Beispiel #1
0
func doVerify(signaturePath string, dir string, woundsPath string, healPath string) error {
	if woundsPath == "" {
		if healPath == "" {
			comm.Opf("Verifying %s", dir)
		} else {
			comm.Opf("Verifying %s, healing as we go", dir)
		}
	} else {
		if healPath == "" {
			comm.Opf("Verifying %s, writing wounds to %s", dir, woundsPath)
		} else {
			comm.Dief("Options --wounds and --heal cannot be used at the same time")
		}
	}
	startTime := time.Now()

	signatureReader, err := eos.Open(signaturePath)
	if err != nil {
		return errors.Wrap(err, 1)
	}
	defer signatureReader.Close()

	signature, err := pwr.ReadSignature(signatureReader)
	if err != nil {
		return errors.Wrap(err, 1)
	}

	vc := &pwr.ValidatorContext{
		Consumer:   comm.NewStateConsumer(),
		WoundsPath: woundsPath,
		HealPath:   healPath,
	}

	comm.StartProgressWithTotalBytes(signature.Container.Size)

	err = vc.Validate(dir, signature)
	if err != nil {
		return errors.Wrap(err, 1)
	}

	comm.EndProgress()

	prettySize := humanize.IBytes(uint64(signature.Container.Size))
	perSecond := humanize.IBytes(uint64(float64(signature.Container.Size) / time.Since(startTime).Seconds()))
	comm.Statf("%s (%s) @ %s/s\n", prettySize, signature.Container.Stats(), perSecond)

	if vc.WoundsConsumer.HasWounds() {
		if healer, ok := vc.WoundsConsumer.(pwr.Healer); ok {
			comm.Statf("%s corrupted data found, %s healed", humanize.IBytes(uint64(vc.WoundsConsumer.TotalCorrupted())), humanize.IBytes(uint64(healer.TotalHealed())))
		} else {
			comm.Dief("%s corrupted data found", humanize.IBytes(uint64(vc.WoundsConsumer.TotalCorrupted())))
		}
	}

	return nil
}
Beispiel #2
0
func wipe(path string) {
	// why have retry logic built into wipe? sometimes when uninstalling
	// games on windows, the os will randomly return I/O errors, retrying
	// usually helps.
	attempt := 0
	sleepPatterns := []time.Duration{
		time.Millisecond * 200,
		time.Millisecond * 800,
		time.Millisecond * 1600,
		time.Millisecond * 3200,
	}

	for attempt <= len(sleepPatterns) {
		err := tryWipe(path)
		if err == nil {
			break
		}

		if attempt == len(sleepPatterns) {
			comm.Dief("Could not wipe %s: %s", path, err.Error())
		}

		comm.Logf("While wiping %s: %s", path, err.Error())

		comm.Logf("Trying to brute-force permissions, who knows...")
		err = tryChmod(path)
		if err != nil {
			comm.Logf("While bruteforcing: %s", err.Error())
		}

		comm.Logf("Sleeping for a bit before we retry...")
		sleepDuration := sleepPatterns[attempt]
		time.Sleep(sleepDuration)
		attempt++
	}
}
Beispiel #3
0
func doPush(buildPath string, specStr string, userVersion string, fixPerms bool) error {
	// start walking source container while waiting on auth flow
	sourceContainerChan := make(chan walkResult)
	walkErrs := make(chan error)
	go doWalk(buildPath, sourceContainerChan, walkErrs, fixPerms)

	spec, err := itchio.ParseSpec(specStr)
	if err != nil {
		return errors.Wrap(err, 1)
	}

	err = spec.EnsureChannel()
	if err != nil {
		return errors.Wrap(err, 1)
	}

	client, err := authenticateViaOauth()
	if err != nil {
		return errors.Wrap(err, 1)
	}

	newBuildRes, err := client.CreateBuild(spec.Target, spec.Channel, userVersion)
	if err != nil {
		return errors.Wrap(err, 1)
	}

	buildID := newBuildRes.Build.ID
	parentID := newBuildRes.Build.ParentBuild.ID

	var targetSignature *pwr.SignatureInfo

	if parentID == 0 {
		comm.Opf("For channel `%s`: pushing first build", spec.Channel)
		targetSignature = &pwr.SignatureInfo{
			Container: &tlc.Container{},
			Hashes:    make([]wsync.BlockHash, 0),
		}
	} else {
		comm.Opf("For channel `%s`: last build is %d, downloading its signature", spec.Channel, parentID)
		var buildFiles itchio.ListBuildFilesResponse
		buildFiles, err = client.ListBuildFiles(parentID)
		if err != nil {
			return errors.Wrap(err, 1)
		}

