rclone/cmd/bisync/bisync_test.go

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// TestBisync is a test engine for bisync test cases.
// See https://rclone.org/bisync/#testing for documentation.
// Test cases are organized in subdirs beneath ./testdata
// Results are compared against golden listings and log file.
package bisync_test
import (
"bytes"
"context"
"errors"
"flag"
"fmt"
"log"
"os"
"path"
"path/filepath"
"regexp"
"runtime"
"sort"
"strconv"
"strings"
"testing"
"time"
"unicode/utf8"
"github.com/rclone/rclone/cmd/bisync"
"github.com/rclone/rclone/cmd/bisync/bilib"
"github.com/rclone/rclone/fs"
"github.com/rclone/rclone/fs/accounting"
"github.com/rclone/rclone/fs/cache"
"github.com/rclone/rclone/fs/filter"
"github.com/rclone/rclone/fs/fspath"
"github.com/rclone/rclone/fs/hash"
"github.com/rclone/rclone/fs/object"
"github.com/rclone/rclone/fs/operations"
"github.com/rclone/rclone/fs/sync"
"github.com/rclone/rclone/fstest"
"github.com/rclone/rclone/lib/atexit"
"github.com/rclone/rclone/lib/encoder"
"github.com/rclone/rclone/lib/random"
"github.com/rclone/rclone/lib/terminal"
"golang.org/x/text/unicode/norm"
"github.com/pmezard/go-difflib/difflib"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
_ "github.com/rclone/rclone/backend/all" // for integration tests
)
const (
touchDateFormat = "2006-01-02"
goldenCanonBase = "_testdir_"
logFileName = "test.log"
dropMe = "*** [DROP THIS LINE] ***"
eol = "\n"
slash = string(os.PathSeparator)
fixSlash = (runtime.GOOS == "windows")
)
// logReplacements make modern test logs comparable with golden dir.
// It is a string slice of even length with this structure:
//
// {`matching regular expression`, "mangled result string", ...}
var logReplacements = []string{
// skip syslog facility markers
`^(<[1-9]>)(INFO |ERROR |NOTICE|DEBUG ):(.*)$`, "$2:$3",
// skip log prefixes
`^\d+/\d\d/\d\d \d\d:\d\d:\d\d(?:\.\d{6})? `, "",
// ignore rclone info messages
`^INFO : .*?: (Deleted|Copied |Moved |Updated ).*$`, dropMe,
`^NOTICE: .*?: Replacing invalid UTF-8 characters in "[^"]*"$`, dropMe,
// ignore rclone debug messages
`^DEBUG : .*$`, dropMe,
// ignore dropbox info messages
`^NOTICE: too_many_(requests|write_operations)/\.*: Too many requests or write operations.*$`, dropMe,
`^NOTICE: Dropbox root .*?: Forced to upload files to set modification times on this backend.$`, dropMe,
`^INFO : .*?: src and dst identical but can't set mod time without deleting and re-uploading$`, dropMe,
// ignore crypt info messages
`^INFO : .*?: Crypt detected! Using cryptcheck instead of check. \(Use --size-only or --ignore-checksum to disable\)$`, dropMe,
// ignore drive info messages
`^NOTICE:.*?Files of unknown size \(such as Google Docs\) do not sync reliably with --checksum or --size-only\. Consider using modtime instead \(the default\) or --drive-skip-gdocs.*?$`, dropMe,
bisync: full support for comparing checksum, size, modtime - fixes #5679 fixes #5683 fixes #5684 fixes #5675 Before this change, bisync could only detect changes based on modtime, and would refuse to run if either path lacked modtime support. This made bisync unavailable for many of rclone's backends. Additionally, bisync did not account for the Fs's precision when comparing modtimes, meaning that they could only be reliably compared within the same side -- not against the opposite side. Size and checksum (even when available) were ignored completely for deltas. After this change, bisync now fully supports comparing based on any combination of size, modtime, and checksum, lifting the prior restriction on backends without modtime support. The comparison logic considers the backend's precision, hash types, and other features as appropriate. The comparison features optionally use a new --compare flag (which takes any combination of size,modtime,checksum) and even supports some combinations not otherwise supported in `sync` (like comparing all three at the same time.) By default (without the --compare flag), bisync inherits the same comparison options as `sync` (that is: size and modtime by default, unless modified with flags such as --checksum or --size-only.) If the --compare flag is set, it will override these defaults. If --compare includes checksum and both remotes support checksums but have no hash types in common with each other, checksums will be considered only for comparisons within the same side (to determine what has changed since the prior sync), but not for comparisons against the opposite side. If one side supports checksums and the other does not, checksums will only be considered on the side that supports them. When comparing with checksum and/or size without modtime, bisync cannot determine whether a file is newer or older -- only whether it is changed or unchanged. (If it is changed on both sides, bisync still does the standard equality-check to avoid declaring a sync conflict unless it absolutely has to.) Also included are some new flags to customize the checksum comparison behavior on backends where hashes are slow or unavailable. --no-slow-hash and --slow-hash-sync-only allow selectively ignoring checksums on backends such as local where they are slow. --download-hash allows computing them by downloading when (and only when) they're otherwise not available. Of course, this option probably won't be practical with large files, but may be a good option for syncing small-but-important files with maximum accuracy (for example, a source code repo on a crypt remote.) An additional advantage over methods like cryptcheck is that the original file is not required for comparison (for example, --download-hash can be used to bisync two different crypt remotes with different passwords.) Additionally, all of the above are now considered during the final --check-sync for much-improved accuracy (before this change, it only compared filenames!) Many other details are explained in the included docs.
2023-12-01 00:44:38 +00:00
// ignore differences in backend features
`^.*?"HashType1":.*?$`, dropMe,
`^.*?"HashType2":.*?$`, dropMe,
`^.*?"SlowHashDetected":.*?$`, dropMe,
`^.*? for same-side diffs on .*?$`, dropMe,
`^.*?Downloading hashes.*?$`, dropMe,
}
// Some dry-run messages differ depending on the particular remote.
var dryrunReplacements = []string{
`^(NOTICE: file5.txt: Skipped) (copy|update modification time) (as --dry-run is set [(]size \d+[)])$`,
`$1 copy (or update modification time) $3`,
}
// Some groups of log lines may appear unordered because rclone applies
// many operations in parallel to boost performance.
var logHoppers = []string{
// Test case `dry-run` produced log mismatches due to non-deterministic
// order of captured dry-run info messages.
`NOTICE: \S+?: Skipped (?:copy|move|delete|copy \(or [^)]+\)|update modification time) as --dry-run is set \(size \d+\)`,
// Test case `extended-filenames` detected difference in order of files
// with extended unicode names between Windows and Unix or GDrive,
// but the order is in fact not important for success.
`(?:INFO |NOTICE): - Path[12] +File (?:was deleted|is new|is newer|is OLDER) +- .*`,
// Test case `check-access-filters` detected listing miscompares due
// to indeterminate order of rclone operations in presence of multiple
// subdirectories. The order inconsistency initially showed up in the
// listings and triggered reordering of log messages, but the actual
// files will in fact match.
`.* +.....Access test failed: Path[12] file not found in Path[12].*`,
// Test case `resync` suffered from the order of queued copies.
`(?:INFO |NOTICE): - Path2 Resync will copy to Path1 +- .*`,
// Test case `normalization` can have random order of fix-case files.
