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imgproxy/vips/vips.go
2023-05-10 17:46:41 +03:00

795 lines
18 KiB
Go

package vips
/*
#cgo pkg-config: vips
#cgo CFLAGS: -O3
#include "vips.h"
*/
import "C"
import (
"errors"
"math"
"os"
"runtime"
"sync"
"unsafe"
log "github.com/sirupsen/logrus"
"github.com/imgproxy/imgproxy/v3/config"
"github.com/imgproxy/imgproxy/v3/ierrors"
"github.com/imgproxy/imgproxy/v3/imagedata"
"github.com/imgproxy/imgproxy/v3/imagetype"
"github.com/imgproxy/imgproxy/v3/metrics/cloudwatch"
"github.com/imgproxy/imgproxy/v3/metrics/datadog"
"github.com/imgproxy/imgproxy/v3/metrics/newrelic"
"github.com/imgproxy/imgproxy/v3/metrics/otel"
"github.com/imgproxy/imgproxy/v3/metrics/prometheus"
)
type Image struct {
VipsImage *C.VipsImage
}
var (
typeSupportLoad sync.Map
typeSupportSave sync.Map
gifResolutionLimit int
)
var vipsConf struct {
JpegProgressive C.int
PngInterlaced C.int
PngQuantize C.int
PngQuantizationColors C.int
AvifSpeed C.int
}
func Init() error {
runtime.LockOSThread()
defer runtime.UnlockOSThread()
if err := C.vips_initialize(); err != 0 {
C.vips_shutdown()
return errors.New("unable to start vips!")
}
// Disable libvips cache. Since processing pipeline is fine tuned, we won't get much profit from it.
// Enabled cache can cause SIGSEGV on Musl-based systems like Alpine.
C.vips_cache_set_max_mem(0)
C.vips_cache_set_max(0)
C.vips_concurrency_set(1)
// Vector calculations cause SIGSEGV sometimes when working with JPEG.
// It's better to disable it since profit it quite small
C.vips_vector_set_enabled(0)
if len(os.Getenv("IMGPROXY_VIPS_LEAK_CHECK")) > 0 {
C.vips_leak_set(C.gboolean(1))
}
if len(os.Getenv("IMGPROXY_VIPS_CACHE_TRACE")) > 0 {
C.vips_cache_set_trace(C.gboolean(1))
}
gifResolutionLimit = int(C.gif_resolution_limit())
vipsConf.JpegProgressive = gbool(config.JpegProgressive)
vipsConf.PngInterlaced = gbool(config.PngInterlaced)
vipsConf.PngQuantize = gbool(config.PngQuantize)
vipsConf.PngQuantizationColors = C.int(config.PngQuantizationColors)
vipsConf.AvifSpeed = C.int(config.AvifSpeed)
prometheus.AddGaugeFunc(
"vips_memory_bytes",
"A gauge of the vips tracked memory usage in bytes.",
GetMem,
)
prometheus.AddGaugeFunc(
"vips_max_memory_bytes",
"A gauge of the max vips tracked memory usage in bytes.",
GetMemHighwater,
)
prometheus.AddGaugeFunc(
"vips_allocs",
"A gauge of the number of active vips allocations.",
GetAllocs,
)
datadog.AddGaugeFunc("vips.memory", GetMem)
datadog.AddGaugeFunc("vips.max_memory", GetMemHighwater)
datadog.AddGaugeFunc("vips.allocs", GetAllocs)
newrelic.AddGaugeFunc("vips.memory", GetMem)
newrelic.AddGaugeFunc("vips.max_memory", GetMemHighwater)
newrelic.AddGaugeFunc("vips.allocs", GetAllocs)
otel.AddGaugeFunc(
"vips_memory_bytes",
"A gauge of the vips tracked memory usage in bytes.",
"By",
GetMem,
)
otel.AddGaugeFunc(
"vips_max_memory_bytes",
"A gauge of the max vips tracked memory usage in bytes.",
"By",
GetMemHighwater,
)
otel.AddGaugeFunc(
"vips_allocs",
"A gauge of the number of active vips allocations.",
"By",
GetAllocs,
)
cloudwatch.AddGaugeFunc("VipsMemory", "Bytes", GetMem)
cloudwatch.AddGaugeFunc("VipsMaxMemory", "Bytes", GetMemHighwater)
cloudwatch.AddGaugeFunc("VipsAllocs", "Count", GetAllocs)
return nil
}
func Shutdown() {
C.vips_shutdown()
}
func GetMem() float64 {
return float64(C.vips_tracked_get_mem())
}
func GetMemHighwater() float64 {
return float64(C.vips_tracked_get_mem_highwater())
}
func GetAllocs() float64 {
return float64(C.vips_tracked_get_allocs())
}
func Cleanup() {
C.vips_cleanup()
}
func Error() error {
defer C.vips_error_clear()
