ea212e5316
Summary: This adds support for writing unprepared batches based on size defined in `TransactionOptions::max_write_batch_size`. This is done by overriding methods that modify data (Put/Delete/SingleDelete/Merge) and checking first if write batch size has exceeded threshold. If so, the write batch is written to DB as an unprepared batch. Support for Commit/Rollback for unprepared batch is added as well. This has been done by simply extending the WritePrepared Commit/Rollback logic to take care of all unprep_seq numbers either when updating prepare heap, or adding to commit map. For updating the commit map, this logic exists inside `WriteUnpreparedCommitEntryPreReleaseCallback`. A test change was also made to have transactions unregister themselves when committing without prepare. This is because with write unprepared, there may be unprepared entries (which act similarly to prepared entries) already when a commit is done without prepare. Pull Request resolved: https://github.com/facebook/rocksdb/pull/4104 Differential Revision: D8785717 Pulled By: lth fbshipit-source-id: c02006e281ec1ce00f628e2a7beec0ee73096a91
329 lines
10 KiB
C++
329 lines
10 KiB
C++
// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
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// This source code is licensed under both the GPLv2 (found in the
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// COPYING file in the root directory) and Apache 2.0 License
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// (found in the LICENSE.Apache file in the root directory).
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#ifndef ROCKSDB_LITE
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#ifndef __STDC_FORMAT_MACROS
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#define __STDC_FORMAT_MACROS
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#endif
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#include "util/transaction_test_util.h"
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#include <inttypes.h>
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#include <algorithm>
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#include <numeric>
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#include <string>
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#include <thread>
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#include "rocksdb/db.h"
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#include "rocksdb/utilities/optimistic_transaction_db.h"
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#include "rocksdb/utilities/transaction.h"
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#include "rocksdb/utilities/transaction_db.h"
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#include "util/random.h"
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#include "util/string_util.h"
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namespace rocksdb {
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RandomTransactionInserter::RandomTransactionInserter(
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Random64* rand, const WriteOptions& write_options,
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const ReadOptions& read_options, uint64_t num_keys, uint16_t num_sets)
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: rand_(rand),
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write_options_(write_options),
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read_options_(read_options),
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num_keys_(num_keys),
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num_sets_(num_sets),
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txn_id_(0) {}
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RandomTransactionInserter::~RandomTransactionInserter() {
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if (txn_ != nullptr) {
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delete txn_;
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}
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if (optimistic_txn_ != nullptr) {
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delete optimistic_txn_;
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}
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}
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bool RandomTransactionInserter::TransactionDBInsert(
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TransactionDB* db, const TransactionOptions& txn_options) {
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txn_ = db->BeginTransaction(write_options_, txn_options, txn_);
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std::hash<std::thread::id> hasher;
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char name[64];
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snprintf(name, 64, "txn%" ROCKSDB_PRIszt "-%d",
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hasher(std::this_thread::get_id()), txn_id_++);
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assert(strlen(name) < 64 - 1);
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txn_->SetName(name);
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bool take_snapshot = rand_->OneIn(2);
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if (take_snapshot) {
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txn_->SetSnapshot();
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read_options_.snapshot = txn_->GetSnapshot();
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}
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auto res = DoInsert(nullptr, txn_, false);
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if (take_snapshot) {
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read_options_.snapshot = nullptr;
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}
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return res;
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}
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bool RandomTransactionInserter::OptimisticTransactionDBInsert(
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OptimisticTransactionDB* db,
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const OptimisticTransactionOptions& txn_options) {
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optimistic_txn_ =
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db->BeginTransaction(write_options_, txn_options, optimistic_txn_);
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return DoInsert(nullptr, optimistic_txn_, true);
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}
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bool RandomTransactionInserter::DBInsert(DB* db) {
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return DoInsert(db, nullptr, false);
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}
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Status RandomTransactionInserter::DBGet(
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DB* db, Transaction* txn, ReadOptions& read_options, uint16_t set_i,
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uint64_t ikey, bool get_for_update, uint64_t* int_value,
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std::string* full_key, bool* unexpected_error) {
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Status s;
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// Five digits (since the largest uint16_t is 65535) plus the NUL
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// end char.
