platform_bionic/libc/bionic/gwp_asan_wrappers.cpp
Florian Mayer 9908b1e3c8 Revert "Add debug logging for memtag level"
This reverts commit b3f3e86878.

Reason for revert: This created spam in tombstones.

This is a cherry-pick of dd44378da7a6912ce3b7ae171c70cc4eda53f2d

Bug: 280493417

Merged-In: Ia7b8285a6abd6f89d49859a981be1c9cfa104f81
Change-Id: Ia7b8285a6abd6f89d49859a981be1c9cfa104f81
2023-05-18 01:27:52 +00:00

513 lines
20 KiB
C++

/*
* Copyright (C) 2020 The Android Open Source Project
* All rights reserved.
*
* 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.
*
* 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.
*/
#include <alloca.h>
#include <assert.h>
#include <ctype.h>
#include <stddef.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include "gwp_asan/crash_handler.h"
#include "gwp_asan/guarded_pool_allocator.h"
#include "gwp_asan/options.h"
#include "gwp_asan_wrappers.h"
#include "malloc_common.h"
#include "platform/bionic/android_unsafe_frame_pointer_chase.h"
#include "platform/bionic/macros.h"
#include "platform/bionic/malloc.h"
#include "private/bionic_arc4random.h"
#include "private/bionic_globals.h"
#include "private/bionic_malloc_dispatch.h"
#include "sys/system_properties.h"
#include "sysprop_helpers.h"
#ifndef LIBC_STATIC
#include "bionic/malloc_common_dynamic.h"
#endif // LIBC_STATIC
static gwp_asan::GuardedPoolAllocator GuardedAlloc;
static const MallocDispatch* prev_dispatch;
using Action = android_mallopt_gwp_asan_options_t::Action;
using Options = gwp_asan::options::Options;
// basename() is a mess, see the manpage. Let's be explicit what handling we
// want (don't touch my string!).
extern "C" const char* __gnu_basename(const char* path);
namespace {
// ============================================================================
// Implementation of GWP-ASan malloc wrappers.
// ============================================================================
void* gwp_asan_calloc(size_t n_elements, size_t elem_size) {
if (__predict_false(GuardedAlloc.shouldSample())) {
size_t bytes;
if (!__builtin_mul_overflow(n_elements, elem_size, &bytes)) {
if (void* result = GuardedAlloc.allocate(bytes)) {
return result;
}
}
}
return prev_dispatch->calloc(n_elements, elem_size);
}
void gwp_asan_free(void* mem) {
if (__predict_false(GuardedAlloc.pointerIsMine(mem))) {
GuardedAlloc.deallocate(mem);
return;
}
prev_dispatch->free(mem);
}
void* gwp_asan_malloc(size_t bytes) {
if (__predict_false(GuardedAlloc.shouldSample())) {
if (void* result = GuardedAlloc.allocate(bytes)) {
return result;
}
}
return prev_dispatch->malloc(bytes);
}
size_t gwp_asan_malloc_usable_size(const void* mem) {
if (__predict_false(GuardedAlloc.pointerIsMine(mem))) {
return GuardedAlloc.getSize(mem);
}
return prev_dispatch->malloc_usable_size(mem);
}
void* gwp_asan_realloc(void* old_mem, size_t bytes) {
// GPA::pointerIsMine(p) always returns false where `p == nullptr` (and thus
// malloc(bytes) is requested). We always fall back to the backing allocator,
// technically missing some coverage, but reducing an extra conditional
// branch.
if (__predict_false(GuardedAlloc.pointerIsMine(old_mem))) {
if (__predict_false(bytes == 0)) {
GuardedAlloc.deallocate(old_mem);
return nullptr;
}
void* new_ptr = gwp_asan_malloc(bytes);
// If malloc() fails, then don't destroy the old memory.
if (__predict_false(new_ptr == nullptr)) return nullptr;
size_t old_size = GuardedAlloc.getSize(old_mem);
memcpy(new_ptr, old_mem, (bytes < old_size) ? bytes : old_size);
GuardedAlloc.deallocate(old_mem);
return new_ptr;
}
return prev_dispatch->realloc(old_mem, bytes);
}
int gwp_asan_malloc_iterate(uintptr_t base, size_t size,
void (*callback)(uintptr_t base, size_t size, void* arg), void* arg) {
if (__predict_false(GuardedAlloc.pointerIsMine(reinterpret_cast<void*>(base)))) {
// TODO(mitchp): GPA::iterate() returns void, but should return int.
