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rocksdb/utilities/fault_injection_fs.cc
anand76 c268859aaa Remove corruption error injection in FaultInjectionTestFS (#8616) 
Summary:
```FaultInjectionTestFS``` injects various types of read errors in ```FileSystem``` APIs. One type of error is corruption errors, where data is intentionally corrupted or truncated. There is corresponding validation in db_stress to verify that an injected error results in a user visible Get/MultiGet error. However, for corruption errors, its hard to know when a corruption is supposed to be detected by the user request, due to prefetching and, in case of direct IO, padding. This results in false positives. So remove that functionality.

Block checksum validation for Get/MultiGet is confined to ```BlockFetcher```, so we don't lose a lot by disabling this since its a small surface area to test.

Pull Request resolved: https://github.com/facebook/rocksdb/pull/8616

Reviewed By: zhichao-cao

Differential Revision: D30074422

Pulled By: anand1976

fbshipit-source-id: 6a61fac18f95514c15364b75013799ddf83294df
2021-08-04 15:48:54 -07:00

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// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
// This source code is licensed under both the GPLv2 (found in the
// COPYING file in the root directory) and Apache 2.0 License
// (found in the LICENSE.Apache file in the root directory).
//
// Copyright 2014 The LevelDB Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file. See the AUTHORS file for names of contributors.
// This test uses a custom FileSystem to keep track of the state of a file
// system the last "Sync". The data being written is cached in a "buffer".
// Only when "Sync" is called, the data will be persistent. It can simulate
// file data loss (or entire files) not protected by a "Sync". For any of the
// FileSystem related operations, by specify the "IOStatus Error", a specific
// error can be returned when file system is not activated.
#include "utilities/fault_injection_fs.h"
#include <functional>
#include <utility>
#include "env/composite_env_wrapper.h"
#include "port/lang.h"
#include "port/stack_trace.h"
#include "test_util/sync_point.h"
#include "util/coding.h"
#include "util/crc32c.h"
#include "util/random.h"
#include "util/xxhash.h"
namespace ROCKSDB_NAMESPACE {
const std::string kNewFileNoOverwrite = "";
// Assume a filename, and not a directory name like "/foo/bar/"
std::string TestFSGetDirName(const std::string filename) {
size_t found = filename.find_last_of("/\\");
if (found == std::string::npos) {
return "";
} else {
return filename.substr(0, found);
}
}
// Trim the tailing "/" in the end of `str`
std::string TestFSTrimDirname(const std::string& str) {
size_t found = str.find_last_not_of("/");
if (found == std::string::npos) {
return str;
}
return str.substr(0, found + 1);
}
// Return pair <parent directory name, file name> of a full path.
std::pair<std::string, std::string> TestFSGetDirAndName(
const std::string& name) {
std::string dirname = TestFSGetDirName(name);
std::string fname = name.substr(dirname.size() + 1);
return std::make_pair(dirname, fname);
}
// Calculate the checksum of the data with corresponding checksum
// type. If name does not match, no checksum is returned.
