#------------------------------------------------------------------------------
# File: PNG.pm
#
# Description: Read and write PNG meta information
#
# Revisions: 06/10/2005 - P. Harvey Created
# 06/23/2005 - P. Harvey Added MNG and JNG support
# 09/16/2005 - P. Harvey Added write support
#
# References: 1) http://www.libpng.org/pub/png/spec/1.2/
# 2) http://www.faqs.org/docs/png/
# 3) http://www.libpng.org/pub/mng/
# 4) http://www.libpng.org/pub/png/spec/register/
# 5) ftp://ftp.simplesystems.org/pub/png/documents/pngext-1.4.0-pdg.html
# 6) ftp://ftp.simplesystems.org/pub/png/documents/pngext-1.5.0.html
#
# Notes: Writing meta information in PNG images is a pain in the butt
# for a number of reasons: One biggie is that you have to
# decompress then decode the ASCII/hex profile information before
# you can edit it, then you have to ASCII/hex-encode, recompress
# and calculate a CRC before you can write it out again. gaaaak.
#
# Although XMP is allowed after the IDAT chunk according to the
# PNG specifiction, some apps (Apple Spotlight and Preview for
# OS X 10.8.5 and Adobe Photoshop CC 14.0) ignore it unless it
# comes before IDAT. As of version 11.58, ExifTool uses a 2-pass
# writing algorithm to allow it to be compatible with XMP after
# IDAT while writing it before IDAT. (PNG and EXIF are still
# written after IDAT.) As of version 11.63, this strategy is
# applied to all text chunks (tEXt, zTXt and iTXt).
#------------------------------------------------------------------------------
package Image::ExifTool::PNG;
use strict;
use vars qw($VERSION $AUTOLOAD %stdCase);
use Image::ExifTool qw(:DataAccess :Utils);
$VERSION = '1.53';
sub ProcessPNG_tEXt($$$);
sub ProcessPNG_iTXt($$$);
sub ProcessPNG_eXIf($$$);
sub ProcessPNG_Compressed($$$);
sub CalculateCRC($;$$$);
sub HexEncode($);
sub AddChunks($$;@);
sub Add_iCCP($$);
sub DoneDir($$$;$);
sub GetLangInfo($$);
sub BuildTextChunk($$$$$);
sub ConvertPNGDate($$);
sub InversePNGDate($$);
# translate lower-case to actual case used for eXIf/zXIf chunks
%stdCase = ( 'zxif' => 'zxIf', exif => 'eXIf' );
my $noCompressLib;
# look up for file type, header chunk and end chunk, based on file signature
my %pngLookup = (
"\x89PNG\r\n\x1a\n" => ['PNG', 'IHDR', 'IEND' ],
"\x8aMNG\r\n\x1a\n" => ['MNG', 'MHDR', 'MEND' ],
"\x8bJNG\r\n\x1a\n" => ['JNG', 'JHDR', 'IEND' ],
);
# map for directories in PNG images
my %pngMap = (
IFD1 => 'IFD0',
EXIF => 'IFD0', # to write EXIF as a block
ExifIFD => 'IFD0',
GPS => 'IFD0',
SubIFD => 'IFD0',
GlobParamIFD => 'IFD0',
PrintIM => 'IFD0',
InteropIFD => 'ExifIFD',
MakerNotes => 'ExifIFD',
IFD0 => 'PNG',
XMP => 'PNG',
ICC_Profile => 'PNG',
Photoshop => 'PNG',
'PNG-pHYs' => 'PNG',
IPTC => 'Photoshop',
MakerNotes => 'ExifIFD',
);
# color type of current image
$Image::ExifTool::PNG::colorType = -1;
# data and text chunk types
my %isDatChunk = ( IDAT => 1, JDAT => 1, JDAA => 1 );
my %isTxtChunk = ( tEXt => 1, zTXt => 1, iTXt => 1 );
# chunks that we shouldn't move other chunks across (ref 3)
my %noLeapFrog = ( SAVE => 1, SEEK => 1, IHDR => 1, JHDR => 1, IEND => 1, MEND => 1,
DHDR => 1, BASI => 1, CLON => 1, PAST => 1, SHOW => 1, MAGN => 1 );
# PNG chunks
%Image::ExifTool::PNG::Main = (
WRITE_PROC => \&Image::ExifTool::DummyWriteProc,
GROUPS => { 2 => 'Image' },
PREFERRED => 1, # always add these tags when writing
NOTES => q{
Tags extracted from PNG images. See
L for the official PNG 1.2
specification.
According to the specification, a PNG file should end at the IEND chunk,
however ExifTool will preserve any data found after this when writing unless
it is specifically deleted with C<-Trailer:All=>. When reading, a minor
warning is issued if this trailer exists, and ExifTool will attempt to parse
this data as additional PNG chunks.
Also according to the PNG specification, there is no restriction on the
location of text-type chunks (tEXt, zTXt and iTXt). However, certain
utilities (including some Apple and Adobe utilities) won't read the XMP iTXt
chunk if it comes after the IDAT chunk, and at least one utility won't read
other text chunks like this. For this reason, ExifTool 11.63 and later
create new text chunks (including XMP) before IDAT, and will move existing
text chunks up from after IDAT.
},
bKGD => {
Name => 'BackgroundColor',
ValueConv => 'join(" ",unpack(length($val) < 2 ? "C" : "n*", $val))',
},
cHRM => {
Name => 'PrimaryChromaticities',
SubDirectory => { TagTable => 'Image::ExifTool::PNG::PrimaryChromaticities' },
},
dSIG => {
Name => 'DigitalSignature',
Binary => 1,
},
fRAc => {
Name => 'FractalParameters',
Binary => 1,
},
gAMA => {
Name => 'Gamma',
Notes => q{
ExifTool reports the gamma for decoding the image, which is consistent with
the EXIF convention, but is the inverse of the stored encoding gamma
},
ValueConv => 'my $a=unpack("N",$val);$a ? int(1e9/$a+0.5)/1e4 : $val',
},
gIFg => {
Name => 'GIFGraphicControlExtension',
Binary => 1,
},
gIFt => {
Name => 'GIFPlainTextExtension',
Binary => 1,
},
gIFx => {
Name => 'GIFApplicationExtension',
Binary => 1,
},
hIST => {
Name => 'PaletteHistogram',
Binary => 1,
},
iCCP => {
Name => 'ICC_Profile',
Notes => 'this is where ExifTool will write a new ICC_Profile',
SubDirectory => {
TagTable => 'Image::ExifTool::ICC_Profile::Main',
ProcessProc => \&ProcessPNG_Compressed,
},
},
'iCCP-name' => {
Name => 'ProfileName',
Notes => 'not a real tag ID, this tag represents the iCCP profile name',
},
# IDAT
# IEND
IHDR => {
Name => 'ImageHeader',
SubDirectory => { TagTable => 'Image::ExifTool::PNG::ImageHeader' },
},
iTXt => {
Name => 'InternationalText',
SubDirectory => {
TagTable => 'Image::ExifTool::PNG::TextualData',
ProcessProc => \&ProcessPNG_iTXt,
},
},
oFFs => {
Name => 'ImageOffset',
ValueConv => q{
my @a = unpack("NNC",$val);
$a[2] = ($a[2] ? "microns" : "pixels");
return "$a[0], $a[1] ($a[2])";
},
},
pCAL => {
Name => 'PixelCalibration',
Binary => 1,
},
pHYs => {
Name => 'PhysicalPixel',
SubDirectory => {
TagTable => 'Image::ExifTool::PNG::PhysicalPixel',
DirName => 'PNG-pHYs', # (needed for writing)
},
},
PLTE => {
Name => 'Palette',
ValueConv => 'length($val) <= 3 ? join(" ",unpack("C*",$val)) : \$val',
},
sBIT => {
Name => 'SignificantBits',
ValueConv => 'join(" ",unpack("C*",$val))',
},
sCAL => { # png 1.4.0
