866e32ad33
From-SVN: r215527
378 lines
13 KiB
C++
378 lines
13 KiB
C++
//===-- sanitizer_coverage.cc ---------------------------------------------===//
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// Sanitizer Coverage.
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// This file implements run-time support for a poor man's coverage tool.
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//
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// Compiler instrumentation:
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// For every interesting basic block the compiler injects the following code:
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// if (*Guard) {
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// __sanitizer_cov();
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// *Guard = 1;
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// }
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// It's fine to call __sanitizer_cov more than once for a given block.
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//
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// Run-time:
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// - __sanitizer_cov(): record that we've executed the PC (GET_CALLER_PC).
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// - __sanitizer_cov_dump: dump the coverage data to disk.
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// For every module of the current process that has coverage data
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// this will create a file module_name.PID.sancov. The file format is simple:
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// it's just a sorted sequence of 4-byte offsets in the module.
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//
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// Eventually, this coverage implementation should be obsoleted by a more
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// powerful general purpose Clang/LLVM coverage instrumentation.
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// Consider this implementation as prototype.
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//
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// FIXME: support (or at least test with) dlclose.
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//===----------------------------------------------------------------------===//
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#include "sanitizer_allocator_internal.h"
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#include "sanitizer_common.h"
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#include "sanitizer_libc.h"
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#include "sanitizer_mutex.h"
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#include "sanitizer_procmaps.h"
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#include "sanitizer_stacktrace.h"
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#include "sanitizer_flags.h"
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atomic_uint32_t dump_once_guard; // Ensure that CovDump runs only once.
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// pc_array is the array containing the covered PCs.
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// To make the pc_array thread- and async-signal-safe it has to be large enough.
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// 128M counters "ought to be enough for anybody" (4M on 32-bit).
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// With coverage_direct=1 in ASAN_OPTIONS, pc_array memory is mapped to a file.
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// In this mode, __sanitizer_cov_dump does nothing, and CovUpdateMapping()
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// dump current memory layout to another file.
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static bool cov_sandboxed = false;
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static int cov_fd = kInvalidFd;
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static unsigned int cov_max_block_size = 0;
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namespace __sanitizer {
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class CoverageData {
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public:
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void Init();
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void BeforeFork();
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void AfterFork(int child_pid);
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void Extend(uptr npcs);
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void Add(uptr pc);
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uptr *data();
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uptr size();
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private:
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// Maximal size pc array may ever grow.
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// We MmapNoReserve this space to ensure that the array is contiguous.
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static const uptr kPcArrayMaxSize = FIRST_32_SECOND_64(1 << 22, 1 << 27);
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// The amount file mapping for the pc array is grown by.
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static const uptr kPcArrayMmapSize = 64 * 1024;
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// pc_array is allocated with MmapNoReserveOrDie and so it uses only as
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// much RAM as it really needs.
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uptr *pc_array;
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// Index of the first available pc_array slot.
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atomic_uintptr_t pc_array_index;
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// Array size.
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atomic_uintptr_t pc_array_size;
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// Current file mapped size of the pc array.
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uptr pc_array_mapped_size;
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// Descriptor of the file mapped pc array.
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int pc_fd;
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StaticSpinMutex mu;
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void DirectOpen();
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void ReInit();
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};
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static CoverageData coverage_data;
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void CoverageData::DirectOpen() {
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InternalScopedString path(1024);
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internal_snprintf((char *)path.data(), path.size(), "%s/%zd.sancov.raw",
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common_flags()->coverage_dir, internal_getpid());
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pc_fd = OpenFile(path.data(), true);
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if (internal_iserror(pc_fd)) {
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Report(" Coverage: failed to open %s for writing\n", path.data());
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Die();
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}
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pc_array_mapped_size = 0;
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CovUpdateMapping();
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}
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void CoverageData::Init() {
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pc_array = reinterpret_cast<uptr *>(
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MmapNoReserveOrDie(sizeof(uptr) * kPcArrayMaxSize, "CovInit"));
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pc_fd = kInvalidFd;
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if (common_flags()->coverage_direct) {
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atomic_store(&pc_array_size, 0, memory_order_relaxed);
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atomic_store(&pc_array_index, 0, memory_order_relaxed);
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} else {
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atomic_store(&pc_array_size, kPcArrayMaxSize, memory_order_relaxed);
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atomic_store(&pc_array_index, 0, memory_order_relaxed);
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}
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}
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void CoverageData::ReInit() {
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internal_munmap(pc_array, sizeof(uptr) * kPcArrayMaxSize);
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if (pc_fd != kInvalidFd) internal_close(pc_fd);
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if (common_flags()->coverage_direct) {
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// In memory-mapped mode we must extend the new file to the known array
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// size.
