#!/usr/bin/env python # # __COPYRIGHT__ # # 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. # __revision__ = "__FILE__ __REVISION__ __DATE__ __DEVELOPER__" """ Test the msi packagers ability to put files into distinct directories. """ import TestSCons python = TestSCons.python test = TestSCons.TestSCons() try: from xml.dom.minidom import * except ImportError: test.skip_test('Cannot import xml.dom.minidom; skipping test\n') wix = test.Environment().WhereIs('candle') if not wix: test.skip_test("No 'candle' found; skipping test\n") # # Test the default directory layout # test.write( 'file1.exe', "file1" ) test.write('SConstruct', """ env = Environment(tools=['default', 'packaging']) f1 = env.Install( '/bin/' , 'file1.exe' ) env.Package( NAME = 'foo', VERSION = '1.2', PACKAGETYPE = 'msi', SUMMARY = 'balalalalal', DESCRIPTION = 'this should be reallly really long', VENDOR = 'Nanosoft_2000', source = [ f1 ], ) """) test.run(arguments='', stderr = None) dom = parse( test.workpath( 'foo-1.2.wxs' ) ) dirs = dom.getElementsByTagName( 'Directory' ) test.fail_test( not dirs[0].attributes['Name'].value == 'SourceDir' ) test.fail_test( not dirs[1].attributes['Name'].value == 'PFiles' ) test.fail_test( not dirs[2].attributes['Name'].value == 'NANOSOF1' ) test.fail_test( not dirs[3].attributes['Name'].value == 'FOO-1.2' ) # # Try to put 7 files into 5 distinct directories of varying depth and overlapping count # test.write( 'file1.exe', "file1" ) test.write( 'file2.exe', "file2" ) test.write( 'file3.dll', "file3" ) test.write( 'file4.dll', "file4" ) test.write( 'file5.class', "file5" ) test.write( 'file6.class', "file6" ) test.write( 'file7.class', "file7" ) test.write('SConstruct', """ env = Environment(tools=['default', 'packaging']) f1 = env.Install( '/bin/' , 'file1.exe' ) f2 = env.Install( '/bin/' , 'file2.exe' ) f3 = env.Install( '/lib/' , 'file3.dll' ) f4 = env.Install( '/lib/' , 'file4.dll' ) f5 = env.Install( '/java/edu/teco/' , 'file5.class' ) f6 = env.Install( '/java/teco/' , 'file6.class' ) f7 = env.Install( '/java/tec/' , 'file7.class' ) env.Package( NAME = 'foo', VERSION = '1.2', PACKAGETYPE = 'msi', SUMMARY = 'balalalalal', DESCRIPTION = 'this should be reallly really long', VENDOR = 'Nanosoft_2000', LICENSE = 'afl', source = [ f1, f2, f3, f4, f5, f6, f7 ], ) """) test.run(arguments='', stderr = None) dom = parse( test.workpath( 'foo-1.2.wxs' ) ) files = dom.getElementsByTagName( 'File' ) test.fail_test( not files[0].parentNode.parentNode.attributes['LongName'].value == 'bin' ) test.fail_test( not files[1].parentNode.parentNode.attributes['LongName'].value == 'bin' ) test.fail_test( not files[2].parentNode.parentNode.attributes['LongName'].value == 'lib' ) test.fail_test( not files[3].parentNode.parentNode.attributes['LongName'].value == 'lib' ) test.fail_test( not files[4].parentNode.parentNode.attributes['LongName'].value == 'teco' ) test.fail_test( not files[4].parentNode.parentNode.parentNode.attributes['LongName'].value == 'edu' ) test.fail_test( not files[4].parentNode.parentNode.parentNode.parentNode.attributes['LongName'].value == 'java' ) test.fail_test( not files[5].parentNode.parentNode.attributes['LongName'].value == 'teco' ) test.fail_test( not files[5].parentNode.parentNode.parentNode.attributes['LongName'].value == 'java' ) test.fail_test( not files[6].parentNode.parentNode.attributes['LongName'].value == 'tec' ) test.fail_test( not files[6].parentNode.parentNode.parentNode.attributes['LongName'].value == 'java' ) # # Test distinct directories put into distinct features # test.write( 'file1.exe', "file1" ) test.write( 'file2.exe', "file2" ) test.write( 'file3.dll', "file3" ) test.write( 'file3-.dll', "file3" ) test.write('SConstruct', """ env = Environment(tools=['default', 'packaging']) f1 = env.Install( '/bin/' , 'file1.exe' ) f2 = env.Install( '/bin/' , 'file2.exe' ) f3 = env.Install( '/lib/' , 'file3.dll' ) f4 = env.Install( '/lib/' , 'file3-.dll' ) # generate a collision in the ids env.Tag( [f1, f2, f4], X_MSI_FEATURE = 'Core Part' ) env.Tag( f3, X_MSI_FEATURE = 'Java Part' ) env.Package( NAME = 'foo', VERSION = '1.2', PACKAGETYPE = 'msi', SUMMARY = 'balalalalal', DESCRIPTION = 'this should be reallly really long', VENDOR = 'Nanosoft_2000', LICENSE = 'afl', source = [ f1, f2, f3, f4 ], ) """) test.run(arguments='', stderr = None) dom = parse( test.workpath( 'foo-1.2.wxs' ) ) features = dom.getElementsByTagName( 'Feature' ) test.fail_test( not features[1].attributes['Title'].value == 'Core Part' ) componentrefs = features[1].getElementsByTagName( 'ComponentRef' ) test.fail_test( not componentrefs[0].attributes['Id'].value == 'file1.exe' ) test.fail_test( not componentrefs[1].attributes['Id'].value == 'file2.exe' ) test.fail_test( not componentrefs[2].attributes['Id'].value == 'file3.dll1' ) test.fail_test( not features[2].attributes['Title'].value == 'Java Part' ) componentrefs = features[2].getElementsByTagName( 'ComponentRef' ) test.fail_test( not componentrefs[0].attributes['Id'].value == 'file3.dll' ) test.pass_test() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: