serde/benches/bench_log.rs
2015-02-13 10:26:13 -08:00

1690 lines
42 KiB
Rust
Executable File

#![feature(collections, core, io, plugin, test)]
#![allow(non_camel_case_types)]
#![plugin(serde_macros)]
extern crate serde;
extern crate "rustc-serialize" as rustc_serialize;
extern crate test;
use std::old_io::ByRefWriter;
use std::old_io::extensions::Bytes;
use std::old_io;
use std::num::FromPrimitive;
use test::Bencher;
use serde::de;
use serde::json::ser::escape_str;
use serde::json;
use serde::ser::Serialize;
use serde::ser;
use rustc_serialize::Encodable;
#[derive(Debug, PartialEq, RustcEncodable, RustcDecodable)]
#[derive_serialize]
#[derive_deserialize]
struct Http {
protocol: HttpProtocol,
status: u32,
host_status: u32,
up_status: u32,
method: HttpMethod,
content_type: String,
user_agent: String,
referer: String,
request_uri: String,
}
#[derive(Copy, Debug, PartialEq, FromPrimitive)]
enum HttpProtocol {
HTTP_PROTOCOL_UNKNOWN,
HTTP10,
HTTP11,
}
impl rustc_serialize::Encodable for HttpProtocol {
fn encode<S: rustc_serialize::Encoder>(&self, s: &mut S) -> Result<(), S::Error> {
(*self as usize).encode(s)
}
}
impl rustc_serialize::Decodable for HttpProtocol {
fn decode<D: rustc_serialize::Decoder>(d: &mut D) -> Result<HttpProtocol, D::Error> {
match FromPrimitive::from_uint(try!(d.read_usize())) {
Some(value) => Ok(value),
None => Err(d.error("cannot convert from uint")),
}
}
}
impl<S: ser::Serializer<E>, E> ser::Serialize<S, E> for HttpProtocol {
#[inline]
fn serialize(&self, s: &mut S) -> Result<(), E> {
s.serialize_usize(*self as usize)
}
}
impl<D: de::Deserializer<E>, E> de::Deserialize<D, E> for HttpProtocol {
#[inline]
fn deserialize_token(d: &mut D, token: de::Token) -> Result<HttpProtocol, E> {
d.expect_from_primitive(token)
}
}
#[derive(Copy, Debug, PartialEq, FromPrimitive)]
enum HttpMethod {
METHOD_UNKNOWN,
GET,
POST,
DELETE,
PUT,
HEAD,
PURGE,
OPTIONS,
PROPFIND,
MKCOL,
PATCH,
}
impl rustc_serialize::Encodable for HttpMethod {
fn encode<S: rustc_serialize::Encoder>(&self, s: &mut S) -> Result<(), S::Error> {
(*self as usize).encode(s)
}
}
impl rustc_serialize::Decodable for HttpMethod {
fn decode<D: rustc_serialize::Decoder>(d: &mut D) -> Result<HttpMethod, D::Error> {
match FromPrimitive::from_uint(try!(d.read_usize())) {
Some(value) => Ok(value),
None => Err(d.error("cannot convert from usize")),
}
}
}
impl<S: ser::Serializer<E>, E> ser::Serialize<S, E> for HttpMethod {
#[inline]
fn serialize(&self, s: &mut S) -> Result<(), E> {
s.serialize_usize(*self as usize)
}
}
impl<D: de::Deserializer<E>, E> de::Deserialize<D, E> for HttpMethod {
#[inline]
fn deserialize_token(d: &mut D, token: de::Token) -> Result<HttpMethod, E> {
d.expect_from_primitive(token)
}
}
#[derive(Copy, Debug, PartialEq, FromPrimitive)]
enum CacheStatus {
CACHESTATUS_UNKNOWN,
Miss,
Expired,
Hit,
}
impl rustc_serialize::Encodable for CacheStatus {
fn encode<S: rustc_serialize::Encoder>(&self, s: &mut S) -> Result<(), S::Error> {
(*self as usize).encode(s)
}
}
impl rustc_serialize::Decodable for CacheStatus {
fn decode<D: rustc_serialize::Decoder>(d: &mut D) -> Result<CacheStatus, D::Error> {
match FromPrimitive::from_uint(try!(d.read_usize())) {
Some(value) => Ok(value),
None => Err(d.error("cannot convert from usize")),
}
}
}
impl<S: ser::Serializer<E>, E> ser::Serialize<S, E> for CacheStatus {
#[inline]
fn serialize(&self, s: &mut S) -> Result<(), E> {
s.serialize_usize(*self as usize)
}
}
impl<D: de::Deserializer<E>, E> de::Deserialize<D, E> for CacheStatus {
#[inline]
fn deserialize_token(d: &mut D, token: de::Token) -> Result<CacheStatus, E> {
d.expect_from_primitive(token)
}
}
#[derive(Debug, PartialEq, RustcEncodable, RustcDecodable)]
#[derive_serialize]
#[derive_deserialize]
struct Origin {
ip: String,
port: u32,
hostname: String,
protocol: OriginProtocol,
}
#[derive(Copy, Debug, PartialEq, FromPrimitive)]
enum OriginProtocol {
ORIGIN_PROTOCOL_UNKNOWN,
HTTP,
HTTPS,
}
impl rustc_serialize::Encodable for OriginProtocol {
fn encode<S: rustc_serialize::Encoder>(&self, s: &mut S) -> Result<(), S::Error> {
(*self as usize).encode(s)
}
}
impl rustc_serialize::Decodable for OriginProtocol {
fn decode<D: rustc_serialize::Decoder>(d: &mut D) -> Result<OriginProtocol, D::Error> {
match FromPrimitive::from_uint(try!(d.read_usize())) {
Some(value) => Ok(value),
None => Err(d.error("cannot convert from usize")),
}
}
}
impl<S: ser::Serializer<E>, E> ser::Serialize<S, E> for OriginProtocol {
#[inline]
fn serialize(&self, s: &mut S) -> Result<(), E> {
s.serialize_usize(*self as usize)
}
}
impl<D: de::Deserializer<E>, E> de::Deserialize<D, E> for OriginProtocol {
#[inline]
fn deserialize_token(d: &mut D, token: de::Token) -> Result<OriginProtocol, E> {
d.expect_from_primitive(token)
}
}
#[derive(Copy, Debug, PartialEq, FromPrimitive)]
enum ZonePlan {
ZONEPLAN_UNKNOWN,
FREE,
PRO,
