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//! Conversions to and from Postgres types.
//!
//! This crate is used by the `tokio-postgres` and `postgres` crates. You normally don't need to depend directly on it
//! unless you want to define your own `ToSql` or `FromSql` definitions.
//!
//! # Derive
//!
//! If the `derive` cargo feature is enabled, you can derive `ToSql` and `FromSql` implementations for custom Postgres
//! types. Explicitly, modify your `Cargo.toml` file to include the following:
//!
//! ```toml
//! [dependencies]
//! postgres-types = { version = "0.X.X", features = ["derive"] }
//! ```
//!
//! ## Enums
//!
//! Postgres enums correspond to C-like enums in Rust:
//!
//! ```sql
//! CREATE TYPE "Mood" AS ENUM (
//! 'Sad',
//! 'Ok',
//! 'Happy'
//! );
//! ```
//!
//! ```rust
//! # #[cfg(feature = "derive")]
//! use postgres_types::{ToSql, FromSql};
//!
//! # #[cfg(feature = "derive")]
//! #[derive(Debug, ToSql, FromSql)]
//! enum Mood {
//! Sad,
//! Ok,
//! Happy,
//! }
//! ```
//!
//! ## Domains
//!
//! Postgres domains correspond to tuple structs with one member in Rust:
//!
//! ```sql
//! CREATE DOMAIN "SessionId" AS BYTEA CHECK(octet_length(VALUE) = 16);
//! ```
//!
//! ```rust
//! # #[cfg(feature = "derive")]
//! use postgres_types::{ToSql, FromSql};
//!
//! # #[cfg(feature = "derive")]
//! #[derive(Debug, ToSql, FromSql)]
//! struct SessionId(Vec<u8>);
//! ```
//!
//! ## Newtypes
//!
//! The `#[postgres(transparent)]` attribute can be used on a single-field tuple struct to create a
//! Rust-only wrapper type that will use the [`ToSql`] & [`FromSql`] implementation of the inner
//! value :
//! ```rust
//! # #[cfg(feature = "derive")]
//! use postgres_types::{ToSql, FromSql};
//!
//! # #[cfg(feature = "derive")]
//! #[derive(Debug, ToSql, FromSql)]
//! #[postgres(transparent)]
//! struct UserId(i32);
//! ```
//!
//! ## Composites
//!
//! Postgres composite types correspond to structs in Rust:
//!
//! ```sql
//! CREATE TYPE "InventoryItem" AS (
//! name TEXT,
//! supplier_id INT,
//! price DOUBLE PRECISION
//! );
//! ```
//!
//! ```rust
//! # #[cfg(feature = "derive")]
//! use postgres_types::{ToSql, FromSql};
//!
//! # #[cfg(feature = "derive")]
//! #[derive(Debug, ToSql, FromSql)]
//! struct InventoryItem {
//! name: String,
//! supplier_id: i32,
//! price: Option<f64>,
//! }
//! ```
//!
//! ## Naming
//!
//! The derived implementations will enforce exact matches of type, field, and variant names between the Rust and
//! Postgres types. The `#[postgres(name = "...")]` attribute can be used to adjust the name on a type, variant, or
//! field:
//!
//! ```sql
//! CREATE TYPE mood AS ENUM (
//! 'sad',
//! 'ok',
//! 'happy'
//! );
//! ```
//!
//! ```rust
//! # #[cfg(feature = "derive")]
//! use postgres_types::{ToSql, FromSql};
//!
//! # #[cfg(feature = "derive")]
//! #[derive(Debug, ToSql, FromSql)]
//! #[postgres(name = "mood")]
//! enum Mood {
//! #[postgres(name = "sad")]
//! Sad,
//! #[postgres(name = "ok")]
//! Ok,
//! #[postgres(name = "happy")]
//! Happy,
//! }
//! ```
#![doc(html_root_url = "https://docs.rs/postgres-types/0.2")]
#![warn(clippy::all, rust_2018_idioms, missing_docs)]
use fallible_iterator::FallibleIterator;
use postgres_protocol::types::{self, ArrayDimension};
use std::any::type_name;
use std::borrow::Cow;
use std::collections::HashMap;
use std::error::Error;
use std::fmt;
use std::hash::BuildHasher;
use std::net::IpAddr;
use std::sync::Arc;
use std::time::{Duration, SystemTime, UNIX_EPOCH};
#[cfg(feature = "derive")]
pub use postgres_derive::{FromSql, ToSql};
#[cfg(feature = "with-serde_json-1")]
pub use crate::serde_json_1::Json;
use crate::type_gen::{Inner, Other};
#[doc(inline)]
pub use postgres_protocol::Oid;
#[doc(inline)]
pub use pg_lsn::PgLsn;
pub use crate::special::{Date, Timestamp};
use bytes::BytesMut;
// Number of seconds from 1970-01-01 to 2000-01-01
const TIME_SEC_CONVERSION: u64 = 946_684_800;
const USEC_PER_SEC: u64 = 1_000_000;
const NSEC_PER_USEC: u64 = 1_000;
/// Generates a simple implementation of `ToSql::accepts` which accepts the
/// types passed to it.
