I have read PNG file specification and learnt that after the first 8 bytes of PNG signature, we have the IHDR chunk. This image states that we have IHDR with length of 13(0x0000000D) bytes.
I have written a code in swift to read the same png file and print the bytes which does not give me an IHDR with length equal to 13 bytes from the first 4 bytes of the chunk after the PNG signature. The output of the code in console is
PNG Signature Bytes: 89 50 4E 47 0D 0A 1A 0A
File offset: 8
IHDR length bytes: 00 00 00 04
File offset: 12
IHDR Chunktype bytes: 43 67 42 49
File offset: 16
IHDR Data byte: 50 00 20 02
File offset: 20
pngImageWidth: 1342185474
pngImageWidth: 20480
pngImageHeight: 8194
Have I missed something here or the specification that I read was outdated?
The first 8 bytes are infact PNG signature bytes. The IHDR bytes is where I dont get the expected length and chunk types(width, heigth and other bytes of the IHDR are variable for different files, but length and chunk types should be same as per my reading).
The code for reading the png file is straight forward and is as below:
enum PNGFileAnatomyConstants {
static let pngSignatureLength = 8
static let ihdrLength = 4
static let chunkTypeLength = 4
static let chunkCRCLength = 4
static let imageWidthLength = 4
static let imageHeigthLength = 4
}
func anatomyOfPNGFile() {
let bundle = Bundle.main
guard let pngFileUrl = bundle.url(forResource: "PNGFileSignature", withExtension: "png") else { fatalError() }
do {
// Signature start------------------------------------------------------------------------------------------
let readFileHandle = try FileHandle(forReadingFrom: pngFileUrl)
defer {
readFileHandle.closeFile()
}
let pngSignatureData = readFileHandle.readData(ofLength: PNGFileAnatomyConstants.pngSignatureLength)
let signatureString = pngSignatureData.hexEncodedString(options: [Data.HexEncodingOptions.upperCase])
if signatureString != "89 50 4E 47 0D 0A 1A 0A " {
fatalError(" Not a png")
}
print("PNG Signature Bytes: \(signatureString)")
print("File offset: \(readFileHandle.offsetInFile)")
// Signature ebd------------------------------------------------------------------------------------------
// IHDR Length start------------------------------------------------------------------------------------------
let ihdrLengthDataBigEndian = readFileHandle.readData(ofLength: PNGFileAnatomyConstants.ihdrLength)
let ihdrLength: UInt32
if PlatformEndianess.isLittleEndian {
ihdrLength = Data(ihdrLengthDataBigEndian.reversed()).withUnsafeBytes({ (unsafePointer: UnsafePointer<UInt32>) -> UInt32 in
return unsafePointer.pointee
})
} else {
ihdrLength = ihdrLengthDataBigEndian.withUnsafeBytes({ (unsafePointer: UnsafePointer<UInt32>) -> UInt32 in
return unsafePointer.pointee
})
}
let ihdrLengthDataBigEndianString = ihdrLengthDataBigEndian.hexEncodedString(options: [.upperCase])
print("IHDR length bytes: \(ihdrLengthDataBigEndianString)")
print("File offset: \(readFileHandle.offsetInFile)")
// IHDR Length end------------------------------------------------------------------------------------------
// IHDR chunk type start------------------------------------------------------------------------------------------
let ihdrChunkTypeData = readFileHandle.readData(ofLength: PNGFileAnatomyConstants.chunkTypeLength)
let ihdrChunkTypeDataString = ihdrChunkTypeData.hexEncodedString(options: [Data.HexEncodingOptions.upperCase])
print("IHDR Chunktype bytes: \(ihdrChunkTypeDataString)")
print("File offset: \(readFileHandle.offsetInFile)")
// IHDR chunk type end------------------------------------------------------------------------------------------
// IHDR data byte start------------------------------------------------------------------------------------------
let ihdrData = readFileHandle.readData(ofLength: Int(ihdrLength))
let ihdrDataString = ihdrData.hexEncodedString(options: [.upperCase])
print("IHDR Data byte: \(ihdrDataString)")
print("File offset: \(readFileHandle.offsetInFile)")
// IHDR data byte end------------------------------------------------------------------------------------------
do {
let pngImageWidth: UInt32
if PlatformEndianess.isLittleEndian {