void CalculateTypedChecksum(const ChecksumType& checksum_type, const char* data,
size_t size, std::string* checksum) {
if (checksum_type == ChecksumType::kCRC32c) {
uint32_t v_crc32c = crc32c::Extend(0, data, size);
PutFixed32(checksum, v_crc32c);
return;
} else if (checksum_type == ChecksumType::kxxHash) {
uint32_t v = XXH32(data, size, 0);
PutFixed32(checksum, v);
}
return;
}
IOStatus FSFileState::DropUnsyncedData() {
buffer_.resize(0);
return IOStatus::OK();
}
IOStatus FSFileState::DropRandomUnsyncedData(Random* rand) {
int range = static_cast<int>(buffer_.size());
size_t truncated_size = static_cast<size_t>(rand->Uniform(range));
buffer_.resize(truncated_size);
return IOStatus::OK();
}
IOStatus TestFSDirectory::Fsync(const IOOptions& options, IODebugContext* dbg) {
if (!fs_->IsFilesystemActive()) {
return fs_->GetError();
}
{
IOStatus in_s = fs_->InjectMetadataWriteError();
if (!in_s.ok()) {
return in_s;
}
}
fs_->SyncDir(dirname_);
IOStatus s = dir_->Fsync(options, dbg);
{
IOStatus in_s = fs_->InjectMetadataWriteError();
if (!in_s.ok()) {
return in_s;
}
}
return s;
}
TestFSWritableFile::TestFSWritableFile(const std::string& fname,
const FileOptions& file_opts,
std::unique_ptr<FSWritableFile>&& f,
FaultInjectionTestFS* fs)
: state_(fname),
file_opts_(file_opts),
target_(std::move(f)),
writable_file_opened_(true),
fs_(fs) {
assert(target_ != nullptr);
state_.pos_ = 0;
}
TestFSWritableFile::~TestFSWritableFile() {
if (writable_file_opened_) {
Close(IOOptions(), nullptr).PermitUncheckedError();
}
}
IOStatus TestFSWritableFile::Append(const Slice& data, const IOOptions& options,
IODebugContext* dbg) {
MutexLock l(&mutex_);
if (!fs_->IsFilesystemActive()) {
return fs_->GetError();
}
if (target_->use_direct_io()) {
target_->Append(data, options, dbg).PermitUncheckedError();
} else {
state_.buffer_.append(data.data(), data.size());
state_.pos_ += data.size();
fs_->WritableFileAppended(state_);
}
IOStatus io_s = fs_->InjectWriteError(state_.filename_);
return io_s;
}
// By setting the IngestDataCorruptionBeforeWrite(), the data corruption is
// simulated.
IOStatus TestFSWritableFile::Append(
const Slice& data, const IOOptions& options,
const DataVerificationInfo& verification_info, IODebugContext* dbg) {
MutexLock l(&mutex_);
if (!fs_->IsFilesystemActive()) {
return fs_->GetError();
}
if (fs_->ShouldDataCorruptionBeforeWrite()) {
return IOStatus::Corruption("Data is corrupted!");
}
// Calculate the checksum
std::string checksum;
CalculateTypedChecksum(fs_->GetChecksumHandoffFuncType(), data.data(),
data.size(), &checksum);
if (fs_->GetChecksumHandoffFuncType() != ChecksumType::kNoChecksum &&
checksum != verification_info.checksum.ToString()) {
std::string msg = "Data is corrupted! Origin data checksum: " +
verification_info.checksum.ToString() +
"current data checksum: " + checksum;
return IOStatus::Corruption(msg);
}
if (target_->use_direct_io()) {
target_->Append(data, options, dbg).PermitUncheckedError();
} else {
state_.buffer_.append(data.data(), data.size());
state_.pos_ += data.size();
fs_->WritableFileAppended(state_);
}
IOStatus io_s = fs_->InjectWriteError(state_.filename_);
return io_s;
}
IOStatus TestFSWritableFile::PositionedAppend(
const Slice& data, uint64_t offset, const IOOptions& options,
const DataVerificationInfo& verification_info, IODebugContext* dbg) {
MutexLock l(&mutex_);
if (!fs_->IsFilesystemActive()) {
return fs_->GetError();
}
if (fs_->ShouldDataCorruptionBeforeWrite()) {
return IOStatus::Corruption("Data is corrupted!");
}
// Calculate the checksum
std::string checksum;