#[macro_export]
macro_rules! accepts {
($($expected:ident),+) => (
fn accepts(ty: &$crate::Type) -> bool {
matches!(*ty, $($crate::Type::$expected)|+)
}
)
}
/// Generates an implementation of `ToSql::to_sql_checked`.
///
/// All `ToSql` implementations should use this macro.
#[macro_export]
macro_rules! to_sql_checked {
() => {
fn to_sql_checked(
&self,
ty: &$crate::Type,
out: &mut $crate::private::BytesMut,
) -> ::std::result::Result<
$crate::IsNull,
Box<dyn ::std::error::Error + ::std::marker::Sync + ::std::marker::Send>,
> {
$crate::__to_sql_checked(self, ty, out)
}
};
}
// WARNING: this function is not considered part of this crate's public API.
// It is subject to change at any time.
#[doc(hidden)]
pub fn __to_sql_checked<T>(
v: &T,
ty: &Type,
out: &mut BytesMut,
) -> Result<IsNull, Box<dyn Error + Sync + Send>>
where
T: ToSql,
{
if !T::accepts(ty) {
return Err(Box::new(WrongType::new::<T>(ty.clone())));
}
v.to_sql(ty, out)
}
#[cfg(feature = "with-bit-vec-0_6")]
mod bit_vec_06;
#[cfg(feature = "with-chrono-0_4")]
mod chrono_04;
#[cfg(feature = "with-cidr-0_2")]
mod cidr_02;
#[cfg(feature = "with-eui48-0_4")]
mod eui48_04;
#[cfg(feature = "with-eui48-1")]
mod eui48_1;
#[cfg(feature = "with-geo-types-0_6")]
mod geo_types_06;
#[cfg(feature = "with-geo-types-0_7")]
mod geo_types_07;
#[cfg(feature = "with-serde_json-1")]
mod serde_json_1;
#[cfg(feature = "with-smol_str-01")]
mod smol_str_01;
#[cfg(feature = "with-time-0_2")]
mod time_02;
#[cfg(feature = "with-time-0_3")]
mod time_03;
#[cfg(feature = "with-uuid-0_8")]
mod uuid_08;
#[cfg(feature = "with-uuid-1")]
mod uuid_1;
// The time::{date, time} macros produce compile errors if the crate package is renamed.
#[cfg(feature = "with-time-0_2")]
extern crate time_02 as time;
mod pg_lsn;
#[doc(hidden)]
pub mod private;
mod special;
mod type_gen;
/// A Postgres type.
#[derive(PartialEq, Eq, Clone, Hash)]
pub struct Type(Inner);
impl fmt::Debug for Type {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt::Debug::fmt(&self.0, fmt)
}
}
impl fmt::Display for Type {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
match self.schema() {
"public" | "pg_catalog" => {}
schema => write!(fmt, "{}.", schema)?,
}
fmt.write_str(self.name())
}
}
impl Type {
/// Creates a new `Type`.
pub fn new(name: String, oid: Oid, kind: Kind, schema: String) -> Type {
Type(Inner::Other(Arc::new(Other {
name,
oid,
kind,
schema,
})))
}
/// Returns the `Type` corresponding to the provided `Oid` if it
/// corresponds to a built-in type.
pub fn from_oid(oid: Oid) -> Option<Type> {
Inner::from_oid(oid).map(Type)
}
/// Returns the OID of the `Type`.
pub fn oid(&self) -> Oid {
self.0.oid()
}
/// Returns the kind of this type.
pub fn kind(&self) -> &Kind {
self.0.kind()
}
/// Returns the schema of this type.
pub fn schema(&self) -> &str {
match self.0 {
Inner::Other(ref u) => &u.schema,
_ => "pg_catalog",
}
}
/// Returns the name of this type.
pub fn name(&self) -> &str {
self.0.name()
}
}
/// Represents the kind of a Postgres type.
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
#[non_exhaustive]
pub enum Kind {
/// A simple type like `VARCHAR` or `INTEGER`.
Simple,
/// An enumerated type along with its variants.
Enum(Vec<String>),
/// A pseudo-type.
Pseudo,
/// An array type along with the type of its elements.
Array(Type),
/// A range type along with the type of its elements.
Range(Type),
/// A multirange type along with the type of its elements.
Multirange(Type),
/// A domain type along with its underlying type.
Domain(Type),
/// A composite type along with information about its fields.
Composite(Vec<Field>),
}
/// Information about a field of a composite type.
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
pub struct Field {
name: String,
type_: Type,
}
impl Field {
/// Creates a new `Field`.
pub fn new(name: String, type_: Type) -> Field {
Field { name, type_ }
}
/// Returns the name of the field.
pub fn name(&self) -> &str {
&self.name
}
/// Returns the type of the field.
pub fn type_(&self) -> &Type {
&self.type_
}
}
/// An error indicating that a `NULL` Postgres value was passed to a `FromSql`
/// implementation that does not support `NULL` values.
