de85e4cadf
Summary: The "one size fits all" approach with WAL recovery will only introduce inconvenience for our varied clients as we go forward. The current recovery is a bit heuristic. We introduce the following levels of consistency while replaying the WAL. 1. RecoverAfterRestart (kTolerateCorruptedTailRecords) This mocks the current recovery mode. 2. RecoverAfterCleanShutdown (kAbsoluteConsistency) This is ideal for unit test and cases where the store is shutdown cleanly. We tolerate no corruption or incomplete writes. 3. RecoverPointInTime (kPointInTimeRecovery) This is ideal when using devices with controller cache or file systems which can loose data on restart. We recover upto the point were is no corruption or incomplete write. 4. RecoverAfterDisaster (kSkipAnyCorruptRecord) This is ideal mode to recover data. We tolerate corruption and incomplete writes, and we hop over those sections that we cannot make sense of salvaging as many records as possible. Test Plan: (1) Run added unit test to cover all levels. (2) Run make check. Reviewers: leveldb, sdong, igor Subscribers: yoshinorim, dhruba Differential Revision: https://reviews.facebook.net/D38487
707 lines
20 KiB
C++
707 lines
20 KiB
C++
// Copyright (c) 2013, Facebook, Inc. All rights reserved.
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// This source code is licensed under the BSD-style license found in the
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// LICENSE file in the root directory of this source tree. An additional grant
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// of patent rights can be found in the PATENTS file in the same directory.
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//
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// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file. See the AUTHORS file for names of contributors.
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#include "db/log_reader.h"
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#include "db/log_writer.h"
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#include "rocksdb/env.h"
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#include "util/coding.h"
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#include "util/crc32c.h"
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#include "util/random.h"
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#include "util/testharness.h"
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namespace rocksdb {
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namespace log {
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// Construct a string of the specified length made out of the supplied
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// partial string.
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static std::string BigString(const std::string& partial_string, size_t n) {
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std::string result;
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while (result.size() < n) {
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result.append(partial_string);
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}
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result.resize(n);
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return result;
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}
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// Construct a string from a number
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static std::string NumberString(int n) {
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char buf[50];
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snprintf(buf, sizeof(buf), "%d.", n);
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return std::string(buf);
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}
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// Return a skewed potentially long string
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static std::string RandomSkewedString(int i, Random* rnd) {
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return BigString(NumberString(i), rnd->Skewed(17));
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}
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class LogTest : public testing::Test {
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private:
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class StringDest : public WritableFile {
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public:
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std::string contents_;
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explicit StringDest(Slice& reader_contents) :
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WritableFile(),
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contents_(""),
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reader_contents_(reader_contents),
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last_flush_(0) {
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reader_contents_ = Slice(contents_.data(), 0);
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};
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virtual Status Close() override { return Status::OK(); }
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virtual Status Flush() override {
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EXPECT_TRUE(reader_contents_.size() <= last_flush_);
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size_t offset = last_flush_ - reader_contents_.size();
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reader_contents_ = Slice(
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contents_.data() + offset,
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contents_.size() - offset);
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last_flush_ = contents_.size();
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return Status::OK();
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}
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virtual Status Sync() override { return Status::OK(); }
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virtual Status Append(const Slice& slice) override {
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contents_.append(slice.data(), slice.size());
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return Status::OK();
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}
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void Drop(size_t bytes) {
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contents_.resize(contents_.size() - bytes);
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reader_contents_ = Slice(
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reader_contents_.data(), reader_contents_.size() - bytes);
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last_flush_ = contents_.size();
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}
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private:
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Slice& reader_contents_;
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size_t last_flush_;
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};
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class StringSource : public SequentialFile {
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public:
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Slice& contents_;
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bool force_error_;
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size_t force_error_position_;
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bool force_eof_;
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size_t force_eof_position_;
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bool returned_partial_;
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explicit StringSource(Slice& contents) :
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contents_(contents),
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force_error_(false),
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force_error_position_(0),
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force_eof_(false),
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force_eof_position_(0),
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returned_partial_(false) { }
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virtual Status Read(size_t n, Slice* result, char* scratch) override {
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EXPECT_TRUE(!returned_partial_) << "must not Read() after eof/error";
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if (force_error_) {
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if (force_error_position_ >= n) {
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force_error_position_ -= n;
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} else {