`(?:INFO |NOTICE): .*: Fixed case by renaming to: .*`,
}
// Some log lines can contain Windows path separator that must be
// converted to "/" in every matching token to match golden logs.
var logLinesWithSlash = []string{
`.*\(\d\d\) :.*(fix-names|touch-glob|touch-copy|copy-file|copy-as|copy-dir|delete-file) `,
bisync: full support for comparing checksum, size, modtime - fixes #5679 fixes #5683 fixes #5684 fixes #5675 Before this change, bisync could only detect changes based on modtime, and would refuse to run if either path lacked modtime support. This made bisync unavailable for many of rclone's backends. Additionally, bisync did not account for the Fs's precision when comparing modtimes, meaning that they could only be reliably compared within the same side -- not against the opposite side. Size and checksum (even when available) were ignored completely for deltas. After this change, bisync now fully supports comparing based on any combination of size, modtime, and checksum, lifting the prior restriction on backends without modtime support. The comparison logic considers the backend's precision, hash types, and other features as appropriate. The comparison features optionally use a new --compare flag (which takes any combination of size,modtime,checksum) and even supports some combinations not otherwise supported in `sync` (like comparing all three at the same time.) By default (without the --compare flag), bisync inherits the same comparison options as `sync` (that is: size and modtime by default, unless modified with flags such as --checksum or --size-only.) If the --compare flag is set, it will override these defaults. If --compare includes checksum and both remotes support checksums but have no hash types in common with each other, checksums will be considered only for comparisons within the same side (to determine what has changed since the prior sync), but not for comparisons against the opposite side. If one side supports checksums and the other does not, checksums will only be considered on the side that supports them. When comparing with checksum and/or size without modtime, bisync cannot determine whether a file is newer or older -- only whether it is changed or unchanged. (If it is changed on both sides, bisync still does the standard equality-check to avoid declaring a sync conflict unless it absolutely has to.) Also included are some new flags to customize the checksum comparison behavior on backends where hashes are slow or unavailable. --no-slow-hash and --slow-hash-sync-only allow selectively ignoring checksums on backends such as local where they are slow. --download-hash allows computing them by downloading when (and only when) they're otherwise not available. Of course, this option probably won't be practical with large files, but may be a good option for syncing small-but-important files with maximum accuracy (for example, a source code repo on a crypt remote.) An additional advantage over methods like cryptcheck is that the original file is not required for comparison (for example, --download-hash can be used to bisync two different crypt remotes with different passwords.) Additionally, all of the above are now considered during the final --check-sync for much-improved accuracy (before this change, it only compared filenames!) Many other details are explained in the included docs.
2023-12-01 00:44:38 +00:00
`INFO : - .*Path[12].* +.*Queue copy to.* Path[12].*`,
`INFO : Synching Path1 .*? with Path2 `,
`INFO : Validating listings for `,
}
var regexFixSlash = regexp.MustCompile("^(" + strings.Join(logLinesWithSlash, "|") + ")")
// Command line flags for bisync test
var (
argTestCase = flag.String("case", "", "Bisync test case to run")
argRemote2 = flag.String("remote2", "", "Path2 for bisync tests")
argNoCompare = flag.Bool("no-compare", false, "Do not compare test results with golden")
argNoCleanup = flag.Bool("no-cleanup", false, "Keep test files")
argGolden = flag.Bool("golden", false, "Store results as golden")
argDebug = flag.Bool("debug", false, "Print debug messages")
argStopAt = flag.Int("stop-at", 0, "Stop after given test step")
// Flag -refresh-times helps with Dropbox tests failing with message
// "src and dst identical but can't set mod time without deleting and re-uploading"
argRefreshTimes = flag.Bool("refresh-times", false, "Force refreshing the target modtime, useful for Dropbox (default: false)")
)
// bisyncTest keeps all test data in a single place
type bisyncTest struct {
// per-test state
t *testing.T
step int
stopped bool
stepStr string
testCase string
sessionName string
// test dirs
testDir string
dataDir string
initDir string
goldenDir string
workDir string
fs1 fs.Fs
path1 string
canonPath1 string
fs2 fs.Fs
path2 string
canonPath2 string
// test log
logDir string
logPath string
logFile *os.File
// global state
dataRoot string
randName string
tempDir string
parent1 fs.Fs
parent2 fs.Fs
// global flags
argRemote1 string
argRemote2 string
noCompare bool
noCleanup bool
golden bool
debug bool
stopAt int
TestFn bisync.TestFunc
}
const TerminalColorMode = fs.TerminalColorModeAlways
var color = bisync.Color
// TestBisync is a test engine for bisync test cases.
func TestBisync(t *testing.T) {
ctx := context.Background()
fstest.Initialise()
ci := fs.GetConfig(ctx)
ciSave := *ci
defer func() {
*ci = ciSave
}()
if *argRefreshTimes {
ci.RefreshTimes = true
}
baseDir, err := os.Getwd()
require.NoError(t, err, "get current directory")
randName := "bisync." + time.Now().Format("150405-") + random.String(5)
tempDir := filepath.Join(os.TempDir(), randName)
workDir := filepath.Join(tempDir, "workdir")
b := &bisyncTest{
// per-test state
t: t,
// global state
tempDir: tempDir,
randName: randName,
workDir: workDir,
dataRoot: filepath.Join(baseDir, "testdata"),
logDir: filepath.Join(tempDir, "logs"),
logPath: filepath.Join(workDir, logFileName),
// global flags
argRemote1: *fstest.RemoteName,
argRemote2: *argRemote2,
noCompare: *argNoCompare,
noCleanup: *argNoCleanup,
golden: *argGolden,
debug: *argDebug,
stopAt: *argStopAt,
}
b.mkdir(b.tempDir)
b.mkdir(b.logDir)
fnHandle := atexit.Register(func() {
if atexit.Signalled() {
b.cleanupAll()
}
})
defer func() {
b.cleanupAll()
atexit.Unregister(fnHandle)
}()
argCase := *argTestCase
if argCase == "" {
argCase = "all"
if testing.Short() {
// remote tests can be long, help with "go test -short"
argCase = "basic"
}
}
testList := strings.Split(argCase, ",")
if strings.ToLower(argCase) == "all" {
testList = nil
for _, testCase := range b.listDir(b.dataRoot) {
if strings.HasPrefix(testCase, "test_") {
testList = append(testList, testCase)
}
}
}
require.False(t, b.stopAt > 0 && len(testList) > 1, "-stop-at is meaningful only for a single test")
for _, testCase := range testList {
testCase = strings.ReplaceAll(testCase, "-", "_")
testCase = strings.TrimPrefix(testCase, "test_")
t.Run(testCase, func(childTest *testing.T) {
b.runTestCase(ctx, childTest, testCase)
})
}
}
func (b *bisyncTest) cleanupAll() {
if b.noCleanup {
return
}
ctx := context.Background()
if b.parent1 != nil {
_ = operations.Purge(ctx, b.parent1, "")
}
if b.parent2 != nil {
_ = operations.Purge(ctx, b.parent2, "")
}
_ = os.RemoveAll(b.tempDir)
}
func (b *bisyncTest) runTestCase(ctx context.Context, t *testing.T, testCase string) {
b.t = t
b.testCase = testCase
var err error
b.fs1, b.parent1, b.path1, b.canonPath1 = b.makeTempRemote(ctx, b.argRemote1, "path1")
b.fs2, b.parent2, b.path2, b.canonPath2 = b.makeTempRemote(ctx, b.argRemote2, "path2")
b.sessionName = bilib.SessionName(b.fs1, b.fs2)
b.testDir = b.ensureDir(b.dataRoot, "test_"+b.testCase, false)
b.initDir = b.ensureDir(b.testDir, "initial", false)
b.goldenDir = b.ensureDir(b.testDir, "golden", false)
b.dataDir = b.ensureDir(b.testDir, "modfiles", true) // optional
// normalize unicode so tets are runnable on macOS
b.sessionName = norm.NFC.String(b.sessionName)
b.goldenDir = norm.NFC.String(b.goldenDir)
// For test stability, jam initial dates to a fixed past date.
