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actix-web/src/server/helpers.rs

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use bytes::{BufMut, BytesMut};
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use http::Version;
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use std::cell::RefCell;
use std::collections::VecDeque;
use std::rc::Rc;
use std::{mem, ptr, slice};
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use httprequest::HttpInnerMessage;
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/// Internal use only! unsafe
pub(crate) struct SharedMessagePool(RefCell<VecDeque<Rc<HttpInnerMessage>>>);
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impl SharedMessagePool {
pub fn new() -> SharedMessagePool {
SharedMessagePool(RefCell::new(VecDeque::with_capacity(128)))
}
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#[inline]
pub fn get(&self) -> Rc<HttpInnerMessage> {
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if let Some(msg) = self.0.borrow_mut().pop_front() {
msg
} else {
Rc::new(HttpInnerMessage::default())
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}
}
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#[inline]
pub fn release(&self, mut msg: Rc<HttpInnerMessage>) {
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let v = &mut self.0.borrow_mut();
if v.len() < 128 {
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Rc::get_mut(&mut msg).unwrap().reset();
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v.push_front(msg);
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}
}
}
pub(crate) struct SharedHttpInnerMessage(
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Option<Rc<HttpInnerMessage>>,
Option<Rc<SharedMessagePool>>,
);
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impl Drop for SharedHttpInnerMessage {
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fn drop(&mut self) {
if let Some(ref pool) = self.1 {
if let Some(msg) = self.0.take() {
if Rc::strong_count(&msg) == 1 {
pool.release(msg);
}
}
}
}
}
impl Clone for SharedHttpInnerMessage {
fn clone(&self) -> SharedHttpInnerMessage {
SharedHttpInnerMessage(self.0.clone(), self.1.clone())
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}
}
impl Default for SharedHttpInnerMessage {
fn default() -> SharedHttpInnerMessage {
SharedHttpInnerMessage(Some(Rc::new(HttpInnerMessage::default())), None)
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}
}
impl SharedHttpInnerMessage {
pub fn from_message(msg: HttpInnerMessage) -> SharedHttpInnerMessage {
SharedHttpInnerMessage(Some(Rc::new(msg)), None)
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}
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pub fn new(
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msg: Rc<HttpInnerMessage>, pool: Rc<SharedMessagePool>,
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) -> SharedHttpInnerMessage {
SharedHttpInnerMessage(Some(msg), Some(pool))
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}
#[inline(always)]
#[allow(mutable_transmutes)]
#[cfg_attr(feature = "cargo-clippy", allow(mut_from_ref, inline_always))]
pub fn get_mut(&self) -> &mut HttpInnerMessage {
let r: &HttpInnerMessage = self.0.as_ref().unwrap().as_ref();
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unsafe { &mut *(r as *const _ as *mut _) }
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}
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#[inline(always)]
#[cfg_attr(feature = "cargo-clippy", allow(inline_always))]
pub fn get_ref(&self) -> &HttpInnerMessage {
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self.0.as_ref().unwrap()
}
}
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const DEC_DIGITS_LUT: &[u8] = b"0001020304050607080910111213141516171819\
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2021222324252627282930313233343536373839\
4041424344454647484950515253545556575859\
6061626364656667686970717273747576777879\
8081828384858687888990919293949596979899";
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pub(crate) fn write_status_line(version: Version, mut n: u16, bytes: &mut BytesMut) {
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let mut buf: [u8; 13] = [
b'H', b'T', b'T', b'P', b'/', b'1', b'.', b'1', b' ', b' ', b' ', b' ', b' ',
];
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match version {
Version::HTTP_2 => buf[5] = b'2',
Version::HTTP_10 => buf[7] = b'0',
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Version::HTTP_09 => {
buf[5] = b'0';
buf[7] = b'9';
}
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_ => (),
}
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let mut curr: isize = 12;
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let buf_ptr = buf.as_mut_ptr();
let lut_ptr = DEC_DIGITS_LUT.as_ptr();
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let four = n > 999;
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unsafe {
// decode 2 more chars, if > 2 chars
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let d1 = (n % 100) << 1;
n /= 100;
curr -= 2;
ptr::copy_nonoverlapping(lut_ptr.offset(d1 as isize), buf_ptr.offset(curr), 2);
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// decode last 1 or 2 chars
if n < 10 {
curr -= 1;
*buf_ptr.offset(curr) = (n as u8) + b'0';
} else {
let d1 = n << 1;
curr -= 2;
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ptr::copy_nonoverlapping(
lut_ptr.offset(d1 as isize),
buf_ptr.offset(curr),
2,
);
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}
}
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bytes.put_slice(&buf);
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if four {
bytes.put(b' ');
}
}
/// NOTE: bytes object has to contain enough space
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pub(crate) fn write_content_length(mut n: usize, bytes: &mut BytesMut) {
if n < 10 {
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let mut buf: [u8; 21] = [
b'\r', b'\n', b'c', b'o', b'n', b't', b'e', b'n', b't', b'-', b'l', b'e',
b'n', b'g', b't', b'h', b':', b' ', b'0', b'\r', b'\n',
];