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*result = Slice(contents_.data(), force_error_position_);
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contents_.remove_prefix(force_error_position_);
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force_error_ = false;
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returned_partial_ = true;
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return Status::Corruption("read error");
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}
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}
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if (contents_.size() < n) {
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n = contents_.size();
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returned_partial_ = true;
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}
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if (force_eof_) {
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if (force_eof_position_ >= n) {
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force_eof_position_ -= n;
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} else {
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force_eof_ = false;
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n = force_eof_position_;
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returned_partial_ = true;
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}
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}
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// By using scratch we ensure that caller has control over the
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// lifetime of result.data()
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memcpy(scratch, contents_.data(), n);
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*result = Slice(scratch, n);
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contents_.remove_prefix(n);
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return Status::OK();
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}
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virtual Status Skip(uint64_t n) override {
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if (n > contents_.size()) {
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contents_.clear();
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return Status::NotFound("in-memory file skipepd past end");
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}
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contents_.remove_prefix(n);
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return Status::OK();
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}
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};
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class ReportCollector : public Reader::Reporter {
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public:
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size_t dropped_bytes_;
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std::string message_;
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ReportCollector() : dropped_bytes_(0) { }
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virtual void Corruption(size_t bytes, const Status& status) override {
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dropped_bytes_ += bytes;
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message_.append(status.ToString());
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}
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};
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std::string& dest_contents() {
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auto dest = dynamic_cast<StringDest*>(writer_.file());
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assert(dest);
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return dest->contents_;
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}
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const std::string& dest_contents() const {
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auto dest = dynamic_cast<const StringDest*>(writer_.file());
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assert(dest);
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return dest->contents_;
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}
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void reset_source_contents() {
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auto src = dynamic_cast<StringSource*>(reader_.file());
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assert(src);
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src->contents_ = dest_contents();
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}
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Slice reader_contents_;
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unique_ptr<StringDest> dest_holder_;
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unique_ptr<StringSource> source_holder_;
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ReportCollector report_;
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Writer writer_;
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Reader reader_;
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// Record metadata for testing initial offset functionality
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static size_t initial_offset_record_sizes_[];
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static uint64_t initial_offset_last_record_offsets_[];
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public:
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LogTest() : reader_contents_(),
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dest_holder_(new StringDest(reader_contents_)),
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source_holder_(new StringSource(reader_contents_)),
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writer_(std::move(dest_holder_)),
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reader_(std::move(source_holder_), &report_, true/*checksum*/,
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0/*initial_offset*/) {
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}
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void Write(const std::string& msg) {
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writer_.AddRecord(Slice(msg));
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}
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size_t WrittenBytes() const {
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return dest_contents().size();
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}
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std::string Read(const bool report_eof_inconsistency = false) {
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std::string scratch;
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Slice record;
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if (reader_.ReadRecord(&record, &scratch, report_eof_inconsistency)) {
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return record.ToString();
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} else {
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return "EOF";
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}
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}
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void IncrementByte(int offset, int delta) {
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dest_contents()[offset] += delta;
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}
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void SetByte(int offset, char new_byte) {
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dest_contents()[offset] = new_byte;
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}
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void ShrinkSize(int bytes) {
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auto dest = dynamic_cast<StringDest*>(writer_.file());
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assert(dest);
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dest->Drop(bytes);
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}
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void FixChecksum(int header_offset, int len) {
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// Compute crc of type/len/data
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uint32_t crc = crc32c::Value(&dest_contents()[header_offset+6], 1 + len);
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crc = crc32c::Mask(crc);
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EncodeFixed32(&dest_contents()[header_offset], crc);
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}
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void ForceError(size_t position = 0) {
