Crate qm_mongodb::bson

BSON, short for Binary JSON, is a binary-encoded serialization of JSON-like documents. Like JSON, BSON supports the embedding of documents and arrays within other documents and arrays. BSON also contains extensions that allow representation of data types that are not part of the JSON spec. For example, BSON has a datetime type and a binary data type.

// JSON equivalent
{"hello": "world"}

// BSON encoding
\x16\x00\x00\x00                   // total document size
\x02                               // 0x02 = type String
hello\x00                          // field name
\x06\x00\x00\x00world\x00          // field value
\x00                               // 0x00 = type EOO ('end of object')

BSON is the primary data representation for MongoDB, and this crate is used in the mongodb driver crate in its API and implementation.

For more information about BSON itself, see bsonspec.org.

Installation

Requirements

• Rust 1.64+

Importing

This crate is available on crates.io. To use it in your application, simply add it to your project’s Cargo.toml.

[dependencies]
bson = "2.9.0"

Note that if you are using bson through the mongodb crate, you do not need to specify it in your Cargo.toml, since the mongodb crate already re-exports it.

Feature Flags

Feature	Description	Default
chrono-0_4	Enable support for v0.4 of the chrono crate in the public API.	no
uuid-0_8	Enable support for v0.8 of the uuid crate in the public API.	no
uuid-1	Enable support for v1.x of the uuid crate in the public API.	no
time-0_3	Enable support for v0.3 of the time crate in the public API.	no
serde_with	Enable serde_with integrations for DateTime and Uuid.	no

BSON values

Many different types can be represented as a BSON value, including 32-bit and 64-bit signed integers, 64 bit floating point numbers, strings, datetimes, embedded documents, and more. To see a full list of possible BSON values, see the BSON specification. The various possible BSON values are modeled in this crate by the Bson enum.

Creating Bson instances

Bson values can be instantiated directly or via the bson! macro:

use bson::{bson, Bson};

let string = Bson::String("hello world".to_string());
let int = Bson::Int32(5);
let array = Bson::Array(vec![Bson::Int32(5), Bson::Boolean(false)]);

let string: Bson = "hello world".into();
let int: Bson = 5i32.into();

let string = bson!("hello world");
let int = bson!(5);
let array = bson!([5, false]);

bson! has supports both array and object literals, and it automatically converts any values specified to Bson, provided they are Into<Bson>.

Bson value unwrapping

Bson has a number of helper methods for accessing the underlying native Rust types. These helpers can be useful in circumstances in which the specific type of a BSON value is known ahead of time.

e.g.:

use bson::{bson, Bson};

let value = Bson::Int32(5);
let int = value.as_i32(); // Some(5)
let bool = value.as_bool(); // None

let value = bson!([true]);
let array = value.as_array(); // Some(&Vec<Bson>)

BSON documents

BSON documents are ordered maps of UTF-8 encoded strings to BSON values. They are logically similar to JSON objects in that they can contain subdocuments, arrays, and values of several different types. This crate models BSON documents via the Document struct.

Creating Documents

Documents can be created directly either from a byte reader containing BSON data or via the doc! macro:

use bson::{doc, Document};
use std::io::Read;

let mut bytes = hex::decode("0C0000001069000100000000").unwrap();
let doc = Document::from_reader(&mut bytes.as_slice()).unwrap(); // { "i": 1 }

let doc = doc! {
   "hello": "world",
   "int": 5,
   "subdoc": { "cat": true },
};

doc! works similarly to bson!, except that it always returns a Document rather than a Bson.

Document member access

Document has a number of methods on it to facilitate member access:

use bson::doc;

let doc = doc! {
   "string": "string",
   "bool": true,
   "i32": 5,
   "doc": { "x": true },
};

// attempt get values as untyped Bson
let none = doc.get("asdfadsf"); // None
let value = doc.get("string"); // Some(&Bson::String("string"))

// attempt to get values with explicit typing
let string = doc.get_str("string"); // Ok("string")
let subdoc = doc.get_document("doc"); // Some(Document({ "x": true }))
let error = doc.get_i64("i32"); // Err(...)