#[derive(Debug, Clone, Copy)]
pub struct WasNull;
impl fmt::Display for WasNull {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt.write_str("a Postgres value was `NULL`")
}
}
impl Error for WasNull {}
/// An error indicating that a conversion was attempted between incompatible
/// Rust and Postgres types.
#[derive(Debug)]
pub struct WrongType {
postgres: Type,
rust: &'static str,
}
impl fmt::Display for WrongType {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(
fmt,
"cannot convert between the Rust type `{}` and the Postgres type `{}`",
self.rust, self.postgres,
)
}
}
impl Error for WrongType {}
impl WrongType {
/// Creates a new `WrongType` error.
pub fn new<T>(ty: Type) -> WrongType {
WrongType {
postgres: ty,
rust: type_name::<T>(),
}
}
}
/// A trait for types that can be created from a Postgres value.
///
/// # Types
///
/// The following implementations are provided by this crate, along with the
/// corresponding Postgres types:
///
/// | Rust type | Postgres type(s) |
/// |-----------------------------------|-----------------------------------------------|
/// | `bool` | BOOL |
/// | `i8` | "char" |
/// | `i16` | SMALLINT, SMALLSERIAL |
/// | `i32` | INT, SERIAL |
/// | `u32` | OID |
/// | `i64` | BIGINT, BIGSERIAL |
/// | `f32` | REAL |
/// | `f64` | DOUBLE PRECISION |
/// | `&str`/`String` | VARCHAR, CHAR(n), TEXT, CITEXT, NAME, UNKNOWN |
/// | | LTREE, LQUERY, LTXTQUERY |
/// | `&[u8]`/`Vec<u8>` | BYTEA |
/// | `HashMap<String, Option<String>>` | HSTORE |
/// | `SystemTime` | TIMESTAMP, TIMESTAMP WITH TIME ZONE |
/// | `IpAddr` | INET |
///
/// In addition, some implementations are provided for types in third party
/// crates. These are disabled by default; to opt into one of these
/// implementations, activate the Cargo feature corresponding to the crate's
/// name prefixed by `with-`. For example, the `with-serde_json-1` feature enables
/// the implementation for the `serde_json::Value` type.
///
/// | Rust type | Postgres type(s) |
/// |---------------------------------|-------------------------------------|
/// | `chrono::NaiveDateTime` | TIMESTAMP |
/// | `chrono::DateTime<Utc>` | TIMESTAMP WITH TIME ZONE |
/// | `chrono::DateTime<Local>` | TIMESTAMP WITH TIME ZONE |
/// | `chrono::DateTime<FixedOffset>` | TIMESTAMP WITH TIME ZONE |
/// | `chrono::NaiveDate` | DATE |
/// | `chrono::NaiveTime` | TIME |
/// | `time::PrimitiveDateTime` | TIMESTAMP |
/// | `time::OffsetDateTime` | TIMESTAMP WITH TIME ZONE |
/// | `time::Date` | DATE |
/// | `time::Time` | TIME |
/// | `eui48::MacAddress` | MACADDR |
/// | `geo_types::Point<f64>` | POINT |
/// | `geo_types::Rect<f64>` | BOX |
/// | `geo_types::LineString<f64>` | PATH |
/// | `serde_json::Value` | JSON, JSONB |
/// | `uuid::Uuid` | UUID |
/// | `bit_vec::BitVec` | BIT, VARBIT |
/// | `eui48::MacAddress` | MACADDR |
/// | `cidr::InetCidr` | CIDR |
/// | `cidr::InetAddr` | INET |
/// | `smol_str::SmolStr` | VARCHAR, CHAR(n), TEXT, CITEXT, |
/// | | NAME, UNKNOWN, LTREE, LQUERY, |
/// | | LTXTQUERY |
///
/// # Nullability
///
/// In addition to the types listed above, `FromSql` is implemented for
/// `Option<T>` where `T` implements `FromSql`. An `Option<T>` represents a
/// nullable Postgres value.
///
/// # Arrays
///
/// `FromSql` is implemented for `Vec<T>`, `Box<[T]>` and `[T; N]` where `T`
/// implements `FromSql`, and corresponds to one-dimensional Postgres arrays.
///
/// **Note:** the impl for arrays only exist when the Cargo feature `array-impls`
/// is enabled.
pub trait FromSql<'a>: Sized {
/// Creates a new value of this type from a buffer of data of the specified
/// Postgres `Type` in its binary format.
///
/// The caller of this method is responsible for ensuring that this type
/// is compatible with the Postgres `Type`.
fn from_sql(ty: &Type, raw: &'a [u8]) -> Result<Self, Box<dyn Error + Sync + Send>>;
/// Creates a new value of this type from a `NULL` SQL value.
