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denoland-deno/cli/tools/coverage.rs

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// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license.
use crate::ast;
use crate::ast::TokenOrComment;
use crate::colors;
use crate::flags::Flags;
use crate::fs_util::collect_files;
use crate::media_type::MediaType;
use crate::module_graph::TypeLib;
use crate::program_state::ProgramState;
use crate::source_maps::SourceMapGetter;
use deno_core::error::AnyError;
use deno_core::serde_json;
use deno_core::serde_json::json;
use deno_core::url::Url;
use deno_runtime::inspector::InspectorSession;
use deno_runtime::permissions::Permissions;
use regex::Regex;
use serde::Deserialize;
use serde::Serialize;
use sourcemap::SourceMap;
use std::fs;
use std::path::PathBuf;
use swc_common::Span;
use uuid::Uuid;
pub struct CoverageCollector {
pub dir: PathBuf,
session: Box<InspectorSession>,
}
impl CoverageCollector {
pub fn new(dir: PathBuf, session: Box<InspectorSession>) -> Self {
Self { dir, session }
}
pub async fn start_collecting(&mut self) -> Result<(), AnyError> {
self.session.post_message("Debugger.enable", None).await?;
self.session.post_message("Profiler.enable", None).await?;
self
.session
.post_message(
"Profiler.startPreciseCoverage",
Some(json!({"callCount": true, "detailed": true})),
)
.await?;
Ok(())
}
pub async fn stop_collecting(&mut self) -> Result<(), AnyError> {
let result = self
.session
.post_message("Profiler.takePreciseCoverage", None)
.await?;
let take_coverage_result: TakePreciseCoverageResult =
serde_json::from_value(result)?;
fs::create_dir_all(&self.dir)?;
let script_coverages = take_coverage_result.result;
for script_coverage in script_coverages {
let filename = format!("{}.json", Uuid::new_v4());
let json = serde_json::to_string(&script_coverage)?;
fs::write(self.dir.join(filename), &json)?;
}
self.session.post_message("Profiler.disable", None).await?;
self.session.post_message("Debugger.disable", None).await?;
Ok(())
}
}
// TODO(caspervonb) all of these structs can and should be made private, possibly moved to
// inspector::protocol.
#[derive(Debug, Serialize, Deserialize, Clone)]
#[serde(rename_all = "camelCase")]
pub struct CoverageRange {
pub start_offset: usize,
pub end_offset: usize,
pub count: usize,
}
#[derive(Debug, Serialize, Deserialize, Clone)]
#[serde(rename_all = "camelCase")]
pub struct FunctionCoverage {
pub function_name: String,
pub ranges: Vec<CoverageRange>,
pub is_block_coverage: bool,
}
#[derive(Debug, Serialize, Deserialize, Clone)]
#[serde(rename_all = "camelCase")]
pub struct ScriptCoverage {
pub script_id: String,
pub url: String,
pub functions: Vec<FunctionCoverage>,
}
#[derive(Debug, Serialize, Deserialize)]
#[serde(rename_all = "camelCase")]
struct TakePreciseCoverageResult {
result: Vec<ScriptCoverage>,
}
#[derive(Debug, Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct GetScriptSourceResult {
pub script_source: String,
pub bytecode: Option<String>,
}
pub enum CoverageReporterKind {
Pretty,
Lcov,
}
fn create_reporter(
kind: CoverageReporterKind,
) -> Box<dyn CoverageReporter + Send> {
match kind {
CoverageReporterKind::Lcov => Box::new(LcovCoverageReporter::new()),
CoverageReporterKind::Pretty => Box::new(PrettyCoverageReporter::new()),
}
}
pub trait CoverageReporter {
fn visit_coverage(
&mut self,
script_coverage: &ScriptCoverage,
script_source: &str,
maybe_source_map: Option<Vec<u8>>,
maybe_original_source: Option<String>,
);
fn done(&mut self);
}
pub struct LcovCoverageReporter {}
impl LcovCoverageReporter {
pub fn new() -> LcovCoverageReporter {
LcovCoverageReporter {}
}
}
impl CoverageReporter for LcovCoverageReporter {
fn visit_coverage(
&mut self,
script_coverage: &ScriptCoverage,
script_source: &str,
maybe_source_map: Option<Vec<u8>>,
_maybe_original_source: Option<String>,
) {
// TODO(caspervonb) cleanup and reduce duplication between reporters, pre-compute line coverage
// elsewhere.
