1 //===-- hwasan_fuchsia.cpp --------------------------------------*- C++ -*-===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 ///
9 /// \file
10 /// This file is a part of HWAddressSanitizer and contains Fuchsia-specific
11 /// code.
12 ///
13 //===----------------------------------------------------------------------===//
14
15 #include "sanitizer_common/sanitizer_fuchsia.h"
16 #if SANITIZER_FUCHSIA
17
18 #include <zircon/features.h>
19 #include <zircon/syscalls.h>
20
21 #include "hwasan.h"
22 #include "hwasan_interface_internal.h"
23 #include "hwasan_report.h"
24 #include "hwasan_thread.h"
25 #include "hwasan_thread_list.h"
26
27 // This TLS variable contains the location of the stack ring buffer and can be
28 // used to always find the hwasan thread object associated with the current
29 // running thread.
30 [[gnu::tls_model("initial-exec")]]
31 SANITIZER_INTERFACE_ATTRIBUTE
32 THREADLOCAL uptr __hwasan_tls;
33
34 namespace __hwasan {
35
InitShadow()36 bool InitShadow() {
37 __sanitizer::InitShadowBounds();
38 CHECK_NE(__sanitizer::ShadowBounds.shadow_limit, 0);
39
40 // These variables are used by MemIsShadow for asserting we have a correct
41 // shadow address. On Fuchsia, we only have one region of shadow, so the
42 // bounds of Low shadow can be zero while High shadow represents the true
43 // bounds. Note that these are inclusive ranges.
44 kLowShadowStart = 0;
45 kLowShadowEnd = 0;
46 kHighShadowStart = __sanitizer::ShadowBounds.shadow_base;
47 kHighShadowEnd = __sanitizer::ShadowBounds.shadow_limit - 1;
48
49 return true;
50 }
51
MemIsApp(uptr p)52 bool MemIsApp(uptr p) {
53 CHECK(GetTagFromPointer(p) == 0);
54 return __sanitizer::ShadowBounds.shadow_limit <= p &&
55 p <= (__sanitizer::ShadowBounds.memory_limit - 1);
56 }
57
58 // These are known parameters passed to the hwasan runtime on thread creation.
59 struct Thread::InitState {
60 uptr stack_bottom, stack_top;
61 };
62
63 static void FinishThreadInitialization(Thread *thread);
64
InitThreads()65 void InitThreads() {
66 // This is the minimal alignment needed for the storage where hwasan threads
67 // and their stack ring buffers are placed. This alignment is necessary so the
68 // stack ring buffer can perform a simple calculation to get the next element
69 // in the RB. The instructions for this calculation are emitted by the
70 // compiler. (Full explanation in hwasan_thread_list.h.)
71 uptr alloc_size = UINT64_C(1) << kShadowBaseAlignment;
72 uptr thread_start = reinterpret_cast<uptr>(
73 MmapAlignedOrDieOnFatalError(alloc_size, alloc_size, __func__));
74
75 InitThreadList(thread_start, alloc_size);
76
77 // Create the hwasan thread object for the current (main) thread. Stack info
78 // for this thread is known from information passed via
79 // __sanitizer_startup_hook.
80 const Thread::InitState state = {
81 .stack_bottom = __sanitizer::MainThreadStackBase,
82 .stack_top =
83 __sanitizer::MainThreadStackBase + __sanitizer::MainThreadStackSize,
84 };
85 FinishThreadInitialization(hwasanThreadList().CreateCurrentThread(&state));
86 }
87
GetCurrentThreadLongPtr()88 uptr *GetCurrentThreadLongPtr() { return &__hwasan_tls; }
89
90 // This is called from the parent thread before the new thread is created. Here
91 // we can propagate known info like the stack bounds to Thread::Init before
92 // jumping into the thread. We cannot initialize the stack ring buffer yet since
93 // we have not entered the new thread.
BeforeThreadCreateHook(uptr user_id,bool detached,const char * name,uptr stack_bottom,uptr stack_size)94 static void *BeforeThreadCreateHook(uptr user_id, bool detached,
95 const char *name, uptr stack_bottom,
96 uptr stack_size) {
97 const Thread::InitState state = {
98 .stack_bottom = stack_bottom,
99 .stack_top = stack_bottom + stack_size,
100 };
101 return hwasanThreadList().CreateCurrentThread(&state);
102 }
103
104 // This sets the stack top and bottom according to the InitState passed to
105 // CreateCurrentThread above.
InitStackAndTls(const InitState * state)106 void Thread::InitStackAndTls(const InitState *state) {
107 CHECK_NE(state->stack_bottom, 0);
108 CHECK_NE(state->stack_top, 0);
109 stack_bottom_ = state->stack_bottom;
110 stack_top_ = state->stack_top;
111 tls_end_ = tls_begin_ = 0;
112 }
113
114 // This is called after creating a new thread with the pointer returned by
115 // BeforeThreadCreateHook. We are still in the creating thread and should check
116 // if it was actually created correctly.
ThreadCreateHook(void * hook,bool aborted)117 static void ThreadCreateHook(void *hook, bool aborted) {
118 Thread *thread = static_cast<Thread *>(hook);
119 if (!aborted) {
120 // The thread was created successfully.
121 // ThreadStartHook can already be running in the new thread.
122 } else {
123 // The thread wasn't created after all.
124 // Clean up everything we set up in BeforeThreadCreateHook.
125 atomic_signal_fence(memory_order_seq_cst);
126 hwasanThreadList().ReleaseThread(thread);
127 }
128 }
129
130 // This is called in the newly-created thread before it runs anything else,
131 // with the pointer returned by BeforeThreadCreateHook (above). Here we can
132 // setup the stack ring buffer.