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uptr size = atomic_load(&pc_array_size, memory_order_relaxed);
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Init();
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if (size) Extend(size);
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} else {
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Init();
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}
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}
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void CoverageData::BeforeFork() {
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mu.Lock();
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}
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void CoverageData::AfterFork(int child_pid) {
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// We are single-threaded so it's OK to release the lock early.
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mu.Unlock();
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if (child_pid == 0) ReInit();
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}
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// Extend coverage PC array to fit additional npcs elements.
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void CoverageData::Extend(uptr npcs) {
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if (!common_flags()->coverage_direct) return;
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SpinMutexLock l(&mu);
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if (pc_fd == kInvalidFd) DirectOpen();
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CHECK_NE(pc_fd, kInvalidFd);
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uptr size = atomic_load(&pc_array_size, memory_order_relaxed);
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size += npcs * sizeof(uptr);
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if (size > pc_array_mapped_size) {
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uptr new_mapped_size = pc_array_mapped_size;
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while (size > new_mapped_size) new_mapped_size += kPcArrayMmapSize;
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// Extend the file and map the new space at the end of pc_array.
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uptr res = internal_ftruncate(pc_fd, new_mapped_size);
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int err;
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if (internal_iserror(res, &err)) {
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Printf("failed to extend raw coverage file: %d\n", err);
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Die();
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}
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void *p = MapWritableFileToMemory(pc_array + pc_array_mapped_size,
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new_mapped_size - pc_array_mapped_size,
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pc_fd, pc_array_mapped_size);
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CHECK_EQ(p, pc_array + pc_array_mapped_size);
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pc_array_mapped_size = new_mapped_size;
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}
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atomic_store(&pc_array_size, size, memory_order_release);
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}
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// Simply add the pc into the vector under lock. If the function is called more
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// than once for a given PC it will be inserted multiple times, which is fine.
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void CoverageData::Add(uptr pc) {
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if (!pc_array) return;
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uptr idx = atomic_fetch_add(&pc_array_index, 1, memory_order_relaxed);
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CHECK_LT(idx * sizeof(uptr),
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atomic_load(&pc_array_size, memory_order_acquire));
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pc_array[idx] = pc;
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}
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uptr *CoverageData::data() {
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return pc_array;
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}
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uptr CoverageData::size() {
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return atomic_load(&pc_array_index, memory_order_relaxed);
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}
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// Block layout for packed file format: header, followed by module name (no
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// trailing zero), followed by data blob.
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struct CovHeader {
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int pid;
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unsigned int module_name_length;
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unsigned int data_length;
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};
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static void CovWritePacked(int pid, const char *module, const void *blob,
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unsigned int blob_size) {
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if (cov_fd < 0) return;
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unsigned module_name_length = internal_strlen(module);
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CovHeader header = {pid, module_name_length, blob_size};
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if (cov_max_block_size == 0) {
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// Writing to a file. Just go ahead.
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internal_write(cov_fd, &header, sizeof(header));
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internal_write(cov_fd, module, module_name_length);
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internal_write(cov_fd, blob, blob_size);
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} else {
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// Writing to a socket. We want to split the data into appropriately sized
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// blocks.
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InternalScopedBuffer<char> block(cov_max_block_size);
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CHECK_EQ((uptr)block.data(), (uptr)(CovHeader *)block.data());
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uptr header_size_with_module = sizeof(header) + module_name_length;
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CHECK_LT(header_size_with_module, cov_max_block_size);
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unsigned int max_payload_size =
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cov_max_block_size - header_size_with_module;
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char *block_pos = block.data();
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internal_memcpy(block_pos, &header, sizeof(header));
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block_pos += sizeof(header);
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internal_memcpy(block_pos, module, module_name_length);
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block_pos += module_name_length;
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char *block_data_begin = block_pos;
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char *blob_pos = (char *)blob;
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while (blob_size > 0) {
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unsigned int payload_size = Min(blob_size, max_payload_size);
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blob_size -= payload_size;
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internal_memcpy(block_data_begin, blob_pos, payload_size);
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blob_pos += payload_size;
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((CovHeader *)block.data())->data_length = payload_size;
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internal_write(cov_fd, block.data(),
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header_size_with_module + payload_size);
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}
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}
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}
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// If packed = false: <name>.<pid>.<sancov> (name = module name).
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// If packed = true and name == 0: <pid>.<sancov>.<packed>.
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// If packed = true and name != 0: <name>.<sancov>.<packed> (name is
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// user-supplied).
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static int CovOpenFile(bool packed, const char* name) {
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InternalScopedBuffer<char> path(1024);
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if (!packed) {
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CHECK(name);
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internal_snprintf((char *)path.data(), path.size(), "%s/%s.%zd.sancov",
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common_flags()->coverage_dir, name, internal_getpid());
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} else {
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if (!name)
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internal_snprintf((char *)path.data(), path.size(),
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"%s/%zd.sancov.packed", common_flags()->coverage_dir,
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internal_getpid());
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else
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internal_snprintf((char *)path.data(), path.size(), "%s/%s.sancov.packed",
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common_flags()->coverage_dir, name);
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}
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uptr fd = OpenFile(path.data(), true);
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if (internal_iserror(fd)) {
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Report(" SanitizerCoverage: failed to open %s for writing\n", path.data());
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return -1;
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}
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return fd;
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}
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// Dump the coverage on disk.