CalculateTypedChecksum(fs_->GetChecksumHandoffFuncType(), data.data(),
data.size(), &checksum);
if (fs_->GetChecksumHandoffFuncType() != ChecksumType::kNoChecksum &&
checksum != verification_info.checksum.ToString()) {
std::string msg = "Data is corrupted! Origin data checksum: " +
verification_info.checksum.ToString() +
"current data checksum: " + checksum;
return IOStatus::Corruption(msg);
}
target_->PositionedAppend(data, offset, options, dbg);
IOStatus io_s = fs_->InjectWriteError(state_.filename_);
return io_s;
}
IOStatus TestFSWritableFile::Close(const IOOptions& options,
IODebugContext* dbg) {
if (!fs_->IsFilesystemActive()) {
return fs_->GetError();
}
{
IOStatus in_s = fs_->InjectMetadataWriteError();
if (!in_s.ok()) {
return in_s;
}
}
writable_file_opened_ = false;
IOStatus io_s;
if (!target_->use_direct_io()) {
io_s = target_->Append(state_.buffer_, options, dbg);
}
if (io_s.ok()) {
state_.buffer_.resize(0);
// Ignore sync errors
target_->Sync(options, dbg).PermitUncheckedError();
io_s = target_->Close(options, dbg);
}
if (io_s.ok()) {
fs_->WritableFileClosed(state_);
IOStatus in_s = fs_->InjectMetadataWriteError();
if (!in_s.ok()) {
return in_s;
}
}
return io_s;
}
IOStatus TestFSWritableFile::Flush(const IOOptions&, IODebugContext*) {
if (!fs_->IsFilesystemActive()) {
return fs_->GetError();
}
if (fs_->IsFilesystemActive()) {
state_.pos_at_last_flush_ = state_.pos_;
}
return IOStatus::OK();
}
IOStatus TestFSWritableFile::Sync(const IOOptions& options,
IODebugContext* dbg) {
if (!fs_->IsFilesystemActive()) {
return fs_->GetError();
}
if (target_->use_direct_io()) {
// For Direct IO mode, we don't buffer anything in TestFSWritableFile.
// So just return
return IOStatus::OK();
}
IOStatus io_s = target_->Append(state_.buffer_, options, dbg);
state_.buffer_.resize(0);
// Ignore sync errors
target_->Sync(options, dbg).PermitUncheckedError();
state_.pos_at_last_sync_ = state_.pos_;
fs_->WritableFileSynced(state_);
return io_s;
}
TestFSRandomRWFile::TestFSRandomRWFile(const std::string& /*fname*/,
std::unique_ptr<FSRandomRWFile>&& f,
FaultInjectionTestFS* fs)
: target_(std::move(f)), file_opened_(true), fs_(fs) {
assert(target_ != nullptr);
}
TestFSRandomRWFile::~TestFSRandomRWFile() {
if (file_opened_) {
Close(IOOptions(), nullptr).PermitUncheckedError();
}
}
IOStatus TestFSRandomRWFile::Write(uint64_t offset, const Slice& data,
const IOOptions& options,
IODebugContext* dbg) {
if (!fs_->IsFilesystemActive()) {
return fs_->GetError();
}
return target_->Write(offset, data, options, dbg);
}
IOStatus TestFSRandomRWFile::Read(uint64_t offset, size_t n,
const IOOptions& options, Slice* result,
char* scratch, IODebugContext* dbg) const {
if (!fs_->IsFilesystemActive()) {
return fs_->GetError();
}
return target_->Read(offset, n, options, result, scratch, dbg);
}
IOStatus TestFSRandomRWFile::Close(const IOOptions& options,
IODebugContext* dbg) {
if (!fs_->IsFilesystemActive()) {
return fs_->GetError();
}
file_opened_ = false;
return target_->Close(options, dbg);
}
IOStatus TestFSRandomRWFile::Flush(const IOOptions& options,
IODebugContext* dbg) {
if (!fs_->IsFilesystemActive()) {
return fs_->GetError();
}
return target_->Flush(options, dbg);
}
IOStatus TestFSRandomRWFile::Sync(const IOOptions& options,
IODebugContext* dbg) {
if (!fs_->IsFilesystemActive()) {
return fs_->GetError();
}
return target_->Sync(options, dbg);
}
TestFSRandomAccessFile::TestFSRandomAccessFile(const std::string& /*fname*/,
std::unique_ptr<FSRandomAccessFile>&& f,
FaultInjectionTestFS* fs)
: target_(std::move(f)), fs_(fs) {
assert(target_ != nullptr);
}
IOStatus TestFSRandomAccessFile::Read(uint64_t offset, size_t n,
