#!/usr/bin/python3
# -*- coding: utf-8 -*-
# *****************************************************************************
# $Id: validate_cloud_optimized_geotiff.py 9f44fccde2c360af26a9bc9c354c0d673c0dcc77 2018-04-17 17:57:11 +1000 Ben Elliston $
#
# Project: GDAL
# Purpose: Validate Cloud Optimized GeoTIFF file structure
# Author: Even Rouault, <even dot rouault at spatialys dot com>
#
# *****************************************************************************
# Copyright (c) 2017, Even Rouault
#
# Permission is hereby granted, free of charge, to any person obtaining a
# copy of this software and associated documentation files (the "Software"),
# to deal in the Software without restriction, including without limitation
# the rights to use, copy, modify, merge, publish, distribute, sublicense,
# and/or sell copies of the Software, and to permit persons to whom the
# Software is furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included
# in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
# OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
# THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
# FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
# DEALINGS IN THE SOFTWARE.
# *****************************************************************************
import sys
from osgeo import gdal
def Usage():
print('Usage: validate_cloud_optimized_geotiff.py [-q] test.tif')
print('')
return 1
class ValidateCloudOptimizedGeoTIFFException(Exception):
pass
def validate(ds, check_tiled=True):
"""Check if a file is a (Geo)TIFF with cloud optimized compatible structure.
Args:
ds: GDAL Dataset for the file to inspect.
check_tiled: Set to False to ignore missing tiling.
Returns:
A tuple, whose first element is an array of error messages
(empty if there is no error), and the second element, a dictionary
with the structure of the GeoTIFF file.
Raises:
ValidateCloudOptimizedGeoTIFFException: Unable to open the file or the
file is not a Tiff.
"""
if int(gdal.VersionInfo('VERSION_NUM')) < 2020000:
raise ValidateCloudOptimizedGeoTIFFException(
'GDAL 2.2 or above required')
unicode_type = type(''.encode('utf-8').decode('utf-8'))
if isinstance(ds, str) or isinstance(ds, unicode_type):
gdal.PushErrorHandler()
ds = gdal.Open(ds)
gdal.PopErrorHandler()
if ds is None:
raise ValidateCloudOptimizedGeoTIFFException(
'Invalid file : %s' % gdal.GetLastErrorMsg())
if ds.GetDriver().ShortName != 'GTiff':
raise ValidateCloudOptimizedGeoTIFFException(
'The file is not a GeoTIFF')
details = {}
errors = []
filename = ds.GetDescription()
main_band = ds.GetRasterBand(1)
ovr_count = main_band.GetOverviewCount()
filelist = ds.GetFileList()
if filelist is not None and filename + '.ovr' in filelist:
errors += [
'Overviews found in external .ovr file. They should be internal']
if main_band.XSize >= 512 or main_band.YSize >= 512:
if check_tiled:
block_size = main_band.GetBlockSize()
if block_size[0] == main_band.XSize and block_size[0] > 1024:
errors += [
'The file is greater than 512xH or Wx512, but is not tiled']
if ovr_count == 0:
errors += [
'The file is greater than 512xH or Wx512, but has no overviews']
ifd_offset = int(main_band.GetMetadataItem('IFD_OFFSET', 'TIFF'))
ifd_offsets = [ifd_offset]
if ifd_offset not in (8, 16):
errors += [
'The offset of the main IFD should be 8 for ClassicTIFF '
'or 16 for BigTIFF. It is %d instead' % ifd_offsets[0]]
details['ifd_offsets'] = {}
details['ifd_offsets']['main'] = ifd_offset
for i in range(ovr_count):
# Check that overviews are by descending sizes
ovr_band = ds.GetRasterBand(1).GetOverview(i)
