/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2016 Wayne Stambaugh * Copyright (C) 2022 CERN * Copyright (C) 2016-2023 KiCad Developers, see AUTHORS.txt for contributors. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, you may find one here: * http://www.gnu.org/licenses/old-licenses/gpl-2.0.html * or you may search the http://www.gnu.org website for the version 2 license, * or you may write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "sim/sim_model.h" #define OPT_SEP '|' ///< options separator character using namespace LIB_TABLE_T; static const wxString global_tbl_name( "sym-lib-table" ); const char* SYMBOL_LIB_TABLE::PropPowerSymsOnly = "pwr_sym_only"; const char* SYMBOL_LIB_TABLE::PropNonPowerSymsOnly = "non_pwr_sym_only"; int SYMBOL_LIB_TABLE::m_modifyHash = 1; // starts at 1 and goes up /// The global symbol library table. This is not dynamically allocated because /// in a multiple project environment we must keep its address constant (since it is /// the fallback table for multiple projects). SYMBOL_LIB_TABLE g_symbolLibraryTable; bool SYMBOL_LIB_TABLE_ROW::operator==( const SYMBOL_LIB_TABLE_ROW& aRow ) const { return LIB_TABLE_ROW::operator == ( aRow ) && type == aRow.type; } void SYMBOL_LIB_TABLE_ROW::SetType( const wxString& aType ) { type = SCH_IO_MGR::EnumFromStr( aType ); if( type == SCH_IO_MGR::SCH_FILE_UNKNOWN ) type = SCH_IO_MGR::SCH_KICAD; plugin.reset(); } bool SYMBOL_LIB_TABLE_ROW::Refresh() { if( !plugin ) { wxArrayString dummyList; plugin.reset( SCH_IO_MGR::FindPlugin( type ) ); SetLoaded( false ); plugin->SetLibTable( static_cast( GetParent() ) ); plugin->EnumerateSymbolLib( dummyList, GetFullURI( true ), GetProperties() ); SetLoaded( true ); return true; } return false; } void SYMBOL_LIB_TABLE_ROW::GetSubLibraryNames( std::vector& aNames ) const { if( !plugin ) return; plugin->GetSubLibraryNames( aNames ); } wxString SYMBOL_LIB_TABLE_ROW::GetSubLibraryDescription( const wxString& aName ) const { if( !plugin ) return wxEmptyString; return plugin->GetSubLibraryDescription( aName ); } void SYMBOL_LIB_TABLE_ROW::ShowSettingsDialog( wxWindow* aParent ) const { wxCHECK( plugin, /* void */ ); if( type != SCH_IO_MGR::SCH_DATABASE ) return; DIALOG_DATABASE_LIB_SETTINGS dlg( aParent, static_cast( plugin.get() ) ); dlg.ShowModal(); } SYMBOL_LIB_TABLE::SYMBOL_LIB_TABLE( SYMBOL_LIB_TABLE* aFallBackTable ) : LIB_TABLE( aFallBackTable ) { // not copying fall back, simply search aFallBackTable separately // if "nickName not found". } SYMBOL_LIB_TABLE& SYMBOL_LIB_TABLE::GetGlobalLibTable() { return g_symbolLibraryTable; } void SYMBOL_LIB_TABLE::Parse( LIB_TABLE_LEXER* in ) { T tok; wxString errMsg; // to collect error messages // This table may be nested within a larger s-expression, or not. // Allow for parser of that optional containing s-epression to have looked ahead. if( in->CurTok() != T_sym_lib_table ) { in->NeedLEFT(); if( ( tok = in->NextTok() ) != T_sym_lib_table ) in->Expecting( T_sym_lib_table ); } while( ( tok = in->NextTok() ) != T_RIGHT ) { std::unique_ptr< SYMBOL_LIB_TABLE_ROW > row = std::make_unique(); if( tok == T_EOF ) in->Expecting( T_RIGHT ); if( tok != T_LEFT ) in->Expecting( T_LEFT ); // in case there is a "row integrity" error, tell where later. int lineNum = in->CurLineNumber(); tok = in->NextTok(); // Optionally parse the current version number if( tok == T_version ) { in->NeedNUMBER( "version" ); m_version = std::stoi( in->CurText() ); in->NeedRIGHT(); continue; } if( tok != T_lib ) in->Expecting( T_lib ); // (name NICKNAME) in->NeedLEFT(); if( ( tok = in->NextTok() ) != T_name ) in->Expecting( T_name ); in->NeedSYMBOLorNUMBER(); row->SetNickName( in->FromUTF8() ); in->NeedRIGHT(); // After (name), remaining (lib) elements are order independent, and in // some cases optional. bool sawType = false; bool sawOpts = false; bool sawDesc = false; bool sawUri = false; bool sawDisabled = false; bool sawHidden = false; while( ( tok = in->NextTok() ) != T_RIGHT ) { if( tok == T_EOF ) in->Unexpected( T_EOF ); if( tok != T_LEFT ) in->Expecting( T_LEFT ); tok = in->NeedSYMBOLorNUMBER(); switch( tok ) { case T_uri: if( sawUri ) in->Duplicate( tok ); sawUri = true; in->NeedSYMBOLorNUMBER(); row->SetFullURI( in->FromUTF8() ); break; case T_type: if( sawType ) in->Duplicate( tok ); sawType = true; in->NeedSYMBOLorNUMBER(); row->SetType( in->FromUTF8() ); break; case T_options: if( sawOpts ) in->Duplicate( tok ); sawOpts = true; in->NeedSYMBOLorNUMBER(); row->SetOptions( in->FromUTF8() ); break; case T_descr: if( sawDesc ) in->Duplicate( tok ); sawDesc = true; in->NeedSYMBOLorNUMBER(); row->SetDescr( in->FromUTF8() ); break; case T_disabled: if( sawDisabled ) in->Duplicate( tok ); sawDisabled = true; row->SetEnabled( false ); break; case T_hidden: if( sawHidden ) in->Duplicate( tok ); sawHidden = true; row->SetVisible( false ); break; default: in->Unexpected( tok ); } in->NeedRIGHT(); } if( !sawType ) in->Expecting( T_type ); if( !sawUri ) in->Expecting( T_uri ); // all nickNames within this table fragment must be unique, so we do not // use doReplace in InsertRow(). (However a fallBack table can have a // conflicting nickName and ours will supercede that one since in // FindLib() we search this table before any fall back.) wxString nickname = row->GetNickName(); // store it to be able to used it // after row deletion if an error occurs LIB_TABLE_ROW* tmp = row.release(); if( !InsertRow( tmp ) ) { delete tmp; // The table did not take ownership of the row. wxString msg = wxString::Format( _( "Duplicate library nickname '%s' found in symbol " "library table file line %d" ), nickname, lineNum ); if( !errMsg.IsEmpty() ) errMsg << '\n'; errMsg << msg; } } if( !errMsg.IsEmpty() ) THROW_IO_ERROR( errMsg ); } void SYMBOL_LIB_TABLE::Format( OUTPUTFORMATTER* aOutput, int aIndentLevel ) const { aOutput->Print( aIndentLevel, "(sym_lib_table\n" ); aOutput->Print( aIndentLevel + 1, "(version %d)\n", m_version ); for( const LIB_TABLE_ROW& row : m_rows ) row.Format( aOutput, aIndentLevel + 1 ); aOutput->Print( aIndentLevel, ")\n" ); } int SYMBOL_LIB_TABLE::GetModifyHash() { int hash = 0; std::vector< wxString > libNames = GetLogicalLibs(); for( const auto& libName : libNames ) { const SYMBOL_LIB_TABLE_ROW* row = FindRow( libName, true ); if( !row || !row->plugin ) { continue; } hash += row->plugin->GetModifyHash(); } hash += m_modifyHash; return hash; } void SYMBOL_LIB_TABLE::EnumerateSymbolLib( const wxString& aNickname, wxArrayString& aAliasNames, bool aPowerSymbolsOnly ) { SYMBOL_LIB_TABLE_ROW* row = FindRow( aNickname, true ); wxCHECK( row && row->plugin, /* void */ ); wxString options = row->GetOptions(); if( aPowerSymbolsOnly ) row->SetOptions( row->GetOptions() + " " + PropPowerSymsOnly ); row->SetLoaded( false ); row->plugin->EnumerateSymbolLib( aAliasNames, row->GetFullURI( true ), row->GetProperties() ); row->SetLoaded( true ); if( aPowerSymbolsOnly ) row->SetOptions( options ); } SYMBOL_LIB_TABLE_ROW* SYMBOL_LIB_TABLE::FindRow( const wxString& aNickname, bool aCheckIfEnabled ) { SYMBOL_LIB_TABLE_ROW* row = dynamic_cast< SYMBOL_LIB_TABLE_ROW* >( findRow( aNickname, aCheckIfEnabled ) ); if( !row ) return nullptr; // We've been 'lazy' up until now, but it cannot be deferred any longer, // instantiate a PLUGIN of the proper kind if it is not already in this // SYMBOL_LIB_TABLE_ROW. if( !row->plugin ) { row->setPlugin( SCH_IO_MGR::FindPlugin( row->type ) ); row->plugin->SetLibTable( this ); } return row; } void SYMBOL_LIB_TABLE::LoadSymbolLib( std::vector& aSymbolList, const wxString& aNickname, bool aPowerSymbolsOnly ) { SYMBOL_LIB_TABLE_ROW* row = FindRow( aNickname, true ); if( !row || !row->plugin ) return; std::lock_guard lock( row->GetMutex() ); wxString options = row->GetOptions(); if( aPowerSymbolsOnly ) row->SetOptions( row->GetOptions() + " " + PropPowerSymsOnly ); row->SetLoaded( false ); row->plugin->SetLibTable( this ); row->plugin->EnumerateSymbolLib( aSymbolList, row->GetFullURI( true ), row->GetProperties() ); row->SetLoaded( true ); if( aPowerSymbolsOnly ) row->SetOptions( options ); // The library cannot know its own name, because it might have been renamed or moved. // Therefore footprints cannot know their own library nickname when residing in // a symbol library. // Only at this API layer can we tell the symbol about its actual library nickname. for( LIB_SYMBOL* symbol : aSymbolList ) { LIB_ID id = symbol->GetLibId(); id.SetLibNickname( row->GetNickName() ); symbol->SetLibId( id ); } } LIB_SYMBOL* SYMBOL_LIB_TABLE::LoadSymbol( const wxString& aNickname, const wxString& aSymbolName ) { SYMBOL_LIB_TABLE_ROW* row = FindRow( aNickname, true ); if( !row || !row->plugin ) return nullptr; // If another thread is loading this library at the moment; continue std::unique_lock lock( row->GetMutex(), std::try_to_lock ); if( !lock.owns_lock() ) return nullptr; LIB_SYMBOL* symbol = row->plugin->LoadSymbol( row->GetFullURI( true ), aSymbolName, row->GetProperties() ); if( symbol ) { // The library cannot know its own name, because it might have been renamed or moved. // Therefore footprints cannot know their own library nickname when residing in // a symbol library. // Only at this API layer can we tell the symbol about its actual library nickname. LIB_ID id = symbol->GetLibId(); id.SetLibNickname( row->GetNickName() ); symbol->SetLibId( id ); SIM_MODEL::MigrateSimModel( *symbol, nullptr ); } return symbol; } SYMBOL_LIB_TABLE::SAVE_T SYMBOL_LIB_TABLE::SaveSymbol( const wxString& aNickname, const LIB_SYMBOL* aSymbol, bool aOverwrite ) { const SYMBOL_LIB_TABLE_ROW* row = FindRow( aNickname, true ); wxCHECK( row && row->plugin, SAVE_SKIPPED ); if( !row->plugin->IsLibraryWritable( row->GetFullURI( true ) ) ) return SAVE_SKIPPED; if( !aOverwrite ) { // Try loading the footprint to see if it already exists, caller wants overwrite // protection, which is atypical, not the default. wxString name = aSymbol->GetLibId().GetLibItemName(); std::unique_ptr symbol( row->plugin->LoadSymbol( row->GetFullURI( true ), name, row->GetProperties() ) ); if( symbol.get() ) return SAVE_SKIPPED; } try { row->plugin->SaveSymbol( row->GetFullURI( true ), aSymbol, row->GetProperties() ); } catch( const IO_ERROR& ) { return SAVE_SKIPPED; } return SAVE_OK; } void SYMBOL_LIB_TABLE::DeleteSymbol( const wxString& aNickname, const wxString& aSymbolName ) { const SYMBOL_LIB_TABLE_ROW* row = FindRow( aNickname, true ); wxCHECK( row && row->plugin, /* void */ ); return row->plugin->DeleteSymbol( row->GetFullURI( true ), aSymbolName, row->GetProperties() ); } bool SYMBOL_LIB_TABLE::IsSymbolLibWritable( const wxString& aNickname ) { const SYMBOL_LIB_TABLE_ROW* row = FindRow( aNickname, true ); wxCHECK( row && row->plugin, false ); return row->plugin->IsLibraryWritable( row->GetFullURI( true ) ); } bool SYMBOL_LIB_TABLE::IsSymbolLibLoaded( const wxString& aNickname ) { const SYMBOL_LIB_TABLE_ROW* row = FindRow( aNickname, true ); wxCHECK( row, false ); return row->GetIsLoaded(); } void SYMBOL_LIB_TABLE::DeleteSymbolLib( const wxString& aNickname ) { const SYMBOL_LIB_TABLE_ROW* row = FindRow( aNickname, true ); wxCHECK( row && row->plugin, /* void */ ); row->plugin->DeleteLibrary( row->GetFullURI( true ), row->GetProperties() ); } void SYMBOL_LIB_TABLE::CreateSymbolLib( const wxString& aNickname ) { const SYMBOL_LIB_TABLE_ROW* row = FindRow( aNickname, true ); wxCHECK( row && row->plugin, /* void */ ); row->plugin->CreateLibrary( row->GetFullURI( true ), row->GetProperties() ); } LIB_SYMBOL* SYMBOL_LIB_TABLE::LoadSymbolWithOptionalNickname( const LIB_ID& aLibId ) { wxString nickname = aLibId.GetLibNickname(); wxString name = aLibId.GetLibItemName(); if( nickname.size() ) { return LoadSymbol( nickname, name ); } else { // nickname is empty, sequentially search (alphabetically) all libs/nicks for first match: std::vector nicks = GetLogicalLibs(); // Search each library going through libraries alphabetically. for( unsigned i = 0; i < nicks.size(); ++i ) { // FootprintLoad() returns NULL on not found, does not throw exception // unless there's an IO_ERROR. LIB_SYMBOL* ret = LoadSymbol( nicks[i], name ); if( ret ) return ret; } return nullptr; } } const wxString SYMBOL_LIB_TABLE::GlobalPathEnvVariableName() { return ENV_VAR::GetVersionedEnvVarName( wxS( "SYMBOL_DIR" ) ); } class PCM_SYM_LIB_TRAVERSER final : public wxDirTraverser { public: explicit PCM_SYM_LIB_TRAVERSER( const wxString& aPath, SYMBOL_LIB_TABLE& aTable, const wxString& aPrefix ) : m_lib_table( aTable ), m_path_prefix( aPath ), m_lib_prefix( aPrefix ) { wxFileName f( aPath, "" ); m_prefix_dir_count = f.GetDirCount(); } wxDirTraverseResult OnFile( const wxString& aFilePath ) override { wxFileName file = wxFileName::FileName( aFilePath ); // consider a file to be a lib if it's name ends with .kicad_sym and // it is under $KICADn_3RD_PARTY/symbols// i.e. has nested level of at least +2 if( file.GetExt() == wxT( "kicad_sym" ) && file.GetDirCount() >= m_prefix_dir_count + 2 ) { wxString versionedPath = wxString::Format( wxS( "${%s}" ), ENV_VAR::GetVersionedEnvVarName( wxS( "3RD_PARTY" ) ) ); wxArrayString parts = file.GetDirs(); parts.RemoveAt( 0, m_prefix_dir_count ); parts.Insert( versionedPath, 0 ); parts.Add( file.GetFullName() ); wxString libPath = wxJoin( parts, '/' ); if( !m_lib_table.HasLibraryWithPath( libPath ) ) { wxString name = parts.Last().substr( 0, parts.Last().length() - 10 ); wxString nickname = wxString::Format( "%s%s", m_lib_prefix, name ); if( m_lib_table.HasLibrary( nickname ) ) { int increment = 1; do { nickname = wxString::Format( "%s%s_%d", m_lib_prefix, name, increment ); increment++; } while( m_lib_table.HasLibrary( nickname ) ); } m_lib_table.InsertRow( new SYMBOL_LIB_TABLE_ROW( nickname, libPath, wxT( "KiCad" ), wxEmptyString, _( "Added by Plugin and Content Manager" ) ) ); } } return wxDIR_CONTINUE; } wxDirTraverseResult OnDir( const wxString& dirPath ) override { return wxDIR_CONTINUE; } private: SYMBOL_LIB_TABLE& m_lib_table; wxString m_path_prefix; wxString m_lib_prefix; size_t m_prefix_dir_count; }; bool SYMBOL_LIB_TABLE::LoadGlobalTable( SYMBOL_LIB_TABLE& aTable ) { bool tableExists = true; wxFileName fn = GetGlobalTableFileName(); if( !fn.FileExists() ) { tableExists = false; if( !fn.DirExists() && !fn.Mkdir( 0x777, wxPATH_MKDIR_FULL ) ) { THROW_IO_ERROR( wxString::Format( _( "Cannot create global library table path '%s'." ), fn.GetPath() ) ); } // Attempt to copy the default global file table from the KiCad // template folder to the user's home configuration path. SEARCH_STACK ss; SystemDirsAppend( &ss ); const ENV_VAR_MAP& envVars = Pgm().GetLocalEnvVariables(); std::optional v = ENV_VAR::GetVersionedEnvVarValue( envVars, wxT( "TEMPLATE_DIR" ) ); if( v && !v->IsEmpty() ) ss.AddPaths( *v, 0 ); wxString fileName = ss.FindValidPath( global_tbl_name ); // The fallback is to create an empty global symbol table for the user to populate. if( fileName.IsEmpty() || !::wxCopyFile( fileName, fn.GetFullPath(), false ) ) { SYMBOL_LIB_TABLE emptyTable; emptyTable.Save( fn.GetFullPath() ); } } aTable.Clear(); aTable.Load( fn.GetFullPath() ); SETTINGS_MANAGER& mgr = Pgm().GetSettingsManager(); KICAD_SETTINGS* settings = mgr.GetAppSettings(); wxCHECK( settings, false ); wxString packagesPath; const ENV_VAR_MAP& vars = Pgm().GetLocalEnvVariables(); if( std::optional v = ENV_VAR::GetVersionedEnvVarValue( vars, wxT( "3RD_PARTY" ) ) ) packagesPath = *v; if( settings->m_PcmLibAutoAdd ) { // Scan for libraries in PCM packages directory wxFileName d( packagesPath, "" ); d.AppendDir( "symbols" ); if( d.DirExists() ) { PCM_SYM_LIB_TRAVERSER traverser( packagesPath, aTable, settings->m_PcmLibPrefix ); wxDir dir( d.GetPath() ); dir.Traverse( traverser ); } } if( settings->m_PcmLibAutoRemove ) { // Remove PCM libraries that no longer exist std::vector to_remove; for( size_t i = 0; i < aTable.GetCount(); i++ ) { LIB_TABLE_ROW& row = aTable.At( i ); wxString path = row.GetFullURI( true ); if( path.StartsWith( packagesPath ) && !wxFile::Exists( path ) ) to_remove.push_back( row.GetNickName() ); } for( const wxString& nickName : to_remove ) { SYMBOL_LIB_TABLE_ROW* row = aTable.FindRow( nickName ); wxCHECK2( row, continue ); aTable.RemoveRow( row ); } } return tableExists; } bool SYMBOL_LIB_TABLE::operator==( const SYMBOL_LIB_TABLE& aOther ) const { if( m_rows.size() != aOther.m_rows.size() ) return false; unsigned i; for( i = 0; i < m_rows.size(); ++i ) { const SYMBOL_LIB_TABLE_ROW& curr = static_cast( m_rows[i] ); const SYMBOL_LIB_TABLE_ROW& curr_other = static_cast( aOther.m_rows[i] ); if( curr != curr_other ) return false; } return true; } wxString SYMBOL_LIB_TABLE::GetGlobalTableFileName() { wxFileName fn; fn.SetPath( PATHS::GetUserSettingsPath() ); fn.SetName( global_tbl_name ); return fn.GetFullPath(); } const wxString& SYMBOL_LIB_TABLE::GetSymbolLibTableFileName() { return global_tbl_name; }