Name => 'SubjectScale',
SubDirectory => { TagTable => 'Image::ExifTool::PNG::SubjectScale' },
},
sPLT => {
Name => 'SuggestedPalette',
Binary => 1,
PrintConv => 'split("\0",$$val,1)', # extract palette name
},
sRGB => {
Name => 'SRGBRendering',
ValueConv => 'unpack("C",$val)',
PrintConv => {
0 => 'Perceptual',
1 => 'Relative Colorimetric',
2 => 'Saturation',
3 => 'Absolute Colorimetric',
},
},
sTER => { # png 1.4.0
Name => 'StereoImage',
SubDirectory => { TagTable => 'Image::ExifTool::PNG::StereoImage' },
},
tEXt => {
Name => 'TextualData',
SubDirectory => { TagTable => 'Image::ExifTool::PNG::TextualData' },
},
tIME => {
Name => 'ModifyDate',
Groups => { 2 => 'Time' },
Writable => 1,
Shift => 'Time',
ValueConv => 'sprintf("%.4d:%.2d:%.2d %.2d:%.2d:%.2d", unpack("nC5", $val))',
ValueConvInv => q{
my @a = ($val=~/^(\d+):(\d+):(\d+)\s+(\d+):(\d+):(\d+)/);
@a == 6 or warn('Invalid date'), return undef;
return pack('nC5', @a);
},
PrintConv => '$self->ConvertDateTime($val)',
PrintConvInv => '$self->InverseDateTime($val)',
},
tRNS => {
Name => 'Transparency',
ValueConv => q{
return \$val if length($val) > 6;
join(" ",unpack($Image::ExifTool::PNG::colorType == 3 ? "C*" : "n*", $val));
},
},
tXMP => {
Name => 'XMP',
Notes => 'obsolete location specified by a September 2001 XMP draft',
NonStandard => 'XMP',
SubDirectory => { TagTable => 'Image::ExifTool::XMP::Main' },
},
vpAg => { # private imagemagick chunk
Name => 'VirtualPage',
SubDirectory => { TagTable => 'Image::ExifTool::PNG::VirtualPage' },
},
zTXt => {
Name => 'CompressedText',
SubDirectory => {
TagTable => 'Image::ExifTool::PNG::TextualData',
ProcessProc => \&ProcessPNG_Compressed,
},
},
# animated PNG (ref https://wiki.mozilla.org/APNG_Specification)
acTL => {
Name => 'AnimationControl',
SubDirectory => {
TagTable => 'Image::ExifTool::PNG::AnimationControl',
},
},
# eXIf (ref 6)
$stdCase{exif} => {
Name => $stdCase{exif},
Notes => 'this is where ExifTool will create new EXIF',
SubDirectory => {
TagTable => 'Image::ExifTool::Exif::Main',
DirName => 'EXIF', # (to write as a block)
ProcessProc => \&ProcessPNG_eXIf,
},
},
# zXIf
$stdCase{zxif} => {
Name => $stdCase{zxif},
Notes => 'a once-proposed chunk for compressed EXIF',
NonStandard => 'EXIF',
SubDirectory => {
TagTable => 'Image::ExifTool::Exif::Main',
DirName => 'EXIF', # (to write as a block)
ProcessProc => \&ProcessPNG_eXIf,
},
},
# fcTL - animation frame control for each frame
# fdAT - animation data for each frame
);
# PNG IHDR chunk
%Image::ExifTool::PNG::ImageHeader = (
PROCESS_PROC => \&Image::ExifTool::ProcessBinaryData,
GROUPS => { 2 => 'Image' },
0 => {
Name => 'ImageWidth',
Format => 'int32u',
},
4 => {
Name => 'ImageHeight',
Format => 'int32u',
},
8 => 'BitDepth',
9 => {
Name => 'ColorType',
RawConv => '$Image::ExifTool::PNG::colorType = $val',
PrintConv => {
0 => 'Grayscale',
2 => 'RGB',
3 => 'Palette',
4 => 'Grayscale with Alpha',
6 => 'RGB with Alpha',
},
},
10 => {
Name => 'Compression',
PrintConv => { 0 => 'Deflate/Inflate' },
},
11 => {
Name => 'Filter',
PrintConv => { 0 => 'Adaptive' },
},
12 => {
Name => 'Interlace',
PrintConv => { 0 => 'Noninterlaced', 1 => 'Adam7 Interlace' },
},
);
# PNG cHRM chunk
%Image::ExifTool::PNG::PrimaryChromaticities = (
PROCESS_PROC => \&Image::ExifTool::ProcessBinaryData,
GROUPS => { 2 => 'Image' },
FORMAT => 'int32u',
0 => { Name => 'WhitePointX', ValueConv => '$val / 100000' },
1 => { Name => 'WhitePointY', ValueConv => '$val / 100000' },
2 => { Name => 'RedX', ValueConv => '$val / 100000' },
3 => { Name => 'RedY', ValueConv => '$val / 100000' },
4 => { Name => 'GreenX', ValueConv => '$val / 100000' },
5 => { Name => 'GreenY', ValueConv => '$val / 100000' },
6 => { Name => 'BlueX', ValueConv => '$val / 100000' },
7 => { Name => 'BlueY', ValueConv => '$val / 100000' },
);
# PNG pHYs chunk
%Image::ExifTool::PNG::PhysicalPixel = (
PROCESS_PROC => \&Image::ExifTool::ProcessBinaryData,
WRITE_PROC => \&Image::ExifTool::WriteBinaryData,
WRITABLE => 1,
GROUPS => { 1 => 'PNG-pHYs', 2 => 'Image' },
WRITE_GROUP => 'PNG-pHYs',
NOTES => q{
These tags are found in the PNG pHYs chunk and belong to the PNG-pHYs family
1 group. They are all created together with default values if necessary
when any of these tags is written, and may only be deleted as a group.
},
0 => {
Name => 'PixelsPerUnitX',
Format => 'int32u',
Notes => 'default 2834',
},
4 => {
Name => 'PixelsPerUnitY',
Format => 'int32u',
Notes => 'default 2834',
},
8 => {
Name => 'PixelUnits',
PrintConv => { 0 => 'Unknown', 1 => 'meters' },
Notes => 'default meters',
},
);
# PNG sCAL chunk
%Image::ExifTool::PNG::SubjectScale = (
PROCESS_PROC => \&Image::ExifTool::ProcessBinaryData,
GROUPS => { 2 => 'Image' },
0 => {
Name => 'SubjectUnits',
PrintConv => { 1 => 'meters', 2 => 'radians' },
},
1 => {
Name => 'SubjectPixelWidth',
Format => 'var_string',
},
2 => {
Name => 'SubjectPixelHeight',
Format => 'var_string',
},
);
# PNG vpAg chunk
%Image::ExifTool::PNG::VirtualPage = (
PROCESS_PROC => \&Image::ExifTool::ProcessBinaryData,
GROUPS => { 2 => 'Image' },
FORMAT => 'int32u',
0 => 'VirtualImageWidth',
1 => 'VirtualImageHeight',
2 => {
Name => 'VirtualPageUnits',
Format => 'int8u',
# what is the conversion for this?
},
);
# PNG sTER chunk
%Image::ExifTool::PNG::StereoImage = (
PROCESS_PROC => \&Image::ExifTool::ProcessBinaryData,
GROUPS => { 2 => 'Image' },
0 => {
Name => 'StereoMode',
PrintConv => {
0 => 'Cross-fuse Layout',
1 => 'Diverging-fuse Layout',
},
},
);
my %unreg = ( Notes => 'unregistered' );
# Tags for PNG tEXt zTXt and iTXt chunks
# (NOTE: ValueConv is set dynamically, so don't set it here!)
%Image::ExifTool::PNG::TextualData = (
PROCESS_PROC => \&ProcessPNG_tEXt,
WRITE_PROC => \&Image::ExifTool::DummyWriteProc,
WRITABLE => 'string',
PREFERRED => 1, # always add these tags when writing
GROUPS => { 2 => 'Image' },
LANG_INFO => \&GetLangInfo,
NOTES => q{
The PNG TextualData format allows arbitrary tag names to be used. The tags
listed below are the only ones that can be written (unless new user-defined
tags are added via the configuration file), however ExifTool will extract
any other TextualData tags that are found. All TextualData tags (including
tags not listed below) are removed when deleting all PNG tags.