BIZ,
ENT,
}
impl rustc_serialize::Encodable for ZonePlan {
fn encode<S: rustc_serialize::Encoder>(&self, s: &mut S) -> Result<(), S::Error> {
(*self as usize).encode(s)
}
}
impl rustc_serialize::Decodable for ZonePlan {
fn decode<D: rustc_serialize::Decoder>(d: &mut D) -> Result<ZonePlan, D::Error> {
match FromPrimitive::from_uint(try!(d.read_usize())) {
Some(value) => Ok(value),
None => Err(d.error("cannot convert from usize")),
}
}
}
impl<S: ser::Serializer<E>, E> ser::Serialize<S, E> for ZonePlan {
#[inline]
fn serialize(&self, s: &mut S) -> Result<(), E> {
s.serialize_usize(*self as usize)
}
}
impl<D: de::Deserializer<E>, E> de::Deserialize<D, E> for ZonePlan {
#[inline]
fn deserialize_token(d: &mut D, token: de::Token) -> Result<ZonePlan, E> {
d.expect_from_primitive(token)
}
}
#[derive(Copy, Debug, PartialEq, FromPrimitive)]
enum Country {
UNKNOWN,
A1,
A2,
O1,
AD,
AE,
AF,
AG,
AI,
AL,
AM,
AO,
AP,
AQ,
AR,
AS,
AT,
AU,
AW,
AX,
AZ,
BA,
BB,
BD,
BE,
BF,
BG,
BH,
BI,
BJ,
BL,
BM,
BN,
BO,
BQ,
BR,
BS,
BT,
BV,
BW,
BY,
BZ,
CA,
CC,
CD,
CF,
CG,
CH,
CI,
CK,
CL,
CM,
CN,
CO,
CR,
CU,
CV,
CW,
CX,
CY,
CZ,
DE,
DJ,
DK,
DM,
DO,
DZ,
EC,
EE,
EG,
EH,
ER,
ES,
ET,
EU,
FI,
FJ,
FK,
FM,
FO,
FR,
GA,
GB,
GD,
GE,
GF,
GG,
GH,
GI,
GL,
GM,
GN,
GP,
GQ,
GR,
GS,
GT,
GU,
GW,
GY,
HK,
HM,
HN,
HR,
HT,
HU,
ID,
IE,
IL,
IM,
IN,
IO,
IQ,
IR,
IS,
IT,
JE,
JM,
JO,
JP,
KE,
KG,
KH,
KI,
KM,
KN,
KP,
KR,
KW,
KY,
KZ,
LA,
LB,
LC,
LI,
LK,
LR,
LS,
LT,
LU,
LV,
LY,
MA,
MC,
MD,
ME,
MF,
MG,
MH,
MK,
ML,
MM,
MN,
MO,
MP,
MQ,
MR,
MS,
MT,
MU,
MV,
MW,
MX,
MY,
MZ,
NA,
NC,
NE,
NF,
NG,
NI,
NL,
NO,
NP,
NR,
NU,
NZ,
OM,
PA,
PE,
PF,
PG,
PH,
PK,
PL,
PM,
PN,
PR,
PS,
PT,
PW,
PY,
QA,
RE,
RO,
RS,
RU,
RW,
SA,
SB,
SC,
SD,
SE,
SG,
SH,
SI,
SJ,
SK,
SL,
SM,
SN,
SO,
SR,
SS,
ST,
SV,
SX,
SY,
SZ,
TC,
TD,
TF,
TG,
TH,
TJ,
TK,
TL,
TM,
TN,
TO,
TR,
TT,
TV,
TW,
TZ,
UA,
UG,
UM,
US,
UY,
UZ,
VA,
VC,
VE,
VG,
VI,
VN,
VU,
WF,
WS,
XX,
YE,
YT,
ZA,
ZM,
ZW,
}
impl rustc_serialize::Encodable for Country {
fn encode<S: rustc_serialize::Encoder>(&self, s: &mut S) -> Result<(), S::Error> {
(*self as usize).encode(s)
}
}
impl rustc_serialize::Decodable for Country {
fn decode<D: rustc_serialize::Decoder>(d: &mut D) -> Result<Country, D::Error> {
match FromPrimitive::from_uint(try!(d.read_usize())) {
Some(value) => Ok(value),
None => Err(d.error("cannot convert from usize")),
}
}
}
impl<S: ser::Serializer<E>, E> ser::Serialize<S, E> for Country {
#[inline]
fn serialize(&self, s: &mut S) -> Result<(), E> {
s.serialize_usize(*self as usize)
}
}
impl<D: de::Deserializer<E>, E> de::Deserialize<D, E> for Country {
#[inline]
fn deserialize_token(d: &mut D, token: de::Token) -> Result<Country, E> {
d.expect_from_primitive(token)
}
}
#[derive(Debug, PartialEq, RustcEncodable, RustcDecodable)]
#[derive_serialize]
#[derive_deserialize]
struct Log {
timestamp: i64,
zone_id: u32,
zone_plan: ZonePlan,
http: Http,
origin: Origin,
country: Country,
cache_status: CacheStatus,
server_ip: String,
server_name: String,
remote_ip: String,
bytes_dlv: u64,
ray_id: String,
}
impl Log {
fn new() -> Log {
Log {
timestamp: 2837513946597,
zone_id: 123456,
zone_plan: ZonePlan::FREE,
http: Http {
protocol: HttpProtocol::HTTP11,
status: 200,
host_status: 503,
up_status: 520,
method: HttpMethod::GET,
content_type: "text/html".to_string(),
user_agent: "Mozilla/5.0 (X11; Linux x86_64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/33.0.1750.146 Safari/537.36".to_string(),
referer: "https://www.cloudflare.com/".to_string(),
request_uri: "/cdn-cgi/trace".to_string(),
},
origin: Origin {
ip: "1.2.3.4".to_string(),
port: 8000,
hostname: "www.example.com".to_string(),
protocol: OriginProtocol::HTTPS,
},
country: Country::US,
cache_status: CacheStatus::Hit,
server_ip: "192.168.1.1".to_string(),
server_name: "metal.cloudflare.com".to_string(),
remote_ip: "10.1.2.3".to_string(),
bytes_dlv: 123456,
ray_id: "10c73629cce30078-LAX".to_string(),
}
}
}
macro_rules! likely(
($val:expr) => {
{
extern {
#[link_name = "llvm.expect.i8"]
fn expect(val: u8, expected_val: u8) -> u8;
}
let x: bool = $val;
unsafe { expect(x as u8, 1) != 0 }
}
}
);
macro_rules! unlikely(
($val:expr) => {
{
extern {
#[link_name = "llvm.expect.i8"]
fn expect(val: u8, expected_val: u8) -> u8;
}
let x: bool = $val;
unsafe { expect(x as u8, 0) != 0 }
}
}
);
struct MyMemWriter0 {
buf: Vec<u8>,
}
impl MyMemWriter0 {
pub fn with_capacity(cap: usize) -> MyMemWriter0 {
MyMemWriter0 {
buf: Vec::with_capacity(cap)
}
}
}
impl Writer for MyMemWriter0 {
#[inline]
fn write_all(&mut self, buf: &[u8]) -> old_io::IoResult<()> {
self.buf.push_all(buf);
Ok(())
}
}
struct MyMemWriter1 {
buf: Vec<u8>,
}
impl MyMemWriter1 {
pub fn with_capacity(cap: usize) -> MyMemWriter1 {
MyMemWriter1 {
buf: Vec::with_capacity(cap)
}
}
}
// LLVM isn't yet able to lower `Vec::push_all` into a memcpy, so this helps
// MemWriter eke out that last bit of performance.
