proxmox-backup/proxmox-rrd/src/cache.rs

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use std::fs::File;
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use std::path::{Path, PathBuf};
use std::sync::{Arc, RwLock};
use std::io::{BufRead, BufReader};
use std::time::SystemTime;
use std::thread::spawn;
use crossbeam_channel::{bounded, TryRecvError};
use anyhow::{format_err, bail, Error};
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use proxmox::tools::fs::{create_path, CreateOptions};
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use crate::rrd::{DST, CF, RRD, RRA};
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mod journal;
use journal::*;
mod rrd_map;
use rrd_map::*;
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/// RRD cache - keep RRD data in RAM, but write updates to disk
///
/// This cache is designed to run as single instance (no concurrent
/// access from other processes).
pub struct RRDCache {
config: Arc<CacheConfig>,
state: Arc<RwLock<JournalState>>,
rrd_map: Arc<RwLock<RRDMap>>,
}
pub(crate) struct CacheConfig {
apply_interval: f64,
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basedir: PathBuf,
file_options: CreateOptions,
dir_options: CreateOptions,
}
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impl RRDCache {
/// Creates a new instance
///
/// `basedir`: All files are stored relative to this path.
///
/// `file_options`: Files are created with this options.
///
/// `dir_options`: Directories are created with this options.
///
/// `apply_interval`: Commit journal after `apply_interval` seconds.
///
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/// `load_rrd_cb`; The callback function is used to load RRD files,
/// and should return a newly generated RRD if the file does not
/// exists (or is unreadable). This may generate RRDs with
/// different configurations (dependent on `rel_path`).
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pub fn new<P: AsRef<Path>>(
basedir: P,
file_options: Option<CreateOptions>,
dir_options: Option<CreateOptions>,
apply_interval: f64,
load_rrd_cb: fn(path: &Path, rel_path: &str, dst: DST) -> RRD,
) -> Result<Self, Error> {
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let basedir = basedir.as_ref().to_owned();
let file_options = file_options.unwrap_or_else(|| CreateOptions::new());
let dir_options = dir_options.unwrap_or_else(|| CreateOptions::new());
create_path(&basedir, Some(dir_options.clone()), Some(dir_options.clone()))
.map_err(|err: Error| format_err!("unable to create rrdb stat dir - {}", err))?;
let config = Arc::new(CacheConfig {
basedir: basedir.clone(),
file_options: file_options.clone(),
dir_options: dir_options,
apply_interval,
});
let state = JournalState::new(Arc::clone(&config))?;
let rrd_map = RRDMap::new(Arc::clone(&config), load_rrd_cb);
Ok(Self {
config: Arc::clone(&config),
state: Arc::new(RwLock::new(state)),
rrd_map: Arc::new(RwLock::new(rrd_map)),
})
}
/// Create a new RRD as used by the proxmox backup server
///
/// It contains the following RRAs:
///
/// * cf=average,r=60,n=1440 => 1day
/// * cf=maximum,r=60,n=1440 => 1day
/// * cf=average,r=30*60,n=1440 => 1month
/// * cf=maximum,r=30*60,n=1440 => 1month
/// * cf=average,r=6*3600,n=1440 => 1year
/// * cf=maximum,r=6*3600,n=1440 => 1year
/// * cf=average,r=7*86400,n=570 => 10years
/// * cf=maximum,r=7*86400,n=570 => 10year
///
/// The resultion data file size is about 80KB.
pub fn create_proxmox_backup_default_rrd(dst: DST) -> RRD {
let mut rra_list = Vec::new();
// 1min * 1440 => 1day
rra_list.push(RRA::new(CF::Average, 60, 1440));
rra_list.push(RRA::new(CF::Maximum, 60, 1440));
// 30min * 1440 => 30days = 1month
rra_list.push(RRA::new(CF::Average, 30*60, 1440));
rra_list.push(RRA::new(CF::Maximum, 30*60, 1440));
// 6h * 1440 => 360days = 1year
rra_list.push(RRA::new(CF::Average, 6*3600, 1440));
rra_list.push(RRA::new(CF::Maximum, 6*3600, 1440));
// 1week * 570 => 10years
rra_list.push(RRA::new(CF::Average, 7*86400, 570));
rra_list.push(RRA::new(CF::Maximum, 7*86400, 570));
RRD::new(dst, rra_list)
}
fn parse_journal_line(line: &str) -> Result<JournalEntry, Error> {
let line = line.trim();
let parts: Vec<&str> = line.splitn(4, ':').collect();
if parts.len() != 4 {
bail!("wrong numper of components");
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}
let time: f64 = parts[0].parse()
.map_err(|_| format_err!("unable to parse time"))?;
let value: f64 = parts[1].parse()
.map_err(|_| format_err!("unable to parse value"))?;
let dst: u8 = parts[2].parse()
.map_err(|_| format_err!("unable to parse data source type"))?;
let dst = match dst {
0 => DST::Gauge,
1 => DST::Derive,
_ => bail!("got strange value for data source type '{}'", dst),
};
let rel_path = parts[3].to_string();
Ok(JournalEntry { time, value, dst, rel_path })
}
/// Apply and commit the journal. Should be used at server startup.