These tags may be stored as tEXt, zTXt or iTXt chunks in the PNG image. By
default ExifTool writes new string-value tags as as uncompressed tEXt, or
compressed zTXt if the L (-z) option is used and Compress::Zlib is
available. Alternate language tags and values containing special characters
(unless the Latin character set is used) are written as iTXt, and compressed
if the L option is used and Compress::Zlib is available. Raw profile
information is always created as compressed zTXt if Compress::Zlib is
available, or tEXt otherwise. Standard XMP is written as uncompressed iTXt.
Alternate languages are accessed by suffixing the tag name with a '-',
followed by an RFC 3066 language code (eg. "PNG:Comment-fr", or
"Title-en-US"). See L for the RFC 3066
specification.
Some of the tags below are not registered as part of the PNG specification,
but are included here because they are generated by other software such as
ImageMagick.
},
Title => { },
Author => { Groups => { 2 => 'Author' } },
Description => { },
Copyright => { Groups => { 2 => 'Author' } },
'Creation Time' => {
Name => 'CreationTime',
Groups => { 2 => 'Time' },
Shift => 'Time',
Notes => 'stored in RFC-1123 format and converted to/from EXIF format by ExifTool',
RawConv => \&ConvertPNGDate,
ValueConvInv => \&InversePNGDate,
PrintConv => '$self->ConvertDateTime($val)',
PrintConvInv => '$self->InverseDateTime($val,undef,1)',
},
Software => { },
Disclaimer => { },
# change name to differentiate from ExifTool Warning
Warning => { Name => 'PNGWarning', },
Source => { },
Comment => { },
Collection => { }, # (PNG extensions, 2004)
#
# The following tags are not part of the original PNG specification,
# but are written by ImageMagick and other software
#
Artist => { %unreg, Groups => { 2 => 'Author' } },
Document => { %unreg },
Label => { %unreg },
Make => { %unreg, Groups => { 2 => 'Camera' } },
Model => { %unreg, Groups => { 2 => 'Camera' } },
'create-date'=> {
Name => 'CreateDate',
Groups => { 2 => 'Time' },
Shift => 'Time',
%unreg,
ValueConv => 'require Image::ExifTool::XMP; Image::ExifTool::XMP::ConvertXMPDate($val)',
ValueConvInv => 'require Image::ExifTool::XMP; Image::ExifTool::XMP::FormatXMPDate($val)',
PrintConv => '$self->ConvertDateTime($val)',
PrintConvInv => '$self->InverseDateTime($val,undef,1)',
},
'modify-date'=> {
Name => 'ModDate', # (to distinguish from tIME chunk "ModifyDate")
Groups => { 2 => 'Time' },
Shift => 'Time',
%unreg,
ValueConv => 'require Image::ExifTool::XMP; Image::ExifTool::XMP::ConvertXMPDate($val)',
ValueConvInv => 'require Image::ExifTool::XMP; Image::ExifTool::XMP::FormatXMPDate($val)',
PrintConv => '$self->ConvertDateTime($val)',
PrintConvInv => '$self->InverseDateTime($val,undef,1)',
},
TimeStamp => { %unreg, Groups => { 2 => 'Time' }, Shift => 'Time' },
URL => { %unreg },
'XML:com.adobe.xmp' => {
Name => 'XMP',
Notes => q{
unregistered, but this is the location according to the June 2002 or later
XMP specification, and is where ExifTool will add a new XMP chunk if the
image didn't already contain XMP
},
SubDirectory => { TagTable => 'Image::ExifTool::XMP::Main' },
},
'Raw profile type APP1' => [
{
# EXIF table must come first because we key on this in ProcessProfile()
# (No condition because this is just for BuildTagLookup)
Name => 'APP1_Profile',
%unreg,
NonStandard => 'EXIF',
SubDirectory => {
TagTable => 'Image::ExifTool::Exif::Main',
ProcessProc => \&ProcessProfile,
},
},
{
Name => 'APP1_Profile',
NonStandard => 'XMP',
SubDirectory => {
TagTable => 'Image::ExifTool::XMP::Main',
ProcessProc => \&ProcessProfile,
},
},
],
'Raw profile type exif' => {
Name => 'EXIF_Profile',
%unreg,
NonStandard => 'EXIF',
SubDirectory => {
TagTable => 'Image::ExifTool::Exif::Main',
ProcessProc => \&ProcessProfile,
},
},
'Raw profile type icc' => {
Name => 'ICC_Profile',
%unreg,
SubDirectory => {
TagTable => 'Image::ExifTool::ICC_Profile::Main',
ProcessProc => \&ProcessProfile,
},
},
'Raw profile type icm' => {
Name => 'ICC_Profile',
%unreg,
SubDirectory => {
TagTable => 'Image::ExifTool::ICC_Profile::Main',
ProcessProc => \&ProcessProfile,
},
},
'Raw profile type iptc' => {
Name => 'IPTC_Profile',
Notes => q{
unregistered. May be either IPTC IIM or Photoshop IRB format. This is
where ExifTool will add new IPTC, inside a Photoshop IRB container
},
SubDirectory => {
TagTable => 'Image::ExifTool::Photoshop::Main',
ProcessProc => \&ProcessProfile,
},
},
'Raw profile type xmp' => {
Name => 'XMP_Profile',
%unreg,
NonStandard => 'XMP',
SubDirectory => {
TagTable => 'Image::ExifTool::XMP::Main',
ProcessProc => \&ProcessProfile,
},
},
'Raw profile type 8bim' => {
Name => 'Photoshop_Profile',
%unreg,
SubDirectory => {
TagTable => 'Image::ExifTool::Photoshop::Main',
ProcessProc => \&ProcessProfile,
},
},
);
# Animation control
%Image::ExifTool::PNG::AnimationControl = (
PROCESS_PROC => \&Image::ExifTool::ProcessBinaryData,
GROUPS => { 2 => 'Image' },
FORMAT => 'int32u',
NOTES => q{
Tags found in the Animation Conrol chunk. See
L for details.
