package png // http://www.libpng.org/pub/png/spec/1.2/PNG-Contents.html // https://ftp-osl.osuosl.org/pub/libpng/documents/pngext-1.5.0.html // https://wiki.mozilla.org/APNG_Specification import ( "compress/zlib" "hash/crc32" "github.com/wader/fq/format" "github.com/wader/fq/format/registry" "github.com/wader/fq/pkg/decode" "github.com/wader/fq/pkg/scalar" ) var iccProfileFormat decode.Group var exifFormat decode.Group func init() { registry.MustRegister(decode.Format{ Name: format.PNG, Description: "Portable Network Graphics file", Groups: []string{format.PROBE, format.IMAGE}, DecodeFn: pngDecode, Dependencies: []decode.Dependency{ {Names: []string{format.ICC_PROFILE}, Group: &iccProfileFormat}, {Names: []string{format.EXIF}, Group: &exifFormat}, }, }) } const ( compressionDeflate = 0 ) var compressionNames = scalar.UToSymStr{ compressionDeflate: "deflate", } const ( disposeOpNone = 0 disposeOpBackground = 1 disposeOpPrevious = 2 ) var disposeOpNames = scalar.UToSymStr{ disposeOpNone: "none", disposeOpBackground: "background", disposeOpPrevious: "previous", } const ( blendOpNone = 0 blendOpBackground = 1 ) var blendOpNames = scalar.UToSymStr{ blendOpNone: "source", blendOpBackground: "over", } const ( colorTypeGrayscale = 0 colorTypeRGB = 2 colorTypePalette = 3 colorTypeGrayscaleWithAlpha = 4 colorTypeRGBA = 6 ) var colorTypeMap = scalar.UToSymStr{ colorTypeGrayscale: "grayscale", colorTypeRGB: "rgb", colorTypePalette: "palette", colorTypeGrayscaleWithAlpha: "grayscale_alpha", colorTypeRGBA: "rgba", } func pngDecode(d *decode.D, in interface{}) interface{} { iEndFound := false var colorType uint64 d.FieldRawLen("signature", 8*8, d.AssertBitBuf([]byte("\x89PNG\r\n\x1a\n"))) d.FieldStructArrayLoop("chunks", "chunk", func() bool { return d.NotEnd() && !iEndFound }, func(d *decode.D) { chunkLength := d.FieldU32("length") crcStartPos := d.Pos() chunkType := d.FieldUTF8("type", 4) // upper/lower case in chunk type is used for flags d.SeekRel(-4 * 8) d.SeekRel(3) d.FieldBool("ancillary") d.SeekRel(7) d.FieldBool("private") d.SeekRel(7) d.FieldBool("reserved") d.SeekRel(7) d.FieldBool("safe_to_copy") d.SeekRel(4) d.LenFn(int64(chunkLength)*8, func(d *decode.D) { switch chunkType { case "IHDR": d.FieldU32("width") d.FieldU32("height") d.FieldU8("bit_depth") colorType = d.FieldU8("color_type", colorTypeMap) d.FieldU8("compression_method", compressionNames) d.FieldU8("filter_method", scalar.UToSymStr{ 0: "adaptive_filtering", }) d.FieldU8("interlace_method", scalar.UToSymStr{ 0: "none", 1: "adam7", }) case "tEXt": d.FieldUTF8Null("keyword") d.FieldUTF8("text", int(d.BitsLeft())/8) case "zTXt": d.FieldUTF8Null("keyword") compressionMethod := d.FieldU8("compression_method", compressionNames) dataLen := d.BitsLeft() // TODO: make nicer d.FieldRawLen("compressed", dataLen) d.SeekRel(-dataLen) switch compressionMethod { case compressionDeflate: d.FieldFormatReaderLen("uncompressed", dataLen, zlib.NewReader, decode.FormatFn(func(d *decode.D, in interface{}) interface{} { d.FieldUTF8("text", int(d.BitsLeft()/8)) return nil })) default: d.FieldRawLen("data", dataLen) } case "iCCP": d.FieldUTF8Null("profile_name") compressionMethod := d.FieldU8("compression_method", compressionNames) dataLen := d.BitsLeft() d.FieldRawLen("compressed", dataLen) d.SeekRel(-dataLen) switch compressionMethod { case compressionDeflate: d.FieldFormatReaderLen("uncompressed", dataLen, zlib.NewReader, iccProfileFormat) default: d.FieldRawLen("data", dataLen) } case "pHYs": d.FieldU32("x_pixels_per_unit") d.FieldU32("y_pixels_per_unit") d.FieldU8("unit") case "bKGD": switch colorType { case colorTypePalette: d.FieldU8("index") case colorTypeGrayscale, colorTypeGrayscaleWithAlpha: d.FieldU16("gray") case colorTypeRGB, colorTypeRGBA: d.FieldU16("r") d.FieldU16("g") d.FieldU16("b") } case "gAMA": d.FieldU32("value") case "cHRM": df := func(d *decode.D) float64 { return float64(d.U32()) / 1000.0 } d.FieldFFn("white_point_x", df) d.FieldFFn("white_point_y", df) d.FieldFFn("red_x", df) d.FieldFFn("red_y", df) d.FieldFFn("green_x", df) d.FieldFFn("green_y", df) d.FieldFFn("blue_x", df) d.FieldFFn("blue_y", df) case "eXIf": d.FieldFormatLen("exif", d.BitsLeft(), exifFormat, nil) case "acTL": d.FieldU32("num_frames") d.FieldU32("num_plays") case "fcTL": d.FieldU32("sequence_number") d.FieldU32("width") d.FieldU32("height") d.FieldU32("x_offset") d.FieldU32("y_offset") d.FieldU16("delay_num") d.FieldU16("delay_sep") d.FieldU8("dispose_op", disposeOpNames) d.FieldU8("blend_op", blendOpNames) case "fdAT": d.FieldU32("sequence_number") d.FieldRawLen("data", d.BitsLeft()-32) case "PLTE": d.FieldArray("palette", func(d *decode.D) { for !d.End() { d.FieldStruct("color", func(d *decode.D) { d.FieldU8("r") d.FieldU8("g") d.FieldU8("b") }) } }) case "tRNS": switch colorType { case colorTypeGrayscale: d.FieldU16("alpha") case colorTypeRGB: d.FieldU16("r") d.FieldU16("g") d.FieldU16("b") case colorTypePalette: d.FieldArray("alphas", func(d *decode.D) { for !d.End() { d.FieldU8("alpha") } }) } default: if chunkType == "IEND" { iEndFound = true } else { d.FieldRawLen("data", d.BitsLeft()) } } }) chunkCRC := crc32.NewIEEE() d.MustCopy(chunkCRC, d.BitBufRange(crcStartPos, d.Pos()-crcStartPos)) d.FieldU32("crc", d.ValidateUBytes(chunkCRC.Sum(nil)), scalar.Hex) }) return nil }