/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2015-2020 Cirilo Bernardo * Copyright (C) 2015-2021 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 "common.h" #include "filename_resolver.h" // configuration file version #define CFGFILE_VERSION 1 #define RESOLVER_CONFIG wxT( "3Dresolver.cfg" ) // flag bits used to track different one-off messages to users #define ERRFLG_ALIAS (1) #define ERRFLG_RELPATH (2) #define ERRFLG_ENVPATH (4) #define MASK_3D_RESOLVER wxT( "3D_RESOLVER" ) static std::mutex mutex_resolver; static bool getHollerith( const std::string& aString, size_t& aIndex, wxString& aResult ); FILENAME_RESOLVER::FILENAME_RESOLVER() : m_pgm( nullptr ), m_project( nullptr ) { m_errflags = 0; } bool FILENAME_RESOLVER::Set3DConfigDir( const wxString& aConfigDir ) { if( aConfigDir.empty() ) return false; wxFileName cfgdir( ExpandEnvVarSubstitutions( aConfigDir, m_project ), wxT( "" ) ); cfgdir.Normalize(); if( !cfgdir.DirExists() ) return false; m_configDir = cfgdir.GetPath(); createPathList(); return true; } bool FILENAME_RESOLVER::SetProject( PROJECT* aProject, bool* flgChanged ) { m_project = aProject; if( !aProject ) return false; wxFileName projdir( ExpandEnvVarSubstitutions( aProject->GetProjectPath(), aProject ), wxT( "" ) ); projdir.Normalize(); if( !projdir.DirExists() ) return false; m_curProjDir = projdir.GetPath(); if( flgChanged ) *flgChanged = false; if( m_paths.empty() ) { SEARCH_PATH al; al.m_Alias = wxT( "${KIPRJMOD}" ); al.m_Pathvar = wxT( "${KIPRJMOD}" ); al.m_Pathexp = m_curProjDir; m_paths.push_back( al ); if( flgChanged ) *flgChanged = true; } else { if( m_paths.front().m_Pathexp != m_curProjDir ) { m_paths.front().m_Pathexp = m_curProjDir; if( flgChanged ) *flgChanged = true; } else { return true; } } #ifdef DEBUG { std::ostringstream ostr; ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n"; ostr << " * [INFO] changed project dir to "; ostr << m_paths.front().m_Pathexp.ToUTF8(); wxLogTrace( MASK_3D_RESOLVER, wxT( "%s\n" ), ostr.str().c_str() ); } #endif return true; } wxString FILENAME_RESOLVER::GetProjectDir() const { return m_curProjDir; } void FILENAME_RESOLVER::SetProgramBase( PGM_BASE* aBase ) { m_pgm = aBase; if( !m_pgm || m_paths.empty() ) return; // recreate the path list m_paths.clear(); createPathList(); } bool FILENAME_RESOLVER::createPathList() { if( !m_paths.empty() ) return true; wxString kmod; // add an entry for the default search path; at this point // we cannot set a sensible default so we use an empty string. // the user may change this later with a call to SetProjectDir() SEARCH_PATH lpath; lpath.m_Alias = wxT( "${KIPRJMOD}" ); lpath.m_Pathvar = wxT( "${KIPRJMOD}" ); lpath.m_Pathexp = m_curProjDir; m_paths.push_back( lpath ); wxFileName fndummy; wxUniChar psep = fndummy.GetPathSeparator(); std::list< wxString > epaths; if( GetKicadPaths( epaths ) ) { for( const wxString& curr_path : epaths ) { wxString pathVal = ExpandEnvVarSubstitutions( curr_path, m_project ); if( pathVal.empty() ) { lpath.m_Pathexp.clear(); } else { fndummy.Assign( pathVal, wxT( "" ) ); fndummy.Normalize(); lpath.m_Pathexp = fndummy.GetFullPath(); } lpath.m_Alias = curr_path; lpath.m_Pathvar = curr_path; if( !lpath.m_Pathexp.empty() && psep == *lpath.m_Pathexp.rbegin() ) lpath.m_Pathexp.erase( --lpath.m_Pathexp.end() ); m_paths.push_back( lpath ); } } if( !m_configDir.empty() ) readPathList(); if( m_paths.empty() ) return false; #ifdef DEBUG wxLogTrace( MASK_3D_RESOLVER, wxT( " * [3D model] search paths:\n" ) ); std::list< SEARCH_PATH >::const_iterator sPL = m_paths.begin(); while( sPL != m_paths.end() ) { wxLogTrace( MASK_3D_RESOLVER, wxT( " + %s : '%s'\n" ), (*sPL).m_Alias.GetData(), (*sPL).m_Pathexp.GetData() ); ++sPL; } #endif return true; } bool FILENAME_RESOLVER::UpdatePathList( const std::vector< SEARCH_PATH >& aPathList ) { wxUniChar envMarker( '$' ); while( !m_paths.empty() && envMarker != *m_paths.back().m_Alias.rbegin() ) m_paths.pop_back(); for( const SEARCH_PATH& path : aPathList ) addPath( path ); return WritePathList( m_configDir, RESOLVER_CONFIG, false ); } wxString FILENAME_RESOLVER::ResolvePath( const wxString& aFileName ) { std::lock_guard lock( mutex_resolver ); if( aFileName.empty() ) return wxEmptyString; if( m_paths.empty() ) createPathList(); // first attempt to use the name as specified: wxString tname = aFileName; #ifdef _WIN32 // translate from KiCad's internal UNIX-like path to MSWin paths tname.Replace( wxT( "/" ), wxT( "\\" ) ); #endif // Note: variable expansion must preferably be performed via a threadsafe wrapper for the // getenv() system call. If we allow the wxFileName::Normalize() routine to perform expansion // then we will have a race condition since wxWidgets does not assure a threadsafe wrapper // for getenv(). tname = ExpandEnvVarSubstitutions( tname, m_project ); wxFileName tmpFN( tname ); // this case covers full paths, leading expanded vars, and paths relative to the current // working directory (which is not necessarily the current project directory) if( tmpFN.FileExists() ) { tmpFN.Normalize(); tname = tmpFN.GetFullPath(); // special case: if a path begins with ${ENV_VAR} but is not in the resolver's path list // then add it. if( aFileName.StartsWith( wxT( "${" ) ) || aFileName.StartsWith( wxT( "$(" ) ) ) checkEnvVarPath( aFileName ); return tname; } // if a path begins with ${ENV_VAR}/$(ENV_VAR) and is not resolved then the file either does // not exist or the ENV_VAR is not defined if( aFileName.StartsWith( wxT( "${" ) ) || aFileName.StartsWith( wxT( "$(" ) ) ) { if( !( m_errflags & ERRFLG_ENVPATH ) ) { m_errflags |= ERRFLG_ENVPATH; wxString errmsg = wxT( "[3D File Resolver] No such path; ensure the environment var is defined" ); errmsg.append( wxT( "\n" ) ); errmsg.append( tname ); errmsg.append( wxT( "\n" ) ); wxLogTrace( tracePathsAndFiles, errmsg ); } return wxEmptyString; } // at this point aFileName is: // a. an aliased shortened name or // b. cannot be determined // check the path relative to the current project directory; // NB: this is not necessarily the same as the current working directory, which has already // been checked. This case accounts for partial paths which do not contain ${KIPRJMOD}. // This check is performed before checking the path relative to ${KICAD6_3DMODEL_DIR} so that // users can potentially override a model within ${KICAD6_3DMODEL_DIR}. if( !m_paths.begin()->m_Pathexp.empty() && !tname.StartsWith( wxT( ":" ) ) ) { tmpFN.Assign( m_paths.begin()->m_Pathexp, wxT( "" ) ); wxString fullPath = tmpFN.GetPathWithSep() + tname; fullPath = ExpandEnvVarSubstitutions( fullPath, m_project ); if( wxFileName::FileExists( fullPath ) ) { tmpFN.Assign( fullPath ); tmpFN.Normalize(); tname = tmpFN.GetFullPath(); return tname; } } // check the partial path relative to ${KICAD6_3DMODEL_DIR} (legacy behavior) if( !tname.StartsWith( wxT( ":" ) ) ) { wxFileName fpath; wxString fullPath( wxT( "${KICAD6_3DMODEL_DIR}" ) ); fullPath.Append( fpath.GetPathSeparator() ); fullPath.Append( tname ); fullPath = ExpandEnvVarSubstitutions( fullPath, m_project ); fpath.Assign( fullPath ); if( fpath.Normalize() && fpath.FileExists() ) { tname = fpath.GetFullPath(); return tname; } } // at this point the filename must contain an alias or else it is invalid wxString alias; // the alias portion of the short filename wxString relpath; // the path relative to the alias if( !SplitAlias( tname, alias, relpath ) ) { if( !( m_errflags & ERRFLG_RELPATH ) ) { // this can happen if the file was intended to be relative to ${KICAD6_3DMODEL_DIR} // but ${KICAD6_3DMODEL_DIR} is not set or is incorrect. m_errflags |= ERRFLG_RELPATH; wxString errmsg = wxT( "[3D File Resolver] No such path" ); errmsg.append( wxT( "\n" ) ); errmsg.append( tname ); errmsg.append( wxT( "\n" ) ); wxLogTrace( tracePathsAndFiles, errmsg ); } return wxEmptyString; } for( const SEARCH_PATH& path : m_paths ) { // ${ENV_VAR} paths have already been checked; skip them if( path.m_Alias.StartsWith( wxT( "${" ) ) || path.m_Alias.StartsWith( wxT( "$(" ) ) ) continue; if( path.m_Alias == alias && !path.m_Pathexp.empty() ) { wxFileName fpath( wxFileName::DirName( path.m_Pathexp ) ); wxString fullPath = fpath.GetPathWithSep() + relpath; fullPath = ExpandEnvVarSubstitutions( fullPath, m_project ); if( wxFileName::FileExists( fullPath ) ) { tname = fullPath; wxFileName tmp( fullPath ); if( tmp.Normalize() ) tname = tmp.GetFullPath(); return tname; } } } if( !( m_errflags & ERRFLG_ALIAS ) ) { m_errflags |= ERRFLG_ALIAS; wxString errmsg = wxT( "[3D File Resolver] No such path; ensure the path alias is defined" ); errmsg.append( wxT( "\n" ) ); errmsg.append( tname.substr( 1 ) ); errmsg.append( wxT( "\n" ) ); wxLogTrace( tracePathsAndFiles, errmsg ); } return wxEmptyString; } bool FILENAME_RESOLVER::addPath( const SEARCH_PATH& aPath ) { if( aPath.m_Alias.empty() || aPath.m_Pathvar.empty() ) return false; std::lock_guard lock( mutex_resolver ); SEARCH_PATH tpath = aPath; #ifdef _WIN32 while( tpath.m_Pathvar.EndsWith( wxT( "\\" ) ) ) tpath.m_Pathvar.erase( tpath.m_Pathvar.length() - 1 ); #else while( tpath.m_Pathvar.EndsWith( wxT( "/" ) ) && tpath.m_Pathvar.length() > 1 ) tpath.m_Pathvar.erase( tpath.m_Pathvar.length() - 1 ); #endif wxFileName path( ExpandEnvVarSubstitutions( tpath.m_Pathvar, m_project ), wxT( "" ) ); path.Normalize(); if( !path.DirExists() ) { if( aPath.m_Pathvar == wxT( "${KICAD6_3DMODEL_DIR}" ) || aPath.m_Pathvar == wxT( "${KIPRJMOD}" ) || aPath.m_Pathvar == wxT( "$(KIPRJMOD)" ) || aPath.m_Pathvar == wxT( "${KISYS3DMOD}" ) || aPath.m_Pathvar == wxT( "$(KISYS3DMOD)" ) ) { // suppress the message if the missing pathvar is a system variable } else { wxString msg = _( "The given path does not exist" ); msg.append( wxT( "\n" ) ); msg.append( tpath.m_Pathvar ); wxMessageBox( msg, _( "3D model search path" ) ); } tpath.m_Pathexp.clear(); } else { tpath.m_Pathexp = path.GetFullPath(); #ifdef _WIN32 while( tpath.m_Pathexp.EndsWith( wxT( "\\" ) ) ) tpath.m_Pathexp.erase( tpath.m_Pathexp.length() - 