const IOOptions& options, Slice* result,
char* scratch, IODebugContext* dbg) const {
if (!fs_->IsFilesystemActive()) {
return fs_->GetError();
}
IOStatus s = target_->Read(offset, n, options, result, scratch, dbg);
if (s.ok()) {
s = fs_->InjectThreadSpecificReadError(
FaultInjectionTestFS::ErrorOperation::kRead, result, use_direct_io(),
scratch);
}
if (s.ok() && fs_->ShouldInjectRandomReadError()) {
return IOStatus::IOError("Injected read error");
}
return s;
}
size_t TestFSRandomAccessFile::GetUniqueId(char* id, size_t max_size) const {
if (fs_->ShouldFailGetUniqueId()) {
return 0;
} else {
return target_->GetUniqueId(id, max_size);
}
}
IOStatus TestFSSequentialFile::Read(size_t n, const IOOptions& options,
Slice* result, char* scratch,
IODebugContext* dbg) {
IOStatus s = target()->Read(n, options, result, scratch, dbg);
if (s.ok() && fs_->ShouldInjectRandomReadError()) {
return IOStatus::IOError("Injected seq read error");
}
return s;
}
IOStatus TestFSSequentialFile::PositionedRead(uint64_t offset, size_t n,
const IOOptions& options,
Slice* result, char* scratch,
IODebugContext* dbg) {
IOStatus s =
target()->PositionedRead(offset, n, options, result, scratch, dbg);
if (s.ok() && fs_->ShouldInjectRandomReadError()) {
return IOStatus::IOError("Injected seq positioned read error");
}
return s;
}
IOStatus FaultInjectionTestFS::NewDirectory(
const std::string& name, const IOOptions& options,
std::unique_ptr<FSDirectory>* result, IODebugContext* dbg) {
std::unique_ptr<FSDirectory> r;
IOStatus io_s = target()->NewDirectory(name, options, &r, dbg);
if (!io_s.ok()) {
return io_s;
}
result->reset(
new TestFSDirectory(this, TestFSTrimDirname(name), r.release()));
return IOStatus::OK();
}
IOStatus FaultInjectionTestFS::NewWritableFile(
const std::string& fname, const FileOptions& file_opts,
std::unique_ptr<FSWritableFile>* result, IODebugContext* dbg) {
if (!IsFilesystemActive()) {
return GetError();
}
{
IOStatus in_s = InjectMetadataWriteError();
if (!in_s.ok()) {
return in_s;
}
}
if (ShouldUseDiretWritable(fname)) {
return target()->NewWritableFile(fname, file_opts, result, dbg);
}
IOStatus io_s = target()->NewWritableFile(fname, file_opts, result, dbg);
if (io_s.ok()) {
result->reset(
new TestFSWritableFile(fname, file_opts, std::move(*result), this));
// WritableFileWriter* file is opened
// again then it will be truncated - so forget our saved state.
UntrackFile(fname);
{
MutexLock l(&mutex_);
open_files_.insert(fname);
auto dir_and_name = TestFSGetDirAndName(fname);
auto& list = dir_to_new_files_since_last_sync_[dir_and_name.first];
// The new file could overwrite an old one. Here we simplify
// the implementation by assuming no file of this name after
// dropping unsynced files.
list[dir_and_name.second] = kNewFileNoOverwrite;
}
{
IOStatus in_s = InjectMetadataWriteError();
if (!in_s.ok()) {
return in_s;
}
}
}
return io_s;
}
IOStatus FaultInjectionTestFS::ReopenWritableFile(
const std::string& fname, const FileOptions& file_opts,
std::unique_ptr<FSWritableFile>* result, IODebugContext* dbg) {
if (!IsFilesystemActive()) {
return GetError();
}
if (ShouldUseDiretWritable(fname)) {
return target()->ReopenWritableFile(fname, file_opts, result, dbg);
}
{
IOStatus in_s = InjectMetadataWriteError();
if (!in_s.ok()) {
return in_s;
}
}
IOStatus io_s = target()->ReopenWritableFile(fname, file_opts, result, dbg);
if (io_s.ok()) {
result->reset(
new TestFSWritableFile(fname, file_opts, std::move(*result), this));
// WritableFileWriter* file is opened
// again then it will be truncated - so forget our saved state.