},
0 => {
Name => 'AnimationFrames',
RawConv => '$self->OverrideFileType("APNG", undef, "PNG"); $val',
},
1 => {
Name => 'AnimationPlays',
PrintConv => '$val || "inf"',
},
);
#------------------------------------------------------------------------------
# AutoLoad our writer routines when necessary
#
sub AUTOLOAD
{
return Image::ExifTool::DoAutoLoad($AUTOLOAD, @_);
}
#------------------------------------------------------------------------------
# Get standard case for language code (this routine copied from XMP.pm)
# Inputs: 0) Language code
# Returns: Language code in standard case
sub StandardLangCase($)
{
my $lang = shift;
# make 2nd subtag uppercase only if it is 2 letters
return lc($1) . uc($2) . lc($3) if $lang =~ /^([a-z]{2,3}|[xi])(-[a-z]{2})\b(.*)/i;
return lc($lang);
}
#------------------------------------------------------------------------------
# Convert date from PNG to EXIF format
# Inputs: 0) Date/time in PNG format, 1) ExifTool ref
# Returns: EXIF formatted date/time string
my %monthNum = (
Jan=>1, Feb=>2, Mar=>3, Apr=>4, May=>5, Jun=>6,
Jul=>7, Aug=>8, Sep=>9, Oct=>10,Nov=>11,Dec=>12
);
my %tzConv = (
UT => '+00:00', GMT => '+00:00', UTC => '+00:00', # (UTC not in spec -- PH addition)
EST => '-05:00', EDT => '-04:00',
CST => '-06:00', CDT => '-05:00',
MST => '-07:00', MDT => '-06:00',
PST => '-08:00', PDT => '-07:00',
A => '-01:00', N => '+01:00',
B => '-02:00', O => '+02:00',
C => '-03:00', P => '+03:00',
D => '-04:00', Q => '+04:00',
E => '-05:00', R => '+05:00',
F => '-06:00', S => '+06:00',
G => '-07:00', T => '+07:00',
H => '-08:00', U => '+08:00',
I => '-09:00', V => '+09:00',
K => '-10:00', W => '+10:00',
L => '-11:00', X => '+11:00',
M => '-12:00', Y => '+12:00',
Z => '+00:00',
);
sub ConvertPNGDate($$)
{
my ($val, $et) = @_;
# standard format is like "Mon, 1 Jan 2018 12:10:22 EST" (RFC-1123 section 5.2.14)
while ($val =~ /(\d+)\s*(Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec)\s*(\d+)\s+(\d+):(\d{2})(:\d{2})?\s*(\S*)/i) {
my ($day,$mon,$yr,$hr,$min,$sec,$tz) = ($1,$2,$3,$4,$5,$6,$7);
$yr += $yr > 70 ? 1900 : 2000 if $yr < 100; # boost year to 4 digits if necessary
$mon = $monthNum{ucfirst lc $mon} or return $val;
if (not $tz) {
$tz = '';
} elsif ($tzConv{uc $tz}) {
$tz = $tzConv{uc $tz};
} elsif ($tz =~ /^([-+]\d+):?(\d{2})/) {
$tz = $1 . ':' . $2;
} else {
last; # (non-standard date)
}
return sprintf("%.4d:%.2d:%.2d %.2d:%.2d%s%s",$yr,$mon,$day,$hr,$min,$sec||':00',$tz);
}
if (($et->Options('StrictDate') and not $$et{TAGS_FROM_FILE}) or $et->Options('Validate')) {
$et->Warn('Non standard PNG date/time format', 1);
}
return $val;
}
#------------------------------------------------------------------------------
# Convert EXIF date/time to PNG format
# Inputs: 0) Date/time in EXIF format, 1) ExifTool ref
# Returns: PNG formatted date/time string
sub InversePNGDate($$)
{
my ($val, $et) = @_;
if ($et->Options('StrictDate')) {
my $err;
if ($val =~ /^(\d{4}):(\d{2}):(\d{2}) (\d{2})(:\d{2})(:\d{2})?(?:\.\d*)?\s*(\S*)/) {
my ($yr,$mon,$day,$hr,$min,$sec,$tz) = ($1,$2,$3,$4,$5,$6,$7);
$sec or $sec = '';
my %monName = map { $monthNum{$_} => $_ } keys %monthNum;
$mon = $monName{$mon + 0} or $err = 1;
if (length $tz) {
$tz =~ /^(Z|[-+]\d{2}:?\d{2})/ or $err = 1;
$tz =~ tr/://d;
$tz = ' ' . $tz;
}
$val = "$day $mon $yr $hr$min$sec$tz" unless $err;
}
if ($err) {
warn "Invalid date/time (use YYYY:mm:dd HH:MM:SS[.ss][+/-HH:MM|Z])\n";
undef $val;
}
}
return $val;
}
#------------------------------------------------------------------------------
# Get localized version of tagInfo hash
# Inputs: 0) tagInfo hash ref, 1) language code (eg. "x-default")
# Returns: new tagInfo hash ref, or undef if invalid
sub GetLangInfo($$)
{
my ($tagInfo, $lang) = @_;
$lang =~ tr/_/-/; # RFC 3066 specifies '-' as a separator
# no alternate languages for XMP or raw profile directories
return undef if $$tagInfo{SubDirectory};
# language code must normalized for use in tag ID
return Image::ExifTool::GetLangInfo($tagInfo, StandardLangCase($lang));
}
#------------------------------------------------------------------------------
# Found a PNG tag -- extract info from subdirectory or decompress data if necessary
# Inputs: 0) ExifTool object reference, 1) Pointer to tag table,
# 2) Tag ID, 3) Tag value, 4) [optional] compressed data flag:
# 0=not compressed, 1=unknown compression, 2-N=compression with type N-2
# 5) optional output buffer ref, 6) character encoding (tEXt/zTXt/iTXt only)
# 6) optional language code
# Returns: 1 on success
sub FoundPNG($$$$;$$$$)
{
my ($et, $tagTablePtr, $tag, $val, $compressed, $outBuff, $enc, $lang) = @_;
return 0 unless defined $val;
my $verbose = $et->Options('Verbose');
my $id = $tag; # generate tag ID which includes language code
if ($lang) {
# case of language code must be normalized since they are case insensitive
$lang = StandardLangCase($lang);
$id .= '-' . $lang;
}
my $tagInfo = $et->GetTagInfo($tagTablePtr, $id) ||
# (some software forgets to capitalize first letter)
$et->GetTagInfo($tagTablePtr, ucfirst($id));
# create alternate language tag if necessary
if (not $tagInfo and $lang) {
$tagInfo = $et->GetTagInfo($tagTablePtr, $tag) ||
$et->GetTagInfo($tagTablePtr, ucfirst($tag));
$tagInfo = GetLangInfo($tagInfo, $lang) if $tagInfo;
}
#
# uncompress data if necessary
#
my ($wasCompressed, $deflateErr);
if ($compressed and $compressed > 1) {
if ($compressed == 2) { # Inflate/Deflate compression
if (eval { require Compress::Zlib }) {
my ($v2, $stat);
my $inflate = Compress::Zlib::inflateInit();
$inflate and ($v2, $stat) = $inflate->inflate($val);
if ($inflate and $stat == Compress::Zlib::Z_STREAM_END()) {
$val = $v2;
$compressed = 0;
$wasCompressed = 1;
} else {
$deflateErr = "Error inflating $tag";
}
} elsif (not $noCompressLib) {
$deflateErr = "Install Compress::Zlib to read compressed information";
} else {
$deflateErr = ''; # flag deflate error but no warning
}
} else {
