gotosocial/internal/media/image.go
kim 21bb324156
[chore] media and emoji refactoring (#3000)
* start updating media manager interface ready for storing attachments / emoji right away

* store emoji and media as uncached immediately, then (re-)cache on Processing{}.Load()

* remove now unused media workers

* fix tests and issues

* fix another test!

* fix emoji activitypub uri setting behaviour, fix remainder of test compilation issues

* fix more tests

* fix (most of) remaining tests, add debouncing to repeatedly failing media / emojis

* whoops, rebase issue

* remove kim's whacky experiments

* do some reshuffling, ensure emoji uri gets set

* ensure marked as not cached on cleanup

* tweaks to media / emoji processing to handle context canceled better

* ensure newly fetched emojis actually get set in returned slice

* use different varnames to be a bit more obvious

* move emoji refresh rate limiting to dereferencer

* add exported dereferencer functions for remote media, use these for recaching in processor

* add check for nil attachment in updateAttachment()

* remove unused emoji and media fields + columns

* see previous commit

* fix old migrations expecting image_updated_at to exists (from copies of old models)

* remove freshness checking code (seems to be broken...)

* fix error arg causing nil ptr exception

* finish documentating functions with comments, slight tweaks to media / emoji deref error logic

* remove some extra unneeded boolean checking

* finish writing documentation (code comments) for exported media manager methods

* undo changes to migration snapshot gtsmodels, updated failing migration to have its own snapshot

* move doesColumnExist() to util.go in migrations package
2024-06-26 16:01:16 +01:00

189 lines
5.6 KiB
Go

// GoToSocial
// Copyright (C) GoToSocial Authors admin@gotosocial.org
// SPDX-License-Identifier: AGPL-3.0-or-later
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package media
import (
"bufio"
"image"
"image/color"
"image/draw"
"image/jpeg"
"image/png"
"io"
"sync"
"github.com/buckket/go-blurhash"
"github.com/disintegration/imaging"
"github.com/superseriousbusiness/gotosocial/internal/iotools"
// import to init webp encode/decoding.
_ "golang.org/x/image/webp"
)
var (
// pngEncoder provides our global PNG encoding with
// specified compression level, and memory pooled buffers.
pngEncoder = png.Encoder{
CompressionLevel: png.DefaultCompression,
BufferPool: &pngEncoderBufferPool{},
}
// jpegBufferPool is a memory pool
// of byte buffers for JPEG encoding.
jpegBufferPool sync.Pool
)
// gtsImage is a thin wrapper around the standard library image
// interface to provide our own useful helper functions for image
// size and aspect ratio calculations, streamed encoding to various
// types, and creating reduced size thumbnail images.
type gtsImage struct{ image image.Image }
// blankImage generates a blank image of given dimensions.
func blankImage(width int, height int) *gtsImage {
// create a rectangle with the same dimensions as the video
img := image.NewRGBA(image.Rect(0, 0, width, height))
// fill the rectangle with our desired fill color.
draw.Draw(img, img.Bounds(), &image.Uniform{
color.RGBA{42, 43, 47, 0},
}, image.Point{}, draw.Src)
return &gtsImage{image: img}
}
// decodeImage will decode image from reader stream and return image wrapped in our own gtsImage{} type.
func decodeImage(r io.Reader, opts ...imaging.DecodeOption) (*gtsImage, error) {
img, err := imaging.Decode(r, opts...)
if err != nil {
return nil, err
}
return &gtsImage{image: img}, nil
}
// Width returns the image width in pixels.
func (m *gtsImage) Width() int {
return m.image.Bounds().Size().X
}
// Height returns the image height in pixels.
func (m *gtsImage) Height() int {
return m.image.Bounds().Size().Y
}
// Size returns the total number of image pixels.
func (m *gtsImage) Size() int {
return m.image.Bounds().Size().X *
m.image.Bounds().Size().Y
}
// AspectRatio returns the image ratio of width:height.
func (m *gtsImage) AspectRatio() float32 {
// note: we cast bounds to float64 to prevent truncation
// and only at the end aspect ratio do we cast to float32
// (as the sizes are likely to be much larger than ratio).
return float32(float64(m.image.Bounds().Size().X) /
float64(m.image.Bounds().Size().Y))
}
// Thumbnail returns a small sized copy of gtsImage{}, limited to 512x512 if not small enough.
func (m *gtsImage) Thumbnail() *gtsImage {
const (
// max thumb
// dimensions.
maxWidth = 512
maxHeight = 512
)
// Check the receiving image is within max thumnail bounds.
if m.Width() <= maxWidth && m.Height() <= maxHeight {
return &gtsImage{image: imaging.Clone(m.image)}
}
// Image is too large, needs to be resized to thumbnail max.
img := imaging.Fit(m.image, maxWidth, maxHeight, imaging.Linear)
return &gtsImage{image: img}
}
// Blurhash calculates the blurhash for the receiving image data.
func (m *gtsImage) Blurhash() (string, error) {
// for generating blurhashes, it's more cost effective to
// lose detail since it's blurry, so make a tiny version.
tiny := imaging.Resize(m.image, 32, 0, imaging.NearestNeighbor)
// Encode blurhash from resized version
return blurhash.Encode(4, 3, tiny)
}
// ToJPEG creates a new streaming JPEG encoder from receiving image, and a size ptr
// which stores the number of bytes written during the image encoding process.
func (m *gtsImage) ToJPEG(opts *jpeg.Options) io.Reader {
return iotools.StreamWriteFunc(func(w io.Writer) error {
// Get encoding buffer
bw := getJPEGBuffer(w)
// Encode JPEG to buffered writer.
err := jpeg.Encode(bw, m.image, opts)
// Replace buffer.
//
// NOTE: jpeg.Encode() already
// performs a bufio.Writer.Flush().
putJPEGBuffer(bw)
return err
})
}
// ToPNG creates a new streaming PNG encoder from receiving image, and a size ptr
// which stores the number of bytes written during the image encoding process.
func (m *gtsImage) ToPNG() io.Reader {
return iotools.StreamWriteFunc(func(w io.Writer) error {
return pngEncoder.Encode(w, m.image)
})
}
// getJPEGBuffer fetches a reset JPEG encoding buffer from global JPEG buffer pool.
func getJPEGBuffer(w io.Writer) *bufio.Writer {
v := jpegBufferPool.Get()
if v == nil {
v = bufio.NewWriter(nil)
}
buf := v.(*bufio.Writer)
buf.Reset(w)
return buf
}
// putJPEGBuffer resets the given bufio writer and places in global JPEG buffer pool.
func putJPEGBuffer(buf *bufio.Writer) {
buf.Reset(nil)
jpegBufferPool.Put(buf)
}
// pngEncoderBufferPool implements png.EncoderBufferPool.
type pngEncoderBufferPool sync.Pool
func (p *pngEncoderBufferPool) Get() *png.EncoderBuffer {
buf, _ := (*sync.Pool)(p).Get().(*png.EncoderBuffer)
return buf
}
func (p *pngEncoderBufferPool) Put(buf *png.EncoderBuffer) {
(*sync.Pool)(p).Put(buf)
}