return ierrors.NewUnexpected(C.GoString(C.vips_error_buffer()), 1)
}
func hasOperation(name string) bool {
return C.vips_type_find(cachedCString("VipsOperation"), cachedCString(name)) != 0
}
func SupportsLoad(it imagetype.Type) bool {
if sup, ok := typeSupportLoad.Load(it); ok {
return sup.(bool)
}
sup := false
switch it {
case imagetype.JPEG:
sup = hasOperation("jpegload_buffer")
case imagetype.PNG:
sup = hasOperation("pngload_buffer")
case imagetype.WEBP:
sup = hasOperation("webpload_buffer")
case imagetype.GIF:
sup = hasOperation("gifload_buffer")
case imagetype.ICO, imagetype.BMP:
sup = true
case imagetype.SVG:
sup = hasOperation("svgload_buffer")
case imagetype.HEIC, imagetype.AVIF:
sup = hasOperation("heifload_buffer")
case imagetype.TIFF:
sup = hasOperation("tiffload_buffer")
}
typeSupportLoad.Store(it, sup)
return sup
}
func SupportsSave(it imagetype.Type) bool {
if sup, ok := typeSupportSave.Load(it); ok {
return sup.(bool)
}
sup := false
switch it {
case imagetype.JPEG:
sup = hasOperation("jpegsave_buffer")
case imagetype.PNG, imagetype.ICO:
sup = hasOperation("pngsave_buffer")
case imagetype.WEBP:
sup = hasOperation("webpsave_buffer")
case imagetype.GIF:
sup = hasOperation("gifsave_buffer")
case imagetype.AVIF:
sup = hasOperation("heifsave_buffer")
case imagetype.BMP:
sup = true
case imagetype.TIFF:
sup = hasOperation("tiffsave_buffer")
}
typeSupportSave.Store(it, sup)
return sup
}
func GifResolutionLimit() int {
return gifResolutionLimit
}
func gbool(b bool) C.gboolean {
if b {
return C.gboolean(1)
}
return C.gboolean(0)
}
func ptrToBytes(ptr unsafe.Pointer, size int) []byte {
return (*[math.MaxInt32]byte)(ptr)[:int(size):int(size)]
}
func (img *Image) Width() int {
return int(img.VipsImage.Xsize)
}
func (img *Image) Height() int {
return int(img.VipsImage.Ysize)
}
func (img *Image) Load(imgdata *imagedata.ImageData, shrink int, scale float64, pages int) error {
if imgdata.Type == imagetype.ICO {
return img.loadIco(imgdata.Data, shrink, scale, pages)
}
if imgdata.Type == imagetype.BMP {
return img.loadBmp(imgdata.Data, true)
}
var tmp *C.VipsImage
data := unsafe.Pointer(&imgdata.Data[0])
dataSize := C.size_t(len(imgdata.Data))
err := C.int(0)
switch imgdata.Type {
case imagetype.JPEG:
err = C.vips_jpegload_go(data, dataSize, C.int(shrink), &tmp)
case imagetype.PNG:
err = C.vips_pngload_go(data, dataSize, &tmp)
case imagetype.WEBP:
err = C.vips_webpload_go(data, dataSize, C.double(scale), C.int(pages), &tmp)
case imagetype.GIF:
err = C.vips_gifload_go(data, dataSize, C.int(pages), &tmp)
case imagetype.SVG:
err = C.vips_svgload_go(data, dataSize, C.double(scale), &tmp)
case imagetype.HEIC, imagetype.AVIF:
err = C.vips_heifload_go(data, dataSize, &tmp, C.int(0))
case imagetype.TIFF:
err = C.vips_tiffload_go(data, dataSize, &tmp)
default:
return errors.New("Usupported image type to load")
}
if err != 0 {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
return nil
}
func (img *Image) LoadThumbnail(imgdata *imagedata.ImageData) error {
if imgdata.Type != imagetype.HEIC && imgdata.Type != imagetype.AVIF {
return errors.New("Usupported image type to load thumbnail")
}
var tmp *C.VipsImage
data := unsafe.Pointer(&imgdata.Data[0])
dataSize := C.size_t(len(imgdata.Data))
if err := C.vips_heifload_go(data, dataSize, &tmp, C.int(1)); err != 0 {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
return nil
}
func (img *Image) Save(imgtype imagetype.Type, quality int) (*imagedata.ImageData, error) {
if imgtype == imagetype.ICO {
return img.saveAsIco()
}
if imgtype == imagetype.BMP {
return img.saveAsBmp()
}
var ptr unsafe.Pointer