if i == 0:
if (ovr_band.XSize > main_band.XSize or
ovr_band.YSize > main_band.YSize):
errors += [
'First overview has larger dimension than main band']
else:
prev_ovr_band = ds.GetRasterBand(1).GetOverview(i - 1)
if (ovr_band.XSize > prev_ovr_band.XSize or
ovr_band.YSize > prev_ovr_band.YSize):
errors += [
'Overview of index %d has larger dimension than '
'overview of index %d' % (i, i - 1)]
if check_tiled:
block_size = ovr_band.GetBlockSize()
if block_size[0] == ovr_band.XSize and block_size[0] > 1024:
errors += [
'Overview of index %d is not tiled' % i]
# Check that the IFD of descending overviews are sorted by increasing
# offsets
ifd_offset = int(ovr_band.GetMetadataItem('IFD_OFFSET', 'TIFF'))
ifd_offsets.append(ifd_offset)
details['ifd_offsets']['overview_%d' % i] = ifd_offset
if ifd_offsets[-1] < ifd_offsets[-2]:
if i == 0:
errors += [
'The offset of the IFD for overview of index %d is %d, '
'whereas it should be greater than the one of the main '
'image, which is at byte %d' %
(i, ifd_offsets[-1], ifd_offsets[-2])]
else:
errors += [
'The offset of the IFD for overview of index %d is %d, '
'whereas it should be greater than the one of index %d, '
'which is at byte %d' %
(i, ifd_offsets[-1], i - 1, ifd_offsets[-2])]
# Check that the imagery starts by the smallest overview and ends with
# the main resolution dataset
block_offset = main_band.GetMetadataItem('BLOCK_OFFSET_0_0', 'TIFF')
if not block_offset:
errors += ['Missing BLOCK_OFFSET_0_0']
data_offset = int(block_offset) if block_offset else None
data_offsets = [data_offset]
details['data_offsets'] = {}
details['data_offsets']['main'] = data_offset
for i in range(ovr_count):
ovr_band = ds.GetRasterBand(1).GetOverview(i)
data_offset = int(ovr_band.GetMetadataItem('BLOCK_OFFSET_0_0', 'TIFF'))
data_offsets.append(data_offset)
details['data_offsets']['overview_%d' % i] = data_offset
if data_offsets[-1] < ifd_offsets[-1]:
if ovr_count > 0:
errors += [
'The offset of the first block of the smallest overview '
'should be after its IFD']
else:
errors += [
'The offset of the first block of the image should '
'be after its IFD']
for i in range(len(data_offsets) - 2, 0, -1):
if data_offsets[i] < data_offsets[i + 1]:
errors += [
'The offset of the first block of overview of index %d should '
'be after the one of the overview of index %d' %
(i - 1, i)]
if len(data_offsets) >= 2 and data_offsets[0] < data_offsets[1]:
errors += [
'The offset of the first block of the main resolution image'
'should be after the one of the overview of index %d' %
(ovr_count - 1)]
return errors, details
def main():
"""Return 0 in case of success, 1 for failure."""
i = 1
filename = None
quiet = False
while i < len(sys.argv):
if sys.argv[i] == '-q':
quiet = True
elif sys.argv[i][0] == '-':
return Usage()
elif filename is None:
filename = sys.argv[i]
else:
return Usage()
i += 1
if filename is None:
return Usage()
try:
errors, _ = validate(filename)
if errors:
if not quiet:
print('%s is NOT a valid cloud optimized GeoTIFF.' % filename)
print('The following errors were found:')
for error in errors:
print(' - ' + error)
ret = 1
else:
ret = 0
if not quiet:
print('%s is a valid cloud optimized GeoTIFF' % filename)
except ValidateCloudOptimizedGeoTIFFException as e:
if not quiet:
print('%s is NOT a valid cloud optimized GeoTIFF : %s' %
(filename, str(e)))
ret = 1
return ret
if __name__ == '__main__':
sys.exit(main())
distrib
>
Mageia
>
6
>
x86_64
>
media
>
core-updates
>
by-pkgid
>
61d021e9f3d579b242fa4611e8c3e21c
>
files
>
102