// Test cases that change files will touch specific files to fixed new dates.
initDate := time.Date(2000, time.January, 1, 0, 0, 0, 0, bisync.TZ)
err = filepath.Walk(b.initDir, func(path string, info os.FileInfo, err error) error {
if err == nil && !info.IsDir() {
return os.Chtimes(path, initDate, initDate)
}
return err
})
require.NoError(b.t, err, "jamming initial dates")
// Prepare initial content
b.cleanupCase(ctx)
initFs, err := fs.NewFs(ctx, b.initDir)
require.NoError(b.t, err)
require.NoError(b.t, sync.CopyDir(ctx, b.fs1, initFs, true), "setting up path1")
require.NoError(b.t, sync.CopyDir(ctx, b.fs2, initFs, true), "setting up path2")
// Create log file
b.mkdir(b.workDir)
b.logFile, err = os.Create(b.logPath)
require.NoError(b.t, err, "creating log file")
// Execute test scenario
scenFile := filepath.Join(b.testDir, "scenario.txt")
scenBuf, err := os.ReadFile(scenFile)
scenReplacer := b.newReplacer(false)
require.NoError(b.t, err)
b.step = 0
b.stopped = false
for _, line := range strings.Split(string(scenBuf), "\n") {
comment := strings.Index(line, "#")
if comment != -1 {
line = line[:comment]
}
line = strings.TrimSpace(line)
if line == "" {
if b.golden {
// Keep empty lines in golden logs
_, _ = b.logFile.WriteString("\n")
}
continue
}
b.step++
b.stepStr = fmt.Sprintf("(%02d) :", b.step)
line = scenReplacer.Replace(line)
if err = b.runTestStep(ctx, line); err != nil {
require.Failf(b.t, "test step failed", "step %d failed: %v", b.step, err)
return
}
if b.stopAt > 0 && b.step >= b.stopAt {
comment := ""
if b.golden {
comment = " (ignoring -golden)"
}
b.logPrintf("Stopping after step %d%s", b.step, comment)
b.stopped = true
b.noCleanup = true
b.noCompare = true
break
}
}
// Perform post-run activities
require.NoError(b.t, b.logFile.Close(), "flushing test log")
b.logFile = nil
savedLog := b.testCase + ".log"
err = bilib.CopyFile(b.logPath, filepath.Join(b.logDir, savedLog))
require.NoError(b.t, err, "saving log file %s", savedLog)
if b.golden && !b.stopped {
log.Printf("Store results to golden directory")
b.storeGolden()
return
}
errorCount := 0
if b.noCompare {
log.Printf("Skip comparing results with golden directory")
errorCount = -2
} else {
errorCount = b.compareResults()
}
if b.noCleanup {
log.Printf("Skip cleanup")
} else {
b.cleanupCase(ctx)
}
var msg string
var passed bool
switch errorCount {
case 0:
msg = color(terminal.GreenFg, fmt.Sprintf("TEST %s PASSED", b.testCase))
passed = true
case -2:
msg = color(terminal.YellowFg, fmt.Sprintf("TEST %s SKIPPED", b.testCase))
passed = true
case -1:
msg = color(terminal.RedFg, fmt.Sprintf("TEST %s FAILED - WRONG NUMBER OF FILES", b.testCase))
passed = false
default:
msg = color(terminal.RedFg, fmt.Sprintf("TEST %s FAILED - %d MISCOMPARED FILES", b.testCase, errorCount))
buckets := b.fs1.Features().BucketBased || b.fs2.Features().BucketBased
passed = false
if b.testCase == "rmdirs" && buckets {
msg += " (expected failure on bucket remotes)"
passed = true
}
}
b.t.Log(msg)
if !passed {
b.t.FailNow()
}
}
// makeTempRemote creates temporary folder and makes a filesystem
// if a local path is provided, it's ignored (the test will run under system temp)
func (b *bisyncTest) makeTempRemote(ctx context.Context, remote, subdir string) (f, parent fs.Fs, path, canon string) {
var err error
if bilib.IsLocalPath(remote) {
if remote != "" && remote != "local" {
b.t.Fatalf(`Missing ":" in remote %q. Use "local" to test with local filesystem.`, remote)
}
parent, err = fs.NewFs(ctx, b.tempDir)
require.NoError(b.t, err, "parsing %s", b.tempDir)
path = filepath.Join(b.tempDir, b.testCase)
canon = bilib.CanonicalPath(path) + "_"
path = filepath.Join(path, subdir)
} else {
last := remote[len(remote)-1]
if last != ':' && last != '/' {
remote += "/"
}
remote += b.randName
parent, err = fs.NewFs(ctx, remote)
require.NoError(b.t, err, "parsing %s", remote)
path = remote + "/" + b.testCase
canon = bilib.CanonicalPath(path) + "_"
path += "/" + subdir
}
f, err = fs.NewFs(ctx, path)
require.NoError(b.t, err, "parsing %s/%s", remote, subdir)
path = bilib.FsPath(f) // Make it canonical
if f.Precision() == fs.ModTimeNotSupported {
b.t.Skipf("modification time support is missing on %s", subdir)
}
return
}
func (b *bisyncTest) cleanupCase(ctx context.Context) {
// Silence "directory not found" errors from the ftp backend
_ = bilib.CaptureOutput(func() {
_ = operations.Purge(ctx, b.fs1, "")
})
_ = bilib.CaptureOutput(func() {
_ = operations.Purge(ctx, b.fs2, "")
})
_ = os.RemoveAll(b.workDir)
accounting.Stats(ctx).ResetCounters()
}
func (b *bisyncTest) runTestStep(ctx context.Context, line string) (err error) {
var fsrc, fdst fs.Fs
accounting.Stats(ctx).ResetErrors()
b.logPrintf("%s %s", color(terminal.CyanFg, b.stepStr), color(terminal.BlueFg, line))
ci := fs.GetConfig(ctx)
ciSave := *ci
defer func() {
*ci = ciSave
}()
ci.LogLevel = fs.LogLevelInfo
if b.debug {
ci.LogLevel = fs.LogLevelDebug
}
testFunc := func() {
src := filepath.Join(b.dataDir, "file7.txt")
for i := 0; i < 50; i++ {
dst := "file" + fmt.Sprint(i) + ".txt"
err := b.copyFile(ctx, src, b.path2, dst)
if err != nil {
fs.Errorf(src, "error copying file: %v", err)
}
dst = "file" + fmt.Sprint(100-i) + ".txt"
err = b.copyFile(ctx, src, b.path1, dst)
if err != nil {
fs.Errorf(dst, "error copying file: %v", err)
}
}
}
args := splitLine(line)
switch args[0] {
case "test":
b.checkArgs(args, 1, 0)
return nil
case "copy-listings":
b.checkArgs(args, 1, 1)
return b.saveTestListings(args[1], true)