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auto src = dynamic_cast<StringSource*>(reader_.file());
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src->force_error_ = true;
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src->force_error_position_ = position;
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}
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size_t DroppedBytes() const {
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return report_.dropped_bytes_;
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}
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std::string ReportMessage() const {
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return report_.message_;
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}
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void ForceEOF(size_t position = 0) {
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auto src = dynamic_cast<StringSource*>(reader_.file());
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src->force_eof_ = true;
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src->force_eof_position_ = position;
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}
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void UnmarkEOF() {
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auto src = dynamic_cast<StringSource*>(reader_.file());
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src->returned_partial_ = false;
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reader_.UnmarkEOF();
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}
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bool IsEOF() {
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return reader_.IsEOF();
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}
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// Returns OK iff recorded error message contains "msg"
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std::string MatchError(const std::string& msg) const {
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if (report_.message_.find(msg) == std::string::npos) {
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return report_.message_;
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} else {
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return "OK";
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}
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}
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void WriteInitialOffsetLog() {
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for (int i = 0; i < 4; i++) {
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std::string record(initial_offset_record_sizes_[i],
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static_cast<char>('a' + i));
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Write(record);
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}
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}
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void CheckOffsetPastEndReturnsNoRecords(uint64_t offset_past_end) {
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WriteInitialOffsetLog();
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unique_ptr<StringSource> source(new StringSource(reader_contents_));
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unique_ptr<Reader> offset_reader(
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new Reader(std::move(source), &report_, true/*checksum*/,
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WrittenBytes() + offset_past_end));
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Slice record;
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std::string scratch;
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ASSERT_TRUE(!offset_reader->ReadRecord(&record, &scratch));
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}
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void CheckInitialOffsetRecord(uint64_t initial_offset,
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int expected_record_offset) {
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WriteInitialOffsetLog();
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unique_ptr<StringSource> source(new StringSource(reader_contents_));
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unique_ptr<Reader> offset_reader(
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new Reader(std::move(source), &report_, true/*checksum*/,
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initial_offset));
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Slice record;
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std::string scratch;
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ASSERT_TRUE(offset_reader->ReadRecord(&record, &scratch));
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ASSERT_EQ(initial_offset_record_sizes_[expected_record_offset],
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record.size());
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ASSERT_EQ(initial_offset_last_record_offsets_[expected_record_offset],
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offset_reader->LastRecordOffset());
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ASSERT_EQ((char)('a' + expected_record_offset), record.data()[0]);
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}
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};
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size_t LogTest::initial_offset_record_sizes_[] =
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{10000, // Two sizable records in first block
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10000,
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2 * log::kBlockSize - 1000, // Span three blocks
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1};
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uint64_t LogTest::initial_offset_last_record_offsets_[] =
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{0,
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kHeaderSize + 10000,
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2 * (kHeaderSize + 10000),
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2 * (kHeaderSize + 10000) +
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(2 * log::kBlockSize - 1000) + 3 * kHeaderSize};
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TEST_F(LogTest, Empty) { ASSERT_EQ("EOF", Read()); }
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TEST_F(LogTest, ReadWrite) {
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Write("foo");
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Write("bar");
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Write("");
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Write("xxxx");
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ASSERT_EQ("foo", Read());
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ASSERT_EQ("bar", Read());
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ASSERT_EQ("", Read());
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ASSERT_EQ("xxxx", Read());
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ASSERT_EQ("EOF", Read());
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ASSERT_EQ("EOF", Read()); // Make sure reads at eof work
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}
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TEST_F(LogTest, ManyBlocks) {
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for (int i = 0; i < 100000; i++) {
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Write(NumberString(i));
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}
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for (int i = 0; i < 100000; i++) {
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ASSERT_EQ(NumberString(i), Read());
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}
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ASSERT_EQ("EOF", Read());
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}
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TEST_F(LogTest, Fragmentation) {
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Write("small");
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Write(BigString("medium", 50000));
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Write(BigString("large", 100000));
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ASSERT_EQ("small", Read());
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ASSERT_EQ(BigString("medium", 50000), Read());
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ASSERT_EQ(BigString("large", 100000), Read());
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ASSERT_EQ("EOF", Read());
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}
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TEST_F(LogTest, MarginalTrailer) {
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// Make a trailer that is exactly the same length as an empty record.
