Crates.io | histlog |
lib.rs | histlog |
version | 2.1.1 |
source | src |
created_at | 2018-12-12 18:53:12.30996 |
updated_at | 2023-12-21 03:33:25.30213 |
description | For use with the hdrhistogram crate, provides off-thread serialization of HdrHistogram interval logs to file. |
homepage | https://github.com/jonathanstrong/histlog |
repository | https://github.com/jonathanstrong/histlog |
max_upload_size | |
id | 101649 |
size | 37,924 |
Provides off-thread serialization of HdrHistogram interval logs to file.
For use with the hdrhistogram
crate,
a rust port of Gil Tene's HdrHistogram,
that provides a clean interface with sane defaults for off-thread serialization
of HdrHistogram interval logs to file.
HdrHistogram is often used to measure latency. Generally, if something is important enough to measure latency, it's unlikely you want to write to a file on the same thread.
One option would be to serialize to an in-memory buffer (e.g. Vec<u8>
). However,
this would still require allocating to the buffer, and would eventually require a
lot of memory for a long-running process.
histlog::HistLog
allows the hot thread to pass off it's hdrhistogram::Histogram
at regular intervals
to a designated writer thread that can afford to dilly dally with IO. The interval
log is written incrementally and can be inspected and analyzed while the program
is still running.
HistLog
relies completely on the hdrhistogram
crate, both for the in-memory
recording of values and serialization. What it does provide is off-thread writing with
a clean interface and sane defaults that make it relatively easy to use.
A HistLog
has a "series" name and a "tag." The HdrHistogram interval log format provides
for one tag per entry. The series name is used to name the file the interval log is written to:
use std::time::*;
let log_dir = "/tmp/path/to/logs";
let series = "server-latency"; // used to name the log file
let tag = "xeon-e7-8891-v2"; // recorded with each entry
let freq = Duration::from_secs(1); // how often results sent to writer thread
// `HistLog::new` could fail creating file, `hdrhistogram::Histogram`
let mut server1 = histlog::HistLog::new(log_dir, series, tag, freq).unwrap();
// use `HistLog::clone_with_tag` to serialize a separate tag to same file.
let mut server2 = server1.clone_with_tag("xeon-e5-2670");
for i in 0..1000u64 { // dummy data
server1.record(i).unwrap(); // call to `hdrhistogram::Histogram::record` could fail
server2.record(i * 2).unwrap();
}
assert_eq!(server1.path(), server2.path()); // both being saved to same file, via same writer thread
HistLog
's api design is built for event loops. Each iteration of the loop, new values are
recorded, and the current time is checked to see whether the current Histogram
should be
passed off to the writer thread:
use std::time::*;
let mut spintime = histlog::HistLog::new("/tmp/var/hist", "spintime", "main", Duration::from_secs(60)).unwrap();
let mut loop_time = Instant::now();
let mut prev: Instant;
loop {
prev = loop_time;
loop_time = Instant::now();
spintime.record(histlog::nanos(loop_time - prev)).unwrap(); // nanos: Duration -> u64
spintime.check_send(loop_time); // sends to writer thread if elapsed > freq,
// or...
spintime.check_try_send(loop_time).unwrap(); // non-blocking equivalent (can fail)
// do important stuff ...
}
Logs are saved to <log dir>/<series name>.<datetime>.hdrhistogram-interval-log.v2.gz
.
Format of log is like this:
#[StartTime: 1544631293.283 (seconds since epoch)]
#[BaseTime: 0.000 (seconds since epoch)]
Tag=xeon-e7-8891-v2,1544631293.283,0.003,999.000,HISTFAAAAC94Ae3GMRUAMAgD0bRI6FovNVcHmGREAgNR [...]
Tag=xeon-e5-2670,1544631293.283,0.003,999.000,HISTFAAAABx4AZNpmSzMwMDAxAABzFCaEUoz2X+AsQA/awK [...]
[...]
Only the histogram data is compressed (deflate), so a .gz
extension is perhaps misleading.
Log file can be viewed/analyzed here (javascript, runs locally) or with the Java-based HistogramLogAnalyzer.
Full documentation of log
serialization available from the hdrhistogram
crate.
minstant
: replaces std::time::Instant
with minstant::Instant
, which is generally faster and a drop-in replacement with the same API.smol_str
: switches smol_str::SmolStr
for &'static str
as the type for both series names (SeriesName
type alias) and tags (Tag
type alias). SmolStr
allows dynamic strings without heap allocations up to a certain size, so this feature enables dynamic values for both series names and tag values.HistLog::check_send
and HistLog::check_try_send
create a new hdrhistogram::Histogram
and send the current/prev one to the writer thread each interval. Internally, an
hdrhistogram::Histogram
uses a Vec
to store its counts, so there's an allocation involved.u64
values can be recorded (see the C
type alias).