case "move-listings":
b.checkArgs(args, 1, 1)
return b.saveTestListings(args[1], false)
case "purge-children":
b.checkArgs(args, 1, 1)
if fsrc, err = fs.NewFs(ctx, args[1]); err != nil {
return err
}
err = purgeChildren(ctx, fsrc, "")
if err != nil {
return err
}
flushCache(fsrc)
return
case "delete-file":
b.checkArgs(args, 1, 1)
dir, file := filepath.Split(args[1])
if fsrc, err = fs.NewFs(ctx, dir); err != nil {
return err
}
var obj fs.Object
if obj, err = fsrc.NewObject(ctx, file); err != nil {
return err
}
return operations.DeleteFile(ctx, obj)
case "delete-glob":
b.checkArgs(args, 2, 2)
if fsrc, err = fs.NewFs(ctx, args[1]); err != nil {
return err
}
return deleteFiles(ctx, fsrc, args[2])
case "touch-glob":
b.checkArgs(args, 3, 3)
date, src, glob := args[1], args[2], args[3]
if fsrc, err = fs.NewFs(ctx, src); err != nil {
return err
}
_, err = touchFiles(ctx, date, fsrc, src, glob)
return err
case "touch-copy":
b.checkArgs(args, 3, 3)
date, src, dst := args[1], args[2], args[3]
dir, file := filepath.Split(src)
if fsrc, err = fs.NewFs(ctx, dir); err != nil {
return err
}
if _, err = touchFiles(ctx, date, fsrc, dir, file); err != nil {
return err
}
return b.copyFile(ctx, src, dst, "")
case "copy-file":
b.checkArgs(args, 2, 2)
return b.copyFile(ctx, args[1], args[2], "")
case "copy-as":
b.checkArgs(args, 3, 3)
return b.copyFile(ctx, args[1], args[2], args[3])
case "copy-as-NFC":
b.checkArgs(args, 3, 3)
ci.NoUnicodeNormalization = true
ci.FixCase = true
return b.copyFile(ctx, args[1], norm.NFC.String(args[2]), norm.NFC.String(args[3]))
case "copy-as-NFD":
b.checkArgs(args, 3, 3)
ci.NoUnicodeNormalization = true
ci.FixCase = true
return b.copyFile(ctx, args[1], norm.NFD.String(args[2]), norm.NFD.String(args[3]))
case "copy-dir", "sync-dir":
b.checkArgs(args, 2, 2)
if fsrc, err = cache.Get(ctx, args[1]); err != nil {
return err
}
if fdst, err = cache.Get(ctx, args[2]); err != nil {
return err
}
switch args[0] {
case "copy-dir":
err = sync.CopyDir(ctx, fdst, fsrc, true)
case "sync-dir":
err = sync.Sync(ctx, fdst, fsrc, true)
}
return err
case "list-dirs":
b.checkArgs(args, 1, 1)
return b.listSubdirs(ctx, args[1], true)
case "list-files":
b.checkArgs(args, 1, 1)
return b.listSubdirs(ctx, args[1], false)
case "bisync":
ci.NoUnicodeNormalization = false
ci.IgnoreCaseSync = false
// ci.FixCase = true
return b.runBisync(ctx, args[1:])
case "test-func":
b.TestFn = testFunc
return
case "fix-names":
// in case the local os converted any filenames
ci.NoUnicodeNormalization = true
ci.FixCase = true
ci.IgnoreTimes = true
reset := func() {
ci.NoUnicodeNormalization = false
ci.FixCase = false
ci.IgnoreTimes = false
}
defer reset()
b.checkArgs(args, 1, 1)
var ok bool
var remoteName string
var remotePath string
remoteName, remotePath, err = fspath.SplitFs(args[1])
if err != nil {
return err
}
if remoteName == "" {
remoteName = "/"
}
fsrc, err = fs.NewFs(ctx, remoteName)
if err != nil {
return err
}
// DEBUG
fs.Debugf(remotePath, "is NFC: %v", norm.NFC.IsNormalString(remotePath))
fs.Debugf(remotePath, "is NFD: %v", norm.NFD.IsNormalString(remotePath))
fs.Debugf(remotePath, "is valid UTF8: %v", utf8.ValidString(remotePath))
// check if it's a dir, try moving it
var leaf string
_, leaf, err = fspath.Split(remotePath)
if err == nil && leaf == "" {
remotePath = args[1]
fs.Debugf(remotePath, "attempting to fix directory")
fixDirname := func(old, new string) {
if new != old {
oldName, err := fs.NewFs(ctx, old)
if err != nil {
fs.Logf(old, "error getting Fs: %v", err)
}
fs.Debugf(nil, "Attempting to move %s to %s", oldName.Root(), new)
// Create random name to temporarily move dir to
tmpDirName := strings.TrimSuffix(new, slash) + "-rclone-move-" + random.String(8)
var tmpDirFs fs.Fs
tmpDirFs, _ = fs.NewFs(ctx, tmpDirName)
err = sync.MoveDir(ctx, tmpDirFs, oldName, true, true)
if err != nil {
fs.Debugf(oldName, "error attempting to move folder: %v", err)
}
// now move the temp dir to real name
fsrc, _ = fs.NewFs(ctx, new)
err = sync.MoveDir(ctx, fsrc, tmpDirFs, true, true)
if err != nil {
fs.Debugf(tmpDirFs, "error attempting to move folder to %s: %v", fsrc.Root(), err)
}
} else {
fs.Debugf(nil, "old and new are equal. Skipping. %s (%s) %s (%s)", old, stringToHash(old), new, stringToHash(new))
}
}
if norm.NFC.String(remotePath) != remotePath && norm.NFD.String(remotePath) != remotePath {
fs.Debugf(remotePath, "This is neither fully NFD or NFC -- can't fix reliably!")
}
fixDirname(norm.NFC.String(remotePath), remotePath)
fixDirname(norm.NFD.String(remotePath), remotePath)
return
}
// if it's a file
fs.Debugf(remotePath, "attempting to fix file -- filename hash: %s", stringToHash(leaf))
fixFilename := func(old, new string) {
ok, err := fs.FileExists(ctx, fsrc, old)
if err != nil {
fs.Debugf(remotePath, "error checking if file exists: %v", err)
}
fs.Debugf(old, "file exists: %v %s", ok, stringToHash(old))
fs.Debugf(nil, "FILE old: %s new: %s equal: %v", old, new, old == new)
fs.Debugf(nil, "HASH old: %s new: %s equal: %v", stringToHash(old), stringToHash(new), stringToHash(old) == stringToHash(new))
if ok && new != old {
fs.Debugf(new, "attempting to rename %s to %s", old, new)
err = operations.MoveFile(ctx, fsrc, fsrc, new, old)
if err != nil {
fs.Errorf(new, "error trying to rename %s to %s - %v", old, new, err)
}
}
}
// look for NFC version
fixFilename(norm.NFC.String(remotePath), remotePath)
// if it's in a subdir we just moved, the file and directory might have different encodings. Check for that.