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const int n = kBlockSize - 2*kHeaderSize;
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Write(BigString("foo", n));
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ASSERT_EQ((unsigned int)(kBlockSize - kHeaderSize), WrittenBytes());
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Write("");
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Write("bar");
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ASSERT_EQ(BigString("foo", n), Read());
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ASSERT_EQ("", Read());
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ASSERT_EQ("bar", Read());
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ASSERT_EQ("EOF", Read());
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}
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TEST_F(LogTest, MarginalTrailer2) {
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// Make a trailer that is exactly the same length as an empty record.
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const int n = kBlockSize - 2*kHeaderSize;
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Write(BigString("foo", n));
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ASSERT_EQ((unsigned int)(kBlockSize - kHeaderSize), WrittenBytes());
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Write("bar");
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ASSERT_EQ(BigString("foo", n), Read());
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ASSERT_EQ("bar", Read());
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ASSERT_EQ("EOF", Read());
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ASSERT_EQ(0U, DroppedBytes());
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ASSERT_EQ("", ReportMessage());
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}
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TEST_F(LogTest, ShortTrailer) {
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const int n = kBlockSize - 2*kHeaderSize + 4;
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Write(BigString("foo", n));
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ASSERT_EQ((unsigned int)(kBlockSize - kHeaderSize + 4), WrittenBytes());
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Write("");
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Write("bar");
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ASSERT_EQ(BigString("foo", n), Read());
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ASSERT_EQ("", Read());
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ASSERT_EQ("bar", Read());
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ASSERT_EQ("EOF", Read());
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}
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TEST_F(LogTest, AlignedEof) {
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const int n = kBlockSize - 2*kHeaderSize + 4;
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Write(BigString("foo", n));
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ASSERT_EQ((unsigned int)(kBlockSize - kHeaderSize + 4), WrittenBytes());
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ASSERT_EQ(BigString("foo", n), Read());
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ASSERT_EQ("EOF", Read());
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}
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TEST_F(LogTest, RandomRead) {
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const int N = 500;
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Random write_rnd(301);
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for (int i = 0; i < N; i++) {
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Write(RandomSkewedString(i, &write_rnd));
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}
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Random read_rnd(301);
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for (int i = 0; i < N; i++) {
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ASSERT_EQ(RandomSkewedString(i, &read_rnd), Read());
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}
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ASSERT_EQ("EOF", Read());
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}
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// Tests of all the error paths in log_reader.cc follow:
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TEST_F(LogTest, ReadError) {
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Write("foo");
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ForceError();
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ASSERT_EQ("EOF", Read());
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ASSERT_EQ((unsigned int)kBlockSize, DroppedBytes());
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ASSERT_EQ("OK", MatchError("read error"));
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}
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TEST_F(LogTest, BadRecordType) {
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Write("foo");
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// Type is stored in header[6]
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IncrementByte(6, 100);
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FixChecksum(0, 3);
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ASSERT_EQ("EOF", Read());
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ASSERT_EQ(3U, DroppedBytes());
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ASSERT_EQ("OK", MatchError("unknown record type"));
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}
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TEST_F(LogTest, TruncatedTrailingRecordIsIgnored) {
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Write("foo");
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ShrinkSize(4); // Drop all payload as well as a header byte
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ASSERT_EQ("EOF", Read());
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// Truncated last record is ignored, not treated as an error
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ASSERT_EQ(0U, DroppedBytes());
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ASSERT_EQ("", ReportMessage());
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}
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TEST_F(LogTest, TruncatedTrailingRecordIsNotIgnored) {
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Write("foo");
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ShrinkSize(4); // Drop all payload as well as a header byte
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ASSERT_EQ("EOF", Read(/*report_eof_inconsistency*/ true));
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// Truncated last record is ignored, not treated as an error
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ASSERT_GT(DroppedBytes(), 0U);
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ASSERT_EQ("OK", MatchError("Corruption: truncated header"));
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}
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TEST_F(LogTest, BadLength) {
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const int kPayloadSize = kBlockSize - kHeaderSize;
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Write(BigString("bar", kPayloadSize));
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Write("foo");
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// Least significant size byte is stored in header[4].