cancel := func() {
C.g_free_go(&ptr)
}
err := C.int(0)
imgsize := C.size_t(0)
switch imgtype {
case imagetype.JPEG:
err = C.vips_jpegsave_go(img.VipsImage, &ptr, &imgsize, C.int(quality), vipsConf.JpegProgressive)
case imagetype.PNG:
err = C.vips_pngsave_go(img.VipsImage, &ptr, &imgsize, vipsConf.PngInterlaced, vipsConf.PngQuantize, vipsConf.PngQuantizationColors)
case imagetype.WEBP:
err = C.vips_webpsave_go(img.VipsImage, &ptr, &imgsize, C.int(quality))
case imagetype.GIF:
err = C.vips_gifsave_go(img.VipsImage, &ptr, &imgsize)
case imagetype.AVIF:
err = C.vips_avifsave_go(img.VipsImage, &ptr, &imgsize, C.int(quality), vipsConf.AvifSpeed)
case imagetype.TIFF:
err = C.vips_tiffsave_go(img.VipsImage, &ptr, &imgsize, C.int(quality))
default:
return nil, errors.New("Usupported image type to save")
}
if err != 0 {
cancel()
return nil, Error()
}
imgdata := imagedata.ImageData{
Type: imgtype,
Data: ptrToBytes(ptr, int(imgsize)),
}
imgdata.SetCancel(cancel)
return &imgdata, nil
}
func (img *Image) Clear() {
if img.VipsImage != nil {
C.clear_image(&img.VipsImage)
}
}
func (img *Image) Arrayjoin(in []*Image) error {
var tmp *C.VipsImage
arr := make([]*C.VipsImage, len(in))
for i, im := range in {
arr[i] = im.VipsImage
}
if C.vips_arrayjoin_go(&arr[0], &tmp, C.int(len(arr))) != 0 {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
return nil
}
func (img *Image) Swap(in *Image) {
img.VipsImage, in.VipsImage = in.VipsImage, img.VipsImage
}
func (img *Image) IsAnimated() bool {
return C.vips_is_animated(img.VipsImage) > 0
}
func (img *Image) HasAlpha() bool {
return C.vips_image_hasalpha(img.VipsImage) > 0
}
func (img *Image) GetInt(name string) (int, error) {
var i C.int
if C.vips_image_get_int(img.VipsImage, cachedCString(name), &i) != 0 {
return 0, Error()
}
return int(i), nil
}
func (img *Image) GetIntDefault(name string, def int) (int, error) {
if C.vips_image_get_typeof(img.VipsImage, cachedCString(name)) == 0 {
return def, nil
}
return img.GetInt(name)
}
func (img *Image) GetIntSlice(name string) ([]int, error) {
var ptr unsafe.Pointer
size := C.int(0)
if C.vips_image_get_array_int_go(img.VipsImage, cachedCString(name), (**C.int)(unsafe.Pointer(&ptr)), &size) != 0 {
return nil, Error()
}
if size == 0 {
return []int{}, nil
}
cOut := (*[math.MaxInt32]C.int)(ptr)[:int(size):int(size)]
out := make([]int, int(size))
for i, el := range cOut {
out[i] = int(el)
}
return out, nil
}
func (img *Image) GetIntSliceDefault(name string, def []int) ([]int, error) {
if C.vips_image_get_typeof(img.VipsImage, cachedCString(name)) == 0 {
return def, nil
}
return img.GetIntSlice(name)
}
func (img *Image) GetDouble(name string) (float64, error) {
var d C.double
if C.vips_image_get_double(img.VipsImage, cachedCString(name), &d) != 0 {
return 0, Error()
}
return float64(d), nil
}
func (img *Image) GetDoubleDefault(name string, def float64) (float64, error) {
if C.vips_image_get_typeof(img.VipsImage, cachedCString(name)) == 0 {
return def, nil
}
return img.GetDouble(name)
}
func (img *Image) GetBlob(name string) ([]byte, error) {
var (
tmp unsafe.Pointer
size C.size_t
)
if C.vips_image_get_blob(img.VipsImage, cachedCString(name), &tmp, &size) != 0 {
return nil, Error()
}
return C.GoBytes(tmp, C.int(size)), nil
}
func (img *Image) SetInt(name string, value int) {
C.vips_image_set_int(img.VipsImage, cachedCString(name), C.int(value))
}
func (img *Image) SetIntSlice(name string, value []int) {
in := make([]C.int, len(value))
for i, el := range value {
in[i] = C.int(el)
}
C.vips_image_set_array_int_go(img.VipsImage, cachedCString(name), &in[0], C.int(len(value)))
