Roll src/third_party/skia d32087a:1052f51
[chromium-blink-merge.git] / base / profiler / win32_stack_frame_unwinder.cc
blob4ab3a3e1048de6728c077f75a781e90d4377e2a0
1 // Copyright 2015 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "base/profiler/win32_stack_frame_unwinder.h"
7 #include "base/containers/hash_tables.h"
8 #include "base/memory/singleton.h"
9 #include "base/stl_util.h"
11 namespace base {
13 // LeafUnwindBlacklist --------------------------------------------------------
15 namespace {
17 // Records modules that are known to have functions that violate the Microsoft
18 // x64 calling convention and would be dangerous to manually unwind if
19 // encountered as the last frame on the call stack. Functions like these have
20 // been observed in injected third party modules that either do not provide
21 // function unwind information, or do not provide the required function prologue
22 // and epilogue. The former case was observed in several AV products and the
23 // latter in a WndProc function associated with Actual Window
24 // Manager/aimemb64.dll. See https://crbug.com/476422.
25 class LeafUnwindBlacklist {
26 public:
27 static LeafUnwindBlacklist* GetInstance();
29 // This function does not allocate memory and is safe to call between
30 // SuspendThread and ResumeThread.
31 bool IsBlacklisted(const void* module) const;
33 // Allocates memory. Must be invoked only after ResumeThread, otherwise we
34 // risk deadlocking on a heap lock held by a suspended thread.
35 void AddModuleToBlacklist(const void* module);
37 private:
38 friend struct DefaultSingletonTraits<LeafUnwindBlacklist>;
40 LeafUnwindBlacklist();
41 ~LeafUnwindBlacklist();
43 // The set of modules known to have functions that violate the Microsoft x64
44 // calling convention.
45 base::hash_set<const void*> blacklisted_modules_;
47 DISALLOW_COPY_AND_ASSIGN(LeafUnwindBlacklist);
50 // static
51 LeafUnwindBlacklist* LeafUnwindBlacklist::GetInstance() {
52 // Leaky for shutdown performance.
53 return Singleton<LeafUnwindBlacklist,
54 LeakySingletonTraits<LeafUnwindBlacklist>>::get();
57 bool LeafUnwindBlacklist::IsBlacklisted(const void* module) const {
58 return ContainsKey(blacklisted_modules_, module);
61 void LeafUnwindBlacklist::AddModuleToBlacklist(const void* module) {
62 CHECK(module);
63 blacklisted_modules_.insert(module);
66 LeafUnwindBlacklist::LeafUnwindBlacklist() {}
67 LeafUnwindBlacklist::~LeafUnwindBlacklist() {}
69 } // namespace
71 // Win32StackFrameUnwinder ----------------------------------------------------
73 Win32StackFrameUnwinder::UnwindFunctions::~UnwindFunctions() {}
74 Win32StackFrameUnwinder::UnwindFunctions::UnwindFunctions() {}
76 Win32StackFrameUnwinder::Win32UnwindFunctions::Win32UnwindFunctions() {}
78 PRUNTIME_FUNCTION Win32StackFrameUnwinder::Win32UnwindFunctions::
79 LookupFunctionEntry(DWORD64 program_counter, PDWORD64 image_base) {
80 #ifdef _WIN64
81 return RtlLookupFunctionEntry(program_counter, image_base, nullptr);
82 #else
83 NOTREACHED();
84 return nullptr;
85 #endif
88 void Win32StackFrameUnwinder::Win32UnwindFunctions::VirtualUnwind(
89 DWORD64 image_base,
90 DWORD64 program_counter,
91 PRUNTIME_FUNCTION runtime_function,
92 CONTEXT* context) {
93 #ifdef _WIN64
94 void* handler_data;
95 ULONG64 establisher_frame;
96 KNONVOLATILE_CONTEXT_POINTERS nvcontext = {};
97 RtlVirtualUnwind(0, image_base, program_counter, runtime_function,
98 context, &handler_data, &establisher_frame, &nvcontext);
99 #else
100 NOTREACHED();
101 #endif
105 Win32StackFrameUnwinder::Win32StackFrameUnwinder()
106 : Win32StackFrameUnwinder(&win32_unwind_functions_) {
109 Win32StackFrameUnwinder::~Win32StackFrameUnwinder() {
110 if (pending_blacklisted_module_) {
111 LeafUnwindBlacklist::GetInstance()->AddModuleToBlacklist(
112 pending_blacklisted_module_);
116 bool Win32StackFrameUnwinder::TryUnwind(CONTEXT* context) {
117 #ifdef _WIN64
118 CHECK(!at_top_frame_ || unwind_info_present_for_all_frames_);
119 CHECK(!pending_blacklisted_module_);
121 ULONG64 image_base;
122 // Try to look up unwind metadata for the current function.