///
/// The caller of this method is responsible for ensuring that this type
/// is compatible with the Postgres `Type`.
///
/// The default implementation returns `Err(Box::new(WasNull))`.
#[allow(unused_variables)]
fn from_sql_null(ty: &Type) -> Result<Self, Box<dyn Error + Sync + Send>> {
Err(Box::new(WasNull))
}
/// A convenience function that delegates to `from_sql` and `from_sql_null` depending on the
/// value of `raw`.
fn from_sql_nullable(
ty: &Type,
raw: Option<&'a [u8]>,
) -> Result<Self, Box<dyn Error + Sync + Send>> {
match raw {
Some(raw) => Self::from_sql(ty, raw),
None => Self::from_sql_null(ty),
}
}
/// Determines if a value of this type can be created from the specified
/// Postgres `Type`.
fn accepts(ty: &Type) -> bool;
}
/// A trait for types which can be created from a Postgres value without borrowing any data.
///
/// This is primarily useful for trait bounds on functions.
pub trait FromSqlOwned: for<'a> FromSql<'a> {}
impl<T> FromSqlOwned for T where T: for<'a> FromSql<'a> {}
impl<'a, T: FromSql<'a>> FromSql<'a> for Option<T> {
fn from_sql(ty: &Type, raw: &'a [u8]) -> Result<Option<T>, Box<dyn Error + Sync + Send>> {
<T as FromSql>::from_sql(ty, raw).map(Some)
}
fn from_sql_null(_: &Type) -> Result<Option<T>, Box<dyn Error + Sync + Send>> {
Ok(None)
}
fn accepts(ty: &Type) -> bool {
<T as FromSql>::accepts(ty)
}
}
impl<'a, T: FromSql<'a>> FromSql<'a> for Vec<T> {
fn from_sql(ty: &Type, raw: &'a [u8]) -> Result<Vec<T>, Box<dyn Error + Sync + Send>> {
let member_type = match *ty.kind() {
Kind::Array(ref member) => member,
_ => panic!("expected array type"),
};
let array = types::array_from_sql(raw)?;
if array.dimensions().count()? > 1 {
return Err("array contains too many dimensions".into());
}
array
.values()
.map(|v| T::from_sql_nullable(member_type, v))
.collect()
}
fn accepts(ty: &Type) -> bool {
match *ty.kind() {
Kind::Array(ref inner) => T::accepts(inner),
_ => false,
}
}
}
#[cfg(feature = "array-impls")]
impl<'a, T: FromSql<'a>, const N: usize> FromSql<'a> for [T; N] {
fn from_sql(ty: &Type, raw: &'a [u8]) -> Result<Self, Box<dyn Error + Sync + Send>> {
let member_type = match *ty.kind() {
Kind::Array(ref member) => member,
_ => panic!("expected array type"),
};
let array = types::array_from_sql(raw)?;
if array.dimensions().count()? > 1 {
return Err("array contains too many dimensions".into());
}
let mut values = array.values();
let out = array_init::try_array_init(|i| {
let v = values
.next()?
.ok_or_else(|| -> Box<dyn Error + Sync + Send> {
format!("too few elements in array (expected {}, got {})", N, i).into()
})?;
T::from_sql_nullable(member_type, v)
})?;
if values.next()?.is_some() {
return Err(format!(
"excess elements in array (expected {}, got more than that)",
N,
)
.into());
}
Ok(out)
}
fn accepts(ty: &Type) -> bool {
match *ty.kind() {
Kind::Array(ref inner) => T::accepts(inner),
_ => false,
}
}
}
impl<'a, T: FromSql<'a>> FromSql<'a> for Box<[T]> {
fn from_sql(ty: &Type, raw: &'a [u8]) -> Result<Self, Box<dyn Error + Sync + Send>> {
Vec::<T>::from_sql(ty, raw).map(Vec::into_boxed_slice)
}
fn accepts(ty: &Type) -> bool {
Vec::<T>::accepts(ty)
}
}
impl<'a> FromSql<'a> for Vec<u8> {
fn from_sql(_: &Type, raw: &'a [u8]) -> Result<Vec<u8>, Box<dyn Error + Sync + Send>> {
Ok(types::bytea_from_sql(raw).to_owned())
}
accepts!(BYTEA);
}
impl<'a> FromSql<'a> for &'a [u8] {
fn from_sql(_: &Type, raw: &'a [u8]) -> Result<&'a [u8], Box<dyn Error + Sync + Send>> {
Ok(types::bytea_from_sql(raw))
}
accepts!(BYTEA);
}
impl<'a> FromSql<'a> for String {
fn from_sql(ty: &Type, raw: &'a [u8]) -> Result<String, Box<dyn Error + Sync + Send>> {
<&str as FromSql>::from_sql(ty, raw).map(ToString::to_string)
}
fn accepts(ty: &Type) -> bool {
<&str as FromSql>::accepts(ty)
}
}
impl<'a> FromSql<'a> for Box<str> {