UntrackFile(fname);
{
MutexLock l(&mutex_);
open_files_.insert(fname);
auto dir_and_name = TestFSGetDirAndName(fname);
auto& list = dir_to_new_files_since_last_sync_[dir_and_name.first];
list[dir_and_name.second] = kNewFileNoOverwrite;
}
{
IOStatus in_s = InjectMetadataWriteError();
if (!in_s.ok()) {
return in_s;
}
}
}
return io_s;
}
IOStatus FaultInjectionTestFS::NewRandomRWFile(
const std::string& fname, const FileOptions& file_opts,
std::unique_ptr<FSRandomRWFile>* result, IODebugContext* dbg) {
if (!IsFilesystemActive()) {
return GetError();
}
if (ShouldUseDiretWritable(fname)) {
return target()->NewRandomRWFile(fname, file_opts, result, dbg);
}
{
IOStatus in_s = InjectMetadataWriteError();
if (!in_s.ok()) {
return in_s;
}
}
IOStatus io_s = target()->NewRandomRWFile(fname, file_opts, result, dbg);
if (io_s.ok()) {
result->reset(new TestFSRandomRWFile(fname, std::move(*result), this));
// WritableFileWriter* file is opened
// again then it will be truncated - so forget our saved state.
UntrackFile(fname);
{
MutexLock l(&mutex_);
open_files_.insert(fname);
auto dir_and_name = TestFSGetDirAndName(fname);
auto& list = dir_to_new_files_since_last_sync_[dir_and_name.first];
// It could be overwriting an old file, but we simplify the
// implementation by ignoring it.
list[dir_and_name.second] = kNewFileNoOverwrite;
}
{
IOStatus in_s = InjectMetadataWriteError();
if (!in_s.ok()) {
return in_s;
}
}
}
return io_s;
}
IOStatus FaultInjectionTestFS::NewRandomAccessFile(
const std::string& fname, const FileOptions& file_opts,
std::unique_ptr<FSRandomAccessFile>* result, IODebugContext* dbg) {
if (!IsFilesystemActive()) {
return GetError();
}
if (ShouldInjectRandomReadError()) {
return IOStatus::IOError("Injected error when open random access file");
}
IOStatus io_s = InjectThreadSpecificReadError(ErrorOperation::kOpen, nullptr,
false, nullptr);
if (io_s.ok()) {
io_s = target()->NewRandomAccessFile(fname, file_opts, result, dbg);
}
if (io_s.ok()) {
result->reset(new TestFSRandomAccessFile(fname, std::move(*result), this));
}
return io_s;
}
IOStatus FaultInjectionTestFS::NewSequentialFile(
const std::string& fname, const FileOptions& file_opts,
std::unique_ptr<FSSequentialFile>* result, IODebugContext* dbg) {
if (!IsFilesystemActive()) {
return GetError();
}
if (ShouldInjectRandomReadError()) {
return IOStatus::IOError("Injected read error when creating seq file");
}
IOStatus io_s = target()->NewSequentialFile(fname, file_opts, result, dbg);
if (io_s.ok()) {
result->reset(new TestFSSequentialFile(result->release(), this));
}
return io_s;
}
IOStatus FaultInjectionTestFS::DeleteFile(const std::string& f,
const IOOptions& options,
IODebugContext* dbg) {
if (!IsFilesystemActive()) {
return GetError();
}
{
IOStatus in_s = InjectMetadataWriteError();
if (!in_s.ok()) {
return in_s;
}
}
IOStatus io_s = FileSystemWrapper::DeleteFile(f, options, dbg);
if (io_s.ok()) {
UntrackFile(f);
{
IOStatus in_s = InjectMetadataWriteError();
if (!in_s.ok()) {
return in_s;
}
}
}
return io_s;
}
IOStatus FaultInjectionTestFS::RenameFile(const std::string& s,
const std::string& t,
const IOOptions& options,
IODebugContext* dbg) {
if (!IsFilesystemActive()) {
return GetError();
}
{
IOStatus in_s = InjectMetadataWriteError();
if (!in_s.ok()) {
return in_s;
}
}
// We preserve contents of overwritten files up to a size threshold.