		signatureFile := itchio.FindBuildFile(itchio.BuildFileType_SIGNATURE, buildFiles.Files)
		if signatureFile == nil {
			comm.Dief("Could not find signature for parent build %d, aborting", parentID)
		}

		var signatureReader io.Reader
		signatureReader, err = client.DownloadBuildFile(parentID, signatureFile.ID)
		if err != nil {
			return errors.Wrap(err, 1)
		}

		targetSignature, err = pwr.ReadSignature(signatureReader)
		if err != nil {
			return errors.Wrap(err, 1)
		}
	}

	newPatchRes, newSignatureRes, err := createBothFiles(client, buildID)
	if err != nil {
		return errors.Wrap(err, 1)
	}

	uploadDone := make(chan bool)
	uploadErrs := make(chan error)

	patchWriter, err := uploader.NewResumableUpload(newPatchRes.File.UploadURL,
		uploadDone, uploadErrs, uploader.ResumableUploadSettings{
			Consumer: comm.NewStateConsumer(),
		})
	patchWriter.MaxChunkGroup = *appArgs.maxChunkGroup
	if err != nil {
		return errors.Wrap(err, 1)
	}

	signatureWriter, err := uploader.NewResumableUpload(newSignatureRes.File.UploadURL,
		uploadDone, uploadErrs, uploader.ResumableUploadSettings{
			Consumer: comm.NewStateConsumer(),
		})
	signatureWriter.MaxChunkGroup = *appArgs.maxChunkGroup
	if err != nil {
		return errors.Wrap(err, 1)
	}

	comm.Debugf("Launching patch & signature channels")

	patchCounter := counter.NewWriter(patchWriter)
	signatureCounter := counter.NewWriter(signatureWriter)

	// we started walking the source container in the beginning,
	// we actually need it now.
	// note that we could actually start diffing before all the file
	// creation & upload setup is done

	var sourceContainer *tlc.Container
	var sourcePool wsync.Pool

	comm.Debugf("Waiting for source container")
	select {
	case walkErr := <-walkErrs:
		return errors.Wrap(walkErr, 1)
	case walkies := <-sourceContainerChan:
		comm.Debugf("Got sourceContainer!")
		sourceContainer = walkies.container
		sourcePool = walkies.pool
		break
	}

	comm.Opf("Pushing %s (%s)", humanize.IBytes(uint64(sourceContainer.Size)), sourceContainer.Stats())

	comm.Debugf("Building diff context")
	var readBytes int64

	bytesPerSec := float64(0)
	lastUploadedBytes := int64(0)
	stopTicking := make(chan struct{})

	updateProgress := func() {
		uploadedBytes := int64(float64(patchWriter.UploadedBytes))

		// input bytes that aren't in output, for example:
		//  - bytes that have been compressed away
		//  - bytes that were in old build and were simply reused
		goneBytes := readBytes - patchWriter.TotalBytes

		conservativeTotalBytes := sourceContainer.Size - goneBytes

		leftBytes := conservativeTotalBytes - uploadedBytes
		if leftBytes > AlmostThereThreshold {
			netStatus := "- network idle"
			if bytesPerSec > 1 {
				netStatus = fmt.Sprintf("@ %s/s", humanize.IBytes(uint64(bytesPerSec)))
			}
			comm.ProgressLabel(fmt.Sprintf("%s, %s left", netStatus, humanize.IBytes(uint64(leftBytes))))
		} else {
			comm.ProgressLabel(fmt.Sprintf("- almost there"))
		}

		conservativeProgress := float64(uploadedBytes) / float64(conservativeTotalBytes)
		conservativeProgress = min(1.0, conservativeProgress)
		comm.Progress(conservativeProgress)

		comm.ProgressScale(float64(readBytes) / float64(sourceContainer.Size))
	}

	go func() {
		ticker := time.NewTicker(time.Second * time.Duration(2))
		for {
			select {
			case <-ticker.C:
				bytesPerSec = float64(patchWriter.UploadedBytes-lastUploadedBytes) / 2.0
				lastUploadedBytes = patchWriter.UploadedBytes
				updateProgress()
			case <-stopTicking:
				break
			}
		}
	}()

	patchWriter.OnProgress = updateProgress

	stateConsumer := &state.Consumer{
		OnProgress: func(progress float64) {
			readBytes = int64(float64(sourceContainer.Size) * progress)
			updateProgress()
		},
	}

	dctx := &pwr.DiffContext{
		Compression: &pwr.CompressionSettings{
			Algorithm: pwr.CompressionAlgorithm_BROTLI,
			Quality:   1,
		},