fn from_sql(ty: &Type, raw: &'a [u8]) -> Result<Box<str>, Box<dyn Error + Sync + Send>> {
<&str as FromSql>::from_sql(ty, raw)
.map(ToString::to_string)
.map(String::into_boxed_str)
}
fn accepts(ty: &Type) -> bool {
<&str as FromSql>::accepts(ty)
}
}
impl<'a> FromSql<'a> for &'a str {
fn from_sql(ty: &Type, raw: &'a [u8]) -> Result<&'a str, Box<dyn Error + Sync + Send>> {
match *ty {
ref ty if ty.name() == "ltree" => types::ltree_from_sql(raw),
ref ty if ty.name() == "lquery" => types::lquery_from_sql(raw),
ref ty if ty.name() == "ltxtquery" => types::ltxtquery_from_sql(raw),
_ => types::text_from_sql(raw),
}
}
fn accepts(ty: &Type) -> bool {
match *ty {
Type::VARCHAR | Type::TEXT | Type::BPCHAR | Type::NAME | Type::UNKNOWN => true,
ref ty
if (ty.name() == "citext"
|| ty.name() == "ltree"
|| ty.name() == "lquery"
|| ty.name() == "ltxtquery") =>
{
true
}
_ => false,
}
}
}
macro_rules! simple_from {
($t:ty, $f:ident, $($expected:ident),+) => {
impl<'a> FromSql<'a> for $t {
fn from_sql(_: &Type, raw: &'a [u8]) -> Result<$t, Box<dyn Error + Sync + Send>> {
types::$f(raw)
}
accepts!($($expected),+);
}
}
}
simple_from!(bool, bool_from_sql, BOOL);
simple_from!(i8, char_from_sql, CHAR);
simple_from!(i16, int2_from_sql, INT2);
simple_from!(i32, int4_from_sql, INT4);
simple_from!(u32, oid_from_sql, OID);
simple_from!(i64, int8_from_sql, INT8);
simple_from!(f32, float4_from_sql, FLOAT4);
simple_from!(f64, float8_from_sql, FLOAT8);
impl<'a, S> FromSql<'a> for HashMap<String, Option<String>, S>
where
S: Default + BuildHasher,
{
fn from_sql(
_: &Type,
raw: &'a [u8],
) -> Result<HashMap<String, Option<String>, S>, Box<dyn Error + Sync + Send>> {
types::hstore_from_sql(raw)?
.map(|(k, v)| Ok((k.to_owned(), v.map(str::to_owned))))
.collect()
}
fn accepts(ty: &Type) -> bool {
ty.name() == "hstore"
}
}
impl<'a> FromSql<'a> for SystemTime {
fn from_sql(_: &Type, raw: &'a [u8]) -> Result<SystemTime, Box<dyn Error + Sync + Send>> {
let time = types::timestamp_from_sql(raw)?;
let epoch = UNIX_EPOCH + Duration::from_secs(TIME_SEC_CONVERSION);
let negative = time < 0;
let time = time.unsigned_abs();
let secs = time / USEC_PER_SEC;
let nsec = (time % USEC_PER_SEC) * NSEC_PER_USEC;
let offset = Duration::new(secs, nsec as u32);
let time = if negative {
epoch - offset
} else {
epoch + offset
};
Ok(time)
}
accepts!(TIMESTAMP, TIMESTAMPTZ);
}
impl<'a> FromSql<'a> for IpAddr {
fn from_sql(_: &Type, raw: &'a [u8]) -> Result<IpAddr, Box<dyn Error + Sync + Send>> {
let inet = types::inet_from_sql(raw)?;
Ok(inet.addr())
}
accepts!(INET);
}
/// An enum representing the nullability of a Postgres value.
pub enum IsNull {
/// The value is NULL.
Yes,
/// The value is not NULL.
No,
}
/// A trait for types that can be converted into Postgres values.
///
/// # Types
///
/// The following implementations are provided by this crate, along with the
/// corresponding Postgres types:
///
/// | Rust type | Postgres type(s) |
/// |-----------------------------------|--------------------------------------|
/// | `bool` | BOOL |
/// | `i8` | "char" |
/// | `i16` | SMALLINT, SMALLSERIAL |
/// | `i32` | INT, SERIAL |
/// | `u32` | OID |
/// | `i64` | BIGINT, BIGSERIAL |
/// | `f32` | REAL |
/// | `f64` | DOUBLE PRECISION |
/// | `&str`/`String` | VARCHAR, CHAR(n), TEXT, CITEXT, NAME |
/// | | LTREE, LQUERY, LTXTQUERY |
/// | `&[u8]`/`Vec<u8>`/`[u8; N]` | BYTEA |
/// | `HashMap<String, Option<String>>` | HSTORE |
/// | `SystemTime` | TIMESTAMP, TIMESTAMP WITH TIME ZONE |
/// | `IpAddr` | INET |
///
/// In addition, some implementations are provided for types in third party
/// crates. These are disabled by default; to opt into one of these
/// implementations, activate the Cargo feature corresponding to the crate's
/// name prefixed by `with-`. For example, the `with-serde_json-1` feature enables
/// the implementation for the `serde_json::Value` type.
