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A native Delta implementation for integration with any query engine

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delta-kernel-rs

Delta-kernel-rs is an experimental Delta implementation focused on interoperability with a wide range of query engines. It currently only supports reads.

The Delta Kernel project is a Rust and C library for building Delta connectors that can read (and soon, write) Delta tables without needing to understand the Delta protocol details. This is the Rust/C equivalent of Java Delta Kernel.

Crates

Delta-kernel-rs is split into a few different crates:

  • kernel: The actual core kernel crate
  • acceptance: Acceptance tests that validate correctness via the Delta Acceptance Tests
  • derive-macros: A crate for our derive-macros to live in
  • ffi: Functionallity that enables delta-kernel-rs to be used from C or C++ See the ffi directory for more information.

Building

By default we build only the kernel and acceptance crates, which will also build derive-macros as a dependency.

To get started, install Rust via rustup, clone the repository, and then run:

cargo test --all-features

This will build the kernel, run all unit tests, fetch the Delta Acceptance Tests data and run the acceptance tests against it.

In general, you will want to depend on delta-kernel-rs by adding it as a dependency to your Cargo.toml, (that is, for rust projects using cargo) for other projects please see the FFI module. The core kernel includes facilities for reading delta tables, but requires the consumer to implement the Engine trait in order to use the table-reading APIs. If there is no need to implement the consumer's own Engine trait, the kernel has a feature flag to enable a default, asynchronous Engine implementation built with Arrow and Tokio.

# fewer dependencies, requires consumer to implement Engine trait.
# allows consumers to implement their own in-memory format
delta_kernel = "0.5"

# or turn on the default engine, based on arrow
delta_kernel = { version = "0.5", features = ["default-engine"] }

Feature flags

There are more feature flags in addition to the default-engine flag shown above. Relevant flags include:

Feature flag Description
default-engine Turn on the 'default' engine: async, arrow-based Engine implementation
sync-engine Turn on the 'sync' engine: synchronous, arrow-based Engine implementation. Only supports local storage!
arrow-conversion Conversion utilities for arrow/kernel schema interoperation
arrow-expression Expression system implementation for arrow

Versions and Api Stability

We intend to follow Semantic Versioning. However, in the 0.x line, the APIs are still unstable. We therefore may break APIs within minor releases (that is, 0.1 -> 0.2), but we will not break APIs in patch releases (0.1.0 -> 0.1.1).

Arrow versioning

If you enable the default-engine or sync-engine features, you get an implemenation of the Engine trait that uses Arrow as its data format.

The arrow crate tends to release new major versions rather quickly. To enable engines that already integrate arrow to also integrate kernel and not force them to track a specific version of arrow that kernel depends on, we take as broad dependecy on arrow versions as we can.

This means you can force kernel to rely on the specific arrow version that your engine already uses, as long as it falls in that range. You can see the range in the Cargo.toml in the same folder as this README.md.

For example, although arrow 53.1.0 has been released, you can force kernel to compile on 53.0 by putting the following in your project's Cargo.toml:

[patch.crates-io]
arrow = "53.0"
arrow-arith = "53.0"
arrow-array = "53.0"
arrow-buffer = "53.0"
arrow-cast = "53.0"
arrow-data = "53.0"
arrow-ord = "53.0"
arrow-json = "53.0"
arrow-select = "53.0"
arrow-schema = "53.0"
parquet = "53.0"

Note that unfortunatly patching in cargo requires that exactly one version matches your specification. If only arrow "53.0.0" had been released the above will work, but if "53.0.1" where to be released, the specification will break and you will need to provide a more restrictive specification like "=53.0.0".

Object Store

You may also need to patch the object_store version used if the version of parquet you depend on depends on a different version of object_store. This can be done by including object_store in the patch list with the required version. You can find this out by checking the parquet docs.rs page, switching to the version you want to use, and then checking what version of object_store it depends on.

Documentation

Examples

There are some example programs showing how delta-kernel-rs can be used to interact with delta tables. They live in the kernel/examples directory.

Development

delta-kernel-rs is still under heavy development but follows conventions adopted by most Rust projects.

Concepts

There are a few key concepts that will help in understanding kernel:

  1. The Engine trait encapsulates all the functionality and engine or connector needs to provide to the Delta Kernel in order to read the Delta table.
  2. The DefaultEngine is our default implementation of the the above trait. It lives in engine/default, and provides a reference implementation for all Engine functionality. DefaultEngine uses arrow as its in-memory data format.
  3. A Scan is the entrypoint for reading data from a table.

Design Principles

Some design principles which should be considered:

  • async should live only in the Engine implementation. The core kernel does not use async at all. We do not wish to impose the need for an entire async runtime on an engine or connector. The DefaultEngine does use async quite heavily. It doesn't depend on a particular runtime however, and implementations could provide an "executor" based on tokio, smol, async-std, or whatever might be needed. Currently only a tokio based executor is provided.
  • Minimal Table API. The kernel intentionally exposes the concept of immutable versions of tables through the snapshot API. This encourages users to think about the Delta table state more accurately.
  • Prefer builder style APIs over object oriented ones.
  • "Simple" set of default-features enabled to provide the basic functionality with the least necessary amount of dependencies possible. Putting more complex optimizations or APIs behind feature flags
  • API conventions to make it clear which operations involve I/O, e.g. fetch or retrieve type verbiage in method signatures.

Tips

  • When developing, rust-analyzer is your friend. rustup component add rust-analyzer
  • If using emacs, both eglot and lsp-mode provide excellent integration with rust-analyzer. rustic is a nice mode as well.
  • When also developing in vscode its sometimes convenient to configure rust-analyzer in .vscode/settings.json.
{
  "editor.formatOnSave": true,
  "rust-analyzer.cargo.features": ["default-engine", "acceptance"]
}
  • The crate's documentation can be easily reviewed with: cargo docs --open
  • Code coverage is available on codecov via cargo-llvm-cov. See their docs for instructions to install/run locally.

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