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static void CovDump() {
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if (!common_flags()->coverage || common_flags()->coverage_direct) return;
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#if !SANITIZER_WINDOWS
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if (atomic_fetch_add(&dump_once_guard, 1, memory_order_relaxed))
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return;
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uptr size = coverage_data.size();
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InternalMmapVector<u32> offsets(size);
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uptr *vb = coverage_data.data();
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uptr *ve = vb + size;
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SortArray(vb, size);
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MemoryMappingLayout proc_maps(/*cache_enabled*/true);
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uptr mb, me, off, prot;
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InternalScopedBuffer<char> module(4096);
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InternalScopedBuffer<char> path(4096 * 2);
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for (int i = 0;
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proc_maps.Next(&mb, &me, &off, module.data(), module.size(), &prot);
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i++) {
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if ((prot & MemoryMappingLayout::kProtectionExecute) == 0)
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continue;
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while (vb < ve && *vb < mb) vb++;
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if (vb >= ve) break;
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if (*vb < me) {
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offsets.clear();
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const uptr *old_vb = vb;
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CHECK_LE(off, *vb);
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for (; vb < ve && *vb < me; vb++) {
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uptr diff = *vb - (i ? mb : 0) + off;
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CHECK_LE(diff, 0xffffffffU);
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offsets.push_back(static_cast<u32>(diff));
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}
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char *module_name = StripModuleName(module.data());
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if (cov_sandboxed) {
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if (cov_fd >= 0) {
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CovWritePacked(internal_getpid(), module_name, offsets.data(),
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offsets.size() * sizeof(u32));
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VReport(1, " CovDump: %zd PCs written to packed file\n", vb - old_vb);
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}
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} else {
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// One file per module per process.
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internal_snprintf((char *)path.data(), path.size(), "%s/%s.%zd.sancov",
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common_flags()->coverage_dir, module_name,
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internal_getpid());
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int fd = CovOpenFile(false /* packed */, module_name);
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if (fd > 0) {
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internal_write(fd, offsets.data(), offsets.size() * sizeof(u32));
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internal_close(fd);
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VReport(1, " CovDump: %s: %zd PCs written\n", path.data(),
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vb - old_vb);
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}
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}
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InternalFree(module_name);
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}
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}
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if (cov_fd >= 0)
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internal_close(cov_fd);
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#endif // !SANITIZER_WINDOWS
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}
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void CovPrepareForSandboxing(__sanitizer_sandbox_arguments *args) {
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if (!args) return;
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if (!common_flags()->coverage) return;
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cov_sandboxed = args->coverage_sandboxed;
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if (!cov_sandboxed) return;
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cov_fd = args->coverage_fd;
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cov_max_block_size = args->coverage_max_block_size;
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if (cov_fd < 0)
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// Pre-open the file now. The sandbox won't allow us to do it later.
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cov_fd = CovOpenFile(true /* packed */, 0);
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}
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int MaybeOpenCovFile(const char *name) {
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CHECK(name);
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if (!common_flags()->coverage) return -1;
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return CovOpenFile(true /* packed */, name);
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}
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void CovBeforeFork() {
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coverage_data.BeforeFork();
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}
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void CovAfterFork(int child_pid) {
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coverage_data.AfterFork(child_pid);
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}
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} // namespace __sanitizer
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extern "C" {
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SANITIZER_INTERFACE_ATTRIBUTE void __sanitizer_cov() {
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coverage_data.Add(StackTrace::GetPreviousInstructionPc(GET_CALLER_PC()));
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}
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SANITIZER_INTERFACE_ATTRIBUTE void __sanitizer_cov_dump() { CovDump(); }
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SANITIZER_INTERFACE_ATTRIBUTE void __sanitizer_cov_init() {
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coverage_data.Init();
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}
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SANITIZER_INTERFACE_ATTRIBUTE void __sanitizer_cov_module_init(uptr npcs) {
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if (!common_flags()->coverage || !common_flags()->coverage_direct) return;
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if (SANITIZER_ANDROID) {
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// dlopen/dlclose interceptors do not work on Android, so we rely on
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// Extend() calls to update .sancov.map.
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CovUpdateMapping(GET_CALLER_PC());
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}
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coverage_data.Extend(npcs);
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}
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SANITIZER_INTERFACE_ATTRIBUTE
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sptr __sanitizer_maybe_open_cov_file(const char *name) {
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return MaybeOpenCovFile(name);
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}
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} // extern "C"
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