Crate mysql_common

Source
Expand description

This crate is an implementation of basic MySql protocol primitives.

This crate:

  • defines basic MySql constants;
  • implements necessary functionality for MySql cached_sha2_password, mysql_native_password and legacy authentication plugins;
  • implements helper traits for MySql protocol IO;
  • implements support of named parameters for prepared statements;
  • implements parsers for a subset of MySql protocol packets (including binlog packets);
  • defines rust representation of MySql protocol values and rows;
  • implements conversion between MySql values and rust types, between MySql rows and tuples of rust types.
  • implements FromRow and FromValue derive macros

§Supported rust types

Crate offers conversion from/to MySql values for following types (please see MySql documentation on supported ranges for numeric types). Following table refers to MySql protocol types (see Value struct) and not to MySql column types. Please see MySql documentation for column and protocol type correspondence:

TypeNotes
{i,u}8..{i,u}128, {i,u}sizeMySql int/uint will be converted, bytes will be parsed.
⚠️ Note that range of {i,u}128 is greater than supported by MySql integer types but it’ll be serialized anyway (as decimal bytes string).
f32MySql float will be converted to f32, bytes will be parsed as f32.
⚠️ MySql double won’t be converted to f32 to avoid precision loss (see #17)
f64MySql float and double will be converted to f64, bytes will be parsed as f64.
boolMySql int {0, 1} or bytes {"0x30", "0x31"}
Vec<u8>MySql bytes
StringMySql bytes parsed as utf8
Duration (std and time)MySql time or bytes parsed as MySql time string
[time::PrimitiveDateTime] (v0.2.x)MySql date time or bytes parsed as MySql date time string (⚠️ lossy! microseconds are ignored)
[time::Date] (v0.2.x)MySql date or bytes parsed as MySql date string (⚠️ lossy! microseconds are ignored)
[time::Time] (v0.2.x)MySql time or bytes parsed as MySql time string (⚠️ lossy! microseconds are ignored)
[time::Duration] (v0.2.x)MySql time or bytes parsed as MySql time string
[time::PrimitiveDateTime] (v0.3.x)MySql date time or bytes parsed as MySql date time string (⚠️ lossy! microseconds are ignored)
[time::Date] (v0.3.x)MySql date or bytes parsed as MySql date string (⚠️ lossy! microseconds are ignored)
[time::Time] (v0.3.x)MySql time or bytes parsed as MySql time string (⚠️ lossy! microseconds are ignored)
[time::Duration] (v0.3.x)MySql time or bytes parsed as MySql time string
chrono::NaiveTimeMySql date or bytes parsed as MySql date string
chrono::NaiveDateMySql date or bytes parsed as MySql date string
chrono::NaiveDateTimeMySql date or bytes parsed as MySql date string
uuid::UuidMySql bytes parsed using Uuid::from_slice
serde_json::ValueMySql bytes parsed using serde_json::from_str
mysql_common::Deserialized<T : DeserializeOwned>MySql bytes parsed using serde_json::from_str
Option<T: FromValue>Must be used for nullable columns to avoid errors
[decimal::Decimal]MySql int, uint or bytes parsed using Decimal::from_str.
⚠️ Note that this type doesn’t support full range of MySql DECIMAL type.
[bigdecimal::BigDecimal] (v0.2.x)MySql int, uint, floats or bytes parsed using BigDecimal::parse_bytes.
⚠️ Note that range of this type is greater than supported by MySql DECIMAL type but it’ll be serialized anyway.
[bigdecimal::BigDecimal] (v0.3.x)MySql int, uint, floats or bytes parsed using BigDecimal::parse_bytes.
⚠️ Note that range of this type is greater than supported by MySql DECIMAL type but it’ll be serialized anyway.
[bigdecimal::BigDecimal] (v0.4.x)MySql int, uint, floats or bytes parsed using BigDecimal::parse_bytes.
⚠️ Note that range of this type is greater than supported by MySql DECIMAL type but it’ll be serialized anyway.
num_bigint::{BigInt, BigUint}MySql int, uint or bytes parsed using _::parse_bytes.
⚠️ Note that range of this type is greater than supported by MySql integer types but it’ll be serialized anyway (as decimal bytes string).