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IncrementByte(4, 1);
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ASSERT_EQ("foo", Read());
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ASSERT_EQ(kBlockSize, DroppedBytes());
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ASSERT_EQ("OK", MatchError("bad record length"));
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}
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TEST_F(LogTest, BadLengthAtEndIsIgnored) {
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Write("foo");
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ShrinkSize(1);
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ASSERT_EQ("EOF", Read());
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ASSERT_EQ(0U, DroppedBytes());
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ASSERT_EQ("", ReportMessage());
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}
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TEST_F(LogTest, BadLengthAtEndIsNotIgnored) {
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Write("foo");
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ShrinkSize(1);
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ASSERT_EQ("EOF", Read(/*report_eof_inconsistency=*/true));
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ASSERT_GT(DroppedBytes(), 0U);
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ASSERT_EQ("OK", MatchError("Corruption: truncated header"));
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}
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TEST_F(LogTest, ChecksumMismatch) {
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Write("foo");
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IncrementByte(0, 10);
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ASSERT_EQ("EOF", Read());
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ASSERT_EQ(10U, DroppedBytes());
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ASSERT_EQ("OK", MatchError("checksum mismatch"));
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}
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TEST_F(LogTest, UnexpectedMiddleType) {
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Write("foo");
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SetByte(6, kMiddleType);
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FixChecksum(0, 3);
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ASSERT_EQ("EOF", Read());
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ASSERT_EQ(3U, DroppedBytes());
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ASSERT_EQ("OK", MatchError("missing start"));
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}
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TEST_F(LogTest, UnexpectedLastType) {
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Write("foo");
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SetByte(6, kLastType);
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FixChecksum(0, 3);
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ASSERT_EQ("EOF", Read());
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ASSERT_EQ(3U, DroppedBytes());
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ASSERT_EQ("OK", MatchError("missing start"));
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}
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TEST_F(LogTest, UnexpectedFullType) {
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Write("foo");
|
|
Write("bar");
|
|
SetByte(6, kFirstType);
|
|
FixChecksum(0, 3);
|
|
ASSERT_EQ("bar", Read());
|
|
ASSERT_EQ("EOF", Read());
|
|
ASSERT_EQ(3U, DroppedBytes());
|
|
ASSERT_EQ("OK", MatchError("partial record without end"));
|
|
}
|
|
|
|
TEST_F(LogTest, UnexpectedFirstType) {
|
|
Write("foo");
|
|
Write(BigString("bar", 100000));
|
|
SetByte(6, kFirstType);
|
|
FixChecksum(0, 3);
|
|
ASSERT_EQ(BigString("bar", 100000), Read());
|
|
ASSERT_EQ("EOF", Read());
|
|
ASSERT_EQ(3U, DroppedBytes());
|
|
ASSERT_EQ("OK", MatchError("partial record without end"));
|
|
}
|
|
|
|
TEST_F(LogTest, MissingLastIsIgnored) {
|
|
Write(BigString("bar", kBlockSize));
|
|
// Remove the LAST block, including header.