}
func (img *Image) SetDouble(name string, value float64) {
C.vips_image_set_double(img.VipsImage, cachedCString(name), C.double(value))
}
func (img *Image) SetBlob(name string, value []byte) {
defer runtime.KeepAlive(value)
C.vips_image_set_blob_copy(img.VipsImage, cachedCString(name), unsafe.Pointer(&value[0]), C.size_t(len(value)))
}
func (img *Image) RemoveHeader(name string) {
C.vips_image_remove(img.VipsImage, cachedCString(name))
}
func (img *Image) CastUchar() error {
var tmp *C.VipsImage
if C.vips_image_get_format(img.VipsImage) != C.VIPS_FORMAT_UCHAR {
if C.vips_cast_go(img.VipsImage, &tmp, C.VIPS_FORMAT_UCHAR) != 0 {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
}
return nil
}
func (img *Image) Rad2Float() error {
var tmp *C.VipsImage
if C.vips_image_get_coding(img.VipsImage) == C.VIPS_CODING_RAD {
if C.vips_rad2float_go(img.VipsImage, &tmp) != 0 {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
}
return nil
}
func (img *Image) Resize(wscale, hscale float64) error {
var tmp *C.VipsImage
if C.vips_resize_go(img.VipsImage, &tmp, C.double(wscale), C.double(hscale)) != 0 {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
return nil
}
func (img *Image) Orientation() C.int {
return C.vips_get_orientation(img.VipsImage)
}
func (img *Image) Rotate(angle int) error {
var tmp *C.VipsImage
vipsAngle := (angle / 90) % 4
if C.vips_rot_go(img.VipsImage, &tmp, C.VipsAngle(vipsAngle)) != 0 {
return Error()
}
C.vips_autorot_remove_angle(tmp)
C.swap_and_clear(&img.VipsImage, tmp)
return nil
}
func (img *Image) Flip() error {
var tmp *C.VipsImage
if C.vips_flip_horizontal_go(img.VipsImage, &tmp) != 0 {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
return nil
}
func (img *Image) Crop(left, top, width, height int) error {
var tmp *C.VipsImage
if C.vips_extract_area_go(img.VipsImage, &tmp, C.int(left), C.int(top), C.int(width), C.int(height)) != 0 {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
return nil
}
func (img *Image) Extract(out *Image, left, top, width, height int) error {
if C.vips_extract_area_go(img.VipsImage, &out.VipsImage, C.int(left), C.int(top), C.int(width), C.int(height)) != 0 {
return Error()
}
return nil
}
func (img *Image) SmartCrop(width, height int) error {
var tmp *C.VipsImage
if C.vips_smartcrop_go(img.VipsImage, &tmp, C.int(width), C.int(height)) != 0 {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
return nil
}
func (img *Image) Trim(threshold float64, smart bool, color Color, equalHor bool, equalVer bool) error {
var tmp *C.VipsImage
if err := img.CopyMemory(); err != nil {
return err
}
if C.vips_trim(img.VipsImage, &tmp, C.double(threshold),
gbool(smart), C.double(color.R), C.double(color.G), C.double(color.B),
gbool(equalHor), gbool(equalVer)) != 0 {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
return nil
}
func (img *Image) Flatten(bg Color) error {
var tmp *C.VipsImage
if C.vips_flatten_go(img.VipsImage, &tmp, C.double(bg.R), C.double(bg.G), C.double(bg.B)) != 0 {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
return nil
}
func (img *Image) ApplyFilters(blurSigma, sharpSigma float32, pixelatePixels int) error {
var tmp *C.VipsImage
if C.vips_apply_filters(img.VipsImage, &tmp, C.double(blurSigma), C.double(sharpSigma), C.int(pixelatePixels)) != 0 {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
return nil
}
func (img *Image) IsRGB() bool {
format := C.vips_image_guess_interpretation(img.VipsImage)
return format == C.VIPS_INTERPRETATION_sRGB ||
format == C.VIPS_INTERPRETATION_scRGB ||
format == C.VIPS_INTERPRETATION_RGB16
}
func (img *Image) ImportColourProfile() error {
