Crates.io | raft-engine |
lib.rs | raft-engine |
version | 0.4.2 |
source | src |
created_at | 2022-03-11 08:13:33.941336 |
updated_at | 2024-04-26 10:11:15.637479 |
description | A persistent storage engine for Multi-Raft logs |
homepage | |
repository | https://github.com/tikv/raft-engine |
max_upload_size | |
id | 548069 |
size | 688,737 |
Raft Engine is a persistent embedded storage engine with a log-structured design similar to bitcask. It is built for TiKV to store Multi-Raft logs.
Raft Engine consists of two basic constructs: memtable and log file.
In memory, each Raft Group holds its own memtable, containing all the key value pairs and the file locations of all log entries. On storage, user writes are sequentially written to the active log file, which is periodically rotated below a configurable threshold. Different Raft Groups share the same log stream.
Similar to RocksDB, Raft Engine provides atomic writes. Users can stash the changes into a log batch before submitting.
The writing of one log batch can be broken down into three steps:
At step 2, to group concurrent requests, each writing thread must enter a queue. The first in line automatically becomes the queue leader, responsible for writing the entire group to the log file.
Both synchronous and non-sync writes are supported. When one write in a batch is marked synchronous, the batch leader will call fdatasync()
after writing. This way, buffered data is guaranteed to be flushed out onto the storage.
After its data is written, each writing thread will proceed to apply the changes to memtable on their own.
After changes are applied to the local state machine, the corresponding log entries can be compacted from Raft Engine, logically. Because multiple Raft Groups share the same log stream, these truncated logs will punch holes in the log files. During garbage collection, Raft Engine scans for these holes and compacts log files to free up storage space. Only at this point, the unneeded log entries are deleted physically.
Raft Engine carries out garbage collection in a collaborative manner.
First, its timing is controlled by the user. Raft Engine consolidates and removes its log files only when the user voluntarily calls the purge_expired_files()
routine. For reference, TiKV calls it every 10 seconds by default.
Second, it sends useful feedback to the user. Each time the GC routine is called, Raft Engine will examine itself and return a list of Raft Groups that hold particularly old log entries. Those log entries block the GC progress and should be compacted by the user.
Put this in your Cargo.toml:
[dependencies]
raft-engine = "0.4"
Available Cargo features:
scripting
: Compiles with Rhai. This enables script debugging utilities including unsafe_repair
.nightly
: Enables nightly-only features including test
.internals
: Re-exports key components internal to Raft Engine. Enabled when building for docs.rs.failpoints
: Enables fail point testing powered by tikv/fail-rs.swap
: Use SwappyAllocator
to limit the memory usage of Raft Engine. The memory budget can be configured with "memory-limit". Depending on the nightly
feature.See some basic use cases under the examples directory.
Contributions are always welcome! Here are a few tips for making a PR:
git commit -s
) to pass the DCO check.# run tests with nightly features
make
# run tests on stable toolchain
make WITH_STABLE_TOOLCHAIN=force
# filter a specific test case
make test EXTRA_CARGO_ARGS=<testname>
cargo +nightly bench --all-features <bench-case-name>
cargo run --release --package stress -- --help
Copyright (c) 2017-present, PingCAP, Inc. Released under the Apache 2.0 license. See LICENSE for details.