use crate::{influxdb, submit}; use log::*; use solana_sdk::timing; use std::env; use std::sync::atomic::{AtomicUsize, Ordering}; const DEFAULT_LOG_RATE: usize = 1000; pub struct Counter { pub name: &'static str, /// total accumulated value pub counts: AtomicUsize, pub times: AtomicUsize, /// last accumulated value logged pub lastlog: AtomicUsize, pub lograte: AtomicUsize, pub point: Option, } #[macro_export] macro_rules! create_counter { ($name:expr, $lograte:expr) => { Counter { name: $name, counts: std::sync::atomic::AtomicUsize::new(0), times: std::sync::atomic::AtomicUsize::new(0), lastlog: std::sync::atomic::AtomicUsize::new(0), lograte: std::sync::atomic::AtomicUsize::new($lograte), point: None, } }; } #[macro_export] macro_rules! inc_counter { ($name:expr, $level:expr, $count:expr) => { unsafe { $name.inc($level, $count) }; }; } #[macro_export] macro_rules! inc_new_counter { ($name:expr, $count:expr, $level:expr, $lograte:expr) => {{ static mut INC_NEW_COUNTER: Counter = create_counter!($name, $lograte); static INIT_HOOK: std::sync::Once = std::sync::ONCE_INIT; unsafe { INIT_HOOK.call_once(|| { INC_NEW_COUNTER.init(); }); } inc_counter!(INC_NEW_COUNTER, $level, $count); }}; } #[macro_export] macro_rules! inc_new_counter_info { ($name:expr, $count:expr) => {{ inc_new_counter!($name, $count, log::Level::Info, 0); }}; ($name:expr, $count:expr, $lograte:expr) => {{ inc_new_counter!($name, $count, log::Level::Info, $lograte); }}; } impl Counter { fn default_log_rate() -> usize { let v = env::var("SOLANA_DEFAULT_LOG_RATE") .map(|x| x.parse().unwrap_or(DEFAULT_LOG_RATE)) .unwrap_or(DEFAULT_LOG_RATE); if v == 0 { DEFAULT_LOG_RATE } else { v } } pub fn init(&mut self) { self.point = Some( influxdb::Point::new(&format!("counter-{}", self.name)) .add_field("count", influxdb::Value::Integer(0)) .to_owned(), ); } pub fn inc(&mut self, level: log::Level, events: usize) { let counts = self.counts.fetch_add(events, Ordering::Relaxed); let times = self.times.fetch_add(1, Ordering::Relaxed); let mut lograte = self.lograte.load(Ordering::Relaxed); if lograte == 0 { lograte = Counter::default_log_rate(); self.lograte.store(lograte, Ordering::Relaxed); } if times % lograte == 0 && times > 0 && log_enabled!(level) { info!( "COUNTER:{{\"name\": \"{}\", \"counts\": {}, \"samples\": {}, \"now\": {}, \"events\": {}}}", self.name, counts + events, times, timing::timestamp(), events, ); } let lastlog = self.lastlog.load(Ordering::Relaxed); let prev = self .lastlog .compare_and_swap(lastlog, counts, Ordering::Relaxed); if prev == lastlog { if let Some(ref mut point) = self.point { point .fields .entry("count".to_string()) .and_modify(|v| *v = influxdb::Value::Integer(counts as i64 - lastlog as i64)) .or_insert(influxdb::Value::Integer(0)); } if let Some(ref mut point) = self.point { submit(point.to_owned()); } } } } #[cfg(test)] mod tests { use crate::counter::{Counter, DEFAULT_LOG_RATE}; use log::Level; use std::env; use std::sync::atomic::Ordering; use std::sync::{Once, RwLock, ONCE_INIT}; fn get_env_lock() -> &'static RwLock<()> { static mut ENV_LOCK: Option> = None; static INIT_HOOK: Once = ONCE_INIT; unsafe { INIT_HOOK.call_once(|| { ENV_LOCK = Some(RwLock::new(())); }); &ENV_LOCK.as_ref().unwrap() } } #[test] fn test_counter() { let _readlock = get_env_lock().read(); static mut COUNTER: Counter = create_counter!("test", 1000); let count = 1; inc_counter!(COUNTER, Level::Info, count); unsafe { assert_eq!(COUNTER.counts.load(Ordering::Relaxed), 1); assert_eq!(COUNTER.times.load(Ordering::Relaxed), 1); assert_eq!(COUNTER.lograte.load(Ordering::Relaxed), 1000); assert_eq!(COUNTER.lastlog.load(Ordering::Relaxed), 0); assert_eq!(COUNTER.name, "test"); } for _ in 0..199 { inc_counter!(COUNTER, Level::Info, 2); } unsafe { assert_eq!(COUNTER.lastlog.load(Ordering::Relaxed), 397); } inc_counter!(COUNTER, Level::Info, 2); unsafe { assert_eq!(COUNTER.lastlog.load(Ordering::Relaxed), 399); } } #[test] fn test_inc_new_counter() { let _readlock = get_env_lock().read(); //make sure that macros are syntactically correct //the variable is internal to the macro scope so there is no way to introspect it inc_new_counter_info!("counter-1", 1); inc_new_counter_info!("counter-2", 1, 2); } #[test] fn test_lograte() { let _readlock = get_env_lock().read(); assert_eq!( Counter::default_log_rate(), DEFAULT_LOG_RATE, "default_log_rate() is {}, expected {}, SOLANA_DEFAULT_LOG_RATE environment variable set?", Counter::default_log_rate(), DEFAULT_LOG_RATE, ); static mut COUNTER: Counter = create_counter!("test_lograte", 0); inc_counter!(COUNTER, Level::Info, 2); unsafe { assert_eq!(COUNTER.lograte.load(Ordering::Relaxed), DEFAULT_LOG_RATE); } } #[test] fn test_lograte_env() { assert_ne!(DEFAULT_LOG_RATE, 0); let _writelock = get_env_lock().write(); static mut COUNTER: Counter = create_counter!("test_lograte_env", 0); env::set_var("SOLANA_DEFAULT_LOG_RATE", "50"); inc_counter!(COUNTER, Level::Info, 2); unsafe { assert_eq!(COUNTER.lograte.load(Ordering::Relaxed), 50); } static mut COUNTER2: Counter = create_counter!("test_lograte_env", 0); env::set_var("SOLANA_DEFAULT_LOG_RATE", "0"); inc_counter!(COUNTER2, Level::Info, 2); unsafe { assert_eq!(COUNTER2.lograte.load(Ordering::Relaxed), DEFAULT_LOG_RATE); } } }