#[inline]
fn push_all_bytes(dst: &mut Vec<u8>, src: &[u8]) {
let dst_len = dst.len();
let src_len = src.len();
dst.reserve(src_len);
unsafe {
// we would have failed if `reserve` overflowed.
dst.set_len(dst_len + src_len);
::std::ptr::copy_nonoverlapping_memory(
dst.as_mut_ptr().offset(dst_len as isize),
src.as_ptr(),
src_len);
}
}
impl Writer for MyMemWriter1 {
#[inline]
fn write_all(&mut self, buf: &[u8]) -> old_io::IoResult<()> {
push_all_bytes(&mut self.buf, buf);
Ok(())
}
}
const JSON_STR: &'static str = r#"{"timestamp":2837513946597,"zone_id":123456,"zone_plan":1,"http":{"protocol":2,"status":200,"host_status":503,"up_status":520,"method":1,"content_type":"text/html","user_agent":"Mozilla/5.0 (X11; Linux x86_64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/33.0.1750.146 Safari/537.36","referer":"https://www.cloudflare.com/","request_uri":"/cdn-cgi/trace"},"origin":{"ip":"1.2.3.4","port":8000,"hostname":"www.example.com","protocol":2},"country":238,"cache_status":3,"server_ip":"192.168.1.1","server_name":"metal.cloudflare.com","remote_ip":"10.1.2.3","bytes_dlv":123456,"ray_id":"10c73629cce30078-LAX"}"#;
#[test]
fn test_encoder() {
use rustc_serialize::Encodable;
let log = Log::new();
let mut wr = String::with_capacity(1024);
{
let mut encoder = rustc_serialize::json::Encoder::new(&mut wr);
log.encode(&mut encoder).unwrap();
}
assert_eq!(&wr[], JSON_STR);
}
#[bench]
fn bench_encoder(b: &mut Bencher) {
let log = Log::new();
let mut wr = String::with_capacity(1024);
{
let mut encoder = rustc_serialize::json::Encoder::new(&mut wr);
log.encode(&mut encoder).unwrap();
}
b.bytes = wr.len() as u64;
b.iter(|| {
wr.clear();
let mut encoder = rustc_serialize::json::Encoder::new(&mut wr);
log.encode(&mut encoder).unwrap();
});
}
#[test]
fn test_serializer() {
let log = Log::new();
let json = json::to_vec(&log);
assert_eq!(json, JSON_STR.as_bytes());
}
#[bench]
fn bench_serializer(b: &mut Bencher) {
let log = Log::new();
let json = json::to_vec(&log);
b.bytes = json.len() as u64;
b.iter(|| {
let _ = json::to_vec(&log);
});
}
#[test]
fn test_serializer_vec() {
let log = Log::new();
let wr = Vec::with_capacity(1024);
let mut serializer = json::Serializer::new(wr);
log.serialize(&mut serializer).unwrap();
let json = serializer.unwrap();
assert_eq!(&json[], JSON_STR.as_bytes());
}
#[bench]
fn bench_serializer_vec(b: &mut Bencher) {
let log = Log::new();
let json = json::to_vec(&log);
b.bytes = json.len() as u64;
let mut wr = Vec::with_capacity(1024);
b.iter(|| {
wr.clear();
let mut serializer = json::Serializer::new(wr.by_ref());
log.serialize(&mut serializer).unwrap();
let _json = serializer.unwrap();
});
}
#[bench]
fn bench_serializer_slice(b: &mut Bencher) {
let log = Log::new();
let json = json::to_vec(&log);
b.bytes = json.len() as u64;
let mut buf = [0; 1024];
b.iter(|| {
for item in buf.iter_mut(){ *item = 0; }
let mut wr = std::old_io::BufWriter::new(&mut buf);
let mut serializer = json::Serializer::new(wr.by_ref());
log.serialize(&mut serializer).unwrap();
let _json = serializer.unwrap();
});
}
#[test]
fn test_serializer_my_mem_writer0() {
let log = Log::new();
let mut wr = MyMemWriter0::with_capacity(1024);
{
let mut serializer = json::Serializer::new(wr.by_ref());
log.serialize(&mut serializer).unwrap();
}
assert_eq!(&wr.buf[], JSON_STR.as_bytes());
}
#[bench]
fn bench_serializer_my_mem_writer0(b: &mut Bencher) {
let log = Log::new();
let json = json::to_vec(&log);
b.bytes = json.len() as u64;
let mut wr = MyMemWriter0::with_capacity(1024);
b.iter(|| {
wr.buf.clear();
let mut serializer = json::Serializer::new(wr.by_ref());
log.serialize(&mut serializer).unwrap();
let _json = serializer.unwrap();
});
}
#[test]
fn test_serializer_my_mem_writer1() {
let log = Log::new();
let mut wr = MyMemWriter1::with_capacity(1024);
{
let mut serializer = json::Serializer::new(wr.by_ref());
log.serialize(&mut serializer).unwrap();
}
assert_eq!(&wr.buf[], JSON_STR.as_bytes());
}
#[bench]
fn bench_serializer_my_mem_writer1(b: &mut Bencher) {
let log = Log::new();
let json = json::to_vec(&log);
b.bytes = json.len() as u64;
let mut wr = MyMemWriter1::with_capacity(1024);
b.iter(|| {
wr.buf.clear();
let mut serializer = json::Serializer::new(wr.by_ref());
log.serialize(&mut serializer).unwrap();
let _json = serializer.unwrap();
});
}
#[bench]
fn bench_copy(b: &mut Bencher) {
let json = JSON_STR.as_bytes().to_vec();
b.bytes = json.len() as u64;
b.iter(|| {
let _json = JSON_STR.as_bytes().to_vec();
});
}
fn manual_serialize_no_escape<W: Writer>(wr: &mut W, log: &Log) {
wr.write_str("{\"timestamp\":").unwrap();
(write!(wr, "{}", log.timestamp)).unwrap();
wr.write_str(",\"zone_id\":").unwrap();