Modeling BSON with strongly typed data structures

While it is possible to work with documents and BSON values directly, it will often introduce a lot of boilerplate for verifying the necessary keys are present and their values are the correct types. serde provides a powerful way of mapping BSON data into Rust data structures largely automatically, removing the need for all that boilerplate.

e.g.:

use serde::{Deserialize, Serialize};
use bson::{bson, Bson};

#[derive(Serialize, Deserialize)]
struct Person {
    name: String,
    age: i32,
    phones: Vec<String>,
}

// Some BSON input data as a [`Bson`].
let bson_data: Bson = bson!({
    "name": "John Doe",
    "age": 43,
    "phones": [
        "+44 1234567",
        "+44 2345678"
    ]
});

// Deserialize the Person struct from the BSON data, automatically
// verifying that the necessary keys are present and that they are of
// the correct types.
let mut person: Person = bson::from_bson(bson_data).unwrap();

// Do things just like with any other Rust data structure.
println!("Redacting {}'s record.", person.name);
person.name = "REDACTED".to_string();

// Get a serialized version of the input data as a [`Bson`].
let redacted_bson = bson::to_bson(&person).unwrap();

Any types that implement Serialize and Deserialize can be used in this way. Doing so helps separate the “business logic” that operates over the data from the (de)serialization logic that translates the data to/from its serialized form. This can lead to more clear and concise code that is also less error prone.

Working with datetimes

The BSON format includes a datetime type, which is modeled in this crate by the DateTime struct, and the Serialize and Deserialize implementations for this struct produce and parse BSON datetimes when serializing to or deserializing from BSON. The popular crate chrono also provides a DateTime type, but its Serialize and Deserialize implementations operate on strings instead, so when using it with BSON, the BSON datetime type is not used. To work around this, the chrono-0_4 feature flag can be enabled. This flag exposes a number of convenient conversions between bson::DateTime and [chrono::DateTime], including the [serde_helpers::chrono_datetime_as_bson_datetime] serde helper, which can be used to (de)serialize [chrono::DateTime]s to/from BSON datetimes, and the From<chrono::DateTime> implementation for Bson, which allows [chrono::DateTime] values to be used in the doc! and bson! macros.

e.g.

use serde::{Serialize, Deserialize};
use bson::doc;

#[derive(Serialize, Deserialize)]
struct Foo {
    // serializes as a BSON datetime.
    date_time: bson::DateTime,

    // serializes as an RFC 3339 / ISO-8601 string.
    chrono_datetime: chrono::DateTime<chrono::Utc>,

    // serializes as a BSON datetime.
    // this requires the "chrono-0_4" feature flag
    #[serde(with = "bson::serde_helpers::chrono_datetime_as_bson_datetime")]
    chrono_as_bson: chrono::DateTime<chrono::Utc>,
}

// this automatic conversion also requires the "chrono-0_4" feature flag
let query = doc! {
    "created_at": chrono::Utc::now(),
};

Working with UUIDs

See the module level documentation for the uuid module.

WASM support

This crate compiles to the wasm32-unknown-unknown target; when doing so, the js-sys crate is used for the current timestamp component of ObjectId generation.

Minimum supported Rust version (MSRV)

The MSRV for this crate is currently 1.64.0. This will be rarely be increased, and if it ever is, it will only happen in a minor or major version release.

Modules

• binary
• datetime
  Module containing functionality related to BSON DateTimes. For more information, see the documentation for the DateTime type.
• de
  Deserializer
• decimal128
  BSON Decimal128 data type representation
• document
  A BSON document represented as an associative HashMap with insertion ordering.
• extjson
  Deserialization and serialization of MongoDB Extended JSON v2
• oid
  Module containing functionality related to BSON ObjectIds. For more information, see the documentation for the ObjectId type.
• raw
  An API for interacting with raw BSON bytes.
• ser
  Serializer
• serde_helpers
  Collection of helper functions for serializing to and deserializing from BSON using Serde
• spec
  Constants derived from the BSON Specification Version 1.1.
• uuid
  UUID support for BSON.