1 ); #else while( tpath.m_Pathexp.EndsWith( wxT( "/" ) ) && tpath.m_Pathexp.length() > 1 ) tpath.m_Pathexp.erase( tpath.m_Pathexp.length() - 1 ); #endif } std::list< SEARCH_PATH >::iterator sPL = m_paths.begin(); std::list< SEARCH_PATH >::iterator ePL = m_paths.end(); while( sPL != ePL ) { if( tpath.m_Alias == sPL->m_Alias ) { wxString msg = _( "Alias: " ); msg.append( tpath.m_Alias ); msg.append( wxT( "\n" ) ); msg.append( _( "This path:wxT( " ) + wxS( " ) " ) ); msg.append( tpath.m_Pathvar ); msg.append( wxT( "\n" ) ); msg.append( _( "Existing path:wxT( " ) + wxS( " ) " ) ); msg.append( sPL->m_Pathvar ); wxMessageBox( msg, _( "Bad alias (duplicate name)" ) ); return false; } ++sPL; } m_paths.push_back( tpath ); return true; } bool FILENAME_RESOLVER::readPathList() { if( m_configDir.empty() ) { std::ostringstream ostr; ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n"; wxString errmsg = wxT( "3D configuration directory is unknown" ); ostr << wxT( " * " ) << errmsg.ToUTF8(); wxLogTrace( MASK_3D_RESOLVER, wxT( "%s\n" ), ostr.str().c_str() ); return false; } wxFileName cfgpath( m_configDir, RESOLVER_CONFIG ); cfgpath.Normalize(); wxString cfgname = cfgpath.GetFullPath(); size_t nitems = m_paths.size(); std::ifstream cfgFile; std::string cfgLine; if( !wxFileName::Exists( cfgname ) ) { std::ostringstream ostr; ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n"; wxString errmsg = wxT( "no 3D configuration file" ); ostr << " * " << errmsg.ToUTF8() << " '"; ostr << cfgname.ToUTF8() << "'"; wxLogTrace( MASK_3D_RESOLVER, wxT( "%s\n" ), ostr.str().c_str() ); return false; } cfgFile.open( cfgname.ToUTF8() ); if( !cfgFile.is_open() ) { std::ostringstream ostr; ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n"; wxString errmsg = wxT( "Could not open configuration file" ); ostr << " * " << errmsg.ToUTF8() << " '" << cfgname.ToUTF8() << "'"; wxLogTrace( MASK_3D_RESOLVER, wxT( "%s\n" ), ostr.str().c_str() ); return false; } int lineno = 0; SEARCH_PATH al; size_t idx; int vnum = 0; // version number while( cfgFile.good() ) { cfgLine.clear(); std::getline( cfgFile, cfgLine ); ++lineno; if( cfgLine.empty() ) { if( cfgFile.eof() ) break; continue; } if( 1 == lineno && cfgLine.compare( 0, 2, "#V" ) == 0 ) { // extract the version number and parse accordingly if( cfgLine.size() > 2 ) { std::istringstream istr; istr.str( cfgLine.substr( 2 ) ); istr >> vnum; } continue; } idx = 0; if( !getHollerith( cfgLine, idx, al.m_Alias ) ) continue; // Don't add KICAD6_3DMODEL_DIR, one of its legacy equivalents, or KIPRJMOD from a // config file. They're system variables are are defined at runtime. if( al.m_Alias == wxT( "${KICAD6_3DMODEL_DIR}" ) || al.m_Alias == wxT( "${KIPRJMOD}" ) || al.m_Alias == wxT( "$(KIPRJMOD)" ) || al.m_Alias == wxT( "${KISYS3DMOD}" ) || al.m_Alias == wxT( "$(KISYS3DMOD)" ) ) { continue; } if( !getHollerith( cfgLine, idx, al.m_Pathvar ) ) continue; if( !getHollerith( cfgLine, idx, al.m_Description ) ) continue; addPath( al ); } cfgFile.close(); if( vnum < CFGFILE_VERSION ) WritePathList( m_configDir, RESOLVER_CONFIG, false ); return( m_paths.size() != nitems ); } bool FILENAME_RESOLVER::WritePathList( const wxString& aDir, const wxString& aFilename, bool aResolvePaths ) { if( aDir.empty() ) { std::ostringstream ostr; ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n"; wxString