var tmp *C.VipsImage
if img.VipsImage.Coding != C.VIPS_CODING_NONE {
return nil
}
if img.VipsImage.BandFmt != C.VIPS_FORMAT_UCHAR && img.VipsImage.BandFmt != C.VIPS_FORMAT_USHORT {
return nil
}
if C.vips_has_embedded_icc(img.VipsImage) == 0 {
return nil
}
if C.vips_icc_import_go(img.VipsImage, &tmp) == 0 {
C.swap_and_clear(&img.VipsImage, tmp)
} else {
log.Warningf("Can't import ICC profile: %s", Error())
}
return nil
}
func (img *Image) ExportColourProfile() error {
var tmp *C.VipsImage
// Don't export is there's no embedded profile or embedded profile is sRGB
if C.vips_has_embedded_icc(img.VipsImage) == 0 || C.vips_icc_is_srgb_iec61966(img.VipsImage) == 1 {
return nil
}
if C.vips_icc_export_go(img.VipsImage, &tmp) == 0 {
C.swap_and_clear(&img.VipsImage, tmp)
} else {
log.Warningf("Can't export ICC profile: %s", Error())
}
return nil
}
func (img *Image) ExportColourProfileToSRGB() error {
var tmp *C.VipsImage
// Don't export is there's no embedded profile or embedded profile is sRGB
if C.vips_has_embedded_icc(img.VipsImage) == 0 || C.vips_icc_is_srgb_iec61966(img.VipsImage) == 1 {
return nil
}
if C.vips_icc_export_srgb(img.VipsImage, &tmp) == 0 {
C.swap_and_clear(&img.VipsImage, tmp)
} else {
log.Warningf("Can't export ICC profile: %s", Error())
}
return nil
}
func (img *Image) TransformColourProfile() error {
var tmp *C.VipsImage
// Don't transform is there's no embedded profile or embedded profile is sRGB
if C.vips_has_embedded_icc(img.VipsImage) == 0 || C.vips_icc_is_srgb_iec61966(img.VipsImage) == 1 {
return nil
}
if C.vips_icc_transform_go(img.VipsImage, &tmp) == 0 {
C.swap_and_clear(&img.VipsImage, tmp)
} else {
log.Warningf("Can't transform ICC profile: %s", Error())
}
return nil
}
func (img *Image) RemoveColourProfile() error {
var tmp *C.VipsImage
if C.vips_icc_remove(img.VipsImage, &tmp) == 0 {
C.swap_and_clear(&img.VipsImage, tmp)
} else {
log.Warningf("Can't remove ICC profile: %s", Error())
}
return nil
}
func (img *Image) LinearColourspace() error {
return img.Colorspace(C.VIPS_INTERPRETATION_scRGB)
}
func (img *Image) RgbColourspace() error {
return img.Colorspace(C.VIPS_INTERPRETATION_sRGB)
}
func (img *Image) Colorspace(colorspace C.VipsInterpretation) error {
if img.VipsImage.Type != colorspace {
var tmp *C.VipsImage
if C.vips_colourspace_go(img.VipsImage, &tmp, colorspace) != 0 {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
}
return nil
}
func (img *Image) CopyMemory() error {
var tmp *C.VipsImage
if tmp = C.vips_image_copy_memory(img.VipsImage); tmp == nil {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
return nil
}
func (img *Image) Replicate(width, height int) error {
var tmp *C.VipsImage
if C.vips_replicate_go(img.VipsImage, &tmp, C.int(width), C.int(height)) != 0 {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
return nil
}
func (img *Image) Embed(width, height int, offX, offY int) error {
var tmp *C.VipsImage
if C.vips_embed_go(img.VipsImage, &tmp, C.int(offX), C.int(offY), C.int(width), C.int(height)) != 0 {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
return nil
}
func (img *Image) ApplyWatermark(wm *Image, left, top int, opacity float64) error {
var tmp *C.VipsImage
if C.vips_apply_watermark(img.VipsImage, wm.VipsImage, &tmp, C.int(left), C.int(top), C.double(opacity)) != 0 {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
return nil
}
func (img *Image) Strip(keepExifCopyright bool) error {
var tmp *C.VipsImage
if C.vips_strip(img.VipsImage, &tmp, gbool(keepExifCopyright)) != 0 {
return Error()
}
C.swap_and_clear(&img.VipsImage, tmp)
return nil
}