$compressed -= 2;
$deflateErr = "Unknown compression method $compressed for $tag";
}
if ($compressed and $verbose and $tagInfo and $$tagInfo{SubDirectory}) {
$et->VerboseDir("Unable to decompress $$tagInfo{Name}", 0, length($val));
}
# issue warning if relevant
if ($deflateErr and not $outBuff) {
$et->Warn($deflateErr);
$noCompressLib = 1 if $deflateErr =~ /^Install/;
}
}
# translate character encoding if necessary (tEXt/zTXt/iTXt string values only)
if ($enc and not $compressed and not ($tagInfo and $$tagInfo{SubDirectory})) {
$val = $et->Decode($val, $enc);
}
#
# extract information from subdirectory if available
#
if ($tagInfo) {
my $tagName = $$tagInfo{Name};
my $processed;
if ($$tagInfo{SubDirectory}) {
if ($$et{OPTIONS}{Validate} and $$tagInfo{NonStandard}) {
$et->WarnOnce("Non-standard $$tagInfo{NonStandard} in PNG $tag chunk", 1);
}
my $subdir = $$tagInfo{SubDirectory};
my $dirName = $$subdir{DirName} || $tagName;
if (not $compressed) {
my $len = length $val;
if ($verbose and $$et{INDENT} ne ' ') {
if ($wasCompressed and $verbose > 2) {
my $name = $tagName;
$wasCompressed and $name = "Decompressed $name";
$et->VerboseDir($name, 0, $len);
$et->VerboseDump(\$val);
}
# don't indent next directory (since it is really the same data)
$$et{INDENT} =~ s/..$//;
}
my $processProc = $$subdir{ProcessProc};
# nothing more to do if writing and subdirectory is not writable
my $subTable = GetTagTable($$subdir{TagTable});
return 1 if $outBuff and not $$subTable{WRITE_PROC};
my $dirName = $$subdir{DirName} || $tagName;
my %subdirInfo = (
DataPt => \$val,
DirStart => 0,
DataLen => $len,
DirLen => $len,
DirName => $dirName,
TagInfo => $tagInfo,
ReadOnly => 1, # (used only by WriteXMP)
OutBuff => $outBuff,
);
# no need to re-decompress if already done
undef $processProc if $wasCompressed and $processProc and $processProc eq \&ProcessPNG_Compressed;
# rewrite this directory if necessary (but always process TextualData normally)
if ($outBuff and not $processProc and $subTable ne \%Image::ExifTool::PNG::TextualData) {
return 1 unless $$et{EDIT_DIRS}{$dirName};
$$outBuff = $et->WriteDirectory(\%subdirInfo, $subTable);
if ($tagName eq 'XMP' and $$outBuff) {
# make sure the XMP is marked as read-only
Image::ExifTool::XMP::ValidateXMP($outBuff,'r');
}
DoneDir($et, $dirName, $outBuff, $$tagInfo{NonStandard});
} else {
$processed = $et->ProcessDirectory(\%subdirInfo, $subTable, $processProc);
}
$compressed = 1; # pretend this is compressed since it is binary data
} elsif ($outBuff) {
if ($$et{DEL_GROUP}{$dirName} or ($dirName eq 'EXIF' and $$et{DEL_GROUP}{IFD0})) {
$$outBuff = '';
++$$et{CHANGED};
$et->VPrint(0, " Deleting $tag chunk");
} else {
if ($$et{EDIT_DIRS}{$dirName} or ($dirName eq 'EXIF' and $$et{EDIT_DIRS}{IFD0})) {
$et->Warn("Can't write $dirName. Requires Compress::Zlib");
}
# pretend we did this directory so we don't try to recreate it
DoneDir($et, $dirName, $outBuff, $$tagInfo{NonStandard});
}
}
}
if ($outBuff) {
my $writable = $$tagInfo{Writable};
my $isOverwriting;
if ($writable or ($$tagTablePtr{WRITABLE} and
not defined $writable and not $$tagInfo{SubDirectory}))
{
# write new value for this tag if necessary
my $newVal;
if ($$et{DEL_GROUP}{PNG}){
# remove this tag now, but keep in ADD_PNG list to add back later
$isOverwriting = 1;
} else {
# remove this from the list of PNG tags to add
delete $$et{ADD_PNG}{$id};
# (also handle case of tEXt tags written with lowercase first letter)
delete $$et{ADD_PNG}{ucfirst($id)};
my $nvHash = $et->GetNewValueHash($tagInfo);
$isOverwriting = $et->IsOverwriting($nvHash);
if (defined $deflateErr) {
$newVal = $et->GetNewValue($nvHash);
# can only write tag now if always overwriting
if ($isOverwriting > 0) {
$val = '';
} elsif ($isOverwriting) {
$isOverwriting = 0; # can't overwrite
$et->Warn($deflateErr) if $deflateErr;
}
} else {
if ($isOverwriting < 0) {
$isOverwriting = $et->IsOverwriting($nvHash, $val);
}
# (must get new value after IsOverwriting() in case it was shifted)
$newVal = $et->GetNewValue($nvHash);
}
}
if ($isOverwriting) {
$$outBuff = (defined $newVal) ? $newVal : '';
++$$et{CHANGED};
$et->VerboseValue("- PNG:$tagName", $val);
$et->VerboseValue("+ PNG:$tagName", $newVal) if defined $newVal;
}
}
if (defined $$outBuff and length $$outBuff) {
if ($enc) { # must be tEXt/zTXt/iTXt if $enc is set
$$outBuff = BuildTextChunk($et, $tag, $tagInfo, $$outBuff, $lang);
} elsif ($wasCompressed) {
# re-compress the output data
my $len = length $$outBuff;
my $deflate = Compress::Zlib::deflateInit();
if ($deflate) {
$$outBuff = $deflate->deflate($$outBuff);
$$outBuff .= $deflate->flush() if defined $$outBuff;
} else {
undef $$outBuff;
}
if (not $$outBuff) {
$et->Warn("PNG:$tagName not written (compress error)");
} elsif (lc $tag eq 'zxif') {
$$outBuff = "\0" . pack('N',$len) . $$outBuff; # add zXIf header
}
}
}
return 1;
}
return 1 if $processed;
} elsif ($outBuff) {
if ($$et{DEL_GROUP}{PNG} and $tagTablePtr eq \%Image::ExifTool::PNG::TextualData) {
# delete all TextualData tags if deleting the PNG group
$$outBuff = '';
++$$et{CHANGED};
$et->VerboseValue("- PNG:$tag", $val);
}
return 1;
} else {
my $name;
($name = $tag) =~ s/\s+(.)/\u$1/g; # remove white space from tag name
$tagInfo = { Name => $name };
$$tagInfo{LangCode} = $lang if $lang;
# make unknown profiles binary data type
$$tagInfo{Binary} = 1 if $tag =~ /^Raw profile type /;
$verbose and $et->VPrint(0, " | [adding $tag]\n");
AddTagToTable($tagTablePtr, $tag, $tagInfo);
}
#
# store this tag information
#
if ($verbose) {
# temporarily remove subdirectory so it isn't printed in verbose information
# since we aren't decoding it anyway;
my $subdir = $$tagInfo{SubDirectory};
delete $$tagInfo{SubDirectory};
$et->VerboseInfo($tag, $tagInfo,
Table => $tagTablePtr,
DataPt => \$val,
);
$$tagInfo{SubDirectory} = $subdir if $subdir;
}
# set the RawConv dynamically depending on whether this is binary or not
my $delRawConv;
