proxmox-backup/src/cached_traffic_control.rs

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//! Cached traffic control configuration
use std::sync::{Arc, Mutex};
use std::collections::HashMap;
use std::net::{IpAddr, Ipv4Addr, SocketAddr};
use std::time::Instant;
use std::convert::TryInto;
use anyhow::Error;
use cidr::IpInet;
use proxmox_http::client::{ShareableRateLimit, RateLimiter};
use proxmox_section_config::SectionConfigData;
use proxmox_time::{parse_daily_duration, DailyDuration, TmEditor};
use pbs_api_types::TrafficControlRule;
use pbs_config::ConfigVersionCache;
use super::SharedRateLimiter;
lazy_static::lazy_static!{
pub static ref TRAFFIC_CONTROL_CACHE: Arc<Mutex<TrafficControlCache>> =
Arc::new(Mutex::new(TrafficControlCache::new()));
}
struct ParsedTcRule {
config: TrafficControlRule, // original rule config
networks: Vec<IpInet>, // parsed networks
timeframe: Vec<DailyDuration>, // parsed timeframe
}
pub struct TrafficStat {
pub traffic_in: u64,
pub rate_in: u64,
pub traffic_out: u64,
pub rate_out: u64,
}
pub struct TrafficControlCache {
use_shared_memory: bool,
last_rate_compute: Instant,
current_rate_map: HashMap<String, TrafficStat>,
last_update: i64,
last_traffic_control_generation: usize,
rules: Vec<ParsedTcRule>,
limiter_map: HashMap<String, (Option<Arc<dyn ShareableRateLimit>>, Option<Arc<dyn ShareableRateLimit>>)>,
use_utc: bool, // currently only used for testing
}
fn timeframe_match(
duration_list: &[DailyDuration],
now: &TmEditor,
) -> bool {
if duration_list.is_empty() { return true; }
for duration in duration_list.iter() {
if duration.time_match_with_tm_editor(now) {
return true;
}
}
false
}
fn network_match_len(
networks: &[IpInet],
ip: &IpAddr,
) -> Option<u8> {
let mut match_len = None;
for cidr in networks.iter() {
if cidr.contains(ip) {
let network_length = cidr.network_length();
match match_len {
Some(len) => {
if network_length > len {
match_len = Some(network_length);
}
}
None => match_len = Some(network_length),
}
}
}
match_len
}
fn cannonical_ip(ip: IpAddr) -> IpAddr {
// TODO: use std::net::IpAddr::to_cananical once stable
match ip {
IpAddr::V4(addr) => IpAddr::V4(addr),
IpAddr::V6(addr) => {
match addr.octets() {
[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0xff, 0xff, a, b, c, d] => {
IpAddr::V4(Ipv4Addr::new(a, b, c, d))
}
_ => IpAddr::V6(addr),
}
}
}
}
fn create_limiter(
use_shared_memory: bool,
name: &str,
rate: u64,
burst: u64,
) -> Result<Arc<dyn ShareableRateLimit>, Error> {
if use_shared_memory {
let limiter = SharedRateLimiter::mmap_shmem(name, rate, burst)?;
Ok(Arc::new(limiter))
} else {
Ok(Arc::new(Mutex::new(RateLimiter::new(rate, burst))))
}
}
impl TrafficControlCache {
pub fn new() -> Self {
Self {
use_shared_memory: true,
rules: Vec::new(),
limiter_map: HashMap::new(),
last_traffic_control_generation: 0,
last_update: 0,
use_utc: false,
last_rate_compute: Instant::now(),
current_rate_map: HashMap::new(),
}
}
pub fn reload(&mut self, now: i64) {
let version_cache = match ConfigVersionCache::new() {
Ok(cache) => cache,
Err(err) => {
log::error!("TrafficControlCache::reload failed in ConfigVersionCache::new: {}", err);
return;
}
};
let traffic_control_generation = version_cache.traffic_control_generation();
if (self.last_update != 0) &&
(traffic_control_generation == self.last_traffic_control_generation) &&
((now - self.last_update) < 60) { return; }
log::debug!("reload traffic control rules");
self.last_traffic_control_generation = traffic_control_generation;
self.last_update = now;
match self.reload_impl() {
Ok(()) => (),
Err(err) => {
log::error!("TrafficControlCache::reload failed -> {}", err);
}
}
}
fn reload_impl(&mut self) -> Result<(), Error> {
let (config, _) = pbs_config::traffic_control::config()?;