// TODO(mitchp): GPA::iterate() should take uintptr_t, not void*.
GuardedAlloc.iterate(reinterpret_cast<void*>(base), size, callback, arg);
return 0;
}
return prev_dispatch->malloc_iterate(base, size, callback, arg);
}
void gwp_asan_malloc_disable() {
GuardedAlloc.disable();
prev_dispatch->malloc_disable();
}
void gwp_asan_malloc_enable() {
GuardedAlloc.enable();
prev_dispatch->malloc_enable();
}
const MallocDispatch gwp_asan_dispatch __attribute__((unused)) = {
gwp_asan_calloc,
gwp_asan_free,
Malloc(mallinfo),
gwp_asan_malloc,
gwp_asan_malloc_usable_size,
Malloc(memalign),
Malloc(posix_memalign),
#if defined(HAVE_DEPRECATED_MALLOC_FUNCS)
Malloc(pvalloc),
#endif
gwp_asan_realloc,
#if defined(HAVE_DEPRECATED_MALLOC_FUNCS)
Malloc(valloc),
#endif
gwp_asan_malloc_iterate,
gwp_asan_malloc_disable,
gwp_asan_malloc_enable,
Malloc(mallopt),
Malloc(aligned_alloc),
Malloc(malloc_info),
};
bool isPowerOfTwo(uint64_t x) {
assert(x != 0);
return (x & (x - 1)) == 0;
}
bool ShouldGwpAsanSampleProcess(unsigned sample_rate) {
if (!isPowerOfTwo(sample_rate)) {
warning_log(
"GWP-ASan process sampling rate of %u is not a power-of-two, and so modulo bias occurs.",
sample_rate);
}
uint8_t random_number;
__libc_safe_arc4random_buf(&random_number, sizeof(random_number));
return random_number % sample_rate == 0;
}
bool GwpAsanInitialized = false;
bool GwpAsanRecoverable = false;
// The probability (1 / SampleRate) that an allocation gets chosen to be put
// into the special GWP-ASan pool.
using SampleRate_t = typeof(gwp_asan::options::Options::SampleRate);
constexpr SampleRate_t kDefaultSampleRate = 2500;
static const char* kSampleRateSystemSysprop = "libc.debug.gwp_asan.sample_rate.system_default";
static const char* kSampleRateAppSysprop = "libc.debug.gwp_asan.sample_rate.app_default";
static const char* kSampleRateTargetedSyspropPrefix = "libc.debug.gwp_asan.sample_rate.";
static const char* kSampleRateEnvVar = "GWP_ASAN_SAMPLE_RATE";
// The probability (1 / ProcessSampling) that a process will be randomly
// selected for sampling, for system apps and system processes. The process
// sampling rate should always be a power of two to avoid modulo bias.
constexpr unsigned kDefaultProcessSampling = 128;
static const char* kProcessSamplingSystemSysprop =
"libc.debug.gwp_asan.process_sampling.system_default";
static const char* kProcessSamplingAppSysprop = "libc.debug.gwp_asan.process_sampling.app_default";
static const char* kProcessSamplingTargetedSyspropPrefix = "libc.debug.gwp_asan.process_sampling.";
static const char* kProcessSamplingEnvVar = "GWP_ASAN_PROCESS_SAMPLING";
// The upper limit of simultaneous allocations supported by GWP-ASan. Any
// allocations in excess of this limit will be passed to the backing allocator
// and can't be sampled. This value, if unspecified, will be automatically
// calculated to keep the same ratio as the default (2500 sampling : 32 allocs).