		SourceContainer: sourceContainer,
		Pool:            sourcePool,

		TargetContainer: targetSignature.Container,
		TargetSignature: targetSignature.Hashes,

		Consumer: stateConsumer,
	}

	comm.StartProgress()
	comm.ProgressScale(0.0)
	err = dctx.WritePatch(patchCounter, signatureCounter)
	if err != nil {
		return errors.Wrap(err, 1)
	}

	// close in a goroutine to avoid deadlocking
	doClose := func(c io.Closer, done chan bool, errs chan error) {
		closeErr := c.Close()
		if closeErr != nil {
			errs <- errors.Wrap(closeErr, 1)
			return
		}

		done <- true
	}

	go doClose(patchWriter, uploadDone, uploadErrs)
	go doClose(signatureWriter, uploadDone, uploadErrs)

	for c := 0; c < 4; c++ {
		select {
		case uploadErr := <-uploadErrs:
			return errors.Wrap(uploadErr, 1)
		case <-uploadDone:
			comm.Debugf("upload done")
		}
	}

	close(stopTicking)
	comm.ProgressLabel("finalizing build")

	finalDone := make(chan bool)
	finalErrs := make(chan error)

	doFinalize := func(fileID int64, fileSize int64, done chan bool, errs chan error) {
		_, err = client.FinalizeBuildFile(buildID, fileID, fileSize)
		if err != nil {
			errs <- errors.Wrap(err, 1)
			return
		}

		done <- true
	}

	go doFinalize(newPatchRes.File.ID, patchCounter.Count(), finalDone, finalErrs)
	go doFinalize(newSignatureRes.File.ID, signatureCounter.Count(), finalDone, finalErrs)

	for i := 0; i < 2; i++ {
		select {
		case err := <-finalErrs:
			return errors.Wrap(err, 1)
		case <-finalDone:
		}
	}

	comm.EndProgress()

	{
		prettyPatchSize := humanize.IBytes(uint64(patchCounter.Count()))
		percReused := 100.0 * float64(dctx.ReusedBytes) / float64(dctx.FreshBytes+dctx.ReusedBytes)
		relToNew := 100.0 * float64(patchCounter.Count()) / float64(sourceContainer.Size)
		prettyFreshSize := humanize.IBytes(uint64(dctx.FreshBytes))
		savings := 100.0 - relToNew

		if dctx.ReusedBytes > 0 {
			comm.Statf("Re-used %.2f%% of old, added %s fresh data", percReused, prettyFreshSize)
		} else {
			comm.Statf("Added %s fresh data", prettyFreshSize)
		}

		if savings > 0 && !math.IsNaN(savings) {
			comm.Statf("%s patch (%.2f%% savings)", prettyPatchSize, 100.0-relToNew)
		} else {
			comm.Statf("%s patch (no savings)", prettyPatchSize)
		}
	}
	comm.Opf("Build is now processing, should be up in a bit (see `butler status`)")
	comm.Logf("")

	return nil
}
Beispiel #4
0
func doApply(patch string, target string, output string, inplace bool, signaturePath string, woundsPath string) error {
	if output == "" {
		output = target
	}

	target = path.Clean(target)
	output = path.Clean(output)
	if output == target {
		if !inplace {
			comm.Dief("Refusing to destructively patch %s without --inplace", output)
		}
	}

	if signaturePath == "" {
		comm.Opf("Patching %s", output)
	} else {
		comm.Opf("Patching %s with validation", output)
	}

	startTime := time.Now()

	patchReader, err := eos.Open(patch)
	if err != nil {
		return errors.Wrap(err, 1)
	}

	var signature *pwr.SignatureInfo
	if signaturePath != "" {
		sigReader, sigErr := eos.Open(signaturePath)
		if sigErr != nil {
			return errors.Wrap(sigErr, 1)
		}
		defer sigReader.Close()

		signature, sigErr = pwr.ReadSignature(sigReader)
		if sigErr != nil {
			return errors.Wrap(sigErr, 1)
		}
	}

	actx := &pwr.ApplyContext{
		TargetPath: target,
		OutputPath: output,
		InPlace:    inplace,
		Signature:  signature,
		WoundsPath: woundsPath,