(write!(wr, "{}", log.zone_id)).unwrap();
wr.write_str(",\"zone_plan\":").unwrap();
(write!(wr, "{}", log.zone_plan as usize)).unwrap();
wr.write_str(",\"http\":{\"protocol\":").unwrap();
(write!(wr, "{}", log.http.protocol as usize)).unwrap();
wr.write_str(",\"status\":").unwrap();
(write!(wr, "{}", log.http.status)).unwrap();
wr.write_str(",\"host_status\":").unwrap();
(write!(wr, "{}", log.http.host_status)).unwrap();
wr.write_str(",\"up_status\":").unwrap();
(write!(wr, "{}", log.http.up_status)).unwrap();
wr.write_str(",\"method\":").unwrap();
(write!(wr, "{}", log.http.method as usize)).unwrap();
wr.write_str(",\"content_type\":").unwrap();
(write!(wr, "\"{}\"", log.http.content_type)).unwrap();
wr.write_str(",\"user_agent\":").unwrap();
(write!(wr, "\"{}\"", log.http.user_agent)).unwrap();
wr.write_str(",\"referer\":").unwrap();
(write!(wr, "\"{}\"", log.http.referer)).unwrap();
wr.write_str(",\"request_uri\":").unwrap();
(write!(wr, "\"{}\"", log.http.request_uri)).unwrap();
wr.write_str("},\"origin\":{").unwrap();
wr.write_str("\"ip\":").unwrap();
(write!(wr, "\"{}\"", log.origin.ip)).unwrap();
wr.write_str(",\"port\":").unwrap();
(write!(wr, "{}", log.origin.port)).unwrap();
wr.write_str(",\"hostname\":").unwrap();
(write!(wr, "\"{}\"", log.origin.hostname)).unwrap();
wr.write_str(",\"protocol\":").unwrap();
(write!(wr, "{}", log.origin.protocol as usize)).unwrap();
wr.write_str("},\"country\":").unwrap();
(write!(wr, "{}", log.country as usize)).unwrap();
wr.write_str(",\"cache_status\":").unwrap();
(write!(wr, "{}", log.cache_status as usize)).unwrap();
wr.write_str(",\"server_ip\":").unwrap();
(write!(wr, "\"{}\"", log.server_ip)).unwrap();
wr.write_str(",\"server_name\":").unwrap();
(write!(wr, "\"{}\"", log.server_name)).unwrap();
wr.write_str(",\"remote_ip\":").unwrap();
(write!(wr, "\"{}\"", log.remote_ip)).unwrap();
wr.write_str(",\"bytes_dlv\":").unwrap();
(write!(wr, "{}", log.bytes_dlv)).unwrap();
wr.write_str(",\"ray_id\":").unwrap();
(write!(wr, "\"{}\"", log.ray_id)).unwrap();
wr.write_str("}").unwrap();
}
fn manual_serialize_escape<W: Writer>(wr: &mut W, log: &Log) {
wr.write_str("{").unwrap();
escape_str(wr, "timestamp").unwrap();
wr.write_str(":").unwrap();
(write!(wr, "{}", log.timestamp)).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "zone_id").unwrap();
wr.write_str(":").unwrap();
(write!(wr, "{}", log.zone_id)).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "zone_plan").unwrap();
wr.write_str(":").unwrap();
(write!(wr, "{}", log.zone_plan as isize)).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "http").unwrap();
wr.write_str(":{").unwrap();
escape_str(wr, "protocol").unwrap();
wr.write_str(":").unwrap();
(write!(wr, "{}", log.http.protocol as usize)).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "status").unwrap();
wr.write_str(":").unwrap();
(write!(wr, "{}", log.http.status)).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "host_status").unwrap();
wr.write_str(":").unwrap();
(write!(wr, "{}", log.http.host_status)).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "up_status").unwrap();
wr.write_str(":").unwrap();
(write!(wr, "{}", log.http.up_status)).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "method").unwrap();
wr.write_str(":").unwrap();
(write!(wr, "{}", log.http.method as usize)).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "content_type").unwrap();
wr.write_str(":").unwrap();
escape_str(wr, &log.http.content_type).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "user_agent").unwrap();
wr.write_str(":").unwrap();
escape_str(wr, &log.http.user_agent).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "referer").unwrap();
wr.write_str(":").unwrap();
escape_str(wr, &log.http.referer).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "request_uri").unwrap();
wr.write_str(":").unwrap();
escape_str(wr, &log.http.request_uri).unwrap();
wr.write_str("},").unwrap();
escape_str(wr, "origin").unwrap();
wr.write_str(":{").unwrap();
escape_str(wr, "ip").unwrap();
wr.write_str(":").unwrap();
escape_str(wr, &log.origin.ip).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "port").unwrap();
wr.write_str(":").unwrap();
(write!(wr, "{}", log.origin.port)).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "hostname").unwrap();
wr.write_str(":").unwrap();
escape_str(wr, &log.origin.hostname).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "protocol").unwrap();
wr.write_str(":").unwrap();
(write!(wr, "{}", log.origin.protocol as usize)).unwrap();
wr.write_str("},").unwrap();
escape_str(wr, "country").unwrap();
wr.write_str(":").unwrap();
(write!(wr, "{}", log.country as usize)).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "cache_status").unwrap();