Also crate provides from-row convertion for the following list of types (see FromRow trait):

TypeNotes
RowTrivial conversion for Row itself.
T: FromValueFor rows with a single column.
(T1: FromValue [, ..., T12: FromValue])Row to a tuple of arity 1-12.
[frunk::hlist::HList] typesUsefull to overcome tuple arity limitation

§Crate features

FeatureDescriptionDefault
bigdecimal02Enables bigdecimal v0.2.x types support🔴
bigdecimal03Enables bigdecimal v0.3.x types support🔴
bigdecimalEnables bigdecimal v0.4.x types support🟢
chronoEnables chrono types support🔴
rust_decimalEnables rust_decimal types support🟢
time02Enables time v0.2.x types support🔴
timeEnables time v0.3.x types support🟢
frunkEnables FromRow for frunk::Hlist! types🟢
deriveEnables FromValue and FromRow derive macros🟢
binlogBinlog-related functionality🟢

§Derive Macros

§FromValue Derive

Supported derivations:

§Enums

§Container attributes:
  • #[mysql(crate_name = "some_name")] – overrides an attempt to guess a crate that provides required traits
  • #[mysql(rename_all = ...)] – rename all the variants according to the given case convention. The possible values are “lowercase”, “UPPERCASE”, “PascalCase”, “camelCase”, “snake_case”, “SCREAMING_SNAKE_CASE”, “kebab-case”, “SCREAMING-KEBAB-CASE”
  • #[mysql(is_integer)] – tells derive macro that the value is an integer rather than MySql ENUM. Macro won’t warn if variants are sparse or greater than u16 and will not try to parse textual representation.
  • #[mysql(is_string)] – tells derive macro that the value is a string rather than MySql ENUM. Macro won’t warn if variants are sparse or greater than u16 and will not try to parse integer representation.
§Example

Given ENUM('x-small', 'small', 'medium', 'large', 'x-large') on MySql side:


fn main() {

/// Note: the `crate_name` attribute should not be necessary.
#[derive(FromValue)]
#[mysql(rename_all = "kebab-case", crate_name = "mysql_common")]
#[repr(u8)]
enum Size {
    XSmall = 1,
    Small,
    Medium,
    Large,
    XLarge,
}

fn assert_from_row_works(x: Row) -> Size {
    from_row(x)
}

}

§Newtypes

It is expected, that wrapper value satisfies FromValue or deserialize_with is given. Also note, that to support FromRow the wrapped value must satisfy Into<Value> or serialize_with must be given.

§Container attributes:
  • #[mysql(crate_name = "some_name")] – overrides an attempt to guess a crate to import types from
  • #[mysql(bound = "Foo: Bar, Baz: Quux")] – use the following additional bounds
  • #[mysql(deserialize_with = "some::path")] – use the following function to deserialize the wrapped value. Expected signature is fn (Value) -> Result<Wrapped, FromValueError>.
  • #[mysql(serialize_with = "some::path")] – use the following function to serialize the wrapped value. Expected signature is fn (Wrapped) -> Value.
§Example

/// Trivial example
#[derive(FromValue)]
struct Inch(i32);

/// Example of a {serialize|deserialize}_with.
#[derive(FromValue)]
#[mysql(deserialize_with = "neg_de", serialize_with = "neg_ser")]
struct Neg(i64);

/// Wrapped generic. Bounds are inferred.
#[derive(FromValue)]
struct Foo<T>(Option<T>);

/// Example of additional bounds.
#[derive(FromValue)]
#[mysql(bound = "'b: 'a, T: 'a, U: From<String>, V: From<u64>")]
struct Bar<'a, 'b, const N: usize, T, U, V>(ComplexTypeToWrap<'a, 'b, N, T, U, V>);

fn assert_from_row_works<'a, 'b, const N: usize, T, U, V>(x: Row) -> (Inch, Neg, Foo<u8>, Bar<'a, 'b, N, T, U, V>)
where 'b: 'a, T: 'a, U: From<String>, V: From<u64>,
{
    from_row(x)
}


// test boilerplate..