self.update_config(&config)
}
pub fn compute_current_rates(&mut self) {
let elapsed = self.last_rate_compute.elapsed().as_micros();
if elapsed < 200_000 { return } // not enough data
let mut new_rate_map = HashMap::new();
for (rule, (read_limit, write_limit)) in self.limiter_map.iter() {
let traffic_in = read_limit.as_ref().map(|l| l.traffic()).unwrap_or(0);
let traffic_out = write_limit.as_ref().map(|l| l.traffic()).unwrap_or(0);
let traffic_diff_in;
let traffic_diff_out;
if let Some(stat) = self.current_rate_map.get(rule) {
traffic_diff_in = traffic_in.saturating_sub(stat.traffic_in);
traffic_diff_out = traffic_out.saturating_sub(stat.traffic_out);
} else {
traffic_diff_in = 0;
traffic_diff_out = 0;
}
let rate_in = ((traffic_diff_in as u128) * 1_000_000) / elapsed;
let rate_out = ((traffic_diff_out as u128) * 1_000_000) / elapsed;
let stat = TrafficStat {
traffic_in,
traffic_out,
rate_in: rate_in.try_into().unwrap_or(u64::MAX),
rate_out: rate_out.try_into().unwrap_or(u64::MAX),
};
new_rate_map.insert(rule.clone(), stat);
}
self.current_rate_map = new_rate_map;
self.last_rate_compute = Instant::now()
}
pub fn current_rate_map(&self) -> &HashMap<String, TrafficStat> {
&self.current_rate_map
}
fn update_config(&mut self, config: &SectionConfigData) -> Result<(), Error> {
self.limiter_map.retain(|key, _value| config.sections.contains_key(key));
let rules: Vec<TrafficControlRule> =
config.convert_to_typed_array("rule")?;
let mut active_rules = Vec::new();
for rule in rules {
let entry = self.limiter_map.entry(rule.name.clone()).or_insert((None, None));
match entry.0 {
Some(ref read_limiter) => {
match rule.rate_in {
Some(rate_in) => {
read_limiter.update_rate(
rate_in.as_u64(),
rule.burst_in.unwrap_or(rate_in).as_u64(),
);
}
None => entry.0 = None,
}
}
None => {
if let Some(rate_in) = rule.rate_in {
let name = format!("{}.in", rule.name);
let limiter = create_limiter(
self.use_shared_memory,
&name,
rate_in.as_u64(),
rule.burst_in.unwrap_or(rate_in).as_u64(),
)?;
entry.0 = Some(limiter);
}
}
}
match entry.1 {
Some(ref write_limiter) => {
match rule.rate_out {
Some(rate_out) => {
write_limiter.update_rate(
rate_out.as_u64(),
rule.burst_out.unwrap_or(rate_out).as_u64(),
);
}
None => entry.1 = None,
}
}
None => {
if let Some(rate_out) = rule.rate_out {
let name = format!("{}.out", rule.name);
let limiter = create_limiter(
self.use_shared_memory,
&name,
rate_out.as_u64(),
rule.burst_out.unwrap_or(rate_out).as_u64(),
)?;
entry.1 = Some(limiter);
}
}
}
let mut timeframe = Vec::new();
if let Some(ref timefram_list) = rule.timeframe {
for duration_str in timefram_list {
let duration = parse_daily_duration(duration_str)?;
timeframe.push(duration);
}
}
let mut networks = Vec::new();
for network in rule.network.iter() {
let cidr = match network.parse() {
Ok(cidr) => cidr,
Err(err) => {
log::error!("unable to parse network '{}' - {}", network, err);
continue;
}
};
networks.push(cidr);
}
active_rules.push(ParsedTcRule { config: rule, networks, timeframe });
}
self.rules = active_rules;
Ok(())
}
pub fn lookup_rate_limiter(
&self,
peer: Option<SocketAddr>,
now: i64,
) -> (&str, Option<Arc<dyn ShareableRateLimit>>, Option<Arc<dyn ShareableRateLimit>>) {
let peer = match peer {
None => return ("", None, None),
Some(peer) => peer,
};
let peer_ip = cannonical_ip(peer.ip());
log::debug!("lookup_rate_limiter: {:?}", peer_ip);
let now = match TmEditor::with_epoch(now, self.use_utc) {
Ok(now) => now,
Err(err) => {
log::error!("lookup_rate_limiter: TmEditor::with_epoch failed - {}", err);
return ("", None, None);
}
};
let mut last_rule_match = None;
for rule in self.rules.iter() {
if !timeframe_match(&rule.timeframe, &now) { continue; }
if let Some(match_len) = network_match_len(&rule.networks, &peer_ip) {