wr.write_str(":").unwrap();
(write!(wr, "{}", log.cache_status as usize)).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "server_ip").unwrap();
wr.write_str(":").unwrap();
escape_str(wr, &log.server_ip).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "server_name").unwrap();
wr.write_str(":").unwrap();
escape_str(wr, &log.server_name).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "remote_ip").unwrap();
wr.write_str(":").unwrap();
escape_str(wr, &log.remote_ip).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "bytes_dlv").unwrap();
wr.write_str(":").unwrap();
(write!(wr, "{}", log.bytes_dlv)).unwrap();
wr.write_str(",").unwrap();
escape_str(wr, "ray_id").unwrap();
wr.write_str(":").unwrap();
escape_str(wr, &log.ray_id).unwrap();
wr.write_str("}").unwrap();
}
#[test]
fn test_manual_serialize_vec_no_escape() {
let log = Log::new();
let mut wr = Vec::with_capacity(1024);
manual_serialize_no_escape(&mut wr, &log);
let json = String::from_utf8(wr).unwrap();
assert_eq!(JSON_STR, &json[]);
}
#[bench]
fn bench_manual_serialize_vec_no_escape(b: &mut Bencher) {
let log = Log::new();
let mut wr = Vec::with_capacity(1024);
manual_serialize_no_escape(&mut wr, &log);
b.bytes = wr.len() as u64;
b.iter(|| {
wr.clear();
manual_serialize_no_escape(&mut wr, &log);
});
}
#[test]
fn test_manual_serialize_vec_escape() {
let log = Log::new();
let mut wr = Vec::with_capacity(1024);
manual_serialize_escape(&mut wr, &log);
let json = String::from_utf8(wr).unwrap();
assert_eq!(JSON_STR, &json[]);
}
#[bench]
fn bench_manual_serialize_vec_escape(b: &mut Bencher) {
let log = Log::new();
let mut wr = Vec::with_capacity(1024);
manual_serialize_escape(&mut wr, &log);
b.bytes = wr.len() as u64;
b.iter(|| {
wr.clear();
manual_serialize_escape(&mut wr, &log);
});
}
#[test]
fn test_manual_serialize_my_mem_writer0_no_escape() {
let log = Log::new();
let mut wr = MyMemWriter0::with_capacity(1000);
manual_serialize_no_escape(&mut wr, &log);
let json = String::from_utf8(wr.buf).unwrap();
assert_eq!(JSON_STR, &json[]);
}
#[bench]
fn bench_manual_serialize_my_mem_writer0_no_escape(b: &mut Bencher) {
let log = Log::new();
let mut wr = MyMemWriter0::with_capacity(1024);
manual_serialize_no_escape(&mut wr, &log);
b.bytes = wr.buf.len() as u64;
b.iter(|| {
wr.buf.clear();
manual_serialize_no_escape(&mut wr, &log);
});
}
#[test]
fn test_manual_serialize_my_mem_writer0_escape() {
let log = Log::new();
let mut wr = MyMemWriter0::with_capacity(1024);
manual_serialize_escape(&mut wr, &log);
let json = String::from_utf8(wr.buf).unwrap();
assert_eq!(JSON_STR, &json[]);
}
#[bench]
fn bench_manual_serialize_my_mem_writer0_escape(b: &mut Bencher) {
let log = Log::new();
let mut wr = MyMemWriter0::with_capacity(1024);
manual_serialize_escape(&mut wr, &log);
b.bytes = wr.buf.len() as u64;
b.iter(|| {
wr.buf.clear();
manual_serialize_escape(&mut wr, &log);
});
}
#[test]
fn test_manual_serialize_my_mem_writer1_no_escape() {
let log = Log::new();
let mut wr = MyMemWriter1::with_capacity(1024);
manual_serialize_no_escape(&mut wr, &log);
let json = String::from_utf8(wr.buf).unwrap();
assert_eq!(JSON_STR, &json[]);
}
#[bench]
fn bench_manual_serialize_my_mem_writer1_no_escape(b: &mut Bencher) {
let log = Log::new();
let mut wr = MyMemWriter1::with_capacity(1024);
manual_serialize_no_escape(&mut wr, &log);
b.bytes = wr.buf.len() as u64;
b.iter(|| {
wr.buf.clear();
manual_serialize_no_escape(&mut wr, &log);
});
}
#[test]
fn test_manual_serialize_my_mem_writer1_escape() {
let log = Log::new();
let mut wr = MyMemWriter1::with_capacity(1024);
manual_serialize_escape(&mut wr, &log);
let json = String::from_utf8(wr.buf).unwrap();
assert_eq!(JSON_STR, &json[]);
}
#[bench]
fn bench_manual_serialize_my_mem_writer1_escape(b: &mut Bencher) {
let log = Log::new();
let mut wr = MyMemWriter1::with_capacity(1024);
manual_serialize_escape(&mut wr, &log);
b.bytes = wr.buf.len() as u64;
b.iter(|| {
wr.buf.clear();
manual_serialize_escape(&mut wr, &log);
});
}
fn direct<W: Writer>(wr: &mut W, log: &Log) {
use serde::ser::Serializer;
let mut serializer = json::Serializer::new(wr.by_ref());
serializer.serialize_struct_start("Log", 12).unwrap();
serializer.serialize_struct_elt("timestamp", &log.timestamp).unwrap();
serializer.serialize_struct_elt("zone_id", &log.zone_id).unwrap();
serializer.serialize_struct_elt("zone_plan", &(log.zone_plan as usize)).unwrap();
serializer.serialize_struct_elt("http", &log.http).unwrap();
serializer.serialize_struct_elt("origin", &log.origin).unwrap();
serializer.serialize_struct_elt("country", &(log.country as usize)).unwrap();
serializer.serialize_struct_elt("cache_status", &(log.cache_status as usize)).unwrap();