ThreadStartHook(void * hook,thrd_t self)133 static void ThreadStartHook(void *hook, thrd_t self) {
134 Thread *thread = static_cast<Thread *>(hook);
135 FinishThreadInitialization(thread);
136 thread->EnsureRandomStateInited();
137 }
138
139 // This is the function that sets up the stack ring buffer and enables us to use
140 // GetCurrentThread. This function should only be called while IN the thread
141 // that we want to create the hwasan thread object for so __hwasan_tls can be
142 // properly referenced.
FinishThreadInitialization(Thread * thread)143 static void FinishThreadInitialization(Thread *thread) {
144 CHECK_NE(thread, nullptr);
145
146 // The ring buffer is located immediately before the thread object.
147 uptr stack_buffer_size = hwasanThreadList().GetRingBufferSize();
148 uptr stack_buffer_start = reinterpret_cast<uptr>(thread) - stack_buffer_size;
149 thread->InitStackRingBuffer(stack_buffer_start, stack_buffer_size);
150 }
151
ThreadExitHook(void * hook,thrd_t self)152 static void ThreadExitHook(void *hook, thrd_t self) {
153 Thread *thread = static_cast<Thread *>(hook);
154 atomic_signal_fence(memory_order_seq_cst);
155 hwasanThreadList().ReleaseThread(thread);
156 }
157
TagMemoryAligned(uptr p,uptr size,tag_t tag)158 uptr TagMemoryAligned(uptr p, uptr size, tag_t tag) {
159 CHECK(IsAligned(p, kShadowAlignment));
160 CHECK(IsAligned(size, kShadowAlignment));
161 __sanitizer_fill_shadow(p, size, tag,
162 common_flags()->clear_shadow_mmap_threshold);
163 return AddTagToPointer(p, tag);
164 }
165
166 // Not implemented because Fuchsia does not use signal handlers.
HwasanOnDeadlySignal(int signo,void * info,void * context)167 void HwasanOnDeadlySignal(int signo, void *info, void *context) {}
168
169 // Not implemented because Fuchsia does not use interceptors.
InitializeInterceptors()170 void InitializeInterceptors() {}
171
172 // Not implemented because this is only relevant for Android.
AndroidTestTlsSlot()173 void AndroidTestTlsSlot() {}
174
175 // TSD was normally used on linux as a means of calling the hwasan thread exit
176 // handler passed to pthread_key_create. This is not needed on Fuchsia because
177 // we will be using __sanitizer_thread_exit_hook.
HwasanTSDInit()178 void HwasanTSDInit() {}
HwasanTSDThreadInit()179 void HwasanTSDThreadInit() {}
180
181 // On linux, this just would call `atexit(HwasanAtExit)`. The functions in
182 // HwasanAtExit are unimplemented for Fuchsia and effectively no-ops, so this
183 // function is unneeded.
InstallAtExitHandler()184 void InstallAtExitHandler() {}
185
HwasanInstallAtForkHandler()186 void HwasanInstallAtForkHandler() {}
187
InstallAtExitCheckLeaks()188 void InstallAtExitCheckLeaks() {}
189
InitializeOsSupport()190 void InitializeOsSupport() {
191 #ifdef __aarch64__
192 uint32_t features = 0;
193 CHECK_EQ(zx_system_get_features(ZX_FEATURE_KIND_ADDRESS_TAGGING, &features),
194 ZX_OK);
195 if (!(features & ZX_ARM64_FEATURE_ADDRESS_TAGGING_TBI) &&
196 flags()->fail_without_syscall_abi) {
197 Printf(
198 "FATAL: HWAddressSanitizer requires "
199 "ZX_ARM64_FEATURE_ADDRESS_TAGGING_TBI.\n");
200 Die();
201 }
202 #endif
203 }
204
205 } // namespace __hwasan
206
207 namespace __lsan {
208
UseExitcodeOnLeak()209 bool UseExitcodeOnLeak() { return __hwasan::flags()->halt_on_error; }
210
211 } // namespace __lsan
212
213 extern "C" {
214
__sanitizer_before_thread_create_hook(thrd_t thread,bool detached,const char * name,void * stack_base,size_t stack_size)215 void *__sanitizer_before_thread_create_hook(thrd_t thread, bool detached,
216 const char *name, void *stack_base,
217 size_t stack_size) {
218 return __hwasan::BeforeThreadCreateHook(
219 reinterpret_cast<uptr>(thread), detached, name,
220 reinterpret_cast<uptr>(stack_base), stack_size);
221 }
222
__sanitizer_thread_create_hook(void * hook,thrd_t thread,int error)223 void __sanitizer_thread_create_hook(void *hook, thrd_t thread, int error) {
224 __hwasan::ThreadCreateHook(hook, error != thrd_success);
225 }
226
__sanitizer_thread_start_hook(void * hook,thrd_t self)227 void __sanitizer_thread_start_hook(void *hook, thrd_t self) {
228 __hwasan::ThreadStartHook(hook, reinterpret_cast<uptr>(self));
229 }
230
__sanitizer_thread_exit_hook(void * hook,thrd_t self)231 void __sanitizer_thread_exit_hook(void *hook, thrd_t self) {
232 __hwasan::ThreadExitHook(hook, self);
233 }
234
__sanitizer_module_loaded(const struct dl_phdr_info * info,size_t)235 void __sanitizer_module_loaded(const struct dl_phdr_info *info, size_t) {
236 __hwasan_library_loaded(info->dlpi_addr, info->dlpi_phdr, info->dlpi_phnum);
237 }
238
239 } // extern "C"
240
241 #endif // SANITIZER_FUCHSIA
242