// So, if you specify GWP_ASAN_SAMPLE_RATE=1250 (i.e. twice as frequent), we'll
// automatically calculate that we need double the slots (64).
using SimultaneousAllocations_t = typeof(gwp_asan::options::Options::MaxSimultaneousAllocations);
constexpr SimultaneousAllocations_t kDefaultMaxAllocs = 32;
static const char* kMaxAllocsSystemSysprop = "libc.debug.gwp_asan.max_allocs.system_default";
static const char* kMaxAllocsAppSysprop = "libc.debug.gwp_asan.max_allocs.app_default";
static const char* kMaxAllocsTargetedSyspropPrefix = "libc.debug.gwp_asan.max_allocs.";
static const char* kMaxAllocsEnvVar = "GWP_ASAN_MAX_ALLOCS";
static const char* kRecoverableSystemSysprop = "libc.debug.gwp_asan.recoverable.system_default";
static const char* kRecoverableAppSysprop = "libc.debug.gwp_asan.recoverable.app_default";
static const char* kRecoverableTargetedSyspropPrefix = "libc.debug.gwp_asan.recoverable.";
static const char* kRecoverableEnvVar = "GWP_ASAN_RECOVERABLE";
static const char kPersistPrefix[] = "persist.";
bool NeedsGwpAsanRecovery(void* fault_ptr) {
fault_ptr = untag_address(fault_ptr);
return GwpAsanInitialized && GwpAsanRecoverable &&
__gwp_asan_error_is_mine(GuardedAlloc.getAllocatorState(),
reinterpret_cast<uintptr_t>(fault_ptr));
}
void GwpAsanPreCrashHandler(void* fault_ptr) {
fault_ptr = untag_address(fault_ptr);
if (!NeedsGwpAsanRecovery(fault_ptr)) return;
GuardedAlloc.preCrashReport(fault_ptr);
}
void GwpAsanPostCrashHandler(void* fault_ptr) {
fault_ptr = untag_address(fault_ptr);
if (!NeedsGwpAsanRecovery(fault_ptr)) return;
GuardedAlloc.postCrashReportRecoverableOnly(fault_ptr);
}
void SetDefaultGwpAsanOptions(Options* options, unsigned* process_sample_rate,
const android_mallopt_gwp_asan_options_t& mallopt_options) {
options->Enabled = true;
options->InstallSignalHandlers = false;
options->InstallForkHandlers = true;
options->Backtrace = android_unsafe_frame_pointer_chase;
options->SampleRate = kDefaultSampleRate;
options->MaxSimultaneousAllocations = kDefaultMaxAllocs;
*process_sample_rate = 1;
if (mallopt_options.desire == Action::TURN_ON_WITH_SAMPLING) {
*process_sample_rate = kDefaultProcessSampling;
} else if (mallopt_options.desire == Action::TURN_ON_FOR_APP_SAMPLED_NON_CRASHING) {
*process_sample_rate = kDefaultProcessSampling;
options->Recoverable = true;
GwpAsanRecoverable = true;
}
}
bool GetGwpAsanOptionImpl(char* value_out,
const android_mallopt_gwp_asan_options_t& mallopt_options,
const char* system_sysprop, const char* app_sysprop,
const char* targeted_sysprop_prefix, const char* env_var) {
const char* basename = "";
if (mallopt_options.program_name) basename = __gnu_basename(mallopt_options.program_name);
constexpr size_t kSyspropMaxLen = 512;
char program_specific_sysprop[kSyspropMaxLen] = {};
char persist_program_specific_sysprop[kSyspropMaxLen] = {};
char persist_default_sysprop[kSyspropMaxLen] = {};
const char* sysprop_names[4] = {};
// Tests use a blank program name to specify that system properties should not
// be used. Tests still continue to use the environment variable though.
if (*basename != '\0') {
const char* default_sysprop = system_sysprop;
if (mallopt_options.desire == Action::TURN_ON_FOR_APP) {
default_sysprop = app_sysprop;
}
async_safe_format_buffer(&program_specific_sysprop[0], kSyspropMaxLen, "%s%s",
targeted_sysprop_prefix, basename);
async_safe_format_buffer(&persist_program_specific_sysprop[0], kSyspropMaxLen, "%s%s",
kPersistPrefix, program_specific_sysprop);
async_safe_format_buffer(&persist_default_sysprop[0], kSyspropMaxLen, "%s%s", kPersistPrefix,
default_sysprop);
// In order of precedence, always take the program-specific sysprop (e.g.
// '[persist.]libc.debug.gwp_asan.sample_rate.cameraserver') over the
// generic sysprop (e.g.
