#************************************************************** # # Licensed to the Apache Software Foundation (ASF) under one # or more contributor license agreements. See the NOTICE file # distributed with this work for additional information # regarding copyright ownership. The ASF licenses this file # to you under the Apache License, Version 2.0 (the # "License"); you may not use this file except in compliance # with the License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, # software distributed under the License is distributed on an # "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY # KIND, either express or implied. See the License for the # specific language governing permissions and limitations # under the License. # #************************************************************** package installer::windows::component; use installer::converter; use installer::existence; use installer::exiter; use installer::files; use installer::globals; use installer::windows::idtglobal; use installer::windows::language; use strict; ############################################################## # Returning a globally unique ID (GUID) for a component # If the component is new, a unique guid has to be created. # If the component already exists, the guid has to be # taken from a list component <-> guid # Sample for a guid: {B68FD953-3CEF-4489-8269-8726848056E8} ############################################################## sub get_component_guid ($) { my ($componentname) = @_; # At this time only a template my $returnvalue = "\{COMPONENTGUID\}"; # Returning a ComponentID, that is assigned in scp project if ( exists($installer::globals::componentid{$componentname}) ) { $installer::logger::Lang->printf("reusing guid %s for component %s\n", $installer::globals::componentid{$componentname}, $componentname); $returnvalue = "\{" . $installer::globals::componentid{$componentname} . "\}"; } return $returnvalue; } ############################################################## # Returning the directory for a file component. ############################################################## sub get_file_component_directory ($$$) { my ($componentname, $filesref, $dirref) = @_; my ($component, $uniquedir); foreach my $onefile (@$filesref) { if ($onefile->{'componentname'} eq $componentname) { return get_file_component_directory_for_file($onefile, $dirref); } } # This component can be ignored, if it exists in a version with # extension "_pff" (this was renamed in file::get_sequence_for_file() ) my $ignore_this_component = 0; my $origcomponentname = $componentname; my $componentname_pff = $componentname . "_pff"; foreach my $onefile (@$filesref) { if ($onefile->{'componentname'} eq $componentname_pff) { return "IGNORE_COMP"; } } installer::exiter::exit_program( "ERROR: Did not find component \"$origcomponentname\" in file collection", "get_file_component_directory"); } sub get_file_component_directory_for_file ($$) { my ($onefile, $dirref) = @_; my $localstyles = $onefile->{'Styles'}; $localstyles = "" unless defined $localstyles; if ( $localstyles =~ /\bFONT\b/ ) # special handling for font files { return $installer::globals::fontsfolder; } my $destdir = ""; if ( $onefile->{'Dir'} ) { $destdir = $onefile->{'Dir'}; } if ( $destdir =~ /\bPREDEFINED_OSSHELLNEWDIR\b/ ) # special handling for shellnew files { return $installer::globals::templatefolder; } my $destination = $onefile->{'destination'}; installer::pathanalyzer::get_path_from_fullqualifiedname(\$destination); $destination =~ s/\Q$installer::globals::separator\E\s*$//; # This path has to be defined in the directory collection at "HostName" my $uniquedir = undef; if ($destination eq "") # files in the installation root { $uniquedir = "INSTALLLOCATION"; } else { my $found = 0; foreach my $directory (@$dirref) { if ($directory->{'HostName'} eq $destination) { $found = 1; $uniquedir = $directory->{'uniquename'}; last; } } if ( ! $found) { installer::exiter::exit_program( "ERROR: Did not find destination $destination in directory collection", "get_file_component_directory"); } if ( $uniquedir eq $installer::globals::officeinstalldirectory ) { $uniquedir = "INSTALLLOCATION"; } } $onefile->{'uniquedirname'} = $uniquedir; # saving it in the file collection return $uniquedir } ############################################################## # Returning the directory for a registry component. # This cannot be a useful value ############################################################## sub get_registry_component_directory { my $componentdir = "INSTALLLOCATION"; return $componentdir; } ############################################################## # Returning the attributes for a file component. # Always 8 in this first try? ############################################################## sub get_file_component_attributes { my ($componentname, $filesref, $allvariables) = @_; my $attributes; $attributes = 2; # special handling for font files my $onefile; my $found = 0; for ( my $i = 0; $i <= $#{$filesref}; $i++ ) { $onefile = ${$filesref}[$i]; my $component = $onefile->{'componentname'}; if ( $component eq $componentname ) { $found = 1; last; } } if (!