mixed := strings.TrimSuffix(norm.NFD.String(remotePath), norm.NFD.String(leaf)) + norm.NFC.String(leaf)
fixFilename(mixed, remotePath)
// Try NFD
fixFilename(norm.NFD.String(remotePath), remotePath)
// Try mixed in reverse
mixed = strings.TrimSuffix(norm.NFC.String(remotePath), norm.NFC.String(leaf)) + norm.NFD.String(leaf)
fixFilename(mixed, remotePath)
// check if it's right now, error if not
ok, err = fs.FileExists(ctx, fsrc, remotePath)
if !ok || err != nil {
fs.Logf(remotePath, "Can't find expected file %s (was it renamed by the os?) %v", args[1], err)
return
} else {
// include hash of filename to make unicode form differences easier to see in logs
fs.Debugf(remotePath, "verified file exists at correct path. filename hash: %s", stringToHash(leaf))
}
return
default:
return fmt.Errorf("unknown command: %q", args[0])
}
}
// splitLine splits scenario line into tokens and performs
// substitutions that involve whitespace or control chars.
func splitLine(line string) (args []string) {
for _, s := range strings.Fields(line) {
b := []byte(whitespaceReplacer.Replace(s))
b = regexChar.ReplaceAllFunc(b, func(b []byte) []byte {
c, _ := strconv.ParseUint(string(b[5:7]), 16, 8)
return []byte{byte(c)}
})
args = append(args, string(b))
}
return
}
var whitespaceReplacer = strings.NewReplacer(
"{spc}", " ",
"{tab}", "\t",
"{eol}", eol,
)
var regexChar = regexp.MustCompile(`\{chr:([0-9a-f]{2})\}`)
// checkArgs verifies the number of the test command arguments
func (b *bisyncTest) checkArgs(args []string, min, max int) {
cmd := args[0]
num := len(args) - 1
if min == max && num != min {
b.t.Fatalf("%q must have strictly %d args", cmd, min)
}
if min > 0 && num < min {
b.t.Fatalf("%q must have at least %d args", cmd, min)
}
if max > 0 && num > max {
b.t.Fatalf("%q must have at most %d args", cmd, max)
}
}
func flushCache(f fs.Fs) {
dirCacheFlush := f.Features().DirCacheFlush
if dirCacheFlush == nil {
fs.Errorf(nil, "%v: can't flush dir cache", f)
}
}
func (b *bisyncTest) runBisync(ctx context.Context, args []string) (err error) {
opt := &bisync.Options{
Workdir: b.workDir,
NoCleanup: true,
SaveQueues: true,
MaxDelete: bisync.DefaultMaxDelete,
CheckFilename: bisync.DefaultCheckFilename,
CheckSync: bisync.CheckSyncTrue,
TestFn: b.TestFn,
}
octx, ci := fs.AddConfig(ctx)
fs1, fs2 := b.fs1, b.fs2
// flush cache
flushCache(fs1)
flushCache(fs2)
addSubdir := func(path, subdir string) fs.Fs {
remote := path + subdir
f, err := fs.NewFs(ctx, remote)
require.NoError(b.t, err, "parsing remote %q", remote)
return f
}
for _, arg := range args {
val := ""
pos := strings.Index(arg, "=")
if pos > 0 {
arg, val = arg[:pos], arg[pos+1:]
}
switch arg {
case "resync":
opt.Resync = true
case "dry-run":
ci.DryRun = true
opt.DryRun = true
case "force":
opt.Force = true
case "create-empty-src-dirs":
opt.CreateEmptySrcDirs = true
case "remove-empty-dirs":
opt.RemoveEmptyDirs = true
case "check-sync-only":
opt.CheckSync = bisync.CheckSyncOnly
case "no-check-sync":
opt.CheckSync = bisync.CheckSyncFalse
case "check-access":
opt.CheckAccess = true
case "check-filename":
opt.CheckFilename = val
case "filters-file":
opt.FiltersFile = val
case "max-delete":
opt.MaxDelete, err = strconv.Atoi(val)
require.NoError(b.t, err, "parsing max-delete=%q", val)
case "size-only":
ci.SizeOnly = true
bisync: full support for comparing checksum, size, modtime - fixes #5679 fixes #5683 fixes #5684 fixes #5675 Before this change, bisync could only detect changes based on modtime, and would refuse to run if either path lacked modtime support. This made bisync unavailable for many of rclone's backends. Additionally, bisync did not account for the Fs's precision when comparing modtimes, meaning that they could only be reliably compared within the same side -- not against the opposite side. Size and checksum (even when available) were ignored completely for deltas. After this change, bisync now fully supports comparing based on any combination of size, modtime, and checksum, lifting the prior restriction on backends without modtime support. The comparison logic considers the backend's precision, hash types, and other features as appropriate. The comparison features optionally use a new --compare flag (which takes any combination of size,modtime,checksum) and even supports some combinations not otherwise supported in `sync` (like comparing all three at the same time.) By default (without the --compare flag), bisync inherits the same comparison options as `sync` (that is: size and modtime by default, unless modified with flags such as --checksum or --size-only.) If the --compare flag is set, it will override these defaults. If --compare includes checksum and both remotes support checksums but have no hash types in common with each other, checksums will be considered only for comparisons within the same side (to determine what has changed since the prior sync), but not for comparisons against the opposite side. If one side supports checksums and the other does not, checksums will only be considered on the side that supports them. When comparing with checksum and/or size without modtime, bisync cannot determine whether a file is newer or older -- only whether it is changed or unchanged. (If it is changed on both sides, bisync still does the standard equality-check to avoid declaring a sync conflict unless it absolutely has to.) Also included are some new flags to customize the checksum comparison behavior on backends where hashes are slow or unavailable. --no-slow-hash and --slow-hash-sync-only allow selectively ignoring checksums on backends such as local where they are slow. --download-hash allows computing them by downloading when (and only when) they're otherwise not available. Of course, this option probably won't be practical with large files, but may be a good option for syncing small-but-important files with maximum accuracy (for example, a source code repo on a crypt remote.) An additional advantage over methods like cryptcheck is that the original file is not required for comparison (for example, --download-hash can be used to bisync two different crypt remotes with different passwords.) Additionally, all of the above are now considered during the final --check-sync for much-improved accuracy (before this change, it only compared filenames!) Many other details are explained in the included docs.