|
|
ShrinkSize(14);
|
|
ASSERT_EQ("EOF", Read());
|
|
ASSERT_EQ("", ReportMessage());
|
|
ASSERT_EQ(0U, DroppedBytes());
|
|
}
|
|
|
|
TEST_F(LogTest, MissingLastIsNotIgnored) {
|
|
Write(BigString("bar", kBlockSize));
|
|
// Remove the LAST block, including header.
|
|
ShrinkSize(14);
|
|
ASSERT_EQ("EOF", Read(/*report_eof_inconsistency=*/true));
|
|
ASSERT_GT(DroppedBytes(), 0U);
|
|
ASSERT_EQ("OK", MatchError("Corruption: error reading trailing data"));
|
|
}
|
|
|
|
TEST_F(LogTest, PartialLastIsIgnored) {
|
|
Write(BigString("bar", kBlockSize));
|
|
// Cause a bad record length in the LAST block.
|
|
ShrinkSize(1);
|
|
ASSERT_EQ("EOF", Read());
|
|
ASSERT_EQ("", ReportMessage());
|
|
ASSERT_EQ(0U, DroppedBytes());
|
|
}
|
|
|
|
TEST_F(LogTest, PartialLastIsNotIgnored) {
|
|
Write(BigString("bar", kBlockSize));
|
|
// Cause a bad record length in the LAST block.
|
|
ShrinkSize(1);
|
|
ASSERT_EQ("EOF", Read(/*report_eof_inconsistency=*/true));
|
|
ASSERT_GT(DroppedBytes(), 0U);
|
|
ASSERT_EQ("OK", MatchError(
|
|
"Corruption: truncated headerCorruption: "
|
|
"error reading trailing data"));
|
|
}
|
|
|
|
TEST_F(LogTest, ErrorJoinsRecords) {
|
|
// Consider two fragmented records:
|
|
// first(R1) last(R1) first(R2) last(R2)
|
|
// where the middle two fragments disappear. We do not want
|
|
// first(R1),last(R2) to get joined and returned as a valid record.
|
|
|
|
// Write records that span two blocks
|
|
Write(BigString("foo", kBlockSize));
|
|
Write(BigString("bar", kBlockSize));
|
|
Write("correct");
|
|
|
|
// Wipe the middle block
|
|
for (unsigned int offset = kBlockSize; offset < 2*kBlockSize; offset++) {
|
|
SetByte(offset, 'x');
|
|
}
|
|
|
|
ASSERT_EQ("correct", Read());
|
|
ASSERT_EQ("EOF", Read());
|
|
size_t dropped = DroppedBytes();
|
|
ASSERT_LE(dropped, 2 * kBlockSize + 100);
|
|
ASSERT_GE(dropped, 2 * kBlockSize);
|
|
}
|
|
|
|
TEST_F(LogTest, ReadStart) { CheckInitialOffsetRecord(0, 0); }
|
|
|
|
TEST_F(LogTest, ReadSecondOneOff) { CheckInitialOffsetRecord(1, 1); }
|
|
|
|
TEST_F(LogTest, ReadSecondTenThousand) { CheckInitialOffsetRecord(10000, 1); }
|
|
|
|
TEST_F(LogTest, ReadSecondStart) { CheckInitialOffsetRecord(10007, 1); }
|
|
|
|
TEST_F(LogTest, ReadThirdOneOff) { CheckInitialOffsetRecord(10008, 2); }
|
|
|
|
TEST_F(LogTest, ReadThirdStart) { CheckInitialOffsetRecord(20014, 2); }
|
|
|
|
TEST_F(LogTest, ReadFourthOneOff) { CheckInitialOffsetRecord(20015, 3); }
|
|
|
|
TEST_F(LogTest, ReadFourthFirstBlockTrailer) {
|
|
CheckInitialOffsetRecord(log::kBlockSize - 4, 3);
