/revision

A Rust library for revision-tolerant serialisation and deserialisation, with support for schema evolution over time

Primary LanguageRustApache License 2.0Apache-2.0


A framework for revision-tolerant serialization and deserialization, with support for schema evolution over time, allowing for easy revisioning of structs and enums for data storage requirements which need to support backwards compatibility, but where the design of the data format evolves over time.


     

Information

Revision is a framework for revision-tolerant serialization and deserialization with support for schema evolution over time. It allows for easy revisioning of structs and enums for data storage requirements which need to support backwards compatibility, but where the design of the data structures evolve over time. Revision enables data that was serialized at older revisions to be seamlessly deserialized and converted into the latest data structures. It uses bincode for serialization and deserialization.

The Revisioned trait is automatically implemented for the following primitives: u8, u16, u32, u64, u128, usize, i8, i16, i32, i64, i128, isize, f32, f64, char, String, Vec<T>, Arrays up to 32 elements, Option<T>, Box<T>, Bound<T>, Wrapping<T>, Reverse<T>, (A, B), (A, B, C), (A, B, C, D), (A, B, C, D, E), Duration, HashMap<K, V>, BTreeMap<K, V>, HashSet<T>, BTreeSet<T>, BinaryHeap<T>, Result<T, E>, Cow<'_, T>, Decimal, regex::Regex, uuid::Uuid, chrono::DateTime<Utc>, geo::Point, geo::LineString geo::Polygon, geo::MultiPoint, geo::MultiLineString, geo::MultiPolygon, and ordered_float::NotNan.

Inspiration

This code takes inspiration from the Versionize library developed for Amazon Firecracker snapshot-restore development previews.

Revision in action

use revision::Error;
use revision::revisioned;

// The test structure is at revision 3.
#[derive(Debug, PartialEq)]
#[revisioned(revision = 3)]
pub struct TestStruct {
    a: u32,
    #[revision(start = 2, end = 3, convert_fn = "convert_b")]
    b: u8,
    #[revision(start = 3)]
    c: u64,
    #[revision(start = 3, default_fn = "default_c")]
    d: String,
}

impl TestStruct {
    // Used to set the default value for a newly added field.
    fn default_c(_revision: u16) -> String {
        "test_string".to_owned()
    }
    // Used to convert the field from an old revision to the latest revision
    fn convert_b(&mut self, _revision: u16, value: u8) -> Result<(), Error> {
        self.c = value as u64;
        Ok(())
    }
}

// The test structure is at revision 3.
#[derive(Debug, PartialEq)]
#[revisioned(revision = 3)]
pub enum TestEnum {
    #[revision(end = 2, convert_fn = "upgrade_zero")]
    Zero,
    #[revision(end = 2, convert_fn = "upgrade_one")]
    One(u32),
    #[revision(start = 2)]
    Two(u64),
    #[revision(start = 2)]
    Three {
        a: i64,
        #[revision(end = 2, convert_fn = "upgrade_three_b")]
        b: f32,
        #[revision(start = 2)]
        c: rust_decimal::Decimal,
        #[revision(start = 3)]
        d: String
    },
}

impl TestEnum {
    // Used to convert an old enum variant into a new variant.
    fn upgrade_zero((): ()) -> Result<TestEnum, Error> {
        Ok(Self::Two(0))
    }
    // Used to convert an old enum variant into a new variant.
    fn upgrade_one((v0,): (u32,)) -> Result<TestEnum, Error> {
        Ok(Self::Two(v0 as u64))
    }
    // Used to convert the field from an old revision to the latest revision
    fn upgrade_three_b(&mut self, _revision: u16, value: f32) -> Result<(), Error> {
        match self {
            TestEnum::Three {
                ref mut c,
                ..
            } => {
                *c = value.into();
            }
            _ => unreachable!(),
        }
        Ok(())
    }
}