if ($compressed and not defined $$tagInfo{ValueConv}) {
$$tagInfo{RawConv} = '\$val';
$delRawConv = 1;
}
$et->FoundTag($tagInfo, $val);
delete $$tagInfo{RawConv} if $delRawConv;
return 1;
}
#------------------------------------------------------------------------------
# Process encoded PNG profile information
# Inputs: 0) ExifTool object reference, 1) DirInfo reference, 2) Pointer to tag table
# Returns: 1 on success
sub ProcessProfile($$$)
{
my ($et, $dirInfo, $tagTablePtr) = @_;
my $dataPt = $$dirInfo{DataPt};
my $tagInfo = $$dirInfo{TagInfo};
my $outBuff = $$dirInfo{OutBuff};
my $tagName = $$tagInfo{Name};
# ImageMagick 5.3.6 writes profiles with the following headers:
# "\nICC Profile\n", "\nIPTC profile\n", "\n\xaa\x01{generic prof\n"
# and "\ngeneric profile\n"
return 0 unless $$dataPt =~ /^\n(.*?)\n\s*(\d+)\n(.*)/s;
my ($profileType, $len) = ($1, $2);
# data is encoded in hex, so change back to binary
my $buff = pack('H*', join('',split(' ',$3)));
my $actualLen = length $buff;
if ($len ne $actualLen) {
$et->Warn("$tagName is wrong size (should be $len bytes but is $actualLen)");
$len = $actualLen;
}
my $verbose = $et->Options('Verbose');
if ($verbose) {
if ($verbose > 2) {
$et->VerboseDir("Decoded $tagName", 0, $len);
$et->VerboseDump(\$buff);
}
# don't indent next directory (since it is really the same data)
$$et{INDENT} =~ s/..$//;
}
my %dirInfo = (
Parent => 'PNG',
DataPt => \$buff,
DataLen => $len,
DirStart => 0,
DirLen => $len,
Base => 0,
OutFile => $outBuff,
);
$$et{PROCESSED} = { }; # reset processed directory offsets
my $processed = 0;
my $oldChanged = $$et{CHANGED};
my $exifTable = GetTagTable('Image::ExifTool::Exif::Main');
my $editDirs = $$et{EDIT_DIRS};
if ($tagTablePtr ne $exifTable) {
# this is unfortunate, but the "IPTC" profile may be stored as either
# IPTC IIM or a Photoshop IRB resource, so we must test for this
if ($tagName eq 'IPTC_Profile' and $buff =~ /^\x1c/) {
$tagTablePtr = GetTagTable('Image::ExifTool::IPTC::Main');
}
# process non-EXIF and non-APP1 profile as-is
if ($outBuff) {
# no need to rewrite this if not editing tags in this directory
my $dir = $tagName;
$dir =~ s/_Profile// unless $dir =~ /^ICC/;
return 1 unless $$editDirs{$dir};
$$outBuff = $et->WriteDirectory(\%dirInfo, $tagTablePtr);
DoneDir($et, $dir, $outBuff, $$tagInfo{NonStandard});
} else {
$processed = $et->ProcessDirectory(\%dirInfo, $tagTablePtr);
}
} elsif ($buff =~ /^$Image::ExifTool::exifAPP1hdr/) {
# APP1 EXIF information
return 1 if $outBuff and not $$editDirs{IFD0};
my $hdrLen = length($Image::ExifTool::exifAPP1hdr);
$dirInfo{DirStart} += $hdrLen;
$dirInfo{DirLen} -= $hdrLen;
if ($outBuff) {
# delete non-standard EXIF if recreating from scratch
if ($$et{DEL_GROUP}{EXIF} or $$et{DEL_GROUP}{IFD0}) {
$$outBuff = '';
$et->VPrint(0, ' Deleting non-standard APP1 EXIF information');
return 1;
}
$$outBuff = $et->WriteDirectory(\%dirInfo, $tagTablePtr,
\&Image::ExifTool::WriteTIFF);
$$outBuff = $Image::ExifTool::exifAPP1hdr . $$outBuff if $$outBuff;
DoneDir($et, 'IFD0', $outBuff, $$tagInfo{NonStandard});
} else {
$processed = $et->ProcessTIFF(\%dirInfo);
}
} elsif ($buff =~ /^$Image::ExifTool::xmpAPP1hdr/) {
# APP1 XMP information
my $hdrLen = length($Image::ExifTool::xmpAPP1hdr);
my $tagTablePtr = GetTagTable('Image::ExifTool::XMP::Main');
$dirInfo{DirStart} += $hdrLen;
$dirInfo{DirLen} -= $hdrLen;
if ($outBuff) {
return 1 unless $$editDirs{XMP};
$$outBuff = $et->WriteDirectory(\%dirInfo, $tagTablePtr);
$$outBuff and $$outBuff = $Image::ExifTool::xmpAPP1hdr . $$outBuff;
DoneDir($et, 'XMP', $outBuff, $$tagInfo{NonStandard});
} else {
$processed = $et->ProcessDirectory(\%dirInfo, $tagTablePtr);
}
} elsif ($buff =~ /^(MM\0\x2a|II\x2a\0)/) {
# TIFF information
return 1 if $outBuff and not $$editDirs{IFD0};
if ($outBuff) {
# delete non-standard EXIF if recreating from scratch
if ($$et{DEL_GROUP}{EXIF} or $$et{DEL_GROUP}{IFD0}) {
$$outBuff = '';
$et->VPrint(0, ' Deleting non-standard EXIF/TIFF information');
return 1;
}
$$outBuff = $et->WriteDirectory(\%dirInfo, $tagTablePtr,
\&Image::ExifTool::WriteTIFF);
DoneDir($et, 'IFD0', $outBuff, $$tagInfo{NonStandard});
} else {
$processed = $et->ProcessTIFF(\%dirInfo);
}
} else {
my $profName = $profileType;
$profName =~ tr/\x00-\x1f\x7f-\xff/./;
$et->Warn("Unknown raw profile '${profName}'");
}
if ($outBuff and defined $$outBuff and length $$outBuff) {
if ($$et{CHANGED} != $oldChanged) {
my $hdr = sprintf("\n%s\n%8d\n", $profileType, length($$outBuff));
# hex encode the data
$$outBuff = $hdr . HexEncode($outBuff);
} else {
undef $$outBuff;
}
}
return $processed;
}
#------------------------------------------------------------------------------
# Process PNG compressed zTXt or iCCP chunk
# Inputs: 0) ExifTool object reference, 1) DirInfo reference, 2) Pointer to tag table
# Returns: 1 on success
# Notes: writes new chunk data to ${$$dirInfo{OutBuff}} if writing tag
sub ProcessPNG_Compressed($$$)
{
my ($et, $dirInfo, $tagTablePtr) = @_;
my ($tag, $val) = split /\0/, ${$$dirInfo{DataPt}}, 2;
return 0 unless defined $val;
# set compressed to 2 + compression method to decompress the data
my $compressed = 2 + unpack('C', $val);
my $hdr = $tag . "\0" . substr($val, 0, 1);
$val = substr($val, 1); # remove compression method byte
my $success;
my $outBuff = $$dirInfo{OutBuff};
my $tagInfo = $$dirInfo{TagInfo};
# use the PNG chunk tag instead of the embedded tag name for iCCP chunks
if ($tagInfo and $$tagInfo{Name} eq 'ICC_Profile') {
$et->VerboseDir('iCCP');
$tagTablePtr = \%Image::ExifTool::PNG::Main;
if (length($tag) and not $outBuff) {
FoundPNG($et, $tagTablePtr, 'iCCP-name', $tag);
}
$success = FoundPNG($et, $tagTablePtr, 'iCCP', $val, $compressed, $outBuff);
$$outBuff = $hdr . $$outBuff if $outBuff and $$outBuff;
} else {
$success = FoundPNG($et, $tagTablePtr, $tag, $val, $compressed, $outBuff, 'Latin');
}
return $success;
}
#------------------------------------------------------------------------------