2023-12-01 00:44:38 +00:00
case "ignore-size":
ci.IgnoreSize = true
case "checksum":
ci.CheckSum = true
opt.Compare.DownloadHash = true // allows us to test crypt and the like
case "compare-all":
opt.CompareFlag = "size,modtime,checksum"
opt.Compare.DownloadHash = true // allows us to test crypt and the like
case "subdir":
fs1 = addSubdir(b.path1, val)
fs2 = addSubdir(b.path2, val)
case "ignore-listing-checksum":
opt.IgnoreListingChecksum = true
case "no-norm":
ci.NoUnicodeNormalization = true
ci.IgnoreCaseSync = false
case "norm":
ci.NoUnicodeNormalization = false
ci.IgnoreCaseSync = true
case "fix-case":
ci.NoUnicodeNormalization = false
ci.IgnoreCaseSync = true
ci.FixCase = true
default:
return fmt.Errorf("invalid bisync option %q", arg)
}
}
output := bilib.CaptureOutput(func() {
err = bisync.Bisync(octx, fs1, fs2, opt)
})
_, _ = os.Stdout.Write(output)
_, _ = b.logFile.Write(output)
if err != nil {
b.logPrintf("Bisync error: %v", err)
}
return nil
}
// saveTestListings creates a copy of test artifacts with given prefix
// including listings (.lst*), queues (.que) and filters (.flt, .flt.md5)
func (b *bisyncTest) saveTestListings(prefix string, keepSource bool) (err error) {
count := 0
for _, srcFile := range b.listDir(b.workDir) {
switch fileType(srcFile) {
case "listing", "queue", "filters":
// fall thru
default:
continue
}
count++
dstFile := fmt.Sprintf("%s.%s.sav", prefix, b.toGolden(srcFile))
src := filepath.Join(b.workDir, srcFile)
dst := filepath.Join(b.workDir, dstFile)
if err = bilib.CopyFile(src, dst); err != nil {
return
}
if keepSource {
continue
}
if err = os.Remove(src); err != nil {
return
}
}
if count == 0 {
err = errors.New("listings not found")
}
return
}
func (b *bisyncTest) copyFile(ctx context.Context, src, dst, asName string) (err error) {
var fsrc, fdst fs.Fs
var srcPath, srcFile, dstPath, dstFile string
switch fsrc, err = fs.NewFs(ctx, src); err {
case fs.ErrorIsFile:
// ok
case nil:
return errors.New("source must be a file")
default:
return err
}
if _, srcPath, err = fspath.SplitFs(src); err != nil {
return err
}
srcFile = path.Base(srcPath)
if dstPath, dstFile, err = fspath.Split(dst); err != nil {
return err
}
if dstPath == "" {
return errors.New("invalid destination")
}
if dstFile != "" {
dstPath = dst // force directory
}
if fdst, err = fs.NewFs(ctx, dstPath); err != nil {
return err
}
if asName != "" {
dstFile = asName
} else {
dstFile = srcFile
}
fctx, fi := filter.AddConfig(ctx)
if err := fi.AddFile(srcFile); err != nil {
return err
}
return operations.CopyFile(fctx, fdst, fsrc, dstFile, srcFile)
}
// listSubdirs is equivalent to `rclone lsf -R [--dirs-only]`
func (b *bisyncTest) listSubdirs(ctx context.Context, remote string, DirsOnly bool) error {
f, err := fs.NewFs(ctx, remote)
if err != nil {
return err
}
// flush cache
flushCache(f)
opt := operations.ListJSONOpt{
NoModTime: true,
NoMimeType: true,
DirsOnly: DirsOnly,
Recurse: true,
}
fmt := operations.ListFormat{}
fmt.SetDirSlash(true)
fmt.AddPath()
printItem := func(item *operations.ListJSONItem) error {
b.logPrintf("%s - filename hash: %s", fmt.Format(item), stringToHash(item.Name))
return nil
}
return operations.ListJSON(ctx, f, "", &opt, printItem)
}
// purgeChildren deletes child files and purges subdirs under given path.
// Note: this cannot be done with filters.
func purgeChildren(ctx context.Context, f fs.Fs, dir string) error {
entries, firstErr := f.List(ctx, dir)
if firstErr != nil {
return firstErr
}
for _, entry := range entries {
var err error
switch dirObj := entry.(type) {
case fs.Object:
fs.Debugf(dirObj, "Remove file")
err = dirObj.Remove(ctx)
case fs.Directory:
fs.Debugf(dirObj, "Purge subdir")
err = operations.Purge(ctx, f, dirObj.Remote())
}
if firstErr == nil {
firstErr = err
}
}
return firstErr
}
// deleteFiles deletes a group of files by the name pattern.
func deleteFiles(ctx context.Context, f fs.Fs, glob string) error {
fctx, fi := filter.AddConfig(ctx)
if err := fi.Add(true, glob); err != nil {
return err
}
if err := fi.Add(false, "/**"); err != nil {
return err
}
return operations.Delete(fctx, f)
}
// touchFiles sets modification time on a group of files.
// Returns names of touched files and/or error.
// Note: `rclone touch` can touch only single file, doesn't support filters.
func touchFiles(ctx context.Context, dateStr string, f fs.Fs, dir, glob string) ([]string, error) {
files := []string{}
date, err := time.ParseInLocation(touchDateFormat, dateStr, bisync.TZ)
if err != nil {
return files, fmt.Errorf("invalid date %q: %w", dateStr, err)
}
matcher, firstErr := filter.GlobToRegexp(glob, false)
if firstErr != nil {
return files, fmt.Errorf("invalid glob %q", glob)
}
entries, firstErr := f.List(ctx, "")
if firstErr != nil {
return files, firstErr
}
for _, entry := range entries {
obj, isFile := entry.(fs.Object)
if !isFile {
continue
}
remote := obj.Remote()
if !matcher.MatchString(remote) {
continue
}
files = append(files, dir+remote)
fs.Debugf(obj, "Set modification time %s", dateStr)
err := obj.SetModTime(ctx, date)
if err == fs.ErrorCantSetModTimeWithoutDelete {
// Workaround for dropbox, similar to --refresh-times
err = nil
buf := new(bytes.Buffer)
size := obj.Size()
separator := ""
if size > 0 {
err = operations.Cat(ctx, f, buf, 0, size, []byte(separator))
}
info := object.NewStaticObjectInfo(remote, date, size, true, nil, f)
if err == nil {
_ = obj.Remove(ctx)
_, err = f.Put(ctx, buf, info)
}
}
if firstErr == nil {
firstErr = err
}
}
return files, firstErr
}
// compareResults validates scenario results against golden dir
func (b *bisyncTest) compareResults() int {
goldenFiles := b.listDir(b.goldenDir)
resultFiles := b.listDir(b.workDir)
// Adapt test file names to their golden counterparts
renamed := false
for _, fileName := range resultFiles {
goldName := b.toGolden(fileName)
if goldName != fileName {
filePath := filepath.Join(b.workDir, fileName)
goldPath := filepath.Join(b.workDir, goldName)
require.NoError(b.t, os.Rename(filePath, goldPath))
renamed = true
}
}
if renamed {
resultFiles = b.listDir(b.workDir)
}
goldenSet := bilib.ToNames(goldenFiles)
resultSet := bilib.ToNames(resultFiles)
goldenNum := len(goldenFiles)
resultNum := len(resultFiles)
errorCount := 0
const divider = "----------------------------------------------------------"
if goldenNum != resultNum {
log.Print(divider)
log.Print(color(terminal.RedFg, "MISCOMPARE - Number of Golden and Results files do not match:"))
log.Printf(" Golden count: %d", goldenNum)
log.Printf(" Result count: %d", resultNum)
log.Printf(" Golden files: %s", strings.Join(goldenFiles, ", "))
log.Printf(" Result files: %s", strings.Join(resultFiles, ", "))
}
for _, file := range goldenFiles {
if !resultSet.Has(file) {
errorCount++
log.Printf(" File found in Golden but not in Results: %s", file)
}
}
for _, file := range resultFiles {
if !goldenSet.Has(file) {
errorCount++
log.Printf(" File found in Results but not in Golden: %s", file)
}
}
for _, file := range goldenFiles {
if !resultSet.Has(file) {
continue
}
goldenText := b.mangleResult(b.goldenDir, file, false)
resultText := b.mangleResult(b.workDir, file, false)
if fileType(file) == "log" {
// save mangled logs so difference is easier on eyes
goldenFile := filepath.Join(b.logDir, "mangled.golden.log")
resultFile := filepath.Join(b.logDir, "mangled.result.log")
require.NoError(b.t, os.WriteFile(goldenFile, []byte(goldenText), bilib.PermSecure))
require.NoError(b.t, os.WriteFile(resultFile, []byte(resultText), bilib.PermSecure))
}
if goldenText == resultText || strings.Contains(resultText, ".DS_Store") {
continue
}
errorCount++
diff := difflib.UnifiedDiff{
A: difflib.SplitLines(goldenText),
B: difflib.SplitLines(resultText),
Context: 0,
}
text, err := difflib.GetUnifiedDiffString(diff)
require.NoError(b.t, err, "diff failed")
log.Print(divider)
log.Printf(color(terminal.RedFg, "| MISCOMPARE -Golden vs +Results for %s"), file)
for _, line := range strings.Split(strings.TrimSpace(text), "\n") {
log.Printf("| %s", strings.TrimSpace(line))
}
}
if errorCount > 0 {
log.Print(divider)
}
if errorCount == 0 && goldenNum != resultNum {
return -1
}
return errorCount
}
// storeGolden will store workdir files to the golden directory.