pngImageWidth = Data(ihdrData.reversed()).withUnsafeBytes({ (unsafePointer: UnsafePointer<UInt32>) -> UInt32 in
return unsafePointer.pointee
})
} else {
pngImageWidth = ihdrData.withUnsafeBytes({ (unsafePointer: UnsafePointer<UInt32>) -> UInt32 in
return unsafePointer.pointee
})
}
print("pngImageWidth: \(pngImageWidth)")
}
do {
let pngImageWidth: UInt16
let widthData = Data(bytes: [ihdrData[0], ihdrData[1]])
if PlatformEndianess.isLittleEndian {
pngImageWidth = Data(widthData.reversed()).withUnsafeBytes({ (unsafePointer: UnsafePointer<UInt16>) -> UInt16 in
return unsafePointer.pointee
})
} else {
pngImageWidth = widthData.withUnsafeBytes({ (unsafePointer: UnsafePointer<UInt16>) -> UInt16 in
return unsafePointer.pointee
})
}
print("pngImageWidth: \(pngImageWidth)")//20480
let pngImageHeight: UInt16
let heightData = Data(bytes: [ihdrData[2], ihdrData[3]])
if PlatformEndianess.isLittleEndian {
pngImageHeight = Data(heightData.reversed()).withUnsafeBytes({ (unsafePointer: UnsafePointer<UInt16>) -> UInt16 in
return unsafePointer.pointee
})
} else {
pngImageHeight = heightData.withUnsafeBytes({ (unsafePointer: UnsafePointer<UInt16>) -> UInt16 in
return unsafePointer.pointee
})
}
print("pngImageHeight: \(pngImageHeight)")//20480
}
} catch {
fatalError(error.localizedDescription)
}
}
extension Data {
struct HexEncodingOptions: OptionSet {
let rawValue: Int
static let upperCase = HexEncodingOptions(rawValue: 1 << 0)
}
func hexEncodedString(options: HexEncodingOptions = []) -> String {
let hexDigits = Array((options.contains(.upperCase) ? "0123456789ABCDEF " : "0123456789abcdef ").utf16)
var chars: [unichar] = []
chars.reserveCapacity(3 * count)
for byte in self {
chars.append(hexDigits[Int(byte / 16)])
chars.append(hexDigits[Int(byte % 16)])
chars.append(hexDigits.last!)
}
return String(utf16CodeUnits: chars, count: chars.count)
}
}
class PlatformEndianess {
static var isLittleEndian: Bool = {
var integer: UInt16 = 0x0001
return withUnsafeBytes(of: &integer, { (rawBufferPointer) -> Bool in
return rawBufferPointer.first == 0x01
})
}()
}
As pointed out by MartinR there exists an extension on PNG files called CgBI.
A normal PNG file has a structure where PNG signature is followed by IHDR chunk.
Below is an example of bytes in hex representation for a normal PNG file( xx are placeholders bytes with variable values):
PNG Signature(8 bytes): 89 50 4E 47 0D 0A 1A 0A
=======Chunk start=======
IHDR Chunk:
IHDR chunk length(4 bytes): 00 00 00 0D
IHDR chunk type(Identifies chunk type to be IHDR): 49 48 44 52
Image width in pixels(variable 4): xx xx xx xx
Image height in pixels(variable 4): xx xx xx xx
Flags in the chunk(variable 5 bytes): xx xx xx xx xx
CRC checksum(variable 4 bytes): xx xx xx xx
=======Chunk end=======
A PNG file with CgBI extension has a structure where PNG signature is followed by CgBI chunk and then by IHDR chunk.
When I say extension don't confuse it for "filename.png, filename.cgbi". Its actually an extension of the way a PNG file is supposed to be structured.
Below is an example of bytes in hex representation for PNG file with CgBI extension( xx are placeholders bytes with variable values):
PNG Signature(8 bytes): 89 50 4E 47 0D 0A 1A 0A
=======Chunk start=======
CgBI Chunk:
CgBI chunk length(4 bytes): 00 00 00 04
CgBI chunk type(Identifies chunk type to be CgBI): 43 67 42 49
CgBI info flags(4 bytes): xx xx xx xx
CRC checksum(variable 4 bytes): xx xx xx xx
=======Chunk end=======
=======Chunk start=======
IHDR Chunk:
IHDR chunk length(4 bytes): 00 00 00 0D
IHDR chunk type(Identifies chunk type to be IHDR): 49 48 44 52
Image width in pixels(variable 4): xx xx xx xx
Image height in pixels(variable 4): xx xx xx xx
Flags in the chunk(variable 5 bytes): xx xx xx xx xx
CRC checksum(variable 4 bytes): xx xx xx xx
=======Chunk end=======
While PNG files are rendered on all image viewers, the extension CgBI maybe or may not be rendered on all image viewers depending on support they provide for such files.
MacOS preview can display such images and UIImageView on iOS is also able to display the files in my sample set of images(PNG with CgBI extension).
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