		Consumer: comm.NewStateConsumer(),
	}

	comm.StartProgress()
	err = actx.ApplyPatch(patchReader)
	if err != nil {
		return errors.Wrap(err, 1)
	}
	comm.EndProgress()

	container := actx.SourceContainer
	prettySize := humanize.IBytes(uint64(container.Size))
	perSecond := humanize.IBytes(uint64(float64(container.Size) / time.Since(startTime).Seconds()))

	if actx.InPlace {
		statStr := ""
		if actx.Stats.TouchedFiles > 0 {
			statStr += fmt.Sprintf("patched %d, ", actx.Stats.TouchedFiles)
		}
		if actx.Stats.MovedFiles > 0 {
			statStr += fmt.Sprintf("renamed %d, ", actx.Stats.MovedFiles)
		}
		if actx.Stats.DeletedFiles > 0 {
			statStr += fmt.Sprintf("deleted %d, ", actx.Stats.DeletedFiles)
		}

		comm.Statf("%s (%s stage)", statStr, humanize.IBytes(uint64(actx.Stats.StageSize)))
	}
	comm.Statf("%s (%s) @ %s/s\n", prettySize, container.Stats(), perSecond)

	if actx.WoundsConsumer != nil && actx.WoundsConsumer.HasWounds() {
		extra := ""
		if actx.WoundsPath != "" {
			extra = fmt.Sprintf(" (written to %s)", actx.WoundsPath)
		}

		totalCorrupted := actx.WoundsConsumer.TotalCorrupted()
		comm.Logf("Result has wounds, %s corrupted data%s", humanize.IBytes(uint64(totalCorrupted)), extra)
	}

	return nil
}
Beispiel #5
0
func file(path string) {
	reader, err := eos.Open(path)
	must(err)

	defer reader.Close()

	stats, err := reader.Stat()
	if os.IsNotExist(err) {
		comm.Dief("%s: no such file or directory", path)
	}
	must(err)

	if stats.IsDir() {
		comm.Logf("%s: directory", path)
		return
	}

	if stats.Size() == 0 {
		comm.Logf("%s: empty file. peaceful.", path)
		return
	}

	prettySize := humanize.IBytes(uint64(stats.Size()))

	var magic int32
	must(binary.Read(reader, wire.Endianness, &magic))

	switch magic {
	case pwr.PatchMagic:
		{
			ph := &pwr.PatchHeader{}
			rctx := wire.NewReadContext(reader)
			must(rctx.ReadMessage(ph))

			rctx, err = pwr.DecompressWire(rctx, ph.GetCompression())
			must(err)
			container := &tlc.Container{}
			must(rctx.ReadMessage(container)) // target container
			container.Reset()
			must(rctx.ReadMessage(container)) // source container

			comm.Logf("%s: %s wharf patch file (%s) with %s", path, prettySize, ph.GetCompression().ToString(), container.Stats())
			comm.Result(ContainerResult{
				Type:             "wharf/patch",
				NumFiles:         len(container.Files),
				NumDirs:          len(container.Dirs),
				NumSymlinks:      len(container.Symlinks),
				UncompressedSize: container.Size,
			})
		}

	case pwr.SignatureMagic:
		{
			sh := &pwr.SignatureHeader{}
			rctx := wire.NewReadContext(reader)
			must(rctx.ReadMessage(sh))

			rctx, err = pwr.DecompressWire(rctx, sh.GetCompression())
			must(err)
			container := &tlc.Container{}
			must(rctx.ReadMessage(container))

			comm.Logf("%s: %s wharf signature file (%s) with %s", path, prettySize, sh.GetCompression().ToString(), container.Stats())
			comm.Result(ContainerResult{
				Type:             "wharf/signature",
				NumFiles:         len(container.Files),
				NumDirs:          len(container.Dirs),
				NumSymlinks:      len(container.Symlinks),
				UncompressedSize: container.Size,
			})
		}

	case pwr.ManifestMagic:
		{
			mh := &pwr.ManifestHeader{}
			rctx := wire.NewReadContext(reader)
			must(rctx.ReadMessage(mh))

			rctx, err = pwr.DecompressWire(rctx, mh.GetCompression())
			must(err)
			container := &tlc.Container{}
			must(rctx.ReadMessage(container))

			comm.Logf("%s: %s wharf manifest file (%s) with %s", path, prettySize, mh.GetCompression().ToString(), container.Stats())
			comm.Result(ContainerResult{
				Type:             "wharf/manifest",
				NumFiles:         len(container.Files),
				NumDirs:          len(container.Dirs),
				NumSymlinks:      len(container.Symlinks),
				UncompressedSize: container.Size,
			})
		}

	case pwr.WoundsMagic:
		{
			wh := &pwr.WoundsHeader{}
			rctx := wire.NewReadContext(reader)
			must(rctx.ReadMessage(wh))

			container := &tlc.Container{}
			must(rctx.ReadMessage(container))