// Golden results will have adapted file names and contain
// generic strings instead of local or cloud paths.
func (b *bisyncTest) storeGolden() {
// Perform consistency checks
files := b.listDir(b.workDir)
require.NotEmpty(b.t, files, "nothing to store in golden dir")
// Pass 1: validate files before storing
for _, fileName := range files {
if fileType(fileName) == "lock" {
continue
}
goldName := b.toGolden(fileName)
if goldName != fileName {
targetPath := filepath.Join(b.workDir, goldName)
exists := bilib.FileExists(targetPath)
require.False(b.t, exists, "golden name overlap for file %s", fileName)
}
text := b.mangleResult(b.workDir, fileName, true)
if fileType(fileName) == "log" {
require.NotEmpty(b.t, text, "incorrect golden log %s", fileName)
}
}
// Pass 2: perform a verbatim copy
_ = os.RemoveAll(b.goldenDir)
require.NoError(b.t, bilib.CopyDir(b.workDir, b.goldenDir))
// Pass 3: adapt file names and content
for _, fileName := range files {
if fileType(fileName) == "lock" {
continue
}
text := b.mangleResult(b.goldenDir, fileName, true)
goldName := b.toGolden(fileName)
goldPath := filepath.Join(b.goldenDir, goldName)
err := os.WriteFile(goldPath, []byte(text), bilib.PermSecure)
assert.NoError(b.t, err, "writing golden file %s", goldName)
if goldName != fileName {
origPath := filepath.Join(b.goldenDir, fileName)
assert.NoError(b.t, os.Remove(origPath), "removing original file %s", fileName)
}
}
}
// mangleResult prepares test logs or listings for comparison
func (b *bisyncTest) mangleResult(dir, file string, golden bool) string {
buf, err := os.ReadFile(filepath.Join(dir, file))
require.NoError(b.t, err)
// normalize unicode so tets are runnable on macOS
buf = norm.NFC.Bytes(buf)
text := string(buf)
switch fileType(strings.TrimSuffix(file, ".sav")) {
case "queue":
lines := strings.Split(text, eol)
sort.Strings(lines)
for i, line := range lines {
lines[i] = normalizeEncoding(line)
}
return joinLines(lines)
case "listing":
return b.mangleListing(text, golden, file)
case "log":
// fall thru
default:
return text
}
// Adapt log lines to the golden way.
// First replace filenames with whitespace
// some backends (such as crypt) log them on multiple lines due to encoding differences, while others (local) do not
wsrep := []string{
"subdir with" + eol + "white space.txt/file2 with" + eol + "white space.txt",
"subdir with white space.txt/file2 with white space.txt",
}
whitespaceJoiner := strings.NewReplacer(wsrep...)
s := whitespaceJoiner.Replace(string(buf))
lines := strings.Split(s, eol)
pathReplacer := b.newReplacer(true)
rep := logReplacements
if b.testCase == "dry_run" {
rep = append(rep, dryrunReplacements...)
}
repFrom := make([]*regexp.Regexp, len(rep)/2)
repTo := make([]string, len(rep)/2)
for i := 0; i < len(rep); i += 2 {
repFrom[i/2] = regexp.MustCompile(rep[i])
repTo[i/2] = rep[i+1]
}
hoppers := make([]*regexp.Regexp, len(logHoppers))
dampers := make([][]string, len(logHoppers))
for i, regex := range logHoppers {
hoppers[i] = regexp.MustCompile("^" + regex + "$")
}
// The %q format doubles backslashes, hence "{1,2}"
regexBackslash := regexp.MustCompile(`\\{1,2}`)
emptyCount := 0
maxEmpty := 0
if b.golden {
maxEmpty = 2
}
result := make([]string, 0, len(lines))
for _, s := range lines {
// Adapt file paths
s = pathReplacer.Replace(strings.TrimSpace(s))
// Apply regular expression replacements
for i := 0; i < len(repFrom); i++ {
s = repFrom[i].ReplaceAllString(s, repTo[i])
}
s = strings.TrimSpace(s)
if s == dropMe {
continue
}
if fixSlash && regexFixSlash.MatchString(s) {
s = regexBackslash.ReplaceAllString(s, "/")
}
// Sort consecutive groups of naturally unordered lines.
// Any such group must end before the log ends or it might be lost.
absorbed := false
for i := 0; i < len(dampers); i++ {
match := false
if s != "" && !absorbed {
match = hoppers[i].MatchString(s)
}
if match {
dampers[i] = append(dampers[i], s)
absorbed = true
} else if len(dampers[i]) > 0 {
sort.Strings(dampers[i])
result = append(result, dampers[i]...)
dampers[i] = nil
}
}
if absorbed {
continue
}
// Skip empty lines unless storing to golden
if s == "" {
if emptyCount < maxEmpty {
result = append(result, "")
}
emptyCount++
continue
}
result = append(result, s)
emptyCount = 0
}
return joinLines(result)
}
// mangleListing sorts listing lines before comparing.
func (b *bisyncTest) mangleListing(text string, golden bool, file string) string {
lines := strings.Split(text, eol)
hasHeader := len(lines) > 0 && strings.HasPrefix(lines[0], bisync.ListingHeader)
if hasHeader {
lines = lines[1:]
}
// Split line in 4 groups: (flag, size)(hash.)( .id., .......modtime....... )(name).
regex := regexp.MustCompile(`^([^ ] +\d+ )([^ ]+)( [^ ]+ [\d-]+T[\d:.]+[\d+-]+ )(".+")$`)
getFile := func(s string) string {
if match := regex.FindStringSubmatch(strings.TrimSpace(s)); match != nil {
if name, err := strconv.Unquote(match[4]); err == nil {
return name
}
}
return s
}
sort.SliceStable(lines, func(i, j int) bool {
return getFile(lines[i]) < getFile(lines[j])
})
// parse whether this is Path1 or Path2 (so we can apply per-Fs precision/hash settings)
isPath1 := strings.Contains(file, ".path1.lst")
f := b.fs2
if isPath1 {
f = b.fs1
}
// account for differences in backend features when comparing
if !golden {
for i, s := range lines {
// Store hash as golden but ignore when comparing (only if no md5 support).