123 PRUNTIME_FUNCTION runtime_function =
124 unwind_functions_->LookupFunctionEntry(context->Rip, &image_base);
126 if (runtime_function) {
127 unwind_functions_->VirtualUnwind(image_base, context->Rip, runtime_function,
128 context);
129 at_top_frame_ = false;
130 } else {
131 // RtlLookupFunctionEntry didn't find unwind information. This could mean
132 // the code at the instruction pointer is in:
134 // 1. a true leaf function (i.e. a function that neither calls a function,
135 // nor allocates any stack space itself) in which case the return
136 // address is at RSP, or
138 // 2. a function that doesn't adhere to the Microsoft x64 calling
139 // convention, either by not providing the required unwind information,
140 // or by not having the prologue or epilogue required for unwinding;
141 // this case has been observed in crash data in injected third party
142 // DLLs.
144 // In valid code, case 1 can only occur (by definition) as the last frame
145 // on the stack. This happens in about 5% of observed stacks and can
146 // easily be unwound by popping RSP and using it as the next frame's
147 // instruction pointer.
149 // Case 2 can occur anywhere on the stack, and attempting to unwind the
150 // stack will result in treating whatever value happens to be on the stack
151 // at RSP as the next frame's instruction pointer. This is certainly wrong
152 // and very likely to lead to crashing by deferencing invalid pointers in
153 // the next RtlVirtualUnwind call.
155 // If we see case 2 at a location not the last frame, and all the previous
156 // frame had valid unwind information, then this is definitely bad code.
157 // We blacklist the module as untrustable for unwinding if we encounter a
158 // function in it that doesn't have unwind information.
160 if (at_top_frame_) {
161 at_top_frame_ = false;
163 // We are at the end of the stack. It's very likely that we're in case 1
164 // since the vast majority of code adheres to the Microsoft x64 calling
165 // convention. But there's a small chance we might be unlucky and be in
166 // case 2. If this module is known to have bad code according to the
167 // leaf unwind blacklist, stop here, otherwise manually unwind.
168 if (LeafUnwindBlacklist::GetInstance()->IsBlacklisted(
169 reinterpret_cast<const void*>(image_base))) {
170 return false;
173 context->Rip = context->Rsp;
174 context->Rsp += 8;
175 unwind_info_present_for_all_frames_ = false;
176 } else {
177 // We're not at the end of the stack. This frame is untrustworthy and we
178 // can't safely unwind from here.
179 if (unwind_info_present_for_all_frames_) {
180 // Unwind information was present for all previous frames, so we can
181 // be confident this is case 2. Record the module to be blacklisted.
182 pending_blacklisted_module_ =
183 reinterpret_cast<const void *>(image_base);
184 } else {
185 // We started off on a function without unwind information. It's very
186 // likely that all frames up to this point have been good, and this
187 // frame is case 2. But it's possible that the initial frame was case
188 // 2 but hadn't been blacklisted yet, and we've started to go off into
189 // the weeds. Since we can't be sure, just bail out without
190 // blacklisting the module; chances are we'll later encounter the same
191 // function on a stack with full unwind information.
193 return false;
197 return true;
198 #else
199 NOTREACHED();
200 return false;
201 #endif
204 Win32StackFrameUnwinder::Win32StackFrameUnwinder(
205 UnwindFunctions* unwind_functions)
206 : at_top_frame_(true),
207 unwind_info_present_for_all_frames_(true),
208 pending_blacklisted_module_(nullptr),
209 unwind_functions_(unwind_functions) {
212 } // namespace base