/// Dummy complex type with additional bounds on FromValue impl.
struct ComplexTypeToWrap<'a, 'b, const N: usize, T, U, V>([(&'a T, &'b U, V); N]);

struct FakeIr;

impl TryFrom<Value> for FakeIr {
    // ...
}

impl<'a, 'b: 'a, const N: usize, T: 'a, U: From<String>, V: From<u64>> From<FakeIr> for ComplexTypeToWrap<'a, 'b, N, T, U, V> {
    // ...
}

impl From<FakeIr> for Value {
    // ...
}

impl<'a, 'b: 'a, const N: usize, T: 'a, U: From<String>, V: From<u64>> FromValue for ComplexTypeToWrap<'a, 'b, N, T, U, V> {
    type Intermediate = FakeIr;
}

fn neg_de(v: Value) -> Result<i64, FromValueError> {
    match v {
        Value::Int(x) => Ok(-x),
        Value::UInt(x) => Ok(-(x as i64)),
        x => Err(FromValueError(x)),
    }
}

fn neg_ser(x: i64) -> Value {
    Value::Int(-x)
}

§FromRow Derive

Also defines some constants on the struct:

  • const TABLE_NAME: &str – if table_name is given
  • const {}_FIELD: &str – for each struct field ({} is a SCREAMING_SNAKE_CASE representation of a struct field name (not a column name))

Supported derivations:

  • for a struct with named fields – field name will be used as a column name to search for a value

§Container attributes:

  • #[mysql(crate_name = "some_name")] – overrides an attempt to guess a crate that provides required traits
  • #[mysql(rename_all = ...)] – rename all column names according to the given case convention. The possible values are “lowercase”, “UPPERCASE”, “PascalCase”, “camelCase”, “snake_case”, “SCREAMING_SNAKE_CASE”, “kebab-case”, “SCREAMING-KEBAB-CASE”
  • #[mysql(table_name = "some_name")] – defines pub const TABLE_NAME: &str on the struct

§Field attributes:

  • #[mysql(rename = "some_name")] – overrides column name of a field
  • #[mysql(json)] - column will be interpreted as a JSON string containing a value of a field type
  • #[mysql(with = path::to::convert_fn)]convert_fn will be used to deserialize a field value (expects a function with a signature that mimics `TryFrom<Value, Error=FromValueError>``)

§Example


/// Note: the `crate_name` attribute should not be necessary.
#[derive(Debug, PartialEq, Eq, FromRow)]
#[mysql(table_name = "Foos", crate_name = "mysql_common")]
struct Foo {
    id: u64,
    #[mysql(json, rename = "def")]
    definition: Bar,
    child: Option<u64>,
}

#[derive(Debug, serde::Deserialize, PartialEq, Eq)]
enum Bar {
    Left,
    Right,
}

/// Returns the following row:
///
/// ```
/// +----+-----------+-------+
/// | id | def       | child |
/// +----+-----------+-------+
/// | 42 | '"Right"' | NULL  |
/// +----+-----------+-------+
/// ```
fn get_row() -> Row {
    // ...
}

assert_eq!(Foo::TABLE_NAME, "Foos");
assert_eq!(Foo::ID_FIELD, "id");
assert_eq!(Foo::DEFINITION_FIELD, "def");
assert_eq!(Foo::CHILD_FIELD, "child");

let foo = from_row::<Foo>(get_row());
assert_eq!(foo, Foo { id: 42, definition: Bar::Right, child: None });

Re-exports§

Modules§

Macros§

  • This macro is a convenient way to pass named parameters to a statement.