serializer.serialize_struct_elt("server_ip", &log.server_ip).unwrap();
serializer.serialize_struct_elt("server_name", &log.server_name).unwrap();
serializer.serialize_struct_elt("remote_ip", &log.remote_ip).unwrap();
serializer.serialize_struct_elt("bytes_dlv", &log.bytes_dlv).unwrap();
serializer.serialize_struct_elt("ray_id", &log.ray_id).unwrap();
serializer.serialize_struct_end().unwrap();
}
#[test]
fn test_direct_vec() {
let log = Log::new();
let mut wr = Vec::with_capacity(1024);
direct(&mut wr, &log);
let json = String::from_utf8(wr).unwrap();
assert_eq!(JSON_STR, &json[]);
}
#[bench]
fn bench_direct_vec(b: &mut Bencher) {
let log = Log::new();
let mut wr = Vec::with_capacity(1024);
direct(&mut wr, &log);
b.bytes = wr.len() as u64;
b.iter(|| {
let mut wr = Vec::with_capacity(1024);
direct(&mut wr, &log);
});
}
#[test]
fn test_direct_my_mem_writer0() {
let log = Log::new();
let mut wr = MyMemWriter0::with_capacity(1024);
direct(&mut wr, &log);
let json = String::from_utf8(wr.buf).unwrap();
assert_eq!(JSON_STR, &json[]);
}
#[bench]
fn bench_direct_my_mem_writer0(b: &mut Bencher) {
let log = Log::new();
let mut wr = MyMemWriter0::with_capacity(1024);
direct(&mut wr, &log);
b.bytes = wr.buf.len() as u64;
b.iter(|| {
wr.buf.clear();
direct(&mut wr, &log);
});
}
#[test]
fn test_direct_my_mem_writer1() {
let log = Log::new();
let mut wr = MyMemWriter1::with_capacity(1024);
direct(&mut wr, &log);
let json = String::from_utf8(wr.buf).unwrap();
assert_eq!(JSON_STR, &json[]);
}
#[bench]
fn bench_direct_my_mem_writer1(b: &mut Bencher) {
let log = Log::new();
let mut wr = MyMemWriter1::with_capacity(1024);
direct(&mut wr, &log);
b.bytes = wr.buf.len() as u64;
b.iter(|| {
wr.buf.clear();
direct(&mut wr, &log);
});
}
#[test]
fn test_decoder() {
use rustc_serialize::json::Json;
let json = Json::from_str(JSON_STR).unwrap();
let mut decoder = rustc_serialize::json::Decoder::new(json);
let log: Log = rustc_serialize::Decodable::decode(&mut decoder).unwrap();
assert_eq!(log, Log::new());
}
#[bench]
fn bench_decoder(b: &mut Bencher) {
use rustc_serialize::json::Json;
b.bytes = JSON_STR.len() as u64;
b.iter(|| {
let json = Json::from_str(JSON_STR).unwrap();
let mut decoder = rustc_serialize::json::Decoder::new(json);
let _log: Log = rustc_serialize::Decodable::decode(&mut decoder).unwrap();
});
}
#[test]
fn test_deserializer() {
let log: Log = json::from_str(JSON_STR).unwrap();
assert_eq!(log, Log::new());
}
//////////////////////////////////////////////////////////////////////////////
#[inline]
fn manual_reader_ignore<R: Reader>(rdr: &mut R, buf: &mut [u8], key: &[u8]) {
let buf = &mut buf[0..key.len()];
rdr.read(buf).unwrap();
assert_eq!(buf, key);
}
#[inline]
fn manual_reader_field<R: Reader>(rdr: &mut R, buf: &mut [u8], key: &[u8]) {
let b = rdr.read_byte().unwrap();
assert_eq!(b, b'"');
manual_reader_ignore(rdr, buf, key);
let b = rdr.read_byte().unwrap();
assert_eq!(b, b'"');
let b = rdr.read_byte().unwrap();
assert_eq!(b, b':');
}
#[inline]
fn manual_reader_int<R: Reader>(rdr: &mut R, buf: &mut [u8], key: &[u8]) -> i64 {
manual_reader_field(rdr, buf, key);
let mut res = 0;
loop {
let byte = rdr.read_byte().unwrap();
match byte {
b'0' ... b'9' => {
res *= 10;
res += (byte as i64) - (b'0' as i64);
}
_ => { break; }
}
}
res
}
#[inline]
fn manual_reader_string<R: Reader>(rdr: &mut R, buf: &mut [u8], key: &[u8]) -> String {
manual_reader_field(rdr, buf, key);
manual_reader_ignore(rdr, buf, b"\"");
let mut idx = 0;
loop {
let byte = rdr.read_byte().unwrap();
match byte {
b'"' => { break; }
byte => { buf[idx] = byte; }
};
idx += 1;
}
let b = rdr.read_byte().unwrap();
assert!(b == b',' || b == b']' || b == b'}');
String::from_utf8(buf[..idx].to_vec()).unwrap()
}
#[inline]
fn manual_reader_deserialize<R: Reader>(rdr: &mut R) -> Log {
let mut buf = [0; 128];
manual_reader_ignore(rdr, &mut buf, b"{");
let timestamp = manual_reader_int(rdr, &mut buf, b"timestamp");
let zone_id = manual_reader_int(rdr, &mut buf, b"zone_id");
let zone_plan = manual_reader_int(rdr, &mut buf, b"zone_plan");
manual_reader_field(rdr, &mut buf, b"http");
manual_reader_ignore(rdr, &mut buf, b"{");
let protocol = manual_reader_int(rdr, &mut buf, b"protocol");
let status = manual_reader_int(rdr, &mut buf, b"status");
let host_status = manual_reader_int(rdr, &mut buf, b"host_status");
let up_status = manual_reader_int(rdr, &mut buf, b"up_status");
let method = manual_reader_int(rdr, &mut buf, b"method");
let content_type = manual_reader_string(rdr, &mut buf, b"content_type");
let user_agent = manual_reader_string(rdr, &mut buf, b"user_agent");
let referer = manual_reader_string(rdr, &mut buf, b"referer");