// We could keep previous file in another name, but we need to worry about
// garbage collect the those files. We do it if it is needed later.
// We ignore I/O errors here for simplicity.
std::string previous_contents = kNewFileNoOverwrite;
if (target()->FileExists(t, IOOptions(), nullptr).ok()) {
uint64_t file_size;
if (target()->GetFileSize(t, IOOptions(), &file_size, nullptr).ok() &&
file_size < 1024) {
ReadFileToString(target(), t, &previous_contents).PermitUncheckedError();
}
}
IOStatus io_s = FileSystemWrapper::RenameFile(s, t, options, dbg);
if (io_s.ok()) {
{
MutexLock l(&mutex_);
if (db_file_state_.find(s) != db_file_state_.end()) {
db_file_state_[t] = db_file_state_[s];
db_file_state_.erase(s);
}
auto sdn = TestFSGetDirAndName(s);
auto tdn = TestFSGetDirAndName(t);
if (dir_to_new_files_since_last_sync_[sdn.first].erase(sdn.second) != 0) {
auto& tlist = dir_to_new_files_since_last_sync_[tdn.first];
assert(tlist.find(tdn.second) == tlist.end());
tlist[tdn.second] = previous_contents;
}
}
IOStatus in_s = InjectMetadataWriteError();
if (!in_s.ok()) {
return in_s;
}
}
return io_s;
}
void FaultInjectionTestFS::WritableFileClosed(const FSFileState& state) {
MutexLock l(&mutex_);
if (open_files_.find(state.filename_) != open_files_.end()) {
db_file_state_[state.filename_] = state;
open_files_.erase(state.filename_);
}
}
void FaultInjectionTestFS::WritableFileSynced(const FSFileState& state) {
MutexLock l(&mutex_);
if (open_files_.find(state.filename_) != open_files_.end()) {
if (db_file_state_.find(state.filename_) == db_file_state_.end()) {
db_file_state_.insert(std::make_pair(state.filename_, state));
} else {
db_file_state_[state.filename_] = state;
}
}
}
void FaultInjectionTestFS::WritableFileAppended(const FSFileState& state) {
MutexLock l(&mutex_);
if (open_files_.find(state.filename_) != open_files_.end()) {
if (db_file_state_.find(state.filename_) == db_file_state_.end()) {
db_file_state_.insert(std::make_pair(state.filename_, state));
} else {
db_file_state_[state.filename_] = state;
}
}
}
IOStatus FaultInjectionTestFS::DropUnsyncedFileData() {
IOStatus io_s;
MutexLock l(&mutex_);
for (std::map<std::string, FSFileState>::iterator it = db_file_state_.begin();
io_s.ok() && it != db_file_state_.end(); ++it) {
FSFileState& fs_state = it->second;
if (!fs_state.IsFullySynced()) {
io_s = fs_state.DropUnsyncedData();
}
}
return io_s;
}
IOStatus FaultInjectionTestFS::DropRandomUnsyncedFileData(Random* rnd) {
IOStatus io_s;
MutexLock l(&mutex_);
for (std::map<std::string, FSFileState>::iterator it = db_file_state_.begin();
io_s.ok() && it != db_file_state_.end(); ++it) {
FSFileState& fs_state = it->second;
if (!fs_state.IsFullySynced()) {
io_s = fs_state.DropRandomUnsyncedData(rnd);
}
}
return io_s;
}
IOStatus FaultInjectionTestFS::DeleteFilesCreatedAfterLastDirSync(
const IOOptions& options, IODebugContext* dbg) {
// Because DeleteFile access this container make a copy to avoid deadlock
std::map<std::string, std::map<std::string, std::string>> map_copy;
{
MutexLock l(&mutex_);
