// Copyright © 2022 Intel Corporation // // SPDX-License-Identifier: Apache-2.0 // // Custom harness to run performance tests extern crate test_infra; #[macro_use(crate_authors)] extern crate clap; mod performance_tests; use clap::{Arg, Command as ClapCommand}; use performance_tests::*; use serde::{Deserialize, Serialize}; use std::{ env, fmt, process::Command, sync::{mpsc::channel, Arc}, thread, time::Duration, }; use test_infra::FioOps; use thiserror::Error; #[derive(Error, Debug)] enum Error { #[error("Error: test timed-out")] TestTimeout, #[error("Error: test failed")] TestFailed, } #[derive(Deserialize, Serialize)] pub struct PerformanceTestResult { name: String, mean: f64, std_dev: f64, max: f64, min: f64, } #[derive(Deserialize, Serialize)] pub struct MetricsReport { pub git_human_readable: String, pub git_revision: String, pub git_commit_date: String, pub date: String, pub results: Vec, } impl Default for MetricsReport { fn default() -> Self { let mut git_human_readable = "".to_string(); if let Ok(git_out) = Command::new("git").args(["describe", "--dirty"]).output() { if git_out.status.success() { git_human_readable = String::from_utf8(git_out.stdout) .unwrap() .trim() .to_string(); } else { eprintln!( "Error generating human readable git reference: {}", String::from_utf8(git_out.stderr).unwrap() ); } } let mut git_revision = "".to_string(); if let Ok(git_out) = Command::new("git").args(["rev-parse", "HEAD"]).output() { if git_out.status.success() { git_revision = String::from_utf8(git_out.stdout) .unwrap() .trim() .to_string(); } else { eprintln!( "Error generating git reference: {}", String::from_utf8(git_out.stderr).unwrap() ); } } let mut git_commit_date = "".to_string(); if let Ok(git_out) = Command::new("git") .args(["show", "-s", "--format=%cd"]) .output() { if git_out.status.success() { git_commit_date = String::from_utf8(git_out.stdout) .unwrap() .trim() .to_string(); } else { eprintln!( "Error generating git commit date: {}", String::from_utf8(git_out.stderr).unwrap() ); } } MetricsReport { git_human_readable, git_revision, git_commit_date, date: date(), results: Vec::new(), } } } #[derive(Default)] pub struct PerformanceTestOverrides { test_iterations: Option, } impl fmt::Display for PerformanceTestOverrides { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { if let Some(test_iterations) = self.test_iterations { write!(f, "test_iterations = {}", test_iterations)?; } Ok(()) } } pub struct PerformanceTestControl { test_timeout: u32, test_iterations: u32, num_queues: Option, queue_size: Option, net_rx: Option, fio_ops: Option, num_boot_vcpus: Option, } impl fmt::Display for PerformanceTestControl { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let mut output = format!( "test_timeout = {}s, test_iterations = {}", self.test_timeout, self.test_iterations ); if let Some(o) = self.num_queues { output = format!("{}, num_queues = {}", output, o); } if let Some(o) = self.queue_size { output = format!("{}, queue_size = {}", output, o); } if let Some(o) = self.net_rx { output = format!("{}, net_rx = {}", output, o); } if let Some(o) = &self.fio_ops { output = format!("{}, fio_ops = {}", output, o); } write!(f, "{}", output) } } impl PerformanceTestControl { const fn default() -> Self { Self { test_timeout: 10, test_iterations: 5, num_queues: None, queue_size: None, net_rx: None, fio_ops: None, num_boot_vcpus: Some(1), } } } /// A performance test should finish within the a certain time-out and /// return a performance metrics number (including the average number and /// standard deviation) struct PerformanceTest { pub name: &'static str, pub func_ptr: fn(&PerformanceTestControl) -> f64, pub control: PerformanceTestControl, unit_adjuster: fn(f64) -> f64, } impl PerformanceTest { pub fn run(&self, overrides: &PerformanceTestOverrides) -> PerformanceTestResult { let mut metrics = Vec::new(); for _ in 0..overrides .test_iterations .unwrap_or(self.control.test_iterations) { metrics.push((self.func_ptr)(&self.control)); } let mean = (self.unit_adjuster)(mean(&metrics).unwrap()); let std_dev = (self.unit_adjuster)(std_deviation(&metrics).unwrap()); let max = (self.unit_adjuster)(metrics.clone().into_iter().reduce(f64::max).unwrap()); let min = (self.unit_adjuster)(metrics.clone().into_iter().reduce(f64::min).unwrap()); PerformanceTestResult { name: self.name.to_string(), mean, std_dev, max, min, } } // Calculate the timeout for each test // Note: To cover the setup/cleanup time, 20s is added for each iteration of the test