match last_rule_match {
None => last_rule_match = Some((rule, match_len)),
Some((_, last_len)) => {
if match_len > last_len {
last_rule_match = Some((rule, match_len));
}
}
}
}
}
match last_rule_match {
Some((rule, _)) => {
match self.limiter_map.get(&rule.config.name) {
Some((read_limiter, write_limiter)) => {
(&rule.config.name, read_limiter.clone(), write_limiter.clone())
}
None => ("", None, None), // should never happen
}
}
None => ("", None, None),
}
}
}
#[cfg(test)]
mod test {
use super::*;
const fn make_test_time(mday: i32, hour: i32, min: i32) -> i64 {
(mday*3600*24 + hour*3600 + min*60) as i64
}
#[test]
fn testnetwork_match() -> Result<(), Error> {
let networks = ["192.168.2.1/24", "127.0.0.0/8"];
let networks: Vec<IpInet> = networks.iter().map(|n| n.parse().unwrap()).collect();
assert_eq!(network_match_len(&networks, &"192.168.2.1".parse()?), Some(24));
assert_eq!(network_match_len(&networks, &"192.168.2.254".parse()?), Some(24));
assert_eq!(network_match_len(&networks, &"192.168.3.1".parse()?), None);
assert_eq!(network_match_len(&networks, &"127.1.1.0".parse()?), Some(8));
assert_eq!(network_match_len(&networks, &"128.1.1.0".parse()?), None);
let networks = ["0.0.0.0/0"];
let networks: Vec<IpInet> = networks.iter().map(|n| n.parse().unwrap()).collect();
assert_eq!(network_match_len(&networks, &"127.1.1.0".parse()?), Some(0));
assert_eq!(network_match_len(&networks, &"192.168.2.1".parse()?), Some(0));
Ok(())
}
#[test]
fn test_rule_match() -> Result<(), Error> {
let config_data = "
rule: rule1
comment my test rule
network 192.168.2.0/24
rate-in 50000000
rate-out 50000000
timeframe 8-12
timeframe 14-16
rule: rule2
network 192.168.2.35/32
network 127.0.0.1/8
rate-in 150000000
rate-out 150000000
timeframe 18-20
rule: somewhere
network 0.0.0.0/0
rate-in 100000000
rate-out 100000000
";
let config = pbs_config::traffic_control::CONFIG.parse("testconfig", config_data)?;
let mut cache = TrafficControlCache::new();
cache.use_utc = true;
cache.use_shared_memory = false; // avoid permission problems in test environment
cache.update_config(&config)?;
const THURSDAY_80_00: i64 = make_test_time(0, 8, 0);
const THURSDAY_15_00: i64 = make_test_time(0, 15, 0);
const THURSDAY_19_00: i64 = make_test_time(0, 19, 0);
let local = SocketAddr::new(IpAddr::V4(Ipv4Addr::new(127, 0, 0, 1)), 1234);
let gateway = SocketAddr::new(IpAddr::V4(Ipv4Addr::new(192, 168, 2, 1)), 1234);
let private = SocketAddr::new(IpAddr::V4(Ipv4Addr::new(192, 168, 2, 35)), 1234);
let somewhere = SocketAddr::new(IpAddr::V4(Ipv4Addr::new(1, 2, 3, 4)), 1234);
let (rule, read_limiter, write_limiter) = cache.lookup_rate_limiter(None, THURSDAY_80_00);
assert_eq!(rule, "");
assert!(read_limiter.is_none());
assert!(write_limiter.is_none());
let (rule, read_limiter, write_limiter) = cache.lookup_rate_limiter(Some(somewhere), THURSDAY_80_00);
assert_eq!(rule, "somewhere");
assert!(read_limiter.is_some());
assert!(write_limiter.is_some());
let (rule, read_limiter, write_limiter) = cache.lookup_rate_limiter(Some(local), THURSDAY_19_00);
assert_eq!(rule, "rule2");
assert!(read_limiter.is_some());
assert!(write_limiter.is_some());
let (rule, read_limiter, write_limiter) = cache.lookup_rate_limiter(Some(gateway), THURSDAY_15_00);
assert_eq!(rule, "rule1");
assert!(read_limiter.is_some());
assert!(write_limiter.is_some());
let (rule, read_limiter, write_limiter) = cache.lookup_rate_limiter(Some(gateway), THURSDAY_19_00);
assert_eq!(rule, "somewhere");
assert!(read_limiter.is_some());
assert!(write_limiter.is_some());
let (rule, read_limiter, write_limiter) = cache.lookup_rate_limiter(Some(private), THURSDAY_19_00);
assert_eq!(rule, "rule2");
assert!(read_limiter.is_some());
assert!(write_limiter.is_some());
Ok(())
}
}