Nagram/TMessagesProj/jni/boringssl/util/all_tests.go

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2019-12-31 13:08:08 +00:00
/* Copyright (c) 2015, Google Inc.
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
* SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
* OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
* CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */
package main
import (
"bufio"
"bytes"
"encoding/json"
"errors"
"flag"
"fmt"
"math/rand"
"os"
"os/exec"
"path"
"runtime"
"strconv"
"strings"
"sync"
"syscall"
"boringssl.googlesource.com/boringssl/util/testresult"
)
// TODO(davidben): Link tests with the malloc shim and port -malloc-test to this runner.
var (
useValgrind = flag.Bool("valgrind", false, "If true, run code under valgrind")
useCallgrind = flag.Bool("callgrind", false, "If true, run code under valgrind to generate callgrind traces.")
useGDB = flag.Bool("gdb", false, "If true, run BoringSSL code under gdb")
useSDE = flag.Bool("sde", false, "If true, run BoringSSL code under Intel's SDE for each supported chip")
sdePath = flag.String("sde-path", "sde", "The path to find the sde binary.")
buildDir = flag.String("build-dir", "build", "The build directory to run the tests from.")
numWorkers = flag.Int("num-workers", runtime.NumCPU(), "Runs the given number of workers when testing.")
jsonOutput = flag.String("json-output", "", "The file to output JSON results to.")
mallocTest = flag.Int64("malloc-test", -1, "If non-negative, run each test with each malloc in turn failing from the given number onwards.")
mallocTestDebug = flag.Bool("malloc-test-debug", false, "If true, ask each test to abort rather than fail a malloc. This can be used with a specific value for --malloc-test to identity the malloc failing that is causing problems.")
simulateARMCPUs = flag.Bool("simulate-arm-cpus", simulateARMCPUsDefault(), "If true, runs tests simulating different ARM CPUs.")
)
func simulateARMCPUsDefault() bool {
return runtime.GOOS == "linux" && (runtime.GOARCH == "arm" || runtime.GOARCH == "arm64")
}
type test struct {
args []string
shard, numShards int
// cpu, if not empty, contains a code to simulate. For SDE, run `sde64
// -help` to get a list of these codes. For ARM, see gtest_main.cc for
// the supported values.
cpu string
}
type result struct {
Test test
Passed bool
Error error
}
// sdeCPUs contains a list of CPU code that we run all tests under when *useSDE
// is true.
var sdeCPUs = []string{
"p4p", // Pentium4 Prescott
"mrm", // Merom
"pnr", // Penryn
"nhm", // Nehalem
"wsm", // Westmere
"snb", // Sandy Bridge
"ivb", // Ivy Bridge
"hsw", // Haswell
"bdw", // Broadwell
"skx", // Skylake Server
"skl", // Skylake Client
"cnl", // Cannonlake
"knl", // Knights Landing
"slt", // Saltwell
"slm", // Silvermont
"glm", // Goldmont
"knm", // Knights Mill
}
var armCPUs = []string{
"none", // No support for any ARM extensions.
"neon", // Support for NEON.
"crypto", // Support for NEON and crypto extensions.
}
func valgrindOf(dbAttach bool, path string, args ...string) *exec.Cmd {
valgrindArgs := []string{"--error-exitcode=99", "--track-origins=yes", "--leak-check=full", "--quiet"}
if dbAttach {
valgrindArgs = append(valgrindArgs, "--db-attach=yes", "--db-command=xterm -e gdb -nw %f %p")
}
valgrindArgs = append(valgrindArgs, path)
valgrindArgs = append(valgrindArgs, args...)
return exec.Command("valgrind", valgrindArgs...)
}
func callgrindOf(path string, args ...string) *exec.Cmd {
valgrindArgs := []string{"-q", "--tool=callgrind", "--dump-instr=yes", "--collect-jumps=yes", "--callgrind-out-file=" + *buildDir + "/callgrind/callgrind.out.%p"}
valgrindArgs = append(valgrindArgs, path)
valgrindArgs = append(valgrindArgs, args...)
return exec.Command("valgrind", valgrindArgs...)
}
func gdbOf(path string, args ...string) *exec.Cmd {
xtermArgs := []string{"-e", "gdb", "--args"}
xtermArgs = append(xtermArgs, path)
xtermArgs = append(xtermArgs, args...)
return exec.Command("xterm", xtermArgs...)
}
func sdeOf(cpu, path string, args ...string) *exec.Cmd {
sdeArgs := []string{"-" + cpu}
// The kernel's vdso code for gettimeofday sometimes uses the RDTSCP
// instruction. Although SDE has a -chip_check_vsyscall flag that
// excludes such code by default, it does not seem to work. Instead,
// pass the -chip_check_exe_only flag which retains test coverage when
// statically linked and excludes the vdso.
if cpu == "p4p" || cpu == "pnr" || cpu == "mrm" || cpu == "slt" {
sdeArgs = append(sdeArgs, "-chip_check_exe_only")
}
sdeArgs = append(sdeArgs, "--", path)
sdeArgs = append(sdeArgs, args...)
return exec.Command(*sdePath, sdeArgs...)