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buf[18] = (n as u8) + b'0';
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bytes.put_slice(&buf);
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} else if n < 100 {
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let mut buf: [u8; 22] = [
b'\r', b'\n', b'c', b'o', b'n', b't', b'e', b'n', b't', b'-', b'l', b'e',
b'n', b'g', b't', b'h', b':', b' ', b'0', b'0', b'\r', b'\n',
];
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let d1 = n << 1;
unsafe {
ptr::copy_nonoverlapping(
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DEC_DIGITS_LUT.as_ptr().offset(d1 as isize),
buf.as_mut_ptr().offset(18),
2,
);
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}
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bytes.put_slice(&buf);
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} else if n < 1000 {
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let mut buf: [u8; 23] = [
b'\r', b'\n', b'c', b'o', b'n', b't', b'e', b'n', b't', b'-', b'l', b'e',
b'n', b'g', b't', b'h', b':', b' ', b'0', b'0', b'0', b'\r', b'\n',
];
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// decode 2 more chars, if > 2 chars
let d1 = (n % 100) << 1;
n /= 100;
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unsafe {
ptr::copy_nonoverlapping(
DEC_DIGITS_LUT.as_ptr().offset(d1 as isize),
buf.as_mut_ptr().offset(19),
2,
)
};
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// decode last 1
buf[18] = (n as u8) + b'0';
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bytes.put_slice(&buf);
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} else {
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bytes.put_slice(b"\r\ncontent-length: ");
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convert_usize(n, bytes);
}
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}
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pub(crate) fn convert_usize(mut n: usize, bytes: &mut BytesMut) {
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let mut curr: isize = 39;
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let mut buf: [u8; 41] = unsafe { mem::uninitialized() };
buf[39] = b'\r';
buf[40] = b'\n';
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let buf_ptr = buf.as_mut_ptr();
let lut_ptr = DEC_DIGITS_LUT.as_ptr();
unsafe {
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// eagerly decode 4 characters at a time
while n >= 10_000 {
let rem = (n % 10_000) as isize;
n /= 10_000;
let d1 = (rem / 100) << 1;
let d2 = (rem % 100) << 1;
curr -= 4;
ptr::copy_nonoverlapping(lut_ptr.offset(d1), buf_ptr.offset(curr), 2);
ptr::copy_nonoverlapping(lut_ptr.offset(d2), buf_ptr.offset(curr + 2), 2);
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}
// if we reach here numbers are <= 9999, so at most 4 chars long
let mut n = n as isize; // possibly reduce 64bit math
// decode 2 more chars, if > 2 chars
if n >= 100 {
let d1 = (n % 100) << 1;
n /= 100;
curr -= 2;
ptr::copy_nonoverlapping(lut_ptr.offset(d1), buf_ptr.offset(curr), 2);
}
// decode last 1 or 2 chars
if n < 10 {
curr -= 1;
*buf_ptr.offset(curr) = (n as u8) + b'0';
} else {
let d1 = n << 1;
curr -= 2;
ptr::copy_nonoverlapping(lut_ptr.offset(d1), buf_ptr.offset(curr), 2);
}
}
unsafe {
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bytes.extend_from_slice(slice::from_raw_parts(
buf_ptr.offset(curr),
41 - curr as usize,
));
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}
}
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#[cfg(test)]
mod tests {
use super::*;
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#[test]
fn test_write_content_length() {
let mut bytes = BytesMut::new();
bytes.reserve(50);
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write_content_length(0, &mut bytes);
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assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 0\r\n"[..]);
bytes.reserve(50);
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write_content_length(9, &mut bytes);
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assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 9\r\n"[..]);
bytes.reserve(50);
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write_content_length(10, &mut bytes);
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assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 10\r\n"[..]);
bytes.reserve(50);
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write_content_length(99, &mut bytes);
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assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 99\r\n"[..]);
bytes.reserve(50);
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write_content_length(100, &mut bytes);
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assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 100\r\n"[..]);
bytes.reserve(50);
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write_content_length(101, &mut bytes);
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assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 101\r\n"[..]);
bytes.reserve(50);
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write_content_length(998, &mut bytes);
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assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 998\r\n"[..]);
bytes.reserve(50);
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write_content_length(1000, &mut bytes);
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assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 1000\r\n"[..]);
bytes.reserve(50);
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write_content_length(1001, &mut bytes);
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assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 1001\r\n"[..]);
bytes.reserve(50);
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write_content_length(5909, &mut bytes);
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assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 5909\r\n"[..]);
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}
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}