($found)) { installer::exiter::exit_program("ERROR: Did not find component in file collection", "get_file_component_attributes"); } my $localstyles = ""; if ( $onefile->{'Styles'} ) { $localstyles = $onefile->{'Styles'}; } if ( $localstyles =~ /\bFONT\b/ ) { $attributes = 8; # font files will be deinstalled if the ref count is 0 } if ( $localstyles =~ /\bASSEMBLY\b/ ) { $attributes = 0; # Assembly files cannot run from source } if ((defined $onefile->{'Dir'} && $onefile->{'Dir'} =~ /\bPREDEFINED_OSSHELLNEWDIR\b/) || $onefile->{'needs_user_registry_key'}) { $attributes = 4; # Files in shellnew dir and in non advertised startmenu entries must have user registry key as KeyPath } # Adding 256, if this is a 64 bit installation set. if (( $allvariables->{'64BITPRODUCT'} ) && ( $allvariables->{'64BITPRODUCT'} == 1 )) { $attributes = $attributes + 256; } return $attributes } ############################################################## # Returning the attributes for a registry component. # Always 4, indicating, the keypath is a defined in # table registry ############################################################## sub get_registry_component_attributes { my ($componentname, $allvariables) = @_; my $attributes; $attributes = 4; # Adding 256, if this is a 64 bit installation set. if (( $allvariables->{'64BITPRODUCT'} ) && ( $allvariables->{'64BITPRODUCT'} == 1 )) { $attributes = $attributes + 256; } if ( exists($installer::globals::dontdeletecomponents{$componentname}) ) { $attributes = $attributes + 16; } return $attributes } ############################################################## # Returning the conditions for a component. # This is important for language dependent components # in multilingual installation sets. ############################################################## sub get_file_component_condition { my ($componentname, $filesref) = @_; my $condition = ""; if (exists($installer::globals::componentcondition{$componentname})) { $condition = $installer::globals::componentcondition{$componentname}; } # there can be also tree conditions for multilayer products if (exists($installer::globals::treeconditions{$componentname})) { if ( $condition eq "" ) { $condition = $installer::globals::treeconditions{$componentname}; } else { $condition = "($condition) And ($installer::globals::treeconditions{$componentname})"; } } return $condition } ############################################################## # Returning the conditions for a registry component. ############################################################## sub get_component_condition { my ($componentname) = @_; my $condition; $condition = ""; # Always ? if (exists($installer::globals::componentcondition{$componentname})) { $condition = $installer::globals::componentcondition{$componentname}; } return $condition } #################################################################### # Returning the keypath for a component. # This will be the name of the first file/registry, found in the # collection $itemsref # Attention: This has to be the unique (file)name, not the # real filename! #################################################################### sub get_component_keypath ($$) { my ($componentname, $itemsref) = @_; foreach my $oneitem (@$itemsref) { my $component = $oneitem->{'componentname'}; if ( ! defined $component) { installer::scriptitems::print_script_item($oneitem); installer::logger::PrintError("item in get_component_keypath has no 'componentname'\n"); return ""; } if ( $component eq $componentname ) { my $keypath = $oneitem->{'uniquename'}; # "uniquename", not "Name" # Special handling for components in # PREDEFINED_OSSHELLNEWDIR. These components need as # KeyPath a RegistryItem in HKCU if ($oneitem->{'userregkeypath'}) { $keypath = $oneitem->{'userregkeypath'}; } # saving it in the file and registry collection $oneitem->{'keypath'} = $keypath; return $keypath } } installer::exiter::exit_program( "ERROR: Did not find component in file/registry collection, function get_component_keypath", "get_component_keypath"); } sub remove_ooversion_from_component_name($) { my ($component_name) = @_; $component_name =~ s/_openoffice\d+//; return $component_name; } sub prepare_component_table_creation ($$$) { my ($file_components, $registry_components, $variables) = @_; if ($installer::globals::is_release) { my %source_component_data = (); # Collect the components that are used in the source release. my $component_table = $installer::globals::source_msi->GetTable("Component"); foreach my $row (@{$component_table->GetAllRows()}) { $source_component_data{$row->GetValue("Component")} = $row; } # Find source components that do not exist in the target components, ie have been removed. # Process file components. my @missing_source_component_names = (); my %file_component_hash = map {$_ => 1} @$file_components; foreach my $source_component_name (keys %source_component_data) { # In this loop we only process components for files and ignore those for registry entries. next if $source_component_name =~ /^registry_/; if ( ! defined $file_component_hash{$source_component_name}) { push @missing_source_component_names, [$source_component_name, $source_component_name]; $installer::logger::Info->printf("missing file component %s\n", $source_component_name); } } # Process registry components. my %registry_component_hash = map {$_ => 1} @$registry_components; my %registry_component_hash_normalized = map {remove_ooversion_from_component_name($_) => $_} @$registry_components; my %target_registry_component_translation = (); foreach my $source_component_name (keys %source_component_data) { # In this loop we only process components for registry entries and ignore those for files. next if $source_component_name !~ /^registry_/; if (defined $registry_component_hash{$source_component_name}) { # Found the non-normalized name. } elsif (defined $registry_component_hash_normalized{ remove_ooversion_from_component_name($source_component_name)}) { # Found the normalized name. my $target_component_name = $registry_component_hash_normalized{ remove_ooversion_from_component_name($source_component_name)}; $target_registry_component_translation{$target_component_name} = $source_component_name; $installer::logger::Info->printf("found normalized component name %s\n", $source_component_name); $installer::logger::Info->printf(" %s -> %s\n", $target_component_name, $source_component_name); } else { # Source component was not found. push @missing_source_component_names, $source_component_name; $installer::logger::Info->printf("missing component %s\n", $source_component_name); } } if (scalar @missing_source_component_names > 0) { $installer::logger::Info->printf("Error: there are %d missing components\n", scalar @missing_source_component_names); return {}; } else { return \%target_registry_component_translation; } } return {}; } sub get_component_data ($$$$) { my ($file_component_names, $registry_component_names, $files, $registry_entries) = @_; # When we are building a release then prepare building a patch by looking up some data # from the previous release. my %source_data = (); if ($installer::globals::is_release) { my $source_component_table = $installer::globals::source_msi->GetTable("Component"); my $component_column_index = $source_component_table->GetColumnIndex("Component"); my $component_id_column_index = $source_component_table->GetColumnIndex("ComponentId"); my $key_path_column_index = $source_component_table->GetColumnIndex("KeyPath"); foreach my $source_row (@{$source_component_table->GetAllRows()}) { my $component_name = $source_row->GetValue($component_column_index); my $component_id = $source_row->GetValue($component_id_column_index); my $key_path = $source_row->GetValue($key_path_column_index); $source_data{$component_name} = { 'component_id' => $component_id, 'key_path' => $key_path }; } } # Set up data for the target release. # Use data from the source version where possible. # Create missind data where necessary. # Set up the target data with flags that remember whether a # component contains files or registry entries. my %target_data = (); foreach my $name (@$file_component_names) { $target_data{$name} = {'is_file' => 1}; } foreach my $name (@$registry_component_names) { $target_data{$name} = {'is_file' => 0}; } # Add values for the ComponentId column. $installer::logger::Lang->printf("preparing Component->ComponentId values\n"); foreach my $name (@$file_component_names,@$registry_component_names) { # Determine the component id. my $guid = $installer::globals::is_release ? $source_data{$name}->{'component_id'} : undef; if (defined $guid) { $installer::logger::Lang->printf(" reusing guid %s\n", $guid); } else { $guid = "{" . installer::windows::msiglobal::create_guid() . "}"; $installer::logger::Lang->printf(" creating new guid %s\n", $guid); } $target_data{$name}->{'component_id'} = $guid; } # Add values for the KeyPath column. $installer::logger::Lang->printf("preparing Component->KeyPath values\n"); foreach my $component_name (@$file_component_names,@$registry_component_names) { # Determine the key path. my $key_path = $installer::globals::is_release ? $source_data{$component_name}->{'key_path'} : undef; if (defined $key_path) { $installer::logger::Lang->printf(" reusing key path %s for component %s\n", $key_path, $component_name); } else { if ($target_data{$component_name}->{'is_file'}) { $key_path = get_component_keypath($component_name, $files); } else { $key_path = get_component_keypath($component_name, $registry_entries); } $installer::logger::Lang->printf(" created key path %s for component %s\n", $key_path, $component_name); } $target_data{$component_name}->{'key_path'} = $key_path; } return \%target_data; } sub create_component_table_data ($$$$$$) { my ($filesref, $registryref, $dirref, $allfilecomponentsref, $allregistrycomponents, $allvariables) = @_; my $target_data = get_component_data($allfilecomponentsref, $allregistrycomponents, $filesref, $registryref); my @table_data = (); # File components foreach my $name (@$allfilecomponentsref) { my %onecomponent = (); $onecomponent{'name'} = $name; $onecomponent{'guid'} = $target_data->{$name}->{'component_id'}; $onecomponent{'directory'} = get_file_component_directory($name, $filesref, $dirref); if ( $onecomponent{'directory'} eq "IGNORE_COMP" ) { next; } $onecomponent{'attributes'} = get_file_component_attributes($name, $filesref, $allvariables); $onecomponent{'condition'} = get_file_component_condition($name, $filesref); $onecomponent{'keypath'} = $target_data->{$name}->{'key_path'}; push @table_data, \%onecomponent; } # Registry components foreach my $name (@$allregistrycomponents) { my %onecomponent = (); $onecomponent{'name'} = $name; $onecomponent{'guid'} = $target_data->{$name}->{'component_id'}; $onecomponent{'directory'} = get_registry_component_directory(); $onecomponent{'attributes'} = get_registry_component_attributes($name, $allvariables); $onecomponent{'condition'} = get_component_condition($name); $onecomponent{'keypath'} = $target_data->{$name}->{'key_path'}; push(@table_data, \%onecomponent); } return \@table_data; } ################################################################### # Creating the file Componen.idt dynamically # Content: # Component ComponentId Directory_ Attributes Condition KeyPath ################################################################### sub create_component_table ($$) { my ($table_data, $basedir) = @_; my @componenttable = (); my ($oneline, $infoline); installer::windows::idtglobal::write_idt_header(\@componenttable, "component"); foreach my $item (@$table_data) { $oneline = sprintf("%s\t%s\t%s\t%s\t%s\t%s\n", $item->{'name'}, $item->{'guid'}, $item->{'directory'}, $item->{'attributes'}, $item->{'condition'}, $item->{'keypath'}); push(@componenttable, $oneline); } # Saving the file my $componenttablename = $basedir . $installer::globals::separator . "Componen.idt"; installer::files::save_file($componenttablename ,\@componenttable); $infoline = "Created idt file: $componenttablename\n"; $installer::logger::Lang->print($infoline); } #################################################################################### # Returning a component for a scp module gid. # Pairs are saved in the files collector. #################################################################################### sub get_component_name_from_modulegid { my ($modulegid, $filesref) = @_; my $componentname = ""; for ( my $i = 0; $i <= $#{$filesref}; $i++ ) { my $onefile = ${$filesref}[$i]; if ( $onefile->{'modules'} ) { my $filemodules = $onefile->{'modules'}; my $filemodulesarrayref = installer::converter::convert_stringlist_into_array_without_newline(\$filemodules, ","); if (installer::existence::exists_in_array($modulegid, $filemodulesarrayref)) { $componentname = $onefile->{'componentname'}; last; } } } return $componentname; } #################################################################################### # Updating the file Environm.idt dynamically # Content: # Environment Name Value Component_ #################################################################################### sub set_component_in_environment_table { my ($basedir, $filesref) = @_; my $infoline = ""; my $environmentfilename = $basedir . $installer::globals::separator . "Environm.idt"; if ( -f $environmentfilename ) # only do something, if file exists { my $environmentfile = installer::files::read_file($environmentfilename); for ( my $i = 3; $i <= $#{$environmentfile}; $i++ ) # starting in line 4 of Environm.idt { if ( ${$environmentfile}[$i] =~ /^\s*(.*?)\t(.*?)\t(.*?)\t(.*?)\s*$/ ) { my $modulegid = $4; # in Environment table a scp module gid can be used as component replacement my $componentname = get_component_name_from_modulegid($modulegid, $filesref); if ( $componentname ) # only do something if a component could be found { $infoline = "Updated Environment table:\n"; $installer::logger::Lang->print($infoline); $infoline = "Old line: ${$environmentfile}[$i]\n"; $installer::logger::Lang->print($infoline); ${$environmentfile}[$i] =~ s/$modulegid/$componentname/; $infoline = "New line: ${$environmentfile}[$i]\n"; $installer::logger::Lang->print($infoline); } } } # Saving the file installer::files::save_file($environmentfilename ,$environmentfile); $infoline = "Updated idt file: $environmentfilename\n"; $installer::logger::Lang->print($infoline); } } sub apply_component_translation ($@) { my ($translation_map, @component_names) = @_; my @translated_names = (); foreach my $component_name (@component_names) { my $translated_name = $translation_map->{$component_name}; if (defined $translated_name) { push @translated_names, $translated_name; } else { push @translated_names, $component_name; } } return @translated_names; } 1;