# Process PNG tEXt chunk
# Inputs: 0) ExifTool object reference, 1) DirInfo reference, 2) Pointer to tag table
# Returns: 1 on success
# Notes: writes new chunk data to ${$$dirInfo{OutBuff}} if writing tag
sub ProcessPNG_tEXt($$$)
{
my ($et, $dirInfo, $tagTablePtr) = @_;
my ($tag, $val) = split /\0/, ${$$dirInfo{DataPt}}, 2;
my $outBuff = $$dirInfo{OutBuff};
$$et{INDENT} = substr($$et{INDENT}, 0, -2) if $$et{OPTIONS}{Verbose};
return FoundPNG($et, $tagTablePtr, $tag, $val, undef, $outBuff, 'Latin');
}
#------------------------------------------------------------------------------
# Process PNG iTXt chunk
# Inputs: 0) ExifTool object reference, 1) DirInfo reference, 2) Pointer to tag table
# Returns: 1 on success
# Notes: writes new chunk data to ${$$dirInfo{OutBuff}} if writing tag
sub ProcessPNG_iTXt($$$)
{
my ($et, $dirInfo, $tagTablePtr) = @_;
my ($tag, $dat) = split /\0/, ${$$dirInfo{DataPt}}, 2;
return 0 unless defined $dat and length($dat) >= 4;
my ($compressed, $meth) = unpack('CC', $dat);
my ($lang, $trans, $val) = split /\0/, substr($dat, 2), 3;
# set compressed flag so we will decompress it in FoundPNG()
$compressed and $compressed = 2 + $meth;
my $outBuff = $$dirInfo{OutBuff};
$$et{INDENT} = substr($$et{INDENT}, 0, -2) if $$et{OPTIONS}{Verbose};
return FoundPNG($et, $tagTablePtr, $tag, $val, $compressed, $outBuff, 'UTF8', $lang);
}
#------------------------------------------------------------------------------
# Process PNG eXIf/zXIf chunk
# Inputs: 0) ExifTool object reference, 1) DirInfo reference, 2) Pointer to tag table
# Returns: 1 on success
# Notes: writes new chunk data to ${$$dirInfo{OutBuff}} if writing tag
sub ProcessPNG_eXIf($$$)
{
my ($et, $dirInfo, $tagTablePtr) = @_;
my $outBuff = $$dirInfo{OutBuff};
my $dataPt = $$dirInfo{DataPt};
my $tagInfo = $$dirInfo{TagInfo};
my $tag = $$tagInfo{TagID};
my $del = $outBuff && ($$et{DEL_GROUP}{EXIF} or $$et{DEL_GROUP}{IFD0});
my $type;
if ($$dataPt =~ /^Exif\0\0/) {
$et->Warn('Improper "Exif00" header in EXIF chunk');
$$dataPt = substr($$dataPt, 6);
$$dirInfo{DataLen} = length $$dataPt;
$$dirInfo{DirLen} -= 6 if $$dirInfo{DirLen};
}
if ($$dataPt =~ /^(\0|II|MM)/) {
$type = $1;
} elsif ($del) {
$et->VPrint(0, " Deleting invalid $tag chunk");
$$outBuff = '';
++$$et{CHANGED};
return 1;
} else {
$et->Warn("Invalid $tag chunk");
return 0;
}
if ($type eq "\0") { # is this compressed EXIF?
my $buf = substr($$dataPt, 5);
# go around again to uncompress the data
$tagTablePtr = GetTagTable('Image::ExifTool::PNG::Main');
return FoundPNG($et, $tagTablePtr, $$tagInfo{TagID}, \$buf, 2, $outBuff);
} elsif (not $outBuff) {
return $et->ProcessTIFF($dirInfo);
# (zxIf was not adopted)
#} elsif ($del and ($et->Options('Compress') xor lc($tag) eq 'zxif')) {
} elsif ($del and lc($tag) eq 'zxif') {
$et->VPrint(0, " Deleting $tag chunk");
$$outBuff = '';
++$$et{CHANGED};
} elsif ($$et{EDIT_DIRS}{IFD0}) {
$$outBuff = $et->WriteDirectory($dirInfo, $tagTablePtr,
\&Image::ExifTool::WriteTIFF);
DoneDir($et, 'IFD0', $outBuff, $$tagInfo{NonStandard});
}
return 1;
}
#------------------------------------------------------------------------------
# Extract meta information from a PNG image
# Inputs: 0) ExifTool object reference, 1) dirInfo reference
# Returns: 1 on success, 0 if this wasn't a valid PNG image, or -1 on write error
sub ProcessPNG($$)
{
my ($et, $dirInfo) = @_;
my $outfile = $$dirInfo{OutFile};
my $raf = $$dirInfo{RAF};
my $datChunk = '';
my $datCount = 0;
my $datBytes = 0;
my ($n, $sig, $err, $hbuf, $dbuf, $cbuf, $fastScan);
my ($wasHdr, $wasEnd, $wasDat, $doTxt, @txtOffset);
# check to be sure this is a valid PNG/MNG/JNG image
return 0 unless $raf->Read($sig,8) == 8 and $pngLookup{$sig};
if ($outfile) {
delete $$et{TextChunkType};
Write($outfile, $sig) or $err = 1 if $outfile;
# can only add tags in Main and TextualData tables
$$et{ADD_PNG} = $et->GetNewTagInfoHash(
\%Image::ExifTool::PNG::Main,
\%Image::ExifTool::PNG::TextualData);
# initialize with same directories, with PNG tags taking priority
$et->InitWriteDirs(\%pngMap,'PNG');
} else {
$fastScan = $et->Options('FastScan');
# disable buffering in FastScan mode
$$raf{NoBuffer} = 1 if $fastScan;
}
my ($fileType, $hdrChunk, $endChunk) = @{$pngLookup{$sig}};
$et->SetFileType($fileType); # set the FileType tag
SetByteOrder('MM'); # PNG files are big-endian
my $tagTablePtr = GetTagTable('Image::ExifTool::PNG::Main');
my $mngTablePtr;
if ($fileType ne 'PNG') {
$mngTablePtr = GetTagTable('Image::ExifTool::MNG::Main');
}
my $verbose = $et->Options('Verbose');
my $validate = $et->Options('Validate');
my $out = $et->Options('TextOut');
# scan ahead to find offsets of all text chunks after IDAT
if ($outfile) {
while ($raf->Read($hbuf,8) == 8) {
my ($len, $chunk) = unpack('Na4',$hbuf);
last if $len > 0x7fffffff;
if ($wasDat) {
last if $noLeapFrog{$chunk}; # (don't move text across these chunks)
push @txtOffset, $raf->Tell() - 8 if $isTxtChunk{$chunk};
} elsif ($isDatChunk{$chunk}) {
$wasDat = $chunk;
}
$raf->Seek($len + 4, 1) or last; # skip chunk data
}
$raf->Seek(8,0) or $et->Error('Error seeking in file'), return -1;
undef $wasDat;
}
# process the PNG/MNG/JNG chunks
undef $noCompressLib;
for (;;) {
if ($doTxt) {
# read text chunks that were found after IDAT so we can write them before
$raf->Seek(shift(@txtOffset), 0) or $et->Error('Seek error'), last;
# (this is the IDAT offset if @txtOffset is now empty)
undef $doTxt unless @txtOffset;
}
$n = $raf->Read($hbuf,8); # read chunk header
if ($wasEnd) {
last unless $n; # stop now if normal end of PNG
$et->WarnOnce("Trailer data after $fileType $endChunk chunk", 1);
last if $n < 8;
$$et{SET_GROUP1} = 'Trailer';
} elsif ($n != 8) {
$et->Warn("Truncated $fileType image") unless $wasEnd;
last;
}
my ($len, $chunk) = unpack('Na4',$hbuf);
if ($len > 0x7fffffff) {
$et->Warn("Invalid $fileType chunk size") unless $wasEnd;
last;
}
if ($verbose) {