///
/// | Rust type | Postgres type(s) |
/// |---------------------------------|-------------------------------------|
/// | `chrono::NaiveDateTime` | TIMESTAMP |
/// | `chrono::DateTime<Utc>` | TIMESTAMP WITH TIME ZONE |
/// | `chrono::DateTime<Local>` | TIMESTAMP WITH TIME ZONE |
/// | `chrono::DateTime<FixedOffset>` | TIMESTAMP WITH TIME ZONE |
/// | `chrono::NaiveDate` | DATE |
/// | `chrono::NaiveTime` | TIME |
/// | `time::PrimitiveDateTime` | TIMESTAMP |
/// | `time::OffsetDateTime` | TIMESTAMP WITH TIME ZONE |
/// | `time::Date` | DATE |
/// | `time::Time` | TIME |
/// | `eui48::MacAddress` | MACADDR |
/// | `geo_types::Point<f64>` | POINT |
/// | `geo_types::Rect<f64>` | BOX |
/// | `geo_types::LineString<f64>` | PATH |
/// | `serde_json::Value` | JSON, JSONB |
/// | `uuid::Uuid` | UUID |
/// | `bit_vec::BitVec` | BIT, VARBIT |
/// | `eui48::MacAddress` | MACADDR |
///
/// # Nullability
///
/// In addition to the types listed above, `ToSql` is implemented for
/// `Option<T>` where `T` implements `ToSql`. An `Option<T>` represents a
/// nullable Postgres value.
///
/// # Arrays
///
/// `ToSql` is implemented for `[u8; N]`, `Vec<T>`, `&[T]`, `Box<[T]>` and `[T; N]`
/// where `T` implements `ToSql` and `N` is const usize, and corresponds to one-dimensional
/// Postgres arrays with an index offset of 1.
///
/// **Note:** the impl for arrays only exist when the Cargo feature `array-impls`
/// is enabled.
pub trait ToSql: fmt::Debug {
/// Converts the value of `self` into the binary format of the specified
/// Postgres `Type`, appending it to `out`.
///
/// The caller of this method is responsible for ensuring that this type
/// is compatible with the Postgres `Type`.
///
/// The return value indicates if this value should be represented as
/// `NULL`. If this is the case, implementations **must not** write
/// anything to `out`.
fn to_sql(&self, ty: &Type, out: &mut BytesMut) -> Result<IsNull, Box<dyn Error + Sync + Send>>
where
Self: Sized;
/// Determines if a value of this type can be converted to the specified
/// Postgres `Type`.
fn accepts(ty: &Type) -> bool
where
Self: Sized;
/// An adaptor method used internally by Rust-Postgres.
///
/// *All* implementations of this method should be generated by the
/// `to_sql_checked!()` macro.
fn to_sql_checked(
&self,
ty: &Type,
out: &mut BytesMut,
) -> Result<IsNull, Box<dyn Error + Sync + Send>>;
/// Specify the encode format
fn encode_format(&self, _ty: &Type) -> Format {
Format::Binary
}
}
/// Supported Postgres message format types
///
/// Using Text format in a message assumes a Postgres `SERVER_ENCODING` of `UTF8`
#[derive(Clone, Copy, Debug)]
pub enum Format {
/// Text format (UTF-8)
Text,
/// Compact, typed binary format
Binary,
}
impl<'a, T> ToSql for &'a T
where
T: ToSql,
{
fn to_sql(
&self,
ty: &Type,
out: &mut BytesMut,
) -> Result<IsNull, Box<dyn Error + Sync + Send>> {
(*self).to_sql(ty, out)
}
fn accepts(ty: &Type) -> bool {
T::accepts(ty)
}
fn encode_format(&self, ty: &Type) -> Format {
(*self).encode_format(ty)
}
to_sql_checked!();
}
impl<T: ToSql> ToSql for Option<T> {
fn to_sql(
&self,
ty: &Type,
out: &mut BytesMut,
) -> Result<IsNull, Box<dyn Error + Sync + Send>> {
match *self {
Some(ref val) => val.to_sql(ty, out),
None => Ok(IsNull::Yes),
}
}
fn accepts(ty: &Type) -> bool {
<T as ToSql>::accepts(ty)
}
fn encode_format(&self, ty: &Type) -> Format {
match self {
Some(ref val) => val.encode_format(ty),
None => Format::Binary,
}
}
