package main import ( "bytes" "context" "fmt" "math" "runtime" "github.com/imgproxy/imgproxy/v2/imagemeta" ) const ( msgSmartCropNotSupported = "Smart crop is not supported by used version of libvips" // https://chromium.googlesource.com/webm/libwebp/+/refs/heads/master/src/webp/encode.h#529 webpMaxDimension = 16383.0 ) var errConvertingNonSvgToSvg = newError(422, "Converting non-SVG images to SVG is not supported", "Converting non-SVG images to SVG is not supported") func imageTypeLoadSupport(imgtype imageType) bool { return imgtype == imageTypeSVG || imgtype == imageTypeICO || vipsTypeSupportLoad[imgtype] } func imageTypeSaveSupport(imgtype imageType) bool { return imgtype == imageTypeSVG || vipsTypeSupportSave[imgtype] } func imageTypeGoodForWeb(imgtype imageType) bool { return imgtype != imageTypeTIFF && imgtype != imageTypeBMP } func extractMeta(img *vipsImage) (int, int, int, bool) { width := img.Width() height := img.Height() angle := vipsAngleD0 flip := false orientation := img.Orientation() if orientation >= 5 && orientation <= 8 { width, height = height, width } if orientation == 3 || orientation == 4 { angle = vipsAngleD180 } if orientation == 5 || orientation == 6 { angle = vipsAngleD90 } if orientation == 7 || orientation == 8 { angle = vipsAngleD270 } if orientation == 2 || orientation == 4 || orientation == 5 || orientation == 7 { flip = true } return width, height, angle, flip } func calcScale(width, height int, po *processingOptions, imgtype imageType) float64 { var shrink float64 srcW, srcH := float64(width), float64(height) dstW, dstH := float64(po.Width), float64(po.Height) if po.Width == 0 { dstW = srcW } if po.Height == 0 { dstH = srcH } if dstW == srcW && dstH == srcH { shrink = 1 } else { wshrink := srcW / dstW hshrink := srcH / dstH rt := po.ResizingType if rt == resizeAuto { srcD := width - height dstD := po.Width - po.Height if (srcD >= 0 && dstD >= 0) || (srcD < 0 && dstD < 0) { rt = resizeFill } else { rt = resizeFit } } switch { case po.Width == 0: shrink = hshrink case po.Height == 0: shrink = wshrink case rt == resizeFit: shrink = math.Max(wshrink, hshrink) default: shrink = math.Min(wshrink, hshrink) } } if !po.Enlarge && shrink < 1 && imgtype != imageTypeSVG { shrink = 1 } shrink /= po.Dpr if shrink > srcW { shrink = srcW } if shrink > srcH { shrink = srcH } return 1.0 / shrink } func canScaleOnLoad(imgtype imageType, scale float64) bool { if imgtype == imageTypeSVG { return true } if conf.DisableShrinkOnLoad || scale >= 1 { return false } return imgtype == imageTypeJPEG || imgtype == imageTypeWEBP } func canFitToBytes(imgtype imageType) bool { switch imgtype { case imageTypeJPEG, imageTypeWEBP, imageTypeAVIF, imageTypeTIFF: return true default: return false } } func calcJpegShink(scale float64, imgtype imageType) int { shrink := int(1.0 / scale) switch { case shrink >= 8: return 8 case shrink >= 4: return 4 case shrink >= 2: return 2 } return 1 } func calcPosition(width, height, innerWidth, innerHeight int, gravity *gravityOptions, allowOverflow bool) (left, top int) { if gravity.Type == gravityFocusPoint { pointX := scaleInt(width, gravity.X) pointY := scaleInt(height, gravity.Y) left = pointX - innerWidth/2 top = pointY - innerHeight/2 } else { offX, offY := int(gravity.X), int(gravity.Y) left = (width-innerWidth+1)/2 + offX top = (height-innerHeight+1)/2 + offY if gravity.Type == gravityNorth || gravity.Type == gravityNorthEast || gravity.Type == gravityNorthWest { top = 0 + offY } if gravity.Type == gravityEast || gravity.Type == gravityNorthEast || gravity.Type == gravitySouthEast { left = width - innerWidth - offX } if gravity.Type == gravitySouth || gravity.Type == gravitySouthEast || gravity.Type == gravitySouthWest { top = height - innerHeight - offY } if gravity.Type == gravityWest || gravity.Type == gravityNorthWest || gravity.Type == gravitySouthWest { left = 0 + offX } } var minX, maxX, minY, maxY int if allowOverflow { minX, maxX = -innerWidth+1, width-1 minY, maxY = -innerHeight+1, height-1 } else { minX, maxX = 0, width-innerWidth minY, maxY = 0, height-innerHeight } left = maxInt(minX, minInt(left, maxX)) top = maxInt(minY, minInt(top, maxY)) return } func cropImage(img *vipsImage, cropWidth, cropHeight int, gravity *gravityOptions) error { if cropWidth == 0 && cropHeight == 0 { return nil } imgWidth, imgHeight := img.Width(), img.Height() cropWidth = minNonZeroInt(cropWidth, imgWidth) cropHeight = minNonZeroInt(cropHeight, imgHeight) if cropWidth >= imgWidth && cropHeight >= imgHeight { return nil } if gravity.Type == gravitySmart { if err := img.CopyMemory(); err != nil { return err } if err := img.SmartCrop(cropWidth, cropHeight); err != nil { return err } // Applying additional modifications after smart crop causes SIGSEGV on Alpine // so we have to copy memory after it return img.CopyMemory() } left, top := calcPosition(imgWidth, imgHeight, cropWidth, cropHeight, gravity, false) return img.Crop(left, top, cropWidth, cropHeight) } func prepareWatermark(wm *vipsImage, wmData *imageData, opts *watermarkOptions, imgWidth, imgHeight int) error { if err := wm.Load(wmData.Data, wmData.Type, 1, 1.0, 1); err != nil { return err } po := newProcessingOptions() po.ResizingType = resizeFit po.Dpr = 1 po.Enlarge = true po.Format = wmData.Type if opts.Scale > 0 { po.Width = maxInt(scaleInt(imgWidth, opts.Scale), 1) po.Height = maxInt(scaleInt(imgHeight, opts.Scale), 1) } if err := transformImage(context.Background(), wm, wmData.Data, po, wmData.Type); err != nil { return err } if err := wm.EnsureAlpha(); err != nil { return nil } if opts.Replicate { return wm.Replicate(imgWidth, imgHeight) } left, top := calcPosition(imgWidth, imgHeight, wm.Width(), wm.Height(), &opts.Gravity, true) return wm.Embed(imgWidth, imgHeight, left, top, rgbColor{0, 0, 0}, true) } func applyWatermark(img *vipsImage, wmData *imageData, opts *watermarkOptions, framesCount int) error { if err := img.RgbColourspace(); err != nil { return err } if err := img.CopyMemory(); err != nil { return err } wm := new(vipsImage) defer wm.Clear() width := img.Width() height := img.Height() if err := prepareWatermark(wm, wmData, opts, width, height/framesCount); err != nil { return err } if framesCount > 1 { if err := wm.Replicate(width, height); err != nil { return err } } opacity := opts.Opacity * conf.WatermarkOpacity return img.ApplyWatermark(wm, opacity) } func copyMemoryAndCheckTimeout(ctx context.Context, img *vipsImage) error { err := img.CopyMemory() checkTimeout(ctx) return err } func transformImage(ctx context.Context, img *vipsImage, data []byte, po *processingOptions, imgtype imageType) error { var ( err error trimmed bool ) if po.Trim.Enabled { if err = img.Trim(po.Trim.Threshold, po.Trim.Smart, po.Trim.Color, po.Trim.EqualHor, po.Trim.EqualVer); err != nil { return err } if err = copyMemoryAndCheckTimeout(ctx, img); err != nil { return err } trimmed = true } srcWidth, srcHeight, angle, flip := extractMeta(img) cropWidth, cropHeight := po.Crop.Width, po.Crop.Height cropGravity := po.Crop.Gravity if cropGravity.Type == gravityUnknown { cropGravity = po.Gravity } widthToScale := minNonZeroInt(cropWidth, srcWidth) heightToScale := minNonZeroInt(cropHeight, srcHeight) scale := calcScale(widthToScale, heightToScale, po, imgtype) cropWidth = scaleInt(cropWidth, scale) cropHeight = scaleInt(cropHeight, scale) if cropGravity.Type != gravityFocusPoint { cropGravity.X *= scale cropGravity.Y *= scale } if !trimmed && scale != 1 && data != nil && canScaleOnLoad(imgtype, scale) { jpegShrink := calcJpegShink(scale, imgtype) if imgtype != imageTypeJPEG || jpegShrink != 1 { // Do some scale-on-load if err = img.Load(data, imgtype, jpegShrink, scale, 1); err != nil { return err } } // Update scale after scale-on-load newWidth, newHeight, _, _ := extractMeta(img) if srcWidth > srcHeight { scale = float64(srcWidth) * scale / float64(newWidth) } else { scale = float64(srcHeight) * scale / float64(newHeight) } if srcWidth == scaleInt(srcWidth, scale) && srcHeight == scaleInt(srcHeight, scale) { scale = 1.0 } } if err = img.Rad2Float(); err != nil { return err } iccImported := false convertToLinear := conf.UseLinearColorspace && scale != 1 if convertToLinear || !img.IsSRGB() { if err = img.ImportColourProfile(); err != nil { return err } iccImported = true } if convertToLinear { if err = img.LinearColourspace(); err != nil { return err } } else { if err = img.RgbColourspace(); err != nil { return err } } hasAlpha := img.HasAlpha() if scale != 1 { if err = img.Resize(scale, hasAlpha); err != nil { return err } } if err = copyMemoryAndCheckTimeout(ctx, img); err != nil { return err } if angle != vipsAngleD0 { if err = img.Rotate(angle); err != nil { return err } } if flip { if err = img.Flip(); err != nil { return err } } dprWidth := scaleInt(po.Width, po.Dpr) dprHeight := scaleInt(po.Height, po.Dpr) if err = cropImage(img, cropWidth, cropHeight, &cropGravity); err != nil { return err } if err = cropImage(img, dprWidth, dprHeight, &po.Gravity); err != nil { return err } if po.Format == imageTypeWEBP { webpLimitShrink := float64(maxInt(img.Width(), img.Height())) / webpMaxDimension if webpLimitShrink > 1.0 { if err = img.Resize(1.0/webpLimitShrink, hasAlpha); err != nil { return err } logWarning("WebP dimension size is limited to %d. The image is rescaled to %dx%d", int(webpMaxDimension), img.Width(), img.Height()) if err = copyMemoryAndCheckTimeout(ctx, img); err != nil { return err } } } keepProfile := !po.StripColorProfile && po.Format.SupportsColourProfile() if iccImported { if keepProfile { // We imported ICC profile and want to keep it, // so we need to export it if err = img.ExportColourProfile(); err != nil { return err } } else { // We imported ICC profile but don't want to keep it, // so we need to export image to sRGB for maximum compatibility if err = img.ExportColourProfileToSRGB(); err != nil { return err } } } else if !keepProfile { // We don't import ICC profile and don't want to keep it, // so we need to transform it to sRGB for maximum compatibility if err = img.TransformColourProfile(); err != nil { return err } } if err = img.RgbColourspace(); err != nil { return err } if !keepProfile { if err = img.RemoveColourProfile(); err != nil { return err } } transparentBg := po.Format.SupportsAlpha() && !po.Flatten if hasAlpha && !transparentBg { if err = img.Flatten(po.Background); err != nil { return err } } if err = copyMemoryAndCheckTimeout(ctx, img); err != nil { return err } if po.Blur > 0 { if err = img.Blur(po.Blur); err != nil { return err } } if po.Sharpen > 0 { if err = img.Sharpen(po.Sharpen); err != nil { return err } } if err = copyMemoryAndCheckTimeout(ctx, img); err != nil { return err } if po.Extend.Enabled && (dprWidth > img.Width() || dprHeight > img.Height()) { offX, offY := calcPosition(dprWidth, dprHeight, img.Width(), img.Height(), &po.Extend.Gravity, false) if err = img.Embed(dprWidth, dprHeight, offX, offY, po.Background, transparentBg); err != nil { return err } } if po.Padding.Enabled { paddingTop := scaleInt(po.Padding.Top, po.Dpr) paddingRight := scaleInt(po.Padding.Right, po.Dpr) paddingBottom := scaleInt(po.Padding.Bottom, po.Dpr) paddingLeft := scaleInt(po.Padding.Left, po.Dpr) if err = img.Embed( img.Width()+paddingLeft+paddingRight, img.Height()+paddingTop+paddingBottom, paddingLeft, paddingTop, po.Background, transparentBg, ); err != nil { return err } } if po.Watermark.Enabled && watermark != nil { if err = applyWatermark(img, watermark, &po.Watermark, 1); err != nil { return err } } if err = img.RgbColourspace(); err != nil { return err } if err := img.CastUchar(); err != nil { return err } if po.StripMetadata { if err := img.Strip(); err != nil { return err } } return copyMemoryAndCheckTimeout(ctx, img) } func transformAnimated(ctx context.Context, img *vipsImage, data []byte, po *processingOptions, imgtype imageType) error { if po.Trim.Enabled { logWarning("Trim is not supported for animated images") po.Trim.Enabled = false } imgWidth := img.Width() frameHeight, err := img.GetInt("page-height") if err != nil { return err } framesCount := minInt(img.Height()/frameHeight, conf.MaxAnimationFrames) // Double check dimensions because animated image has many frames if err = checkDimensions(imgWidth, frameHeight*framesCount); err != nil { return err } // Vips 8.8+ supports n-pages and doesn't load the whole animated image on header access if nPages, _ := img.GetInt("n-pages"); nPages > framesCount { // Load only the needed frames if err = img.Load(data, imgtype, 1, 1.0, framesCount); err != nil { return err } } delay, err := img.GetInt("gif-delay") if err != nil { return err } loop, err := img.GetInt("gif-loop") if err != nil { return err } watermarkEnabled := po.Watermark.Enabled po.Watermark.Enabled = false defer func() { po.Watermark.Enabled = watermarkEnabled }() frames := make([]*vipsImage, framesCount) defer func() { for _, frame := range frames { if frame != nil { frame.Clear() } } }() for i := 0; i < framesCount; i++ { frame := new(vipsImage) if err = img.Extract(frame, 0, i*frameHeight, imgWidth, frameHeight); err != nil { return err } frames[i] = frame if err = transformImage(ctx, frame, nil, po, imgtype); err != nil { return err } if err = copyMemoryAndCheckTimeout(ctx, frame); err != nil { return err } } if err = img.Arrayjoin(frames); err != nil { return err } if watermarkEnabled && watermark != nil { if err = applyWatermark(img, watermark, &po.Watermark, framesCount); err != nil { return err } } if err = img.CastUchar(); err != nil { return err } if err = copyMemoryAndCheckTimeout(ctx, img); err != nil { return err } img.SetInt("page-height", frames[0].Height()) img.SetInt("gif-delay", delay) img.SetInt("gif-loop", loop) img.SetInt("n-pages", framesCount) return nil } func getIcoData(imgdata *imageData) (*imageData, error) { icoMeta, err := imagemeta.DecodeIcoMeta(bytes.NewReader(imgdata.Data)) if err != nil { return nil, err } offset := icoMeta.BestImageOffset() size := icoMeta.BestImageSize() data := imgdata.Data[offset : offset+size] var