The protocol specification can be found here.
This crate targets simplicity and performance. No dependencies are used, just the standard Rust library.
We have two main structures available:
For convenience, a derive macro is available to implement Packable
and Unpackable
for the types. These implementations will allow the types to be sent and received from MessagePacker
and MessageUnpacker
implementations, such as CursorPacker
.
```rust use msgpacker::prelude::*;
pub struct Foo { val: u64, text: String, flag: bool, bar: Bar, }
pub struct Bar { arr: [u8; 32], }
let bar = Bar { arr: [0xff; 32] }; let foo = Foo { val: 15, text: String::from("Hello, world!"), flag: true, bar, };
// Create a new bytes buffer
let mut buffer: Vec
// Pack the message into the buffer
CursorPacker::new(&mut buffer).pack(foo.clone()).expect("failed to pack Foo
");
// Unpack the message from the buffer
let foo_p = CursorPacker::new(&buffer).unpack::Foo
");
// Assert the unpacked message is exactly the same as the original asserteq!(foo, foop); ```
```rust use msgpacker::prelude::*; use std::io::{Cursor, Seek};
let buffer = vec![0u8; 4096]; let mut cursor = Cursor::new(buffer);
let key = Message::string("some-key"); let value = Message::integer_signed(-15); let entry = MapEntry::new(key, value); let message = Message::map(vec![entry]);
// Write the message to the cursor message.pack(&mut cursor).expect("Message pack failed");
cursor.rewind().expect("Reset the cursor to the beginning");
// Read the message from the cursor let restored = Message::unpack(&mut cursor).expect("Message unpack failed"); let value = restored .asmap() .expect("A map was originally created") .first() .expect("The map contained one entry") .val() .asinteger() .expect("The value was an integer") .as_i64() .expect("The value was a negative integer");
assert_eq!(value, -15);
// Alternatively, we can use the index implementation let value = restored["some-key"] .asinteger() .expect("The value was an integer") .asi64() .expect("The value was a negative number");
assert_eq!(value, -15); ```
```rust use msgpacker::prelude::*; use std::io::{Cursor, Seek};
let mut cursor = Cursor::new(vec![0u8; 4096]);
let key = Message::String("some-key".into()); let value = Message::Integer(Integer::signed(-15)); let entry = MapEntry::new(key, value); let message = Message::Map(vec![entry]);
// Write the message to the cursor message.pack(&mut cursor).expect("Message pack failed");
cursor.rewind().expect("Reset the cursor to the beginning");
// The consumer need to guarantee himself the cursor source will live long enough to satisfy the // lifetime of the message reference. // // If this is guaranteed, then the function is safe. let restored = unsafe { MessageRef::unpack(&mut cursor).expect("Message unpack failed") };
// The lifetime of MessageRef
is not bound to the Read
implementation because the source
// might outlive it - as in this example
let buffer = cursor.intoinner();
// MessageRef
behaves the same as Message
, but the runtime cost is cheaper because it will
// avoid a couple of unnecessary copies
let value = restored
.asmap()
.expect("A map was originally created")
.first()
.expect("The map contained one entry")
.val()
.asinteger()
.expect("The value was an integer")
.as_i64()
.expect("The value was a negative integer");
assert_eq!(value, -15);
// MessageRef also implements Index
let value = restored["some-key"]
.asinteger()
.expect("The value was an integer")
.asi64()
.expect("The value was a negative number");
assert_eq!(value, -15); ```
Results obtained with Intel(R) Core(TM) i9-9900X CPU @ 3.50GHz
. To generate benchmarks, run $ cargo bench
.
The benchmark compares msgpacker with two very popuplar Rust implementations: rmpv and rmps. The performance was similar for pack and unpack, with msgpacker taking the lead a couple of times. Very often rmps was far behind.
The performance of integer packing was better for msgpacker.
However, for unpack by reference, the performance was dramatically better in favor of msgpacker for map deserialization.
The full report can be found here.