errmsg = _( "3D configuration directory is unknown" ); ostr << " * " << errmsg.ToUTF8(); wxLogTrace( MASK_3D_RESOLVER, wxT( "%s\n" ), ostr.str().c_str() ); wxMessageBox( errmsg, _( "Write 3D search path list" ) ); return false; } std::list::const_iterator sPL = m_paths.begin(); if( !aResolvePaths ) { // skip all ${ENV_VAR} alias names while( sPL != m_paths.end() && ( sPL->m_Alias.StartsWith( wxT( "${" ) ) || sPL->m_Alias.StartsWith( wxT( "$(" ) ) ) ) { ++sPL; } } wxFileName cfgpath( aDir, aFilename ); wxString cfgname = cfgpath.GetFullPath(); std::ofstream cfgFile; cfgFile.open( cfgname.ToUTF8(), std::ios_base::trunc ); if( !cfgFile.is_open() ) { std::ostringstream ostr; ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n"; wxString errmsg = _( "Could not open configuration file" ); ostr << " * " << errmsg.ToUTF8() << " '" << cfgname.ToUTF8() << "'"; wxLogTrace( MASK_3D_RESOLVER, wxT( "%s\n" ), ostr.str().c_str() ); wxMessageBox( errmsg, _( "Write 3D search path list" ) ); return false; } cfgFile << "#V" << CFGFILE_VERSION << "\n"; std::string tstr; while( sPL != m_paths.end() ) { tstr = sPL->m_Alias.ToUTF8(); cfgFile << "\"" << tstr.size() << ":" << tstr << "\","; if( aResolvePaths ) tstr = ExpandEnvVarSubstitutions( sPL->m_Pathvar, m_project ).ToUTF8(); else tstr = sPL->m_Pathvar.ToUTF8(); cfgFile << "\"" << tstr.size() << ":" << tstr << "\","; tstr = sPL->m_Description.ToUTF8(); cfgFile << "\"" << tstr.size() << ":" << tstr << "\"\n"; ++sPL; } bool bad = cfgFile.bad(); cfgFile.close(); if( bad ) { wxMessageBox( _( "Problems writing configuration file" ), _( "Write 3D search path list" ) ); return false; } return true; } void FILENAME_RESOLVER::checkEnvVarPath( const wxString& aPath ) { bool useParen = false; if( aPath.StartsWith( wxT( "$(" ) ) ) useParen = true; else if( !aPath.StartsWith( wxT( "${" ) ) ) return; size_t pEnd; if( useParen ) pEnd = aPath.find( wxT( ")" ) ); else pEnd = aPath.find( wxT( "}" ) ); if( pEnd == wxString::npos ) return; wxString envar = aPath.substr( 0, pEnd + 1 ); // check if the alias exists; if not then add it to the end of the // env var section of the path list auto sPL = m_paths.begin(); auto ePL = m_paths.end(); while( sPL != ePL ) { if( sPL->m_Alias == envar ) return; if( !sPL->m_Alias.StartsWith( wxT( "${" ) ) ) break; ++sPL; } SEARCH_PATH lpath; lpath.m_Alias = envar; lpath.m_Pathvar = lpath.m_Alias; wxFileName tmpFN( ExpandEnvVarSubstitutions( lpath.m_Alias, m_project ), wxT( "" ) ); wxUniChar psep = tmpFN.GetPathSeparator(); tmpFN.Normalize(); if( !tmpFN.DirExists() ) return; lpath.m_Pathexp = tmpFN.GetFullPath(); if( !lpath.m_Pathexp.empty() && psep == *lpath.m_Pathexp.rbegin() ) lpath.m_Pathexp.erase( --lpath.m_Pathexp.end() ); if( lpath.m_Pathexp.empty() ) return; m_paths.insert( sPL, lpath ); } wxString FILENAME_RESOLVER::ShortenPath( const wxString& aFullPathName ) { wxString fname = aFullPathName; if( m_paths.empty() ) createPathList(); std::lock_guard lock( mutex_resolver ); std::list< SEARCH_PATH >::const_iterator sL = m_paths.begin(); size_t idx; while( sL != m_paths.end() ) { // undefined paths do not participate in the // file name shortening procedure if( sL->m_Pathexp.empty() ) { ++sL; continue; } wxFileName fpath; // in the case of aliases, ensure that we use the most recent definition