// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license. #[derive(Default, Debug)] pub struct Metrics { pub ops_dispatched: u64, pub ops_dispatched_sync: u64, pub ops_dispatched_async: u64, pub ops_dispatched_async_unref: u64, pub ops_completed: u64, pub ops_completed_sync: u64, pub ops_completed_async: u64, pub ops_completed_async_unref: u64, pub bytes_sent_control: u64, pub bytes_sent_data: u64, pub bytes_received: u64, pub resolve_count: u64, } impl Metrics { fn op_dispatched( &mut self, bytes_sent_control: usize, bytes_sent_data: usize, ) { self.ops_dispatched += 1; self.bytes_sent_control += bytes_sent_control as u64; self.bytes_sent_data += bytes_sent_data as u64; } fn op_completed(&mut self, bytes_received: usize) { self.ops_completed += 1; self.bytes_received += bytes_received as u64; } pub fn op_sync( &mut self, bytes_sent_control: usize, bytes_sent_data: usize, bytes_received: usize, ) { self.ops_dispatched_sync += 1; self.op_dispatched(bytes_sent_control, bytes_sent_data); self.ops_completed_sync += 1; self.op_completed(bytes_received); } pub fn op_dispatched_async( &mut self, bytes_sent_control: usize, bytes_sent_data: usize, ) { self.ops_dispatched_async += 1; self.op_dispatched(bytes_sent_control, bytes_sent_data) } pub fn op_dispatched_async_unref( &mut self, bytes_sent_control: usize, bytes_sent_data: usize, ) { self.ops_dispatched_async_unref += 1; self.op_dispatched(bytes_sent_control, bytes_sent_data) } pub fn op_completed_async(&mut self, bytes_received: usize) { self.ops_completed_async += 1; self.op_completed(bytes_received); } pub fn op_completed_async_unref(&mut self, bytes_received: usize) { self.ops_completed_async_unref += 1; self.op_completed(bytes_received); } } use deno_core::BufVec; use deno_core::Op; use deno_core::OpFn; use deno_core::OpState; use std::cell::RefCell; use std::rc::Rc; pub fn metrics_op(op_fn: Box) -> Box { Box::new(move |op_state: Rc>, bufs: BufVec| -> Op { // TODOs: // * The 'bytes' metrics seem pretty useless, especially now that the // distinction between 'control' and 'data' buffers has become blurry. // * Tracking completion of async ops currently makes us put the boxed // future into _another_ box. Keeping some counters may not be expensive // in itself, but adding a heap allocation for every metric seems bad. let mut buf_len_iter = bufs.iter().map(|buf| buf.len()); let bytes_sent_control = buf_len_iter.next().unwrap_or(0); let bytes_sent_data = buf_len_iter.sum(); let op = (op_fn)(op_state.clone(), bufs); let cli_state = crate::ops::cli_state2(&op_state); let cli_state_ = cli_state.clone(); let mut metrics = cli_state.metrics.borrow_mut(); use futures::future::FutureExt; match op { Op::Sync(buf) => { metrics.op_sync(bytes_sent_control, bytes_sent_data, buf.len()); Op::Sync(buf) } Op::Async(fut) => { metrics.op_dispatched_async(bytes_sent_control, bytes_sent_data); let fut = fut .inspect(move |buf| { let mut metrics = cli_state_.metrics.borrow_mut(); metrics.op_completed_async(buf.len()); }) .boxed_local(); Op::Async(fut) } Op::AsyncUnref(fut) => { metrics.op_dispatched_async_unref(bytes_sent_control, bytes_sent_data); let fut = fut .inspect(move |buf| { let mut metrics = cli_state_.metrics.borrow_mut(); metrics.op_completed_async_unref(buf.len()); }) .boxed_local(); Op::AsyncUnref(fut) } other => other, } }) }