// '[persist.]libc.debug.gwp_asan.(system_default|app_default)'). In
// addition, always take the non-persistent option over the persistent
// option.
sysprop_names[0] = program_specific_sysprop;
sysprop_names[1] = persist_program_specific_sysprop;
sysprop_names[2] = default_sysprop;
sysprop_names[3] = persist_default_sysprop;
}
return get_config_from_env_or_sysprops(env_var, sysprop_names, arraysize(sysprop_names),
value_out, PROP_VALUE_MAX);
}
bool GetGwpAsanIntegerOption(unsigned long long* result,
const android_mallopt_gwp_asan_options_t& mallopt_options,
const char* system_sysprop, const char* app_sysprop,
const char* targeted_sysprop_prefix, const char* env_var,
const char* descriptive_name) {
char buffer[PROP_VALUE_MAX];
if (!GetGwpAsanOptionImpl(buffer, mallopt_options, system_sysprop, app_sysprop,
targeted_sysprop_prefix, env_var)) {
return false;
}
char* end;
unsigned long long value = strtoull(buffer, &end, 10);
if (value == ULLONG_MAX || *end != '\0') {
warning_log("Invalid GWP-ASan %s: \"%s\". Using default value instead.", descriptive_name,
buffer);
return false;
}
*result = value;
return true;
}
bool GetGwpAsanBoolOption(bool* result, const android_mallopt_gwp_asan_options_t& mallopt_options,
const char* system_sysprop, const char* app_sysprop,
const char* targeted_sysprop_prefix, const char* env_var,
const char* descriptive_name) {
char buffer[PROP_VALUE_MAX] = {};
if (!GetGwpAsanOptionImpl(buffer, mallopt_options, system_sysprop, app_sysprop,
targeted_sysprop_prefix, env_var)) {
return false;
}
if (strncasecmp(buffer, "1", PROP_VALUE_MAX) == 0 ||
strncasecmp(buffer, "true", PROP_VALUE_MAX) == 0) {
*result = true;
return true;
} else if (strncasecmp(buffer, "0", PROP_VALUE_MAX) == 0 ||
strncasecmp(buffer, "false", PROP_VALUE_MAX) == 0) {
*result = false;
return true;
}
warning_log(
"Invalid GWP-ASan %s: \"%s\". Using default value \"%s\" instead. Valid values are \"true\", "
"\"1\", \"false\", or \"0\".",
descriptive_name, buffer, *result ? "true" : "false");
return false;
}
// Initialize the GWP-ASan options structure in *options, taking into account whether someone has
// asked for specific GWP-ASan settings. The order of priority is:
// 1. Environment variables.
// 2. Process-specific system properties.
// 3. Global system properties.
// If any of these overrides are found, we return true. Otherwise, use the default values, and
// return false.
bool GetGwpAsanOptions(Options* options, unsigned* process_sample_rate,
const android_mallopt_gwp_asan_options_t& mallopt_options) {
SetDefaultGwpAsanOptions(options, process_sample_rate, mallopt_options);
bool had_overrides = false;
unsigned long long buf;
if (GetGwpAsanIntegerOption(&buf, mallopt_options, kSampleRateSystemSysprop,
kSampleRateAppSysprop, kSampleRateTargetedSyspropPrefix,
kSampleRateEnvVar, "sample rate")) {
options->SampleRate = buf;
had_overrides = true;
}
if (GetGwpAsanIntegerOption(&buf, mallopt_options, kProcessSamplingSystemSysprop,
kProcessSamplingAppSysprop, kProcessSamplingTargetedSyspropPrefix,
kProcessSamplingEnvVar, "process sampling rate")) {
*process_sample_rate = buf;
had_overrides = true;
}
if (GetGwpAsanIntegerOption(&buf, mallopt_options, kMaxAllocsSystemSysprop, kMaxAllocsAppSysprop,
kMaxAllocsTargetedSyspropPrefix, kMaxAllocsEnvVar,
"maximum simultaneous allocations")) {
options->MaxSimultaneousAllocations = buf;
had_overrides = true;
} else if (had_overrides) {
// Multiply the number of slots available, such that the ratio between
// sampling rate and slots is kept the same as the default. For example, a
// sampling rate of 1000 is 2.5x more frequent than default, and so
// requires 80 slots (32 * 2.5).