}
var (
errMoreMallocs = errors.New("child process did not exhaust all allocation calls")
errTestSkipped = errors.New("test was skipped")
)
func runTestOnce(test test, mallocNumToFail int64) (passed bool, err error) {
prog := path.Join(*buildDir, test.args[0])
args := append([]string{}, test.args[1:]...)
if *simulateARMCPUs && test.cpu != "" {
args = append(args, "--cpu=" + test.cpu)
}
if *useSDE {
// SDE is neither compatible with the unwind tester nor automatically
// detected.
args = append(args, "--no_unwind_tests")
}
var cmd *exec.Cmd
if *useValgrind {
cmd = valgrindOf(false, prog, args...)
} else if *useCallgrind {
cmd = callgrindOf(prog, args...)
} else if *useGDB {
cmd = gdbOf(prog, args...)
} else if *useSDE {
cmd = sdeOf(test.cpu, prog, args...)
} else {
cmd = exec.Command(prog, args...)
}
var outBuf bytes.Buffer
cmd.Stdout = &outBuf
cmd.Stderr = &outBuf
if mallocNumToFail >= 0 {
cmd.Env = os.Environ()
cmd.Env = append(cmd.Env, "MALLOC_NUMBER_TO_FAIL="+strconv.FormatInt(mallocNumToFail, 10))
if *mallocTestDebug {
cmd.Env = append(cmd.Env, "MALLOC_ABORT_ON_FAIL=1")
}
cmd.Env = append(cmd.Env, "_MALLOC_CHECK=1")
}
if err := cmd.Start(); err != nil {
return false, err
}
if err := cmd.Wait(); err != nil {
if exitError, ok := err.(*exec.ExitError); ok {
switch exitError.Sys().(syscall.WaitStatus).ExitStatus() {
case 88:
return false, errMoreMallocs
case 89:
fmt.Print(string(outBuf.Bytes()))
return false, errTestSkipped
}
}
fmt.Print(string(outBuf.Bytes()))
return false, err
}
// Account for Windows line-endings.
stdout := bytes.Replace(outBuf.Bytes(), []byte("\r\n"), []byte("\n"), -1)
if bytes.HasSuffix(stdout, []byte("PASS\n")) &&
(len(stdout) == 5 || stdout[len(stdout)-6] == '\n') {
return true, nil
}
// Also accept a googletest-style pass line. This is left here in
// transition until the tests are all converted and this script made
// unnecessary.
if bytes.Contains(stdout, []byte("\n[ PASSED ]")) {
return true, nil
}
fmt.Print(string(outBuf.Bytes()))
return false, nil
}
func runTest(test test) (bool, error) {
if *mallocTest < 0 {
return runTestOnce(test, -1)
}
for mallocNumToFail := int64(*mallocTest); ; mallocNumToFail++ {
if passed, err := runTestOnce(test, mallocNumToFail); err != errMoreMallocs {
if err != nil {
err = fmt.Errorf("at malloc %d: %s", mallocNumToFail, err)
}
return passed, err
}
}
}
// setWorkingDirectory walks up directories as needed until the current working
// directory is the top of a BoringSSL checkout.
func setWorkingDirectory() {
for i := 0; i < 64; i++ {
if _, err := os.Stat("BUILDING.md"); err == nil {
return
}
os.Chdir("..")
}
panic("Couldn't find BUILDING.md in a parent directory!")
}
func parseTestConfig(filename string) ([]test, error) {
in, err := os.Open(filename)
if err != nil {
return nil, err
}
defer in.Close()
decoder := json.NewDecoder(in)
var testArgs [][]string
if err := decoder.Decode(&testArgs); err != nil {
return nil, err
}
var result []test
for _, args := range testArgs {
result = append(result, test{args: args})
}
return result, nil
}
func worker(tests <-chan test, results chan<- result, done *sync.WaitGroup) {
defer done.Done()
for test := range tests {
passed, err := runTest(test)
results <- result{test, passed, err}
}
}
func (t test) shortName() string {
return t.args[0] + t.shardMsg() + t.cpuMsg()
}
func (t test) longName() string {
return strings.Join(t.args, " ") + t.cpuMsg()
}
func (t test) shardMsg() string {
if t.numShards == 0 {
return ""
}
return fmt.Sprintf(" [shard %d/%d]", t.shard+1, t.numShards)
}
func (t test) cpuMsg() string {
if len(t.cpu) == 0 {
return ""
}
return fmt.Sprintf(" (for CPU %q)", t.cpu)
}
func (t test) getGTestShards() ([]test, error) {
if *numWorkers == 1 || len(t.args) != 1 {
return []test{t}, nil
}
// Only shard the three GTest-based tests.