pub fn calc_timeout(&self, test_iterations: &Option) -> u64 { ((self.control.test_timeout + 20) * test_iterations.unwrap_or(self.control.test_iterations)) as u64 } } fn mean(data: &[f64]) -> Option { let count = data.len(); if count > 0 { Some(data.iter().sum::() / count as f64) } else { None } } fn std_deviation(data: &[f64]) -> Option { let count = data.len(); if count > 0 { let mean = mean(data).unwrap(); let variance = data .iter() .map(|value| { let diff = mean - *value; diff * diff }) .sum::() / count as f64; Some(variance.sqrt()) } else { None } } mod adjuster { pub fn identity(v: f64) -> f64 { v } pub fn s_to_ms(v: f64) -> f64 { v * 1000.0 } pub fn bps_to_gbps(v: f64) -> f64 { v / (1_000_000_000_f64) } #[allow(non_snake_case)] pub fn Bps_to_MiBps(v: f64) -> f64 { v / (1 << 20) as f64 } } const TEST_LIST: [PerformanceTest; 17] = [ PerformanceTest { name: "boot_time_ms", func_ptr: performance_boot_time, control: PerformanceTestControl { test_timeout: 2, test_iterations: 10, ..PerformanceTestControl::default() }, unit_adjuster: adjuster::s_to_ms, }, PerformanceTest { name: "boot_time_pmem_ms", func_ptr: performance_boot_time_pmem, control: PerformanceTestControl { test_timeout: 2, test_iterations: 10, ..PerformanceTestControl::default() }, unit_adjuster: adjuster::s_to_ms, }, PerformanceTest { name: "boot_time_16_vcpus_ms", func_ptr: performance_boot_time, control: PerformanceTestControl { test_timeout: 2, test_iterations: 10, num_boot_vcpus: Some(16), ..PerformanceTestControl::default() }, unit_adjuster: adjuster::s_to_ms, }, PerformanceTest { name: "boot_time_16_vcpus_pmem_ms", func_ptr: performance_boot_time_pmem, control: PerformanceTestControl { test_timeout: 2, test_iterations: 10, num_boot_vcpus: Some(16), ..PerformanceTestControl::default() }, unit_adjuster: adjuster::s_to_ms, }, PerformanceTest { name: "virtio_net_latency_us", func_ptr: performance_net_latency, control: PerformanceTestControl { num_queues: Some(2), queue_size: Some(256), ..PerformanceTestControl::default() }, unit_adjuster: adjuster::identity, }, PerformanceTest { name: "virtio_net_throughput_single_queue_rx_gbps", func_ptr: performance_net_throughput, control: PerformanceTestControl { num_queues: Some(2), queue_size: Some(256), net_rx: Some(true), ..PerformanceTestControl::default() }, unit_adjuster: adjuster::bps_to_gbps, }, PerformanceTest { name: "virtio_net_throughput_single_queue_tx_gbps", func_ptr: performance_net_throughput, control: PerformanceTestControl { num_queues: Some(2), queue_size: Some(256), net_rx: Some(false), ..PerformanceTestControl::default() }, unit_adjuster: adjuster::bps_to_gbps, }, PerformanceTest { name: "virtio_net_throughput_multi_queue_rx_gbps", func_ptr: performance_net_throughput, control: PerformanceTestControl { num_queues: Some(4), queue_size: Some(256), net_rx: Some(true), ..PerformanceTestControl::default() }, unit_adjuster: adjuster::bps_to_gbps, }, PerformanceTest { name: "virtio_net_throughput_multi_queue_tx_gbps", func_ptr: performance_net_throughput, control: PerformanceTestControl { num_queues: Some(4), queue_size: Some(256), net_rx: Some(false), ..PerformanceTestControl::default() }, unit_adjuster: adjuster::bps_to_gbps, }, PerformanceTest { name: "block_read_MiBps", func_ptr: performance_block_io, control: PerformanceTestControl { num_queues: Some(1), queue_size: Some(128), fio_ops: Some(FioOps::Read), ..PerformanceTestControl::default() }, unit_adjuster: adjuster::Bps_to_MiBps, }, PerformanceTest { name: "block_write_MiBps", func_ptr: performance_block_io, control: PerformanceTestControl { num_queues: Some(1), queue_size: Some(128), fio_ops: Some(FioOps::Write), ..PerformanceTestControl::default() }, unit_adjuster: adjuster::Bps_to_MiBps, }, PerformanceTest { name: "block_random_read_MiBps", func_ptr: performance_block_io, control: PerformanceTestControl { num_queues: Some(1), queue_size: Some(128), fio_ops: Some(FioOps::RandomRead), ..PerformanceTestControl::default() }, unit_adjuster: adjuster::Bps_to_MiBps, }, PerformanceTest { name: "block_random_write_MiBps", func_ptr: performance_block_io, control: PerformanceTestControl { num_queues: Some(1), queue_size: Some(128), fio_ops: Some(FioOps::RandomWrite), ..PerformanceTestControl::default() }, unit_adjuster: adjuster::Bps_to_MiBps, }, PerformanceTest { name: "block_multi_queue_read_MiBps", func_ptr: performance_block_io, control: PerformanceTestControl { num_queues: Some(2), queue_size: Some(128), fio_ops: Some(FioOps::Read), ..PerformanceTestControl::default() }, unit_adjuster: adjuster::Bps_to_MiBps, }, PerformanceTest { name: "block_multi_queue_write_MiBps", func_ptr: performance_block_io, control: PerformanceTestControl { num_queues: Some(2), queue_size: Some(128), fio_ops: Some(FioOps::Write), ..PerformanceTestControl::default() }, unit_adjuster: adjuster::Bps_to_MiBps, }, PerformanceTest { name: "block_multi_queue_random_read_MiBps", func_ptr: performance_block_io, control: PerformanceTestControl { num_queues: Some(2), queue_size: Some(128), fio_ops: Some(FioOps::RandomRead), ..PerformanceTestControl::default() }, unit_adjuster: adjuster::Bps_to_MiBps, }, PerformanceTest { name: "block_multi_queue_random_write_MiBps", func_ptr: performance_block_io, control: PerformanceTestControl { num_queues: Some(2), queue_size: Some(128), fio_ops: Some(FioOps::RandomWrite), ..PerformanceTestControl::default() }, unit_adjuster: adjuster::Bps_to_MiBps, }, ]; fn run_test_with_timeout( test: &'static PerformanceTest, overrides: &Arc, ) -> Result { let (sender, receiver) = channel::>(); let test_iterations = overrides.test_iterations; let overrides = overrides.clone(); thread::spawn(move || { println!( "Test '{}' running .. (control: {}, overrides: {})", test.name, test.control, overrides ); let output = match std::panic::catch_unwind(|| test.run(&overrides)) { Ok(test_result) => { println!( "Test '{}' .. ok: mean = {}, std_dev = {}", test_result.name, test_result.mean, test_result.std_dev ); Ok(test_result) } Err(_) => Err(Error::TestFailed), }; let _ = sender.send(output); }); // Todo: Need to cleanup/kill all hanging child processes let test_timeout = test.calc_timeout(&test_iterations); receiver .recv_timeout(Duration::from_secs(test_timeout)) .map_err(|_| { eprintln!( "[Error] Test '{}' time-out after {} seconds", test.name, test_timeout ); Error::TestTimeout })? } fn date() -> String { let output = test_infra::exec_host_command_output("date"); String::from_utf8_lossy(&output.stdout).trim().to_string() } fn main() { let cmd_arguments = ClapCommand::new("performance-metrics") .version(env!("GIT_HUMAN_READABLE")) .author(crate_authors!()) .about("Generate the performance metrics data for Cloud Hypervisor") .arg( Arg::new("test-filter") .long("test-filter") .help("Filter metrics tests to run based on provided keywords") .multiple_occurrences(true) .takes_value(true) .required(false), ) .arg( Arg::new("list-tests") .long("list-tests") .help("Print the list of availale metrics tests") .multiple_occurrences(true) .takes_value(false) .required(false), ) .arg( Arg::new("report-file") .long("report-file") .help("Report file. Standard error is used if not specified") .takes_value(true), ) .arg( Arg::new("iterations") .long("iterations") .help("Override number of test iterations") .takes_value(true), ) .get_matches(); // It seems that the tool (ethr) used for testing the virtio-net latency // is not stable on AArch64, and therefore the latency test is currently // skipped on AArch64. let test_list: Vec<&PerformanceTest> = TEST_LIST .iter() .filter(|t| !(cfg!(target_arch = "aarch64") && t.name == "virtio_net_latency_us")) .collect(); if cmd_arguments.is_present("list-tests") { for test in test_list.iter() { println!("\"{}\" ({})", test.name, test.control); } return; } let test_filter = match cmd_arguments.values_of("test-filter") { Some(s) => s.collect(), None => Vec::new(), }; // Run performance tests sequentially and report results (in both readable/json format) let mut metrics_report: MetricsReport = Default::default(); init_tests(); let overrides = Arc::new(PerformanceTestOverrides { test_iterations: cmd_arguments .value_of("iterations") .map(|s| s.parse()) .transpose() .unwrap_or_default(), }); for test in test_list.iter() { if test_filter.is_empty() || test_filter.iter().any(|&s| test.name.contains(s)) { match run_test_with_timeout(test, &overrides) { Ok(r) => { metrics_report.results.push(r); } Err(e) => { eprintln!("Aborting test due to error: '{:?}'", e); std::process::exit(1); } }; } } cleanup_tests(); let mut report_file: Box = if let Some(file) = cmd_arguments.value_of("report-file") { Box::new( std::fs::File::create(std::path::Path::new(file)) .map_err(|e| { eprintln!("Error opening report file: {}: {}", file, e); std::process::exit(1); }) .unwrap(), ) } else { Box::new(std::io::stdout()) }; report_file .write_all( serde_json::to_string_pretty(&metrics_report) .unwrap() .as_bytes(), ) .map_err(|e| { eprintln!("Error writing report file: {}", e); std::process::exit(1); }) .unwrap(); }