Skip to content

An ongoing Rust implementation of a Zcash node (adding Komodo rules). πŸ¦“

License

Notifications You must be signed in to change notification settings

dimxy/komodo-zebra

Β 
Β 

Folders and files

NameName
Last commit message
Last commit date

Latest commit

Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 

Repository files navigation

Zebra logotype


CI Docker CI OSes Continuous Delivery Coverage codecov Build docs Build lightwalletd Build Zcash Params

License

Contents

About

Zebra is the Zcash Foundation's independent, consensus-compatible implementation of a Zcash node, currently under development. It can be used to join the Zcash peer-to-peer network, which helps keeping Zcash working by validating and broadcasting transactions, and maintaining the Zcash blockchain state in a distributed manner.

Zcash is a cryptocurrency designed to preserve the user's privacy. If you just want to send and receive Zcash then you don't need to use Zebra directly. You can download a Zcash wallet application which will handle that for you.

Please join us on Discord if you'd like to find out more or get involved!

Using Zebra

You would want to run Zebra if you want to contribute to the Zcash network: the more nodes are run, the more reliable the network will be in terms of speed and resistance to denial of service attacks, for example.

Zebra aims to be faster, more secure, and more easily extensible than other Zcash implementations.

Beta Releases

Every few weeks, we release a new Zebra beta release.

Zebra's network stack is interoperable with zcashd, and Zebra implements all the features required to reach Zcash network consensus.

Currently, Zebra validates all of the Zcash consensus rules for the NU5 network upgrade.

But it may not validate any:

  • Undocumented rules derived from Bitcoin
  • Undocumented network protocol requirements

Getting Started

Building zebrad requires Rust, libclang, and a C++ compiler.

Build and Run Instructions

zebrad is still under development, so there is no supported packaging or install mechanism. To run zebrad, follow the instructions to compile zebrad for your platform:

  1. Install cargo and rustc.
    • Zebra is tested with the latest stable Rust version. Earlier versions are not supported or tested. Any Zebra release can remove support for older Rust versions, without any notice. (Rust 1.59 and earlier are definitely not supported, due to missing features.)
  2. Install Zebra's build dependencies:
    • libclang: the libclang, libclang-dev, llvm, or llvm-dev packages, depending on your package manager
    • clang or another C++ compiler: g++, Xcode, or MSVC
  3. Run cargo install --locked --git https://github.com/ZcashFoundation/zebra --tag v1.0.0-beta.14 zebrad
  4. Run zebrad start (see Running Zebra for more information)

For more detailed instructions, refer to the documentation.

Configuring JSON-RPC for lightwalletd

To use zebrad as a lightwalletd backend, give it this ~/.config/zebrad.toml:

[rpc]
# listen for RPC queries on localhost
listen_addr = '127.0.0.1:8232'

# automatically use multiple CPU threads
parallel_cpu_threads = 0

WARNING: This config allows multiple Zebra instances to share the same RPC port. See the RPC config documentation for details.

Optional Features

For performance reasons, some debugging and monitoring features are disabled in release builds.

You can enable these features using:

cargo install --features=<name> ...

System Requirements

The recommended requirements for compiling and running zebrad are:

  • 4 CPU cores
  • 16 GB RAM
  • 300 GB available disk space for building binaries and storing cached chain state
  • 100 Mbps network connection, with 300 GB of uploads and downloads per month

We continuously test that our builds and tests pass on:

The latest GitHub Runners for:

  • macOS
  • Ubuntu

Docker:

  • Debian Bullseye

Zebra's tests can take over an hour, depending on your machine. We're working on making them faster.

zebrad might build and run fine on smaller and slower systems - we haven't tested its exact limits yet.

For more detailed requirements, refer to the documentation.

Memory Troubleshooting

If Zebra's build runs out of RAM, try setting: export CARGO_BUILD_JOBS=2

If Zebra's tests timeout or run out of RAM, try running: cargo test -- --test-threads=2

(cargo uses all the processor cores on your machine by default.)

macOS Test Troubleshooting

Some of Zebra's tests deliberately cause errors that make Zebra panic. macOS records these panics as crash reports.

If you are seeing "Crash Reporter" dialogs during Zebra tests, you can disable them using this Terminal.app command:

defaults write com.apple.CrashReporter DialogType none

Network Ports and Data Usage

By default, Zebra uses the following inbound TCP listener ports:

  • 8233 on Mainnet
  • 18233 on Testnet

Zebra needs some peers which have a round-trip latency of 2 seconds or less. If this is a problem for you, please open a ticket.

zebrad's typical mainnet network usage is:

  • Initial sync: 100 GB download, we expect the initial download to grow to hundreds of gigabytes over time
  • Ongoing updates: 10 MB - 10 GB upload and download per day, depending on user-created transaction size and peer requests

Zebra performs an initial sync every time its internal database version changes, so some version upgrades might require a full download of the whole chain.

For more detailed information, refer to the documentation.

Network Troubleshooting

Some of Zebra's tests download Zcash blocks, so they might be unreliable depending on your network connection. You can set ZEBRA_SKIP_NETWORK_TESTS=1 to skip the network tests.

Zebra may be unreliable on Testnet, and under less-than-perfect network conditions. See our roadmap for details.

Disk Usage

Zebra uses around 100 GB of space for cached mainnet data, and 10 GB of space for cached testnet data. We expect disk usage to grow over time, so we recommend reserving at least 300 GB for mainnet nodes.

Zebra's database cleans up outdated data periodically, and when Zebra is shut down and restarted.

Disk Troubleshooting

Zebra's state commits changes using RocksDB database transactions.

If you forcibly terminate Zebra, or it panics, any incomplete changes will be rolled back the next time it starts.

So Zebra's state should always be valid, unless your OS or disk hardware is corrupting data.

Known Issues

There are a few bugs in Zebra that we're still working on fixing:

  • No Windows support #3801
    • We used to test with Windows Server 2019, but not anymore; see issue for details

Performance

  • Revert deserializing state transactions in rayon threads #4831

Future Work

Performance and Reliability:

  • Reliable syncing under poor network conditions
  • Additional batch verification
  • Performance tuning

Currently, the following features are out of scope:

  • Optional Zcash network protocol messages
  • Consensus rules removed before Canopy activation (Zebra checkpoints on Canopy activation)

Documentation

The Zebra website contains user documentation, such as how to run or configure Zebra, set up metrics integrations, etc., as well as developer documentation, such as design documents. We also render API documentation for the external API of our crates, as well as internal documentation for private APIs.

Security

Zebra has a responsible disclosure policy, which we encourage security researchers to follow.

License

Zebra is distributed under the terms of both the MIT license and the Apache License (Version 2.0).

See LICENSE-APACHE and LICENSE-MIT.

About

An ongoing Rust implementation of a Zcash node (adding Komodo rules). πŸ¦“

Resources

License

Code of conduct

Security policy

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • Rust 99.5%
  • Other 0.5%