to_sql_checked!();
}
impl<'a, T: ToSql> ToSql for &'a [T] {
fn to_sql(&self, ty: &Type, w: &mut BytesMut) -> Result<IsNull, Box<dyn Error + Sync + Send>> {
let member_type = match *ty.kind() {
Kind::Array(ref member) => member,
_ => panic!("expected array type"),
};
let dimension = ArrayDimension {
len: downcast(self.len())?,
lower_bound: 1,
};
types::array_to_sql(
Some(dimension),
member_type.oid(),
self.iter(),
|e, w| match e.to_sql(member_type, w)? {
IsNull::No => Ok(postgres_protocol::IsNull::No),
IsNull::Yes => Ok(postgres_protocol::IsNull::Yes),
},
w,
)?;
Ok(IsNull::No)
}
fn accepts(ty: &Type) -> bool {
match *ty.kind() {
Kind::Array(ref member) => T::accepts(member),
_ => false,
}
}
to_sql_checked!();
}
impl<'a> ToSql for &'a [u8] {
fn to_sql(&self, _: &Type, w: &mut BytesMut) -> Result<IsNull, Box<dyn Error + Sync + Send>> {
types::bytea_to_sql(self, w);
Ok(IsNull::No)
}
accepts!(BYTEA);
to_sql_checked!();
}
#[cfg(feature = "array-impls")]
impl<const N: usize> ToSql for [u8; N] {
fn to_sql(&self, _: &Type, w: &mut BytesMut) -> Result<IsNull, Box<dyn Error + Sync + Send>> {
types::bytea_to_sql(&self[..], w);
Ok(IsNull::No)
}
accepts!(BYTEA);
to_sql_checked!();
}
#[cfg(feature = "array-impls")]
impl<T: ToSql, const N: usize> ToSql for [T; N] {
fn to_sql(&self, ty: &Type, w: &mut BytesMut) -> Result<IsNull, Box<dyn Error + Sync + Send>> {
<&[T] as ToSql>::to_sql(&&self[..], ty, w)
}
fn accepts(ty: &Type) -> bool {
<&[T] as ToSql>::accepts(ty)
}
to_sql_checked!();
}
impl<T: ToSql> ToSql for Vec<T> {
fn to_sql(&self, ty: &Type, w: &mut BytesMut) -> Result<IsNull, Box<dyn Error + Sync + Send>> {
<&[T] as ToSql>::to_sql(&&**self, ty, w)
}
fn accepts(ty: &Type) -> bool {
<&[T] as ToSql>::accepts(ty)
}
to_sql_checked!();
}
impl<T: ToSql> ToSql for Box<[T]> {
fn to_sql(&self, ty: &Type, w: &mut BytesMut) -> Result<IsNull, Box<dyn Error + Sync + Send>> {
<&[T] as ToSql>::to_sql(&&**self, ty, w)
}
fn accepts(ty: &Type) -> bool {
<&[T] as ToSql>::accepts(ty)
}
to_sql_checked!();
}
impl ToSql for Vec<u8> {
fn to_sql(&self, ty: &Type, w: &mut BytesMut) -> Result<IsNull, Box<dyn Error + Sync + Send>> {
<&[u8] as ToSql>::to_sql(&&**self, ty, w)
}
fn accepts(ty: &Type) -> bool {
<&[u8] as ToSql>::accepts(ty)
}
to_sql_checked!();
}
impl<'a> ToSql for &'a str {
fn to_sql(&self, ty: &Type, w: &mut BytesMut) -> Result<IsNull, Box<dyn Error + Sync + Send>> {
match *ty {
ref ty if ty.name() == "ltree" => types::ltree_to_sql(self, w),
ref ty if ty.name() == "lquery" => types::lquery_to_sql(self, w),
ref ty if ty.name() == "ltxtquery" => types::ltxtquery_to_sql(self, w),
_ => types::text_to_sql(self, w),
}
Ok(IsNull::No)
}
fn accepts(ty: &Type) -> bool {
match *ty {
Type::VARCHAR | Type::TEXT | Type::BPCHAR | Type::NAME | Type::UNKNOWN => true,
ref ty
if (ty.name() == "citext"
|| ty.name() == "ltree"
|| ty.name() == "lquery"
|| ty.name() == "ltxtquery") =>
{
true
}
_ => false,
}
}
to_sql_checked!();
}
impl<'a> ToSql for Cow<'a, str> {
fn to_sql(&self, ty: &Type, w: &mut BytesMut) -> Result<IsNull, Box<dyn Error + Sync + Send>> {
<&str as ToSql>::to_sql(&self.as_ref(), ty, w)
}
fn accepts(ty: &Type) -> bool {
<&str as ToSql>::accepts(ty)
}
to_sql_checked!();
}
impl ToSql for String {
fn to_sql(&self, ty: &Type, w: &mut BytesMut) -> Result<IsNull, Box<dyn Error + Sync + Send>> {
<&str as ToSql>::to_sql(&&**self, ty, w)
}
fn accepts(ty: &Type) -> bool {
<&str as ToSql>::accepts(ty)
}
to_sql_checked!();
}
impl ToSql for Box<str> {