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char prefix_buf[6];
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// Pad prefix appropriately so we can iterate over each set
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assert(set_i + 1 <= 9999);
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snprintf(prefix_buf, sizeof(prefix_buf), "%.4u", set_i + 1);
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// key format: [SET#][random#]
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std::string skey = ToString(ikey);
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Slice base_key(skey);
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*full_key = std::string(prefix_buf) + base_key.ToString();
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Slice key(*full_key);
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std::string value;
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if (txn != nullptr) {
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if (get_for_update) {
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s = txn->GetForUpdate(read_options, key, &value);
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} else {
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s = txn->Get(read_options, key, &value);
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}
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} else {
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s = db->Get(read_options, key, &value);
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}
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if (s.ok()) {
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// Found key, parse its value
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*int_value = std::stoull(value);
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if (*int_value == 0 || *int_value == ULONG_MAX) {
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*unexpected_error = true;
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fprintf(stderr, "Get returned unexpected value: %s\n", value.c_str());
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s = Status::Corruption();
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}
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} else if (s.IsNotFound()) {
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// Have not yet written to this key, so assume its value is 0
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*int_value = 0;
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s = Status::OK();
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}
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return s;
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}
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bool RandomTransactionInserter::DoInsert(DB* db, Transaction* txn,
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bool is_optimistic) {
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Status s;
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WriteBatch batch;
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// pick a random number to use to increment a key in each set
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uint64_t incr = (rand_->Next() % 100) + 1;
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bool unexpected_error = false;
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std::vector<uint16_t> set_vec(num_sets_);
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std::iota(set_vec.begin(), set_vec.end(), static_cast<uint16_t>(0));
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std::random_shuffle(set_vec.begin(), set_vec.end(),
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[&](uint64_t r) { return rand_->Uniform(r); });
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// For each set, pick a key at random and increment it
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for (uint16_t set_i : set_vec) {
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uint64_t int_value = 0;
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std::string full_key;
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uint64_t rand_key = rand_->Next() % num_keys_;
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const bool get_for_update = txn ? rand_->OneIn(2) : false;
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s = DBGet(db, txn, read_options_, set_i, rand_key, get_for_update,
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&int_value, &full_key, &unexpected_error);
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Slice key(full_key);
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if (!s.ok()) {
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// Optimistic transactions should never return non-ok status here.
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// Non-optimistic transactions may return write-coflict/timeout errors.
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if (is_optimistic || !(s.IsBusy() || s.IsTimedOut() || s.IsTryAgain())) {
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fprintf(stderr, "Get returned an unexpected error: %s\n",
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s.ToString().c_str());
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unexpected_error = true;
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}
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break;
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}
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if (s.ok()) {
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// Increment key
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std::string sum = ToString(int_value + incr);
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if (txn != nullptr) {
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s = txn->Put(key, sum);
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if (!get_for_update && (s.IsBusy() || s.IsTimedOut())) {
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// If the initial get was not for update, then the key is not locked
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// before put and put could fail due to concurrent writes.
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break;
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} else if (!s.ok()) {
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// Since we did a GetForUpdate, Put should not fail.
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fprintf(stderr, "Put returned an unexpected error: %s\n",
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s.ToString().c_str());
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unexpected_error = true;
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}
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} else {
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batch.Put(key, sum);
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}
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bytes_inserted_ += key.size() + sum.size();
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}
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}
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if (s.ok()) {
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if (txn != nullptr) {
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if (!is_optimistic && !rand_->OneIn(10)) {
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// also try commit without prpare
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s = txn->Prepare();
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assert(s.ok());
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}
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if (!rand_->OneIn(20)) {
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s = txn->Commit();
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} else {
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// Also try 5% rollback
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s = txn->Rollback();
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assert(s.ok());
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}
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assert(is_optimistic || s.ok());
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if (!s.ok()) {
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if (is_optimistic) {
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// Optimistic transactions can have write-conflict errors on commit.
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// Any other error is unexpected.