pub fn apply_journal(&self) -> Result<bool, Error> {
let state = Arc::clone(&self.state);
let rrd_map = Arc::clone(&self.rrd_map);
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let mut state_guard = self.state.write().unwrap();
let journal_applied = state_guard.journal_applied;
if let Some(ref recv) = state_guard.apply_thread_result {
match recv.try_recv() {
Ok(Ok(())) => {
// finished without errors, OK
state_guard.apply_thread_result = None;
}
Ok(Err(err)) => {
// finished with errors, log them
log::error!("{}", err);
state_guard.apply_thread_result = None;
}
Err(TryRecvError::Empty) => {
// still running
return Ok(journal_applied);
}
Err(TryRecvError::Disconnected) => {
// crashed, start again
log::error!("apply journal thread crashed - try again");
state_guard.apply_thread_result = None;
}
}
}
let now = proxmox_time::epoch_f64();
let wants_commit = (now - state_guard.last_journal_flush) > self.config.apply_interval;
if journal_applied && !wants_commit { return Ok(journal_applied); }
state_guard.last_journal_flush = proxmox_time::epoch_f64();
let (sender, receiver) = bounded(1);
state_guard.apply_thread_result = Some(receiver);
spawn(move || {
let result = apply_and_commit_journal_thread(state, rrd_map, journal_applied)
.map_err(|err| err.to_string());
sender.send(result).unwrap();
});
Ok(journal_applied)
}
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/// Update data in RAM and write file back to disk (journal)
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pub fn update_value(
&self,
rel_path: &str,
time: f64,
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value: f64,
dst: DST,
) -> Result<(), Error> {
let journal_applied = self.apply_journal()?;
self.state.write().unwrap()
.append_journal_entry(time, value, dst, rel_path)?;
if journal_applied {
self.rrd_map.write().unwrap().update(rel_path, time, value, dst, false)?;
}
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Ok(())
}
/// Extract data from cached RRD
///
/// `start`: Start time. If not sepecified, we simply extract 10 data points.
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///
/// `end`: End time. Default is to use the current time.
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pub fn extract_cached_data(
&self,
base: &str,
name: &str,
cf: CF,
resolution: u64,
start: Option<u64>,
end: Option<u64>,
) -> Result<Option<(u64, u64, Vec<Option<f64>>)>, Error> {
self.rrd_map.read().unwrap()
.extract_cached_data(base, name, cf, resolution, start, end)
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}
}
fn apply_and_commit_journal_thread(
state: Arc<RwLock<JournalState>>,
rrd_map: Arc<RwLock<RRDMap>>,
commit_only: bool,
) -> Result<(), Error> {
if commit_only {
state.write().unwrap().rotate_journal()?; // start new journal, keep old one
} else {
let start_time = SystemTime::now();
log::debug!("applying rrd journal");
match apply_journal_impl(Arc::clone(&state), Arc::clone(&rrd_map)) {
Ok(entries) => {
let elapsed = start_time.elapsed().unwrap().as_secs_f64();
log::info!("applied rrd journal ({} entries in {:.3} seconds)", entries, elapsed);
}
Err(err) => bail!("apply rrd journal failed - {}", err),
}
}
let start_time = SystemTime::now();
log::debug!("commit rrd journal");
match commit_journal_impl(state, rrd_map) {
Ok(rrd_file_count) => {
let elapsed = start_time.elapsed().unwrap().as_secs_f64();
log::info!("rrd journal successfully committed ({} files in {:.3} seconds)",
rrd_file_count, elapsed);
}
Err(err) => bail!("rrd journal commit failed: {}", err),
}
Ok(())
}
fn apply_journal_lines(
state: Arc<RwLock<JournalState>>,
rrd_map: Arc<RwLock<RRDMap>>,
journal_name: &str, // used for logging
reader: &mut BufReader<File>,
lock_read_line: bool,
) -> Result<usize, Error> {
let mut linenr = 0;
loop {
linenr += 1;
let mut line = String::new();
let len = if lock_read_line {
let _lock = state.read().unwrap(); // make sure we read entire lines
reader.read_line(&mut line)?
} else {
reader.read_line(&mut line)?
};
if len == 0 { break; }
let entry = match RRDCache::parse_journal_line(&line) {
Ok(entry) => entry,
Err(err) => {
log::warn!(
"unable to parse rrd journal '{}' line {} (skip) - {}",
journal_name, linenr, err,
);
continue; // skip unparsable lines
}
};
rrd_map.write().unwrap().update(&entry.rel_path, entry.time, entry.value, entry.dst, true)?;
}
Ok(linenr)
}
fn apply_journal_impl(
state: Arc<RwLock<JournalState>>,
rrd_map: Arc<RwLock<RRDMap>>,
) -> Result<usize, Error> {
let mut lines = 0;
// Apply old journals first
let journal_list = state.read().unwrap().list_old_journals()?;
for entry in journal_list {
log::info!("apply old journal log {}", entry.name);
let file = std::fs::OpenOptions::new().read(true).open(&entry.path)?;
let mut reader = BufReader::new(file);
lines += apply_journal_lines(
Arc::clone(&state),
Arc::clone(&rrd_map),
&entry.name,
&mut reader,
false,
)?;
}
let mut journal = state.read().unwrap().open_journal_reader()?;
lines += apply_journal_lines(
Arc::clone(&state),
Arc::clone(&rrd_map),
"rrd.journal",
&mut journal,
true,
)?;
{
let mut state_guard = state.write().unwrap(); // block other writers
lines += apply_journal_lines(
Arc::clone(&state),
Arc::clone(&rrd_map),
"rrd.journal",
&mut journal,
false,
)?;
state_guard.rotate_journal()?; // start new journal, keep old one
// We need to apply the journal only once, because further updates
// are always directly applied.
state_guard.journal_applied = true;
}
Ok(lines)
}
fn commit_journal_impl(
state: Arc<RwLock<JournalState>>,
rrd_map: Arc<RwLock<RRDMap>>,
) -> Result<usize, Error> {
// save all RRDs - we only need a read lock here
let rrd_file_count = rrd_map.read().unwrap().flush_rrd_files()?;
// if everything went ok, remove the old journal files
state.write().unwrap().remove_old_journals()?;
Ok(rrd_file_count)
}