float frequency_multiplier = static_cast<float>(options->SampleRate) / kDefaultSampleRate;
options->MaxSimultaneousAllocations =
/* default */ kDefaultMaxAllocs / frequency_multiplier;
}
bool recoverable = false;
if (GetGwpAsanBoolOption(&recoverable, mallopt_options, kRecoverableSystemSysprop,
kRecoverableAppSysprop, kRecoverableTargetedSyspropPrefix,
kRecoverableEnvVar, "recoverable")) {
options->Recoverable = recoverable;
GwpAsanRecoverable = recoverable;
had_overrides = true;
}
return had_overrides;
}
bool MaybeInitGwpAsan(libc_globals* globals,
const android_mallopt_gwp_asan_options_t& mallopt_options) {
if (GwpAsanInitialized) {
error_log("GWP-ASan was already initialized for this process.");
return false;
}
Options options;
unsigned process_sample_rate = kDefaultProcessSampling;
if (!GetGwpAsanOptions(&options, &process_sample_rate, mallopt_options) &&
mallopt_options.desire == Action::DONT_TURN_ON_UNLESS_OVERRIDDEN) {
return false;
}
if (options.SampleRate == 0 || process_sample_rate == 0 ||
options.MaxSimultaneousAllocations == 0) {
return false;
}
if (!ShouldGwpAsanSampleProcess(process_sample_rate)) {
return false;
}
// GWP-ASan is compatible with heapprofd/malloc_debug/malloc_hooks iff
// GWP-ASan was installed first. If one of these other libraries was already
// installed, we don't enable GWP-ASan. These libraries are normally enabled
// in libc_init after GWP-ASan, but if the new process is a zygote child and
// trying to initialize GWP-ASan through mallopt(), one of these libraries may
// be installed. It may be possible to change this in future by modifying the
// internal dispatch pointers of these libraries at this point in time, but
// given that they're all debug-only, we don't really mind for now.
if (GetDefaultDispatchTable() != nullptr) {
// Something else is installed.
return false;
}
// GWP-ASan's initialization is always called in a single-threaded context, so
// we can initialize lock-free.
// Set GWP-ASan as the malloc dispatch table.
globals->malloc_dispatch_table = gwp_asan_dispatch;
atomic_store(&globals->default_dispatch_table, &gwp_asan_dispatch);
// If malloc_limit isn't installed, we can skip the default_dispatch_table
// lookup.
if (GetDispatchTable() == nullptr) {
atomic_store(&globals->current_dispatch_table, &gwp_asan_dispatch);
}
GwpAsanInitialized = true;
prev_dispatch = NativeAllocatorDispatch();
GuardedAlloc.init(options);
__libc_shared_globals()->gwp_asan_state = GuardedAlloc.getAllocatorState();
__libc_shared_globals()->gwp_asan_metadata = GuardedAlloc.getMetadataRegion();
__libc_shared_globals()->debuggerd_needs_gwp_asan_recovery = NeedsGwpAsanRecovery;
__libc_shared_globals()->debuggerd_gwp_asan_pre_crash_report = GwpAsanPreCrashHandler;
__libc_shared_globals()->debuggerd_gwp_asan_post_crash_report = GwpAsanPostCrashHandler;
return true;
}
}; // anonymous namespace
bool MaybeInitGwpAsanFromLibc(libc_globals* globals) {
// Never initialize the Zygote here. A Zygote chosen for sampling would also
// have all of its children sampled. Instead, the Zygote child will choose
// whether it samples or not just after the Zygote forks. Note that the Zygote
// changes its name after it's started, at this point it's still called
// "app_process" or "app_process64".
static const char kAppProcessNamePrefix[] = "app_process";
const char* progname = getprogname();
if (strncmp(progname, kAppProcessNamePrefix, sizeof(kAppProcessNamePrefix) - 1) == 0)
return false;
android_mallopt_gwp_asan_options_t mallopt_options;
mallopt_options.program_name = progname;
mallopt_options.desire = Action::TURN_ON_WITH_SAMPLING;
return MaybeInitGwpAsan(globals, mallopt_options);
}
bool DispatchIsGwpAsan(const MallocDispatch* dispatch) {
return dispatch == &gwp_asan_dispatch;
}
bool EnableGwpAsan(const android_mallopt_gwp_asan_options_t& options) {
if (GwpAsanInitialized) {
return true;
}
bool ret_value;
__libc_globals.mutate(
[&](libc_globals* globals) { ret_value = MaybeInitGwpAsan(globals, options); });
return ret_value;
}