_VALID_RBP;
}
} else if (last_frame->context.rbp >= caller_rip_address + 8) {
// If the callee's %rbp is plausible as a value for the caller's
// %rbp, presume that the callee left it unchanged.
frame->context.rbp = last_frame->context.rbp;
frame->context_validity |= StackFrameAMD64::CONTEXT_VALID_RBP;
}
}
return frame;
}
StackFrame* StackwalkerAMD64::GetCallerFrame(const CallStack* stack,
bool stack_scan_allowed) {
if (!memory_ || !stack) {
BPLOG(ERROR) << "Can't get caller frame without memory or stack";
return NULL;
}
const vector<StackFrame*>& frames = *stack->frames();
StackFrameAMD64* last_frame = static_cast<StackFrameAMD64*>(frames.back());
scoped_ptr<StackFrameAMD64> new_frame;
// If we have CFI information, use it.
scoped_ptr<CFIFrameInfo> cfi_frame_info(
frame_symbolizer_->FindCFIFrameInfo(last_frame));
if (cfi_frame_info.get())
new_frame.reset(GetCallerByCFIFrameInfo(frames, cfi_frame_info.get()));
// If CFI was not available and this is a Windows x64 stack, check whether
// this is a leaf function which doesn't touch any callee-saved registers.
// According to https://reviews.llvm.org/D24748, LLVM doesn't generate unwind
// info for such functions. According to MSDN, leaf functions can be unwound
// simply by simulating a return.
if (!new_frame.get() &&
last_frame->trust == StackFrame::FRAME_TRUST_CONTEXT &&
system_info_->os_short == "windows") {
new_frame.reset(GetCallerBySimulatingReturn(frames));
}
// If CFI was not available or failed, try using frame pointer recovery.
// Never try to use frame pointer unwinding on Windows x64 stack. MSVC never
// generates code that works with frame pointer chasing, and LLVM does the
// same. Stack scanning would be better.
if (!new_frame.get() && system_info_->os_short != "windows") {
new_frame.reset(GetCallerByFramePointerRecovery(frames));
}
// If all else fails, fall back to stack scanning.
if (stack_scan_allowed && !new_frame.get()) {
new_frame.reset(GetCallerByStackScan(frames));
}
// If nothing worked, tell the caller.
if (!new_frame.get())
return NULL;
if (system_info_->os_short == "nacl") {
// Apply constraints from Native Client's x86-64 sandbox. These
// registers have the 4GB-aligned sandbox base address (from r15)
// added to them, and only the bottom 32 bits are relevant for
// stack walking.
new_frame->context.rip = static_cast<uint32_t>(new_frame->context.rip);
new_frame->context.rsp = static_cast<uint32_t>(new_frame->context.rsp);
new_frame->context.rbp = static_cast<uint32_t>(new_frame->context.rbp);
}
// Should we terminate the stack walk? (end-of-stack or broken invariant)
if (TerminateWalk(new_frame->context.rip, new_frame->context.rsp,
last_frame->context.rsp,
/*first_unwind=*/last_frame->trust ==
StackFrame::FRAME_TRUST_CONTEXT)) {
return NULL;
}
// new_frame->context.rip is the return address, which is the instruction
// after the CALL that caused us to arrive at the callee. Set
// new_frame->instruction to one less than that, so it points within the
// CALL instruction. See StackFrame::instruction for details, and
// StackFrameAMD64::ReturnAddress.
new_frame->instruction = new_frame->context.rip - 1;
return new_frame.release();
}
} // namespace google_breakpad
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