match := regex.FindStringSubmatch(strings.TrimSpace(s))
if match != nil && match[2] != "-" && (!b.fs1.Hashes().Contains(hash.MD5) || !b.fs2.Hashes().Contains(hash.MD5)) { // if hash is not empty and either side lacks md5
lines[i] = match[1] + "-" + match[3] + match[4] // replace it with "-" for comparison purposes (see #5679)
}
// account for modtime precision
var lineRegex = regexp.MustCompile(`^(\S) +(-?\d+) (\S+) (\S+) (\d{4}-\d\d-\d\dT\d\d:\d\d:\d\d\.\d{9}[+-]\d{4}) (".+")$`)
const timeFormat = "2006-01-02T15:04:05.000000000-0700"
const lineFormat = "%s %8d %s %s %s %q\n"
var TZ = time.UTC
fields := lineRegex.FindStringSubmatch(strings.TrimSuffix(lines[i], "\n"))
if fields != nil {
sizeVal, sizeErr := strconv.ParseInt(fields[2], 10, 64)
if sizeErr == nil {
// account for filename encoding differences by normalizing to OS encoding
fields[6] = normalizeEncoding(fields[6])
timeStr := fields[5]
if f.Precision() == fs.ModTimeNotSupported {
lines[i] = fmt.Sprintf(lineFormat, fields[1], sizeVal, fields[3], fields[4], "-", fields[6])
continue
}
timeVal, timeErr := time.ParseInLocation(timeFormat, timeStr, TZ)
if timeErr == nil {
timeRound := timeVal.Round(f.Precision() * 2)
lines[i] = fmt.Sprintf(lineFormat, fields[1], sizeVal, fields[3], fields[4], timeRound, fields[6])
}
}
}
}
}
text = joinLines(lines)
if hasHeader && golden {
text = bisync.ListingHeader + " test\n" + text
}
return text
}
// joinLines joins text lines dropping empty lines at the beginning and at the end
func joinLines(lines []string) string {
text := strings.Join(lines, eol)
text = strings.TrimLeft(text, eol)
text = strings.TrimRight(text, eol)
if text != "" {
text += eol
}
return text
}
// newReplacer can create two kinds of string replacers.
// If mangle is false, it will substitute macros in test scenario.
// If true then mangle paths in test log to match with golden log.
func (b *bisyncTest) newReplacer(mangle bool) *strings.Replacer {
if !mangle {
rep := []string{
"{datadir/}", b.dataDir + slash,
"{testdir/}", b.testDir + slash,
"{workdir/}", b.workDir + slash,
"{path1/}", b.path1,
"{path2/}", b.path2,
"{session}", b.sessionName,
"{/}", slash,
}
return strings.NewReplacer(rep...)
}
rep := []string{
b.dataDir + slash, "{datadir/}",
b.testDir + slash, "{testdir/}",
b.workDir + slash, "{workdir/}",
b.fs1.String(), "{path1String}",
b.fs2.String(), "{path2String}",
b.path1, "{path1/}",
b.path2, "{path2/}",
"//?/" + strings.TrimSuffix(strings.Replace(b.path1, slash, "/", -1), "/"), "{path1}", // fix windows-specific issue
"//?/" + strings.TrimSuffix(strings.Replace(b.path2, slash, "/", -1), "/"), "{path2}",
strings.TrimSuffix(b.path1, slash), "{path1}", // ensure it's still recognized without trailing slash
strings.TrimSuffix(b.path2, slash), "{path2}",
b.workDir, "{workdir}",
b.sessionName, "{session}",
}
if fixSlash {
prep := []string{}
for i := 0; i < len(rep); i += 2 {
// A hack for backslashes doubled by the go format "%q".
doubled := strings.ReplaceAll(rep[i], "\\", "\\\\")
if rep[i] != doubled {
prep = append(prep, doubled, rep[i+1])
}
}
// Put longer patterns first to ensure correct translation.
rep = append(prep, rep...)
}
return strings.NewReplacer(rep...)
}
// toGolden makes a result file name golden.
// It replaces each canonical path separately instead of using the
// session name to allow for subdirs in the extended-char-paths case.
func (b *bisyncTest) toGolden(name string) string {
name = strings.ReplaceAll(name, b.canonPath1, goldenCanonBase)
name = strings.ReplaceAll(name, b.canonPath2, goldenCanonBase)
name = strings.TrimSuffix(name, ".sav")
// normalize unicode so tets are runnable on macOS
name = norm.NFC.String(name)
return name
}
func (b *bisyncTest) mkdir(dir string) {
require.NoError(b.t, os.MkdirAll(dir, os.ModePerm))
}
func (b *bisyncTest) ensureDir(parent, dir string, optional bool) string {
path := filepath.Join(parent, dir)
if !optional {
info, err := os.Stat(path)
require.NoError(b.t, err, "%s must exist", path)
require.True(b.t, info.IsDir(), "%s must be a directory", path)
}
return path
}
func (b *bisyncTest) listDir(dir string) (names []string) {
files, err := os.ReadDir(dir)
require.NoError(b.t, err)
ignoreIt := func(file string) bool {
ignoreList := []string{
// ".lst-control", ".lst-dry-control", ".lst-old", ".lst-dry-old",
".DS_Store"}
for _, s := range ignoreList {
if strings.Contains(file, s) {
return true
}
}
return false
}
for _, file := range files {
if ignoreIt(file.Name()) {
continue
}
names = append(names, filepath.Base(norm.NFC.String(file.Name())))
}
// Sort files to ensure comparability.
sort.Strings(names)
return
}
// fileType detects test artifact type.
// Notes:
// - "filtersfile.txt" will NOT be recognized as a filters file
// - only "test.log" will be recognized as a test log file
func fileType(fileName string) string {
if fileName == logFileName {
return "log"
}
switch filepath.Ext(fileName) {
case ".lst", ".lst-new", ".lst-err", ".lst-dry", ".lst-dry-new", ".lst-old", ".lst-dry-old", ".lst-control", ".lst-dry-control":
return "listing"
case ".que":
return "queue"
case ".lck":
return "lock"
case ".flt":
return "filters"
}
if strings.HasSuffix(fileName, ".flt.md5") {
return "filters"
}
return "other"
}
// logPrintf prints a message to stdout and to the test log
func (b *bisyncTest) logPrintf(text string, args ...interface{}) {
line := fmt.Sprintf(text, args...)
log.Print(line)
if b.logFile != nil {
_, err := fmt.Fprintln(b.logFile, line)
require.NoError(b.t, err, "writing log file")
}
}
// account for filename encoding differences between remotes by normalizing to OS encoding
func normalizeEncoding(s string) string {
if s == "" || s == "." {
return s
}
nameVal, err := strconv.Unquote(s)
if err != nil {
nameVal = s
}
nameVal = filepath.Clean(nameVal)
nameVal = encoder.OS.FromStandardPath(nameVal)
return strconv.Quote(encoder.OS.ToStandardPath(filepath.ToSlash(nameVal)))
}
func stringToHash(s string) string {
ht := hash.MD5
hasher, err := hash.NewMultiHasherTypes(hash.NewHashSet(ht))
if err != nil {
fs.Errorf(s, "hash unsupported: %v", err)
}
_, err = hasher.Write([]byte(s))
if err != nil {
fs.Errorf(s, "failed to write to hasher: %v", err)
}
sum, err := hasher.SumString(ht, false)
if err != nil {
fs.Errorf(s, "hasher returned an error: %v", err)
}
return sum
}