let request_uri = manual_reader_string(rdr, &mut buf, b"request_uri");
let http = Http {
protocol: FromPrimitive::from_i64(protocol).unwrap(),
status: FromPrimitive::from_i64(status).unwrap(),
host_status: FromPrimitive::from_i64(host_status).unwrap(),
up_status: FromPrimitive::from_i64(up_status).unwrap(),
method: FromPrimitive::from_i64(method).unwrap(),
content_type: content_type,
user_agent: user_agent,
referer: referer,
request_uri: request_uri,
};
manual_reader_ignore(rdr, &mut buf, b",");
manual_reader_field(rdr, &mut buf, b"origin");
manual_reader_ignore(rdr, &mut buf, b"{");
let ip = manual_reader_string(rdr, &mut buf, b"ip");
let port = manual_reader_int(rdr, &mut buf, b"port");
let hostname = manual_reader_string(rdr, &mut buf, b"hostname");
let protocol = manual_reader_int(rdr, &mut buf, b"protocol");
let origin = Origin {
ip: ip,
port: FromPrimitive::from_i64(port).unwrap(),
hostname: hostname,
protocol: FromPrimitive::from_i64(protocol).unwrap(),
};
manual_reader_ignore(rdr, &mut buf, b",");
let country = manual_reader_int(rdr, &mut buf, b"country");
let cache_status = manual_reader_int(rdr, &mut buf, b"cache_status");
let server_ip = manual_reader_string(rdr, &mut buf, b"server_ip");
let server_name = manual_reader_string(rdr, &mut buf, b"server_name");
let remote_ip = manual_reader_string(rdr, &mut buf, b"remote_ip");
let bytes_dlv = manual_reader_int(rdr, &mut buf, b"bytes_dlv");
let ray_id = manual_reader_string(rdr, &mut buf, b"ray_id");
Log {
timestamp: timestamp,
zone_id: FromPrimitive::from_i64(zone_id).unwrap(),
zone_plan: FromPrimitive::from_i64(zone_plan).unwrap(),
http: http,
origin: origin,
country: FromPrimitive::from_i64(country).unwrap(),
cache_status: FromPrimitive::from_i64(cache_status).unwrap(),
server_ip: server_ip,
server_name: server_name,
remote_ip: remote_ip,
bytes_dlv: FromPrimitive::from_i64(bytes_dlv).unwrap(),
ray_id: ray_id,
}
}
//////////////////////////////////////////////////////////////////////////////
#[inline]
fn manual_iter_ignore<R: Iterator<Item=u8>>(mut rdr: R, buf: &mut [u8], key: &[u8]) {
let buf = &mut buf[0..key.len()];
for idx in range(0, key.len()) {
buf[idx] = rdr.next().unwrap();
}
assert_eq!(buf, key);
}
#[inline]
fn manual_iter_field<R: Iterator<Item=u8>>(mut rdr: R, buf: &mut [u8], key: &[u8]) {
let b = rdr.next().unwrap();
assert_eq!(b, b'"');
manual_iter_ignore(rdr.by_ref(), buf, key);
let b = rdr.next().unwrap();
assert_eq!(b, b'"');
let b = rdr.next().unwrap();
assert_eq!(b, b':');
}
#[inline]
fn manual_iter_int<R: Iterator<Item=u8>>(mut rdr: R, buf: &mut [u8], key: &[u8]) -> i64 {
manual_iter_field(rdr.by_ref(), buf, key);
let mut res = 0;
loop {
let byte = rdr.next().unwrap();
match byte {
b'0' ... b'9' => {
res *= 10;
res += (byte as i64) - (b'0' as i64);
}
_ => { break; }
}
}
res
}
#[inline]
fn manual_iter_string<R: Iterator<Item=u8>>(mut rdr: R, buf: &mut [u8], key: &[u8]) -> String {
manual_iter_field(rdr.by_ref(), buf, key);
manual_iter_ignore(rdr.by_ref(), buf, b"\"");
let mut idx = 0;
loop {
let byte = rdr.next().unwrap();
match byte {
b'"' => { break; }
byte => { buf[idx] = byte; }
};
idx += 1;
}
let b = rdr.next().unwrap();
assert!(b == b',' || b == b']' || b == b'}');
String::from_utf8(buf[..idx].to_vec()).unwrap()
}
#[inline]
fn manual_iter_deserialize<R: Iterator<Item=u8>>(mut rdr: R) -> Log {
let mut buf = [0u8; 128];
manual_iter_ignore(rdr.by_ref(), &mut buf, b"{");
let timestamp = manual_iter_int(rdr.by_ref(), &mut buf, b"timestamp");
let zone_id = manual_iter_int(rdr.by_ref(), &mut buf, b"zone_id");
let zone_plan = manual_iter_int(rdr.by_ref(), &mut buf, b"zone_plan");
manual_iter_field(rdr.by_ref(), &mut buf, b"http");
manual_iter_ignore(rdr.by_ref(), &mut buf, b"{");
let protocol = manual_iter_int(rdr.by_ref(), &mut buf, b"protocol");
let status = manual_iter_int(rdr.by_ref(), &mut buf, b"status");
let host_status = manual_iter_int(rdr.by_ref(), &mut buf, b"host_status");
let up_status = manual_iter_int(rdr.by_ref(), &mut buf, b"up_status");
let method = manual_iter_int(rdr.by_ref(), &mut buf, b"method");
let content_type = manual_iter_string(rdr.by_ref(), &mut buf, b"content_type");
let user_agent = manual_iter_string(rdr.by_ref(), &mut buf, b"user_agent");
let referer = manual_iter_string(rdr.by_ref(), &mut buf, b"referer");
let request_uri = manual_iter_string(rdr.by_ref(), &mut buf, b"request_uri");
let http = Http {
protocol: FromPrimitive::from_i64(protocol).unwrap(),
status: FromPrimitive::from_i64(status).unwrap(),
host_status: FromPrimitive::from_i64(host_status).unwrap(),
up_status: FromPrimitive::from_i64(up_status).unwrap(),
method: FromPrimitive::from_i64(method).unwrap(),
content_type: content_type,