fn to_sql(&self, ty: &Type, w: &mut BytesMut) -> Result<IsNull, Box<dyn Error + Sync + Send>> {
<&str as ToSql>::to_sql(&&**self, ty, w)
}
fn accepts(ty: &Type) -> bool {
<&str as ToSql>::accepts(ty)
}
to_sql_checked!();
}
macro_rules! simple_to {
($t:ty, $f:ident, $($expected:ident),+) => {
impl ToSql for $t {
fn to_sql(&self,
_: &Type,
w: &mut BytesMut)
-> Result<IsNull, Box<dyn Error + Sync + Send>> {
types::$f(*self, w);
Ok(IsNull::No)
}
accepts!($($expected),+);
to_sql_checked!();
}
}
}
simple_to!(bool, bool_to_sql, BOOL);
simple_to!(i8, char_to_sql, CHAR);
simple_to!(i16, int2_to_sql, INT2);
simple_to!(i32, int4_to_sql, INT4);
simple_to!(u32, oid_to_sql, OID);
simple_to!(i64, int8_to_sql, INT8);
simple_to!(f32, float4_to_sql, FLOAT4);
simple_to!(f64, float8_to_sql, FLOAT8);
impl<H> ToSql for HashMap<String, Option<String>, H>
where
H: BuildHasher,
{
fn to_sql(&self, _: &Type, w: &mut BytesMut) -> Result<IsNull, Box<dyn Error + Sync + Send>> {
types::hstore_to_sql(
self.iter().map(|(k, v)| (&**k, v.as_ref().map(|v| &**v))),
w,
)?;
Ok(IsNull::No)
}
fn accepts(ty: &Type) -> bool {
ty.name() == "hstore"
}
to_sql_checked!();
}
impl ToSql for SystemTime {
fn to_sql(&self, _: &Type, w: &mut BytesMut) -> Result<IsNull, Box<dyn Error + Sync + Send>> {
let epoch = UNIX_EPOCH + Duration::from_secs(TIME_SEC_CONVERSION);
let to_usec =
|d: Duration| d.as_secs() * USEC_PER_SEC + u64::from(d.subsec_nanos()) / NSEC_PER_USEC;
let time = match self.duration_since(epoch) {
Ok(duration) => to_usec(duration) as i64,
Err(e) => -(to_usec(e.duration()) as i64),
};
types::timestamp_to_sql(time, w);
Ok(IsNull::No)
}
accepts!(TIMESTAMP, TIMESTAMPTZ);
to_sql_checked!();
}
impl ToSql for IpAddr {
fn to_sql(&self, _: &Type, w: &mut BytesMut) -> Result<IsNull, Box<dyn Error + Sync + Send>> {
let netmask = match self {
IpAddr::V4(_) => 32,
IpAddr::V6(_) => 128,
};
types::inet_to_sql(*self, netmask, w);
Ok(IsNull::No)
}
accepts!(INET);
to_sql_checked!();
}
fn downcast(len: usize) -> Result<i32, Box<dyn Error + Sync + Send>> {
if len > i32::max_value() as usize {
Err("value too large to transmit".into())
} else {
Ok(len as i32)
}
}
mod sealed {
pub trait Sealed {}
}
/// A trait used by clients to abstract over `&dyn ToSql` and `T: ToSql`.
///
/// This cannot be implemented outside of this crate.
pub trait BorrowToSql: sealed::Sealed {
/// Returns a reference to `self` as a `ToSql` trait object.
fn borrow_to_sql(&self) -> &dyn ToSql;
}
impl sealed::Sealed for &dyn ToSql {}
impl BorrowToSql for &dyn ToSql {
#[inline]
fn borrow_to_sql(&self) -> &dyn ToSql {
*self
}
}
impl sealed::Sealed for Box<dyn ToSql + Sync> {}
impl BorrowToSql for Box<dyn ToSql + Sync> {
#[inline]
fn borrow_to_sql(&self) -> &dyn ToSql {
self.as_ref()
}
}
impl sealed::Sealed for Box<dyn ToSql + Sync + Send> {}
impl BorrowToSql for Box<dyn ToSql + Sync + Send> {
#[inline]
fn borrow_to_sql(&self) -> &dyn ToSql {
self.as_ref()
}
}
impl sealed::Sealed for &(dyn ToSql + Sync) {}
/// In async contexts it is sometimes necessary to have the additional
/// Sync requirement on parameters for queries since this enables the
/// resulting Futures to be Send, hence usable in, e.g., tokio::spawn.
/// This instance is provided for those cases.
impl BorrowToSql for &(dyn ToSql + Sync) {
#[inline]
fn borrow_to_sql(&self) -> &dyn ToSql {
*self
}
}
impl<T> sealed::Sealed for T where T: ToSql {}
impl<T> BorrowToSql for T
where
T: ToSql,
{
#[inline]
fn borrow_to_sql(&self) -> &dyn ToSql {
self
}
}