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126 lines
3.8 KiB
126 lines
3.8 KiB
use std::io::{Cursor, Read, Result as IoResult};
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use bytes::Buf;
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use criterion::*;
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use input_buffer::InputBuffer;
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use tungstenite::buffer::ReadBuffer;
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const CHUNK_SIZE: usize = 4096;
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/// A FIFO buffer for reading packets from the network.
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#[derive(Debug)]
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pub struct StackReadBuffer<const CHUNK_SIZE: usize> {
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storage: Cursor<Vec<u8>>,
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chunk: [u8; CHUNK_SIZE],
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}
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impl<const CHUNK_SIZE: usize> StackReadBuffer<CHUNK_SIZE> {
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/// Create a new empty input buffer.
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pub fn new() -> Self {
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Self::with_capacity(CHUNK_SIZE)
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}
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/// Create a new empty input buffer with a given `capacity`.
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pub fn with_capacity(capacity: usize) -> Self {
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Self::from_partially_read(Vec::with_capacity(capacity))
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}
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/// Create a input buffer filled with previously read data.
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pub fn from_partially_read(part: Vec<u8>) -> Self {
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Self { storage: Cursor::new(part), chunk: [0; CHUNK_SIZE] }
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}
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/// Get a cursor to the data storage.
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pub fn as_cursor(&self) -> &Cursor<Vec<u8>> {
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&self.storage
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}
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/// Get a cursor to the mutable data storage.
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pub fn as_cursor_mut(&mut self) -> &mut Cursor<Vec<u8>> {
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&mut self.storage
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}
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/// Consume the `ReadBuffer` and get the internal storage.
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pub fn into_vec(mut self) -> Vec<u8> {
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// Current implementation of `tungstenite-rs` expects that the `into_vec()` drains
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// the data from the container that has already been read by the cursor.
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self.clean_up();
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// Now we can safely return the internal container.
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self.storage.into_inner()
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}
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/// Read next portion of data from the given input stream.
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pub fn read_from<S: Read>(&mut self, stream: &mut S) -> IoResult<usize> {
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self.clean_up();
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let size = stream.read(&mut self.chunk)?;
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self.storage.get_mut().extend_from_slice(&self.chunk[..size]);
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Ok(size)
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}
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/// Cleans ups the part of the vector that has been already read by the cursor.
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fn clean_up(&mut self) {
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let pos = self.storage.position() as usize;
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self.storage.get_mut().drain(0..pos).count();
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self.storage.set_position(0);
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}
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}
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impl<const CHUNK_SIZE: usize> Buf for StackReadBuffer<CHUNK_SIZE> {
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fn remaining(&self) -> usize {
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Buf::remaining(self.as_cursor())
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}
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fn chunk(&self) -> &[u8] {
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Buf::chunk(self.as_cursor())
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}
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fn advance(&mut self, cnt: usize) {
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Buf::advance(self.as_cursor_mut(), cnt)
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}
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}
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impl<const CHUNK_SIZE: usize> Default for StackReadBuffer<CHUNK_SIZE> {
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fn default() -> Self {
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Self::new()
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}
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}
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#[inline]
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fn input_buffer(mut stream: impl Read) {
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let mut buffer = InputBuffer::with_capacity(CHUNK_SIZE);
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while buffer.read_from(&mut stream).unwrap() != 0 {}
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}
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#[inline]
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fn stack_read_buffer(mut stream: impl Read) {
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let mut buffer = StackReadBuffer::<CHUNK_SIZE>::new();
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while buffer.read_from(&mut stream).unwrap() != 0 {}
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}
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#[inline]
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fn heap_read_buffer(mut stream: impl Read) {
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let mut buffer = ReadBuffer::<CHUNK_SIZE>::new();
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while buffer.read_from(&mut stream).unwrap() != 0 {}
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}
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fn benchmark(c: &mut Criterion) {
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const STREAM_SIZE: usize = 1024 * 1024 * 4;
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let data: Vec<u8> = (0..STREAM_SIZE).map(|_| rand::random()).collect();
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let stream = Cursor::new(data);
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let mut group = c.benchmark_group("buffers");
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group.throughput(Throughput::Bytes(STREAM_SIZE as u64));
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group.bench_function("InputBuffer", |b| b.iter(|| input_buffer(black_box(stream.clone()))));
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group.bench_function("ReadBuffer (stack)", |b| {
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b.iter(|| stack_read_buffer(black_box(stream.clone())))
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});
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group.bench_function("ReadBuffer (heap)", |b| {
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b.iter(|| heap_read_buffer(black_box(stream.clone())))
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});
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group.finish();
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}
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criterion_group!(benches, benchmark);
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criterion_main!(benches);
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