user_agent: user_agent,
referer: referer,
request_uri: request_uri,
};
manual_iter_ignore(rdr.by_ref(), &mut buf, b",");
manual_iter_field(rdr.by_ref(), &mut buf, b"origin");
manual_iter_ignore(rdr.by_ref(), &mut buf, b"{");
let ip = manual_iter_string(rdr.by_ref(), &mut buf, b"ip");
let port = manual_iter_int(rdr.by_ref(), &mut buf, b"port");
let hostname = manual_iter_string(rdr.by_ref(), &mut buf, b"hostname");
let protocol = manual_iter_int(rdr.by_ref(), &mut buf, b"protocol");
let origin = Origin {
ip: ip,
port: FromPrimitive::from_i64(port).unwrap(),
hostname: hostname,
protocol: FromPrimitive::from_i64(protocol).unwrap(),
};
manual_iter_ignore(rdr.by_ref(), &mut buf, b",");
let country = manual_iter_int(rdr.by_ref(), &mut buf, b"country");
let cache_status = manual_iter_int(rdr.by_ref(), &mut buf, b"cache_status");
let server_ip = manual_iter_string(rdr.by_ref(), &mut buf, b"server_ip");
let server_name = manual_iter_string(rdr.by_ref(), &mut buf, b"server_name");
let remote_ip = manual_iter_string(rdr.by_ref(), &mut buf, b"remote_ip");
let bytes_dlv = manual_iter_int(rdr.by_ref(), &mut buf, b"bytes_dlv");
let ray_id = manual_iter_string(rdr.by_ref(), &mut buf, b"ray_id");
Log {
timestamp: timestamp,
zone_id: FromPrimitive::from_i64(zone_id).unwrap(),
zone_plan: FromPrimitive::from_i64(zone_plan).unwrap(),
http: http,
origin: origin,
country: FromPrimitive::from_i64(country).unwrap(),
cache_status: FromPrimitive::from_i64(cache_status).unwrap(),
server_ip: server_ip,
server_name: server_name,
remote_ip: remote_ip,
bytes_dlv: FromPrimitive::from_i64(bytes_dlv).unwrap(),
ray_id: ray_id,
}
}
//////////////////////////////////////////////////////////////////////////////
#[bench]
fn bench_deserializer(b: &mut Bencher) {
b.bytes = JSON_STR.len() as u64;
b.iter(|| {
let _log: Log = json::from_str(JSON_STR).unwrap();
});
}
#[bench]
fn bench_deserializers(b: &mut Bencher) {
let s = r#"{"timestamp":25469139677502,"zone_id":123456,"zone_plan":1,"http":{"protocol":2,"status":200,"host_status":503,"up_status":520,"method":1,"content_type":"text/html","user_agent":"Mozilla/5.0 (X11; Linux x86_64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/33.0.1750.146 Safari/537.36","referer":"https://www.cloudflare.com/","request_uri":"/cdn-cgi/trace"},"origin":{"ip":"1.2.3.4","port":8000,"hostname":"www.example.com","protocol":2},"country":238,"cache_status":3,"server_ip":"192.168.1.1","server_name":"metal.cloudflare.com","remote_ip":"10.1.2.3","bytes_dlv":123456,"ray_id":"10c73629cce30078-LAX"}"#;
b.bytes = s.len() as u64;
for _ in range(0is, 10000) {
let _log: Log = json::from_str(s).unwrap();
}
}
//////////////////////////////////////////////////////////////////////////////
#[test]
fn test_reader_manual_deserializer() {
let mut rdr = JSON_STR.as_bytes();
let log = manual_reader_deserialize(&mut rdr);
assert_eq!(log, Log::new());
}
#[bench]
fn bench_reader_manual_reader_deserializer(b: &mut Bencher) {
b.bytes = JSON_STR.len() as u64;
b.iter(|| {
let mut rdr = JSON_STR.as_bytes();
let _ = manual_reader_deserialize(&mut rdr);
});
}
#[bench]
fn bench_reader_manual_reader_deserializers(b: &mut Bencher) {
b.bytes = JSON_STR.len() as u64;
for _ in range(0is, 100000) {
let mut rdr = JSON_STR.as_bytes();
let _ = manual_reader_deserialize(&mut rdr);
}
}
//////////////////////////////////////////////////////////////////////////////
#[test]
fn test_iter_manual_iter_deserializer() {
let log = manual_iter_deserialize(JSON_STR.bytes());
assert_eq!(log, Log::new());
}
#[bench]
fn bench_iter_manual_iter_deserializer(b: &mut Bencher) {
b.bytes = JSON_STR.len() as u64;
b.iter(|| {
let _ = manual_iter_deserialize(JSON_STR.bytes());
});
}
#[bench]
fn bench_iter_manual_iter_deserializers(b: &mut Bencher) {
b.bytes = JSON_STR.len() as u64;
for _ in range(0is, 10000) {
let _ = manual_iter_deserialize(JSON_STR.bytes());
}
}
//////////////////////////////////////////////////////////////////////////////
#[test]
fn test_iter_manual_reader_as_iter_deserializer() {
let mut rdr = JSON_STR.as_bytes();
let iter = Bytes::new(&mut rdr)
.map(|x| x.unwrap());
let log = manual_iter_deserialize(iter);
assert_eq!(log, Log::new());
}
#[bench]
fn bench_iter_manual_reader_as_iter_deserializer(b: &mut Bencher) {
b.bytes = JSON_STR.len() as u64;
b.iter(|| {
let mut rdr = JSON_STR.as_bytes();
let iter = Bytes::new(&mut rdr)
.map(|x| x.unwrap());
let _ = manual_iter_deserialize(iter);
});
}
#[bench]
fn bench_iter_manual_reader_as_iter_deserializers(b: &mut Bencher) {
b.bytes = JSON_STR.len() as u64;
for _ in range(0is, 10000) {
let mut rdr = JSON_STR.as_bytes();
let iter = Bytes::new(&mut rdr)
.map(|x| x.unwrap());
let _ = manual_iter_deserialize(iter);
}
}