2021-03-25 14:17:37 -04:00
let maybe_source_map = maybe_source_map
.map(|source_map| SourceMap::from_slice(&source_map).unwrap());
let url = Url::parse(&script_coverage.url).unwrap();
let file_path = url.to_file_path().unwrap();
println!("SF:{}", file_path.to_str().unwrap());
let mut functions_found = 0;
for function in &script_coverage.functions {
if function.function_name.is_empty() {
continue;
}
let source_line = script_source[0..function.ranges[0].start_offset]
.split('\n')
.count();
let line_index = if let Some(source_map) = maybe_source_map.as_ref() {
source_map
.tokens()
.find(|token| token.get_dst_line() as usize == source_line)
.map(|token| token.get_src_line() as usize)
.unwrap_or(0)
} else {
source_line
};
let function_name = &function.function_name;
println!("FN:{},{}", line_index + 1, function_name);
functions_found += 1;
}
let mut functions_hit = 0;
for function in &script_coverage.functions {
if function.function_name.is_empty() {
continue;
}
let execution_count = function.ranges[0].count;
let function_name = &function.function_name;
println!("FNDA:{},{}", execution_count, function_name);
if execution_count != 0 {
functions_hit += 1;
}
}
println!("FNF:{}", functions_found);
println!("FNH:{}", functions_hit);
let mut branches_found = 0;
let mut branches_hit = 0;
for (block_number, function) in script_coverage.functions.iter().enumerate()
{
let block_hits = function.ranges[0].count;
for (branch_number, range) in function.ranges[1..].iter().enumerate() {
let source_line =
script_source[0..range.start_offset].split('\n').count();
let line_index = if let Some(source_map) = maybe_source_map.as_ref() {
source_map
.tokens()
.find(|token| token.get_dst_line() as usize == source_line)
.map(|token| token.get_src_line() as usize)
.unwrap_or(0)
} else {
source_line
};
// From https://manpages.debian.org/unstable/lcov/geninfo.1.en.html:
//
// Block number and branch number are gcc internal IDs for the branch. Taken is either '-'
// if the basic block containing the branch was never executed or a number indicating how
// often that branch was taken.
//
// However with the data we get from v8 coverage profiles it seems we can't actually hit
// this as appears it won't consider any nested branches it hasn't seen but its here for
// the sake of accuracy.
let taken = if block_hits > 0 {
range.count.to_string()
} else {
"-".to_string()
};
println!(
"BRDA:{},{},{},{}",
line_index + 1,
block_number,
branch_number,
taken
);
branches_found += 1;
if range.count > 0 {
branches_hit += 1;
}
}
}
println!("BRF:{}", branches_found);
println!("BRH:{}", branches_hit);
let lines = script_source.split('\n').collect::<Vec<_>>();
let line_offsets = {
let mut offsets: Vec<(usize, usize)> = Vec::new();
let mut index = 0;
for line in &lines {
offsets.push((index, index + line.len() + 1));
index += line.len() + 1;
}
offsets
};
let line_counts = line_offsets
.iter()
.map(|(line_start_offset, line_end_offset)| {
let mut count = 0;
// Count the hits of ranges that include the entire line which will always be at-least one
// as long as the code has been evaluated.
for function in &script_coverage.functions {
for range in &function.ranges {
if range.start_offset <= *line_start_offset
&& range.end_offset >= *line_end_offset
{
count += range.count;
}
}
}
// We reset the count if any block with a zero count overlaps with the line range.