|
|
}
|
|
|
|
TEST_F(LogTest, ReadFourthMiddleBlock) {
|
|
CheckInitialOffsetRecord(log::kBlockSize + 1, 3);
|
|
}
|
|
|
|
TEST_F(LogTest, ReadFourthLastBlock) {
|
|
CheckInitialOffsetRecord(2 * log::kBlockSize + 1, 3);
|
|
}
|
|
|
|
TEST_F(LogTest, ReadFourthStart) {
|
|
CheckInitialOffsetRecord(
|
|
2 * (kHeaderSize + 1000) + (2 * log::kBlockSize - 1000) + 3 * kHeaderSize,
|
|
3);
|
|
}
|
|
|
|
TEST_F(LogTest, ReadEnd) { CheckOffsetPastEndReturnsNoRecords(0); }
|
|
|
|
TEST_F(LogTest, ReadPastEnd) { CheckOffsetPastEndReturnsNoRecords(5); }
|
|
|
|
TEST_F(LogTest, ClearEofSingleBlock) {
|
|
Write("foo");
|
|
Write("bar");
|
|
ForceEOF(3 + kHeaderSize + 2);
|
|
ASSERT_EQ("foo", Read());
|
|
UnmarkEOF();
|
|
ASSERT_EQ("bar", Read());
|
|
ASSERT_TRUE(IsEOF());
|
|
ASSERT_EQ("EOF", Read());
|
|
Write("xxx");
|
|
UnmarkEOF();
|
|
ASSERT_EQ("xxx", Read());
|
|
ASSERT_TRUE(IsEOF());
|
|
}
|
|
|
|
TEST_F(LogTest, ClearEofMultiBlock) {
|
|
size_t num_full_blocks = 5;
|
|
size_t n = (kBlockSize - kHeaderSize) * num_full_blocks + 25;
|
|
Write(BigString("foo", n));
|
|
Write(BigString("bar", n));
|
|
ForceEOF(n + num_full_blocks * kHeaderSize + 10);
|
|
ASSERT_EQ(BigString("foo", n), Read());
|
|
ASSERT_TRUE(IsEOF());
|
|
UnmarkEOF();
|
|
ASSERT_EQ(BigString("bar", n), Read());
|
|
ASSERT_TRUE(IsEOF());
|
|
Write(BigString("xxx", n));
|
|
UnmarkEOF();
|
|
ASSERT_EQ(BigString("xxx", n), Read());
|
|
ASSERT_TRUE(IsEOF());
|
|
}
|
|
|
|
TEST_F(LogTest, ClearEofError) {
|
|
// If an error occurs during Read() in UnmarkEOF(), the records contained
|
|
// in the buffer should be returned on subsequent calls of ReadRecord()
|
|
// until no more full records are left, whereafter ReadRecord() should return
|
|
// false to indicate that it cannot read any further.
|
|
|
|
Write("foo");
|
|
Write("bar");
|
|
UnmarkEOF();
|
|
ASSERT_EQ("foo", Read());
|
|
ASSERT_TRUE(IsEOF());
|
|
Write("xxx");
|
|
ForceError(0);
|
|
UnmarkEOF();
|
|
ASSERT_EQ("bar", Read());
|
|
ASSERT_EQ("EOF", Read());
|
|
}
|
|
|
|
TEST_F(LogTest, ClearEofError2) {
|
|
Write("foo");
|
|
Write("bar");
|
|
UnmarkEOF();
|
|
ASSERT_EQ("foo", Read());
|
|
Write("xxx");
|
|
ForceError(3);
|
|
UnmarkEOF();
|
|
ASSERT_EQ("bar", Read());
|
|
ASSERT_EQ("EOF", Read());
|
|
ASSERT_EQ(3U, DroppedBytes());
|
|
ASSERT_EQ("OK", MatchError("read error"));
|
|
}
|
|
|
|
} // namespace log
|
|
} // namespace rocksdb
|
|
|
|
int main(int argc, char** argv) {
|
|
::testing::InitGoogleTest(&argc, argv);
|
|
return RUN_ALL_TESTS();
|
|
}
|