map_copy.insert(dir_to_new_files_since_last_sync_.begin(),
dir_to_new_files_since_last_sync_.end());
}
for (auto& pair : map_copy) {
for (auto& file_pair : pair.second) {
if (file_pair.second == kNewFileNoOverwrite) {
IOStatus io_s =
DeleteFile(pair.first + "/" + file_pair.first, options, dbg);
if (!io_s.ok()) {
return io_s;
}
} else {
IOStatus io_s =
WriteStringToFile(target(), file_pair.second,
pair.first + "/" + file_pair.first, true);
if (!io_s.ok()) {
return io_s;
}
}
}
}
return IOStatus::OK();
}
void FaultInjectionTestFS::ResetState() {
MutexLock l(&mutex_);
db_file_state_.clear();
dir_to_new_files_since_last_sync_.clear();
SetFilesystemActiveNoLock(true);
}
void FaultInjectionTestFS::UntrackFile(const std::string& f) {
MutexLock l(&mutex_);
auto dir_and_name = TestFSGetDirAndName(f);
dir_to_new_files_since_last_sync_[dir_and_name.first].erase(
dir_and_name.second);
db_file_state_.erase(f);
open_files_.erase(f);
}
IOStatus FaultInjectionTestFS::InjectThreadSpecificReadError(
ErrorOperation /*op*/, Slice* /*result*/, bool /*direct_io*/,
char* /*scratch*/) {
ErrorContext* ctx =
static_cast<ErrorContext*>(thread_local_error_->Get());
if (ctx == nullptr || !ctx->enable_error_injection || !ctx->one_in) {
return IOStatus::OK();
}
if (ctx->rand.OneIn(ctx->one_in)) {
ctx->count++;
if (ctx->callstack) {
free(ctx->callstack);
}
ctx->callstack = port::SaveStack(&ctx->frames);
return IOStatus::IOError();
}
return IOStatus::OK();
}
bool FaultInjectionTestFS::TryParseFileName(const std::string& file_name,
uint64_t* number, FileType* type) {
std::size_t found = file_name.find_last_of("/");
std::string file = file_name.substr(found);
return ParseFileName(file, number, type);
}
IOStatus FaultInjectionTestFS::InjectWriteError(const std::string& file_name) {
MutexLock l(&mutex_);
if (!enable_write_error_injection_ || !write_error_one_in_) {
return IOStatus::OK();
}
bool allowed_type = false;
if (inject_for_all_file_types_) {
allowed_type = true;
} else {
uint64_t number;
FileType cur_type = kTempFile;
if (TryParseFileName(file_name, &number, &cur_type)) {
for (const auto& type : write_error_allowed_types_) {
if (cur_type == type) {
allowed_type = true;
}
}
}
}
if (allowed_type) {
if (write_error_rand_.OneIn(write_error_one_in_)) {
return GetError();
}
}
return IOStatus::OK();
}
IOStatus FaultInjectionTestFS::InjectMetadataWriteError() {
{
MutexLock l(&mutex_);
if (!enable_metadata_write_error_injection_ ||
!metadata_write_error_one_in_ ||
!write_error_rand_.OneIn(metadata_write_error_one_in_)) {
return IOStatus::OK();
}
}
TEST_SYNC_POINT("FaultInjectionTestFS::InjectMetadataWriteError:Injected");
return IOStatus::IOError();
}
void FaultInjectionTestFS::PrintFaultBacktrace() {
#if defined(OS_LINUX)
ErrorContext* ctx =
static_cast<ErrorContext*>(thread_local_error_->Get());
if (ctx == nullptr) {
return;
}
fprintf(stderr, "Injected error type = %d\n", ctx->type);
port::PrintAndFreeStack(ctx->callstack, ctx->frames);
ctx->callstack = nullptr;
#endif
}
} // namespace ROCKSDB_NAMESPACE
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