for function in &script_coverage.functions {
for range in &function.ranges {
if range.count > 0 {
continue;
}
let overlaps = std::cmp::max(line_end_offset, &range.end_offset)
- std::cmp::min(line_start_offset, &range.start_offset)
< (line_end_offset - line_start_offset)
+ (range.end_offset - range.start_offset);
if overlaps {
count = 0;
}
}
}
count
})
.collect::<Vec<usize>>();
let found_lines = if let Some(source_map) = maybe_source_map.as_ref() {
let mut found_lines = line_counts
.iter()
.enumerate()
.map(|(index, count)| {
source_map
.tokens()
.filter(move |token| token.get_dst_line() as usize == index)
.map(move |token| (token.get_src_line() as usize, *count))
})
.flatten()
.collect::<Vec<(usize, usize)>>();
found_lines.sort_unstable_by_key(|(index, _)| *index);
found_lines.dedup_by_key(|(index, _)| *index);
found_lines
} else {
line_counts
.iter()
.enumerate()
.map(|(index, count)| (index, *count))
.collect::<Vec<(usize, usize)>>()
};
for (index, count) in &found_lines {
println!("DA:{},{}", index + 1, count);
}
let lines_hit = found_lines.iter().filter(|(_, count)| *count != 0).count();
println!("LH:{}", lines_hit);
let lines_found = found_lines.len();
println!("LF:{}", lines_found);
println!("end_of_record");
}
fn done(&mut self) {}
}
pub struct PrettyCoverageReporter {}
impl PrettyCoverageReporter {
pub fn new() -> PrettyCoverageReporter {
PrettyCoverageReporter {}
}
}
impl CoverageReporter for PrettyCoverageReporter {
fn visit_coverage(
&mut self,
script_coverage: &ScriptCoverage,
script_source: &str,
maybe_source_map: Option<Vec<u8>>,
maybe_original_source: Option<String>,
) {
2021-03-25 14:17:37 -04:00
let maybe_source_map = maybe_source_map
.map(|source_map| SourceMap::from_slice(&source_map).unwrap());
let mut ignored_spans: Vec<Span> = Vec::new();
for item in ast::lex("", script_source, &MediaType::JavaScript) {
if let TokenOrComment::Token(_) = item.inner {
continue;
}
ignored_spans.push(item.span);
}
let lines = script_source.split('\n').collect::<Vec<_>>();
let line_offsets = {
let mut offsets: Vec<(usize, usize)> = Vec::new();
let mut index = 0;
for line in &lines {
offsets.push((index, index + line.len() + 1));
index += line.len() + 1;
}
offsets
};
// TODO(caspervonb): collect uncovered ranges on the lines so that we can highlight specific
// parts of a line in color (word diff style) instead of the entire line.
let line_counts = line_offsets
.iter()
.enumerate()
.map(|(index, (line_start_offset, line_end_offset))| {
let ignore = ignored_spans.iter().any(|span| {
(span.lo.0 as usize) <= *line_start_offset
&& (span.hi.0 as usize) >= *line_end_offset
});
if ignore {
return (index, 1);
}
let mut count = 0;
// Count the hits of ranges that include the entire line which will always be at-least one
// as long as the code has been evaluated.
for function in &script_coverage.functions {
for range in &function.ranges {
if range.start_offset <= *line_start_offset
&& range.end_offset >= *line_end_offset
{
count += range.count;
}
}
}
// We reset the count if any block with a zero count overlaps with the line range.
for function in &script_coverage.functions {
for range in &function.ranges {
if range.count > 0 {
continue;
}
let overlaps = std::cmp::max(line_end_offset, &range.end_offset)
- std::cmp::min(line_start_offset, &range.start_offset)
< (line_end_offset - line_start_offset)
+ (range.end_offset - range.start_offset);
if overlaps {
count = 0;
}
}
}
(index, count)
})
.collect::<Vec<(usize, usize)>>();
let lines = if let Some(original_source) = maybe_original_source.as_ref() {
original_source.split('\n').collect::<Vec<_>>()
} else {
lines
};
let line_counts = if let Some(source_map) = maybe_source_map.as_ref() {
let mut line_counts = line_counts
.iter()
.map(|(index, count)| {
source_map
.tokens()
.filter(move |token| token.get_dst_line() as usize == *index)
.map(move |token| (token.get_src_line() as usize, *count))
})
.flatten()
.collect::<Vec<(usize, usize)>>();
line_counts.sort_unstable_by_key(|(index, _)| *index);
line_counts.dedup_by_key(|(index, _)| *index);
line_counts
} else {
line_counts
};
print!("cover {} ... ", script_coverage.url);
let hit_lines = line_counts
.iter()
.filter(|(_, count)| *count != 0)
.map(|(index, _)| *index);