print $out " Moving $chunk from after IDAT ($len bytes)\n" if $doTxt;
# don't dump image data chunks in verbose mode (only give count instead)
if ($datCount and $chunk ne $datChunk) {
my $s = $datCount > 1 ? 's' : '';
print $out "$fileType $datChunk ($datCount chunk$s, total $datBytes bytes)\n";
$datCount = $datBytes = 0;
}
}
unless ($wasHdr) {
if ($chunk eq $hdrChunk) {
$wasHdr = 1;
} elsif ($hdrChunk eq 'IHDR' and $chunk eq 'CgBI') {
$et->Warn('Non-standard PNG image (Apple iPhone format)');
} else {
$et->Warn("$fileType image did not start with $hdrChunk");
last;
}
}
if ($outfile and ($isDatChunk{$chunk} or $chunk eq $endChunk) and @txtOffset) {
# continue processing here after we move the text chunks from after IDAT
push @txtOffset, $raf->Tell() - 8;
$doTxt = 1; # process text chunks now
next;
}
if ($isDatChunk{$chunk}) {
if ($fastScan and $fastScan >= 2) {
$et->VPrint(0,"End processing at $chunk chunk due to FastScan=$fastScan setting");
last;
}
$datChunk = $chunk;
$datCount++;
$datBytes += $len;
$wasDat = $chunk;
} else {
$datChunk = '';
}
if ($outfile) {
# add text chunks (including XMP) before any data chunk end chunk
if ($datChunk or $chunk eq $endChunk) {
# write iCCP chunk now if requested because AddChunks will try
# to add it as a text profile chunk if this isn't successful
# (ie. if Compress::Zlib wasn't available)
Add_iCCP($et, $outfile);
AddChunks($et, $outfile) or $err = 1; # all all text chunks
# add EXIF before end chunk if not found already
AddChunks($et, $outfile, 'IFD0') if $chunk eq $endChunk;
} elsif ($chunk eq 'PLTE') {
# iCCP chunk must come before PLTE (and IDAT, handled above)
# (ignore errors -- will add later as text profile if this fails)
Add_iCCP($et, $outfile);
}
}
if ($chunk eq $endChunk) {
# read CRC
unless ($raf->Read($cbuf,4) == 4) {
$et->Warn("Truncated $fileType $endChunk chunk") unless $wasEnd;
last;
}
$verbose and print $out "$fileType $chunk (end of image)\n";
$wasEnd = 1;
if ($outfile) {
# write the IEND/MEND chunk with CRC
Write($outfile, $hbuf, $cbuf) or $err = 1;
if ($$et{DEL_GROUP}{Trailer}) {
if ($raf->Read($hbuf, 1)) {
$verbose and printf $out " Deleting PNG trailer\n";
++$$et{CHANGED};
}
} else {
# copy over any existing trailer data
my $tot = 0;
for (;;) {
$n = $raf->Read($hbuf, 65536) or last;
$tot += $n;
Write($outfile, $hbuf) or $err = 1;
}
$tot and $verbose and printf $out " Copying PNG trailer ($tot bytes)\n";
}
last;
}
next;
}
if ($datChunk) {
# skip over data chunks if possible
unless ($verbose or $validate or $outfile) {
$raf->Seek($len + 4, 1) or $et->Warn('Seek error'), last;
next;
}
} elsif ($wasDat and $isTxtChunk{$chunk}) {
my $msg;
if (not $outfile) {
$msg = 'may be ignored by some readers';
} elsif (defined $doTxt) { # $doTxt == 0 if we crossed a noLeapFrog chunk
$msg = "can't be moved"; # (but could be deleted then added back again)
} else {
$msg = 'fixed';
}
$et->WarnOnce("Text chunk(s) found after $$et{FileType} $wasDat ($msg)", 1);
}
# read chunk data and CRC
unless ($raf->Read($dbuf,$len)==$len and $raf->Read($cbuf, 4)==4) {
$et->Warn("Corrupted $fileType image") unless $wasEnd;
last;
}
if ($verbose or $validate or $outfile) {
# check CRC when in verbose mode (since we don't care about speed)
my $crc = CalculateCRC(\$hbuf, undef, 4);
$crc = CalculateCRC(\$dbuf, $crc);
unless ($crc == unpack('N',$cbuf)) {
my $msg = "Bad CRC for $chunk chunk";
$outfile ? $et->Error($msg, 1) : $et->Warn($msg);
}
if ($datChunk) {
Write($outfile, $hbuf, $dbuf, $cbuf) or $err = 1 if $outfile;
next;
}
# just skip over any text chunk found after IDAT
if ($outfile and $wasDat) {
if ($isTxtChunk{$chunk} and not defined $doTxt) {
++$$et{CHANGED} if $$et{FORCE_WRITE}{PNG};
print $out " Deleting $chunk that was moved ($len bytes)\n" if $verbose;
next;
}
# done moving text if we hit one of these chunks
$doTxt = 0 if $noLeapFrog{$chunk};
}
if ($verbose) {
print $out "$fileType $chunk ($len bytes):\n";
$et->VerboseDump(\$dbuf, Addr => $raf->Tell() - $len - 4) if $verbose > 2;
}
}
# translate case of chunk names that have changed since the first implementation
if (not $$tagTablePtr{$chunk} and $stdCase{lc $chunk}) {
my $stdChunk = $stdCase{lc $chunk};
if ($outfile and ($$et{EDIT_DIRS}{IFD0} or $stdChunk !~ /^[ez]xif$/i)) {
$et->Warn("Changed $chunk chunk to $stdChunk", 1);
++$$et{CHANGED};
} else {
$et->Warn("$chunk chunk should be $stdChunk", 1);
}
$chunk = $stdCase{lc $chunk};
}
# only extract information from chunks in our tables
my ($theBuff, $outBuff);
$outBuff = \$theBuff if $outfile;
if ($$tagTablePtr{$chunk}) {
FoundPNG($et, $tagTablePtr, $chunk, $dbuf, undef, $outBuff);
} elsif ($mngTablePtr and $$mngTablePtr{$chunk}) {
FoundPNG($et, $mngTablePtr, $chunk, $dbuf, undef, $outBuff);
}
if ($outfile) {
if (defined $theBuff) {
next unless length $theBuff; # empty if we deleted the information
# change chunk type if necessary
if ($$et{TextChunkType}) {
$chunk = $$et{TextChunkType};
delete $$et{TextChunkType};
}
$hbuf = pack('Na4', length($theBuff), $chunk);
$dbuf = $theBuff;
my $crc = CalculateCRC(\$hbuf, undef, 4);
$crc = CalculateCRC(\$dbuf, $crc);
$cbuf = pack('N', $crc);
}
Write($outfile, $hbuf, $dbuf, $cbuf) or $err = 1;
}
}
delete $$et{SET_GROUP1};
return -1 if $outfile and ($err or not $wasEnd);
return 1; # this was a valid PNG/MNG/JNG image
}
1; # end
__END__
=head1 NAME
Image::ExifTool::PNG - Read and write PNG meta information
=head1 SYNOPSIS
This module is used by Image::ExifTool
=head1 DESCRIPTION
This module contains routines required by Image::ExifTool to read and
write PNG (Portable Network Graphics), MNG (Multi-image Network Graphics)
and JNG (JPEG Network Graphics) images.
=head1 AUTHOR
Copyright 2003-2019, Phil Harvey (phil at owl.phy.queensu.ca)
This library is free software; you can redistribute it and/or modify it
under the same terms as Perl itself.
=head1 REFERENCES
=over 4
=item L
=item L
=item L
=item L
=back
=head1 SEE ALSO
L,
L,
L
=cut