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Writing a mapping application on iOS, making use of OpenStreetMap tiles. Map tile images are downloaded asynchronously and stored in a dictionary, or persisted in a SQLite DB.

Occasionally, for whatever reason, while attempting to render a map tile image, I get the following error:
ImageIO: <ERROR> PNGinvalid distance too far back

This causes nasty black squares to appear over my map.

This is the piece of code in which this occurs:

NSData *imageData = [TileDownloader RetrieveDataAtTileX:(int)tilex Y:(int)tiley Zoom:(int)zoomLevel];  
if (imageData != nil) {
    NSLog(@"Obtained image data\n");
    UIImage *img = [[UIImage imageWithData:imageData] retain];
    // Perform the image render on the current UI context.  
    // ERROR OCCURS BETWEEN PUSH AND POP
    UIGraphicsPushContext(context);
    [img drawInRect:[self rectForMapRect:mapRect] blendMode:kCGBlendModeNormal alpha:1.0f];
    UIGraphicsPopContext();
    [img release];
}

Now, what I'm looking for is a way to ensure a png is valid before attempting to render it to my map.

Edit: The system also occasionally throws this error:
ImageIO: <ERROR> PNGIDAT: CRC error

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Are you getting a UIImage object back when this happens? I'd expect img to be nil, and that to be your effective validation. –  Tommy Jul 26 '11 at 2:02
    
Well, given that I'm loading raw data, and it's throwing a PNG error, I'd suspect that the UIImage object is built, but its contained data is the issue. –  Jordaan Mylonas Jul 26 '11 at 2:07
    
I think it'd be more likely that +imageWithData: would spot the error and return nil. If you've tested it and that isn't the case then fair enough, but I really think you should test it. –  Tommy Jul 26 '11 at 2:21
    
After testing, image is not nil. NSLogging it via %@ returns a memory address. –  Jordaan Mylonas Jul 26 '11 at 2:48
    
That makes perfect sense upon reflection; UIImage lazy loads so there's probably limited testing of the data upon imageWithData:. Though that does make me a little uncertain as to when an error would occur. If UIImage succeeds then I'd expect CGImageCreateWithPNGDataProvider to as well, and CGContextDrawImage returns void. –  Tommy Jul 26 '11 at 3:26

2 Answers 2

I found this in other question and put together what solved the issue for me. Hope you find this helpful.

The PNG format has several built in checks. Each "chunk" has a CRC32 check, but to check that you'd need to read the full file.

A more basic check (not foolproof, of course) would be to read the start and ending of the file.

The first 8 bytes should always be the following (decimal) values { 137, 80, 78, 71, 13, 10, 26, 10 } (ref). In particular, the bytes second-to-fourth correspond to the ASCII string "PNG".

In hexadecimal:

89 50 4e 47 0d 0a 1a 0a
.. P  N  G  ...........

You can also check the last 12 bytes of the file (IEND chunk). The middle 4 bytes should correspond to the ASCII string "IEND". More specifically the last 12 bytes should be (in hexa):

00 00 00 00 49 45 4e 44 ae 42 60 82
........... I  E  N  D  ...........

(Strictly speaking, it's not really obligatory for a PNG file to end with those 12 bytes, the IEND chunk itself signals the end of the PNG stream and so a file could in principle have extra trailing bytes which would be ignored by the PNG reader. In practice, this is extremely improbable).

Here is an implementation:

- (BOOL)dataIsValidPNG:(NSData *)data
{
    if (!data || data.length < 12)
    {
        return NO;
    }

    NSInteger totalBytes = data.length;
    const char *bytes = (const char *)[data bytes];

    return (bytes[0] == (char)0x89 && // PNG
            bytes[1] == (char)0x50 &&
            bytes[2] == (char)0x4e &&
            bytes[3] == (char)0x47 &&
            bytes[4] == (char)0x0d &&
            bytes[5] == (char)0x0a &&
            bytes[6] == (char)0x1a &&
            bytes[7] == (char)0x0a &&

            bytes[totalBytes - 12] == (char)0x00 && // IEND
            bytes[totalBytes - 11] == (char)0x00 &&
            bytes[totalBytes - 10] == (char)0x00 &&
            bytes[totalBytes - 9] == (char)0x00 &&
            bytes[totalBytes - 8] == (char)0x49 &&
            bytes[totalBytes - 7] == (char)0x45 &&
            bytes[totalBytes - 6] == (char)0x4e &&
            bytes[totalBytes - 5] == (char)0x44 &&
            bytes[totalBytes - 4] == (char)0xae &&
            bytes[totalBytes - 3] == (char)0x42 &&
            bytes[totalBytes - 2] == (char)0x60 &&
            bytes[totalBytes - 1] == (char)0x82);
}
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up vote 0 down vote accepted

Switched from my own Asynchronous Download Queue Manager to the All Seeing I implementation. Problem became a moot point.

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