			files := make(map[int64]bool)
			totalWounds := int64(0)

			for {
				wound := &pwr.Wound{}

				err = rctx.ReadMessage(wound)
				if err != nil {
					if errors.Is(err, io.EOF) {
						break
					} else {
						must(err)
					}
				}

				if wound.Kind == pwr.WoundKind_FILE {
					totalWounds += (wound.End - wound.Start)
					files[wound.Index] = true
				}
			}

			comm.Logf("%s: %s wharf wounds file with %s, %s wounds in %d files", path, prettySize, container.Stats(),
				humanize.IBytes(uint64(totalWounds)), len(files))
			comm.Result(ContainerResult{
				Type: "wharf/wounds",
			})
		}

	default:
		_, err := reader.Seek(0, os.SEEK_SET)
		must(err)

		wasZip := func() bool {
			zr, err := zip.NewReader(reader, stats.Size())
			if err != nil {
				if err != zip.ErrFormat {
					must(err)
				}
				return false
			}

			container, err := tlc.WalkZip(zr, func(fi os.FileInfo) bool { return true })
			must(err)

			comm.Logf("%s: %s zip file with %s", path, prettySize, container.Stats())
			comm.Result(ContainerResult{
				Type:             "zip",
				NumFiles:         len(container.Files),
				NumDirs:          len(container.Dirs),
				NumSymlinks:      len(container.Symlinks),
				UncompressedSize: container.Size,
			})
			return true
		}()

		if !wasZip {
			comm.Logf("%s: not sure - try the file(1) command if your system has it!", path)
		}
	}
}
Beispiel #6
0
func ls(path string) {
	reader, err := eos.Open(path)
	must(err)

	defer reader.Close()

	stats, err := reader.Stat()
	if os.IsNotExist(err) {
		comm.Dief("%s: no such file or directory", path)
	}
	must(err)

	if stats.IsDir() {
		comm.Logf("%s: directory", path)
		return
	}

	if stats.Size() == 0 {
		comm.Logf("%s: empty file. peaceful.", path)
		return
	}

	log := func(line string) {
		comm.Logf(line)
	}

	var magic int32
	must(binary.Read(reader, wire.Endianness, &magic))

	switch magic {
	case pwr.PatchMagic:
		{
			h := &pwr.PatchHeader{}
			rctx := wire.NewReadContext(reader)
			must(rctx.ReadMessage(h))

			rctx, err = pwr.DecompressWire(rctx, h.GetCompression())
			must(err)
			container := &tlc.Container{}
			must(rctx.ReadMessage(container))
			log("pre-patch container:")
			container.Print(log)

			container.Reset()
			must(rctx.ReadMessage(container))
			log("================================")
			log("post-patch container:")
			container.Print(log)
		}

	case pwr.SignatureMagic:
		{
			h := &pwr.SignatureHeader{}
			rctx := wire.NewReadContext(reader)
			must(rctx.ReadMessage(h))

			rctx, err = pwr.DecompressWire(rctx, h.GetCompression())
			must(err)
			container := &tlc.Container{}
			must(rctx.ReadMessage(container))
			container.Print(log)
		}

	case pwr.ManifestMagic:
		{
			h := &pwr.ManifestHeader{}
			rctx := wire.NewReadContext(reader)
			must(rctx.ReadMessage(h))

			rctx, err = pwr.DecompressWire(rctx, h.GetCompression())
			must(err)
			container := &tlc.Container{}
			must(rctx.ReadMessage(container))
			container.Print(log)
		}

	case pwr.WoundsMagic:
		{
			wh := &pwr.WoundsHeader{}
			rctx := wire.NewReadContext(reader)
			must(rctx.ReadMessage(wh))

			container := &tlc.Container{}
			must(rctx.ReadMessage(container))
			container.Print(log)

			for {
				wound := &pwr.Wound{}
				err = rctx.ReadMessage(wound)
				if err != nil {
					if errors.Is(err, io.EOF) {
						break
					} else {
						must(err)
					}
				}
				comm.Logf(wound.PrettyString(container))
			}
		}

	default:
		_, err := reader.Seek(0, os.SEEK_SET)
		must(err)

		wasZip := func() bool {
			zr, err := zip.NewReader(reader, stats.Size())
			if err != nil {
				if err != zip.ErrFormat {
					must(err)
				}
				return false
			}

			container, err := tlc.WalkZip(zr, func(fi os.FileInfo) bool { return true })
			must(err)
			container.Print(log)
			return true
		}()

		if !wasZip {
			comm.Logf("%s: not sure - try the file(1) command if your system has it!", path)
		}
	}
}