if t.args[0] != "crypto/crypto_test" && t.args[0] != "ssl/ssl_test" && t.args[0] != "decrepit/decrepit_test" {
return []test{t}, nil
}
prog := path.Join(*buildDir, t.args[0])
cmd := exec.Command(prog, "--gtest_list_tests")
var stdout bytes.Buffer
cmd.Stdout = &stdout
if err := cmd.Start(); err != nil {
return nil, err
}
if err := cmd.Wait(); err != nil {
return nil, err
}
var group string
var tests []string
scanner := bufio.NewScanner(&stdout)
for scanner.Scan() {
line := scanner.Text()
// Remove the parameter comment and trailing space.
if idx := strings.Index(line, "#"); idx >= 0 {
line = line[:idx]
}
line = strings.TrimSpace(line)
if len(line) == 0 {
continue
}
if line[len(line)-1] == '.' {
group = line
continue
}
if len(group) == 0 {
return nil, fmt.Errorf("found test case %q without group", line)
}
tests = append(tests, group+line)
}
const testsPerShard = 20
if len(tests) <= testsPerShard {
return []test{t}, nil
}
// Slow tests which process large test vector files tend to be grouped
// together, so shuffle the order.
shuffled := make([]string, len(tests))
perm := rand.Perm(len(tests))
for i, j := range perm {
shuffled[i] = tests[j]
}
var shards []test
for i := 0; i < len(shuffled); i += testsPerShard {
n := len(shuffled) - i
if n > testsPerShard {
n = testsPerShard
}
shard := t
shard.args = []string{shard.args[0], "--gtest_filter=" + strings.Join(shuffled[i:i+n], ":")}
shard.shard = len(shards)
shards = append(shards, shard)
}
for i := range shards {
shards[i].numShards = len(shards)
}
return shards, nil
}
func main() {
flag.Parse()
setWorkingDirectory()
testCases, err := parseTestConfig("util/all_tests.json")
if err != nil {
fmt.Printf("Failed to parse input: %s\n", err)
os.Exit(1)
}
var wg sync.WaitGroup
tests := make(chan test, *numWorkers)
results := make(chan result, *numWorkers)
for i := 0; i < *numWorkers; i++ {
wg.Add(1)
go worker(tests, results, &wg)
}
go func() {
for _, test := range testCases {
if *useSDE {
// SDE generates plenty of tasks and gets slower
// with additional sharding.
for _, cpu := range sdeCPUs {
testForCPU := test
testForCPU.cpu = cpu
tests <- testForCPU
}
} else if *simulateARMCPUs {
// This mode is run instead of the default path,
// so also include the native flow.
tests <- test
for _, cpu := range armCPUs {
testForCPU := test
testForCPU.cpu = cpu
tests <- testForCPU
}
} else {
shards, err := test.getGTestShards()
if err != nil {
fmt.Printf("Error listing tests: %s\n", err)
os.Exit(1)
}
for _, shard := range shards {
tests <- shard
}
}
}
close(tests)
wg.Wait()
close(results)
}()
testOutput := testresult.NewResults()
var failed, skipped []test
for testResult := range results {
test := testResult.Test
args := test.args
if testResult.Error == errTestSkipped {
fmt.Printf("%s\n", test.longName())
fmt.Printf("%s was skipped\n", args[0])
skipped = append(skipped, test)
testOutput.AddSkip(test.longName())
} else if testResult.Error != nil {
fmt.Printf("%s\n", test.longName())
fmt.Printf("%s failed to complete: %s\n", args[0], testResult.Error)
failed = append(failed, test)
testOutput.AddResult(test.longName(), "CRASH")
} else if !testResult.Passed {
fmt.Printf("%s\n", test.longName())
fmt.Printf("%s failed to print PASS on the last line.\n", args[0])
failed = append(failed, test)
testOutput.AddResult(test.longName(), "FAIL")
} else {
fmt.Printf("%s\n", test.shortName())
testOutput.AddResult(test.longName(), "PASS")
}
}
if *jsonOutput != "" {
if err := testOutput.WriteToFile(*jsonOutput); err != nil {
fmt.Fprintf(os.Stderr, "Error: %s\n", err)
}
}
if len(skipped) > 0 {
fmt.Printf("\n%d of %d tests were skipped:\n", len(skipped), len(testCases))
for _, test := range skipped {
fmt.Printf("\t%s%s\n", strings.Join(test.args, " "), test.cpuMsg())
}
}
if len(failed) > 0 {
fmt.Printf("\n%d of %d tests failed:\n", len(failed), len(testCases))
for _, test := range failed {
fmt.Printf("\t%s%s\n", strings.Join(test.args, " "), test.cpuMsg())
}
os.Exit(1)
}
fmt.Printf("\nAll tests passed!\n")
}