let missed_lines = line_counts
.iter()
.filter(|(_, count)| *count == 0)
.map(|(index, _)| *index);
let lines_found = line_counts.len();
let lines_hit = hit_lines.count();
let line_ratio = lines_hit as f32 / lines_found as f32;
let line_coverage =
format!("{:.3}% ({}/{})", line_ratio * 100.0, lines_hit, lines_found,);
if line_ratio >= 0.9 {
println!("{}", colors::green(&line_coverage));
} else if line_ratio >= 0.75 {
println!("{}", colors::yellow(&line_coverage));
} else {
println!("{}", colors::red(&line_coverage));
}
let mut last_line = None;
for line_index in missed_lines {
const WIDTH: usize = 4;
const SEPERATOR: &str = "|";
// Put a horizontal separator between disjoint runs of lines
if let Some(last_line) = last_line {
if last_line + 1 != line_index {
let dash = colors::gray("-".repeat(WIDTH + 1));
println!("{}{}{}", dash, colors::gray(SEPERATOR), dash);
}
}
println!(
"{:width$} {} {}",
line_index + 1,
colors::gray(SEPERATOR),
colors::red(&lines[line_index]),
width = WIDTH
);
last_line = Some(line_index);
}
}
fn done(&mut self) {}
}
fn collect_coverages(
files: Vec<PathBuf>,
ignore: Vec<PathBuf>,
) -> Result<Vec<ScriptCoverage>, AnyError> {
let mut coverages: Vec<ScriptCoverage> = Vec::new();
let file_paths = collect_files(&files, &ignore, |file_path| {
file_path.extension().map_or(false, |ext| ext == "json")
})?;
for file_path in file_paths {
let json = fs::read_to_string(file_path.as_path())?;
let new_coverage: ScriptCoverage = serde_json::from_str(&json)?;
let existing_coverage =
coverages.iter_mut().find(|x| x.url == new_coverage.url);
if let Some(existing_coverage) = existing_coverage {
for new_function in new_coverage.functions {
let existing_function = existing_coverage
.functions
.iter_mut()
.find(|x| x.function_name == new_function.function_name);
if let Some(existing_function) = existing_function {
for new_range in new_function.ranges {
let existing_range =
existing_function.ranges.iter_mut().find(|x| {
x.start_offset == new_range.start_offset
&& x.end_offset == new_range.end_offset
});
if let Some(existing_range) = existing_range {
existing_range.count += new_range.count;
} else {
existing_function.ranges.push(new_range);
}
}
} else {
existing_coverage.functions.push(new_function);
}
}
} else {
coverages.push(new_coverage);
}
}
coverages.sort_by_key(|k| k.url.clone());
Ok(coverages)
}
fn filter_coverages(
coverages: Vec<ScriptCoverage>,
include: Vec<String>,
exclude: Vec<String>,
) -> Vec<ScriptCoverage> {
let include: Vec<Regex> =
include.iter().map(|e| Regex::new(e).unwrap()).collect();
let exclude: Vec<Regex> =
exclude.iter().map(|e| Regex::new(e).unwrap()).collect();
coverages
.into_iter()
.filter(|e| {
let is_internal = e.url.starts_with("deno:")
|| e.url.ends_with("__anonymous__")
|| e.url.ends_with("$deno$test.ts");
let is_included = include.iter().any(|p| p.is_match(&e.url));
let is_excluded = exclude.iter().any(|p| p.is_match(&e.url));
(include.is_empty() || is_included) && !is_excluded && !is_internal
})
.collect::<Vec<ScriptCoverage>>()
}
pub async fn cover_files(
flags: Flags,
files: Vec<PathBuf>,
ignore: Vec<PathBuf>,
include: Vec<String>,
exclude: Vec<String>,
lcov: bool,
) -> Result<(), AnyError> {
let program_state = ProgramState::build(flags).await?;
let script_coverages = collect_coverages(files, ignore)?;
let script_coverages = filter_coverages(script_coverages, include, exclude);
let reporter_kind = if lcov {
CoverageReporterKind::Lcov
} else {
CoverageReporterKind::Pretty
};
let mut reporter = create_reporter(reporter_kind);
for script_coverage in script_coverages {
let module_specifier =
deno_core::resolve_url_or_path(&script_coverage.url)?;
program_state
.prepare_module_load(
module_specifier.clone(),
TypeLib::UnstableDenoWindow,
Permissions::allow_all(),
false,
program_state.maybe_import_map.clone(),
)
.await?;
let module_source = program_state.load(module_specifier.clone(), None)?;
let script_source = &module_source.code;
let maybe_source_map = program_state.get_source_map(&script_coverage.url);
let maybe_cached_source = program_state
.file_fetcher
.get_source(&module_specifier)
.map(|f| f.source);
reporter.visit_coverage(
&script_coverage,
&script_source,
maybe_source_map,
maybe_cached_source,
);
}
reporter.done();
Ok(())
}