Macros

• bson
  Construct a bson::BSON value from a literal.
• doc
  Construct a bson::Document value.
• rawbson
  Construct a crate::RawBson value from a literal.
• rawdoc
  Construct a crate::RawDocumentBuf value.

Structs

• Binary
  Represents a BSON binary value.
• DateTime
  Struct representing a BSON datetime. Note: BSON datetimes have millisecond precision.
• DbPointer
  Represents a DBPointer. (Deprecated)
• Decimal128
  Struct representing a BSON Decimal128 type.
• Deserializer
  Serde Deserializer
• DeserializerOptions
  Options used to configure a Deserializer. These can also be passed into crate::from_bson_with_options and crate::from_document_with_options.
• Document
  A BSON document represented as an associative HashMap with insertion ordering.
• JavaScriptCodeWithScope
  Represents a BSON code with scope value.
• RawArray
  A slice of a BSON document containing a BSON array value (akin to std::str). This can be retrieved from a RawDocument via RawDocument::get.
• RawArrayBuf
  An owned BSON array value (akin to std::path::PathBuf), backed by a buffer of raw BSON bytes. This type can be used to construct owned array values, which can be used to append to RawDocumentBuf or as a field in a Deserialize struct.
• RawBinaryRef
  A BSON binary value referencing raw bytes stored elsewhere.
• RawDbPointerRef
  A BSON DB pointer value referencing raw bytes stored elesewhere.
• RawDocument
  A slice of a BSON document (akin to std::str). This can be created from a RawDocumentBuf or any type that contains valid BSON data, including static binary literals, Vec<u8>, or arrays.
• RawDocumentBuf
  An owned BSON document (akin to std::path::PathBuf), backed by a buffer of raw BSON bytes. This can be created from a Vec<u8> or a crate::Document.
• RawJavaScriptCodeWithScope
  A BSON “code with scope” value backed by owned raw BSON.
• RawJavaScriptCodeWithScopeRef
  A BSON “code with scope” value referencing raw bytes stored elsewhere.
• RawRegexRef
  A BSON regex referencing raw bytes stored elsewhere.
• Regex
  Represents a BSON regular expression value.
• Serializer
  Serde Serializer
• SerializerOptions
  Options used to configure a Serializer.
• Timestamp
  Represents a BSON timestamp value.
• Uuid
  A struct modeling a BSON UUID value (i.e. a Binary value with subtype 4).

Enums

• Bson
  Possible BSON value types.
• RawBson
  A BSON value backed by owned raw BSON bytes.
• RawBsonRef
  A BSON value referencing raw bytes stored elsewhere.
• UuidRepresentation
  Enum of the possible representations to use when converting between Uuid and Binary. This enum is necessary because the different drivers used to have different ways of encoding UUIDs, with the BSON subtype: 0x03 (UUID old). If a UUID has been serialized with a particular representation, it MUST be deserialized with the same representation.

Functions

• from_bson
  Deserialize a T from the provided Bson value.
• from_bson_with_options
  Deserialize a T from the provided Bson value, configuring the underlying deserializer with the provided options.
• from_document
  Deserialize a T from the provided Document.
• from_document_with_options
  Deserialize a T from the provided Document, configuring the underlying deserializer with the provided options.
• from_reader
  Deserialize an instance of type T from an I/O stream of BSON.
• from_reader_utf8_lossy
  Deserialize an instance of type T from an I/O stream of BSON, replacing any invalid UTF-8 sequences with the Unicode replacement character.
• from_slice
  Deserialize an instance of type T from a slice of BSON bytes.
• from_slice_utf8_lossy
  Deserialize an instance of type T from a slice of BSON bytes, replacing any invalid UTF-8 sequences with the Unicode replacement character.
• to_bson
  Encode a T Serializable into a Bson value.
• to_bson_with_options
  Encode a T into a Bson value, configuring the underlying serializer with the provided options.
• to_document
  Encode a T Serializable into a BSON Document.
• to_document_with_options
  Encode a T into a Document, configuring the underlying serializer with the provided options.
• to_raw_document_buf
  Serialize the given T as a RawDocumentBuf.
• to_vec
  Serialize the given T as a BSON byte vector.

Type Aliases

• Array
  Alias for Vec<Bson>.