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if (!(s.IsBusy() || s.IsTimedOut() || s.IsTryAgain())) {
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unexpected_error = true;
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}
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} else {
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// Non-optimistic transactions should only fail due to expiration
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// or write failures. For testing purproses, we do not expect any
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// write failures.
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if (!s.IsExpired()) {
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unexpected_error = true;
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}
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}
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if (unexpected_error) {
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fprintf(stderr, "Commit returned an unexpected error: %s\n",
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s.ToString().c_str());
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}
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}
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} else {
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s = db->Write(write_options_, &batch);
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if (!s.ok()) {
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unexpected_error = true;
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fprintf(stderr, "Write returned an unexpected error: %s\n",
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s.ToString().c_str());
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}
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}
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} else {
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if (txn != nullptr) {
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assert(txn->Rollback().ok());
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}
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}
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if (s.ok()) {
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success_count_++;
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} else {
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failure_count_++;
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}
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last_status_ = s;
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// return success if we didn't get any unexpected errors
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return !unexpected_error;
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}
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// Verify that the sum of the keys in each set are equal
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Status RandomTransactionInserter::Verify(DB* db, uint16_t num_sets,
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uint64_t num_keys_per_set,
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bool take_snapshot, Random64* rand) {
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uint64_t prev_total = 0;
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uint32_t prev_i = 0;
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bool prev_assigned = false;
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ReadOptions roptions;
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if (take_snapshot) {
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roptions.snapshot = db->GetSnapshot();
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}
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std::vector<uint16_t> set_vec(num_sets);
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std::iota(set_vec.begin(), set_vec.end(), static_cast<uint16_t>(0));
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if (rand) {
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std::random_shuffle(set_vec.begin(), set_vec.end(),
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[&](uint64_t r) { return rand->Uniform(r); });
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}
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// For each set of keys with the same prefix, sum all the values
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for (uint16_t set_i : set_vec) {
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// Five digits (since the largest uint16_t is 65535) plus the NUL
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// end char.
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char prefix_buf[6];
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assert(set_i + 1 <= 9999);
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snprintf(prefix_buf, sizeof(prefix_buf), "%.4u", set_i + 1);
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uint64_t total = 0;
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// Use either point lookup or iterator. Point lookups are slower so we use
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// it less often.
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if (num_keys_per_set != 0 && rand && rand->OneIn(10)) { // use point lookup
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ReadOptions read_options;
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for (uint64_t k = 0; k < num_keys_per_set; k++) {
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std::string dont_care;
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uint64_t int_value = 0;
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bool unexpected_error = false;
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const bool FOR_UPDATE = false;
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Status s = DBGet(db, nullptr, roptions, set_i, k, FOR_UPDATE,
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&int_value, &dont_care, &unexpected_error);
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assert(s.ok());
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assert(!unexpected_error);
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total += int_value;
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}
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} else { // user iterators
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Iterator* iter = db->NewIterator(roptions);
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for (iter->Seek(Slice(prefix_buf, 4)); iter->Valid(); iter->Next()) {
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Slice key = iter->key();
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// stop when we reach a different prefix
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if (key.ToString().compare(0, 4, prefix_buf) != 0) {
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break;
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}
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Slice value = iter->value();
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uint64_t int_value = std::stoull(value.ToString());
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if (int_value == 0 || int_value == ULONG_MAX) {
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fprintf(stderr, "Iter returned unexpected value: %s\n",
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value.ToString().c_str());
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return Status::Corruption();
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}
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total += int_value;
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}
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delete iter;
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}
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if (prev_assigned && total != prev_total) {
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fprintf(stdout,
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"RandomTransactionVerify found inconsistent totals. "
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"Set[%" PRIu32 "]: %" PRIu64 ", Set[%" PRIu32 "]: %" PRIu64 " \n",
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prev_i, prev_total, set_i, total);
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return Status::Corruption();
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}
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prev_total = total;
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prev_i = set_i;
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prev_assigned = true;
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}
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if (take_snapshot) {
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db->ReleaseSnapshot(roptions.snapshot);
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}
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return Status::OK();
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}
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} // namespace rocksdb
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#endif // ROCKSDB_LITE
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