format string meta, err := imagemeta.DecodeMeta(bytes.NewReader(data)) if err != nil { // Looks like it's BMP with an incomplete header if d, err := imagemeta.FixBmpHeader(data); err == nil { format = "bmp" data = d } else { return nil, err } } else { format = meta.Format() } if imgtype, ok := imageTypes[format]; ok && vipsTypeSupportLoad[imgtype] { return &imageData{ Data: data, Type: imgtype, }, nil } return nil, fmt.Errorf("Can't load %s from ICO", meta.Format()) } func saveImageToFitBytes(po *processingOptions, img *vipsImage) ([]byte, context.CancelFunc, error) { var diff float64 quality := po.getQuality() img.CopyMemory() for { result, cancel, err := img.Save(po.Format, quality) if len(result) <= po.MaxBytes || quality <= 10 || err != nil { return result, cancel, err } cancel() delta := float64(len(result)) / float64(po.MaxBytes) switch { case delta > 3: diff = 0.25 case delta > 1.5: diff = 0.5 default: diff = 0.75 } quality = int(float64(quality) * diff) } } func processImage(ctx context.Context) ([]byte, context.CancelFunc, error) { runtime.LockOSThread() defer runtime.UnlockOSThread() if newRelicEnabled { newRelicCancel := startNewRelicSegment(ctx, "Processing image") defer newRelicCancel() } if prometheusEnabled { defer startPrometheusDuration(prometheusProcessingDuration)() } defer vipsCleanup() po := getProcessingOptions(ctx) imgdata := getImageData(ctx) if po.Format == imageTypeUnknown { switch { case po.PreferWebP && imageTypeSaveSupport(imageTypeWEBP): po.Format = imageTypeWEBP case imageTypeSaveSupport(imgdata.Type) && imageTypeGoodForWeb(imgdata.Type): po.Format = imgdata.Type default: po.Format = imageTypeJPEG } } else if po.EnforceWebP && imageTypeSaveSupport(imageTypeWEBP) { po.Format = imageTypeWEBP } if po.Format == imageTypeSVG { if imgdata.Type != imageTypeSVG { return []byte{}, func() {}, errConvertingNonSvgToSvg } return imgdata.Data, func() {}, nil } if imgdata.Type == imageTypeSVG && !vipsTypeSupportLoad[imageTypeSVG] { return []byte{}, func() {}, errSourceImageTypeNotSupported } if imgdata.Type == imageTypeICO { icodata, err := getIcoData(imgdata) if err != nil { return nil, func() {}, err } imgdata = icodata } if !vipsSupportSmartcrop { if po.Gravity.Type == gravitySmart { logWarning(msgSmartCropNotSupported) po.Gravity.Type = gravityCenter } if po.Crop.Gravity.Type == gravitySmart { logWarning(msgSmartCropNotSupported) po.Crop.Gravity.Type = gravityCenter } } if po.ResizingType == resizeCrop { logWarning("`crop` resizing type is deprecated and will be removed in future versions. Use `crop` processing option instead") po.Crop.Width, po.Crop.Height = po.Width, po.Height po.ResizingType = resizeFit po.Width, po.Height = 0, 0 } animationSupport := conf.MaxAnimationFrames > 1 && vipsSupportAnimation(imgdata.Type) && vipsSupportAnimation(po.Format) pages := 1 if animationSupport { pages = -1 } img := new(vipsImage) defer img.Clear() if err := img.Load(imgdata.Data, imgdata.Type, 1, 1.0, pages); err != nil { return nil, func() {}, err } if animationSupport && img.IsAnimated() { if err := transformAnimated(ctx, img, imgdata.Data, po, imgdata.Type); err != nil { return nil, func() {}, err } } else { if err := transformImage(ctx, img, imgdata.Data, po, imgdata.Type); err != nil { return nil, func() {}, err } } if err := copyMemoryAndCheckTimeout(ctx, img); err != nil { return nil, func() {}, err } if po.MaxBytes > 0 && canFitToBytes(po.Format) { return saveImageToFitBytes(po, img) } return img.Save(po.Format, po.getQuality()) }