if( sL->m_Alias.StartsWith( wxT( "${" ) ) || sL->m_Alias.StartsWith( wxT( "$(" ) ) ) { wxString tpath = ExpandEnvVarSubstitutions( sL->m_Alias, m_project ); if( tpath.empty() ) { ++sL; continue; } fpath.Assign( tpath, wxT( "" ) ); } else { fpath.Assign( sL->m_Pathexp, wxT( "" ) ); } wxString fps = fpath.GetPathWithSep(); wxString tname; idx = fname.find( fps ); if( idx == 0 ) { fname = fname.substr( fps.size() ); #ifdef _WIN32 // ensure only the '/' separator is used in the internal name fname.Replace( wxT( "\\" ), wxT( "/" ) ); #endif if( sL->m_Alias.StartsWith( wxT( "${" ) ) || sL->m_Alias.StartsWith( wxT( "$(" ) ) ) { // old style ENV_VAR tname = sL->m_Alias; tname.Append( wxT( "/" ) ); tname.append( fname ); } else { // new style alias tname = wxT( ":" ); tname.append( sL->m_Alias ); tname.append( wxT( ":" ) ); tname.append( fname ); } return tname; } ++sL; } #ifdef _WIN32 // it is strange to convert an MSWin full path to use the // UNIX separator but this is done for consistency and can // be helpful even when transferring project files from // MSWin to *NIX. fname.Replace( wxT( "\\" ), wxT( "/" ) ); #endif return fname; } const std::list< SEARCH_PATH >* FILENAME_RESOLVER::GetPaths() const { return &m_paths; } bool FILENAME_RESOLVER::SplitAlias( const wxString& aFileName, wxString& anAlias, wxString& aRelPath ) const { anAlias.clear(); aRelPath.clear(); size_t searchStart = 0; if( aFileName.StartsWith( wxT( ":" ) ) ) searchStart = 1; size_t tagpos = aFileName.find( wxT( ":" ), searchStart ); if( tagpos == wxString::npos || tagpos == searchStart ) return false; if( tagpos + 1 >= aFileName.length() ) return false; anAlias = aFileName.substr( searchStart, tagpos - searchStart ); aRelPath = aFileName.substr( tagpos + 1 ); return true; } static bool getHollerith( const std::string& aString, size_t& aIndex, wxString& aResult ) { aResult.clear(); if( aIndex >= aString.size() ) { std::ostringstream ostr; ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n"; wxString errmsg = wxT( "bad Hollerith string on line" ); ostr << " * " << errmsg.ToUTF8() << "\n'" << aString << "'"; wxLogTrace( MASK_3D_RESOLVER, wxT( "%s\n" ), ostr.str().c_str() ); return false; } size_t i2 = aString.find( '"', aIndex ); if( std::string::npos == i2 ) { std::ostringstream ostr; ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n"; wxString errmsg = wxT( "missing opening quote mark in config file" ); ostr << " * " << errmsg.ToUTF8() << "\n'" << aString << "'"; wxLogTrace( MASK_3D_RESOLVER, wxT( "%s\n" ), ostr.str().c_str() ); return false; } ++i2; if( i2 >= aString.size() ) { std::ostringstream ostr; ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n"; wxString errmsg = wxT( "invalid entry (unexpected end of line)" ); ostr << " * " << errmsg.ToUTF8() << "\n'" << aString << "'"; wxLogTrace( MASK_3D_RESOLVER, wxT( "%s\n" ), ostr.str().c_str() ); return false; } std::string tnum; while( aString[i2] >= '0' && aString[i2] <= '9' ) tnum.append( 1, aString[i2++] ); if( tnum.empty() || aString[i2++] != ':' ) { std::ostringstream ostr; ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n"; wxString errmsg = wxT( "bad Hollerith string on line" ); ostr << " * " << errmsg.ToUTF8() << "\n'" << aString << "'"; wxLogTrace( MASK_3D_RESOLVER, wxT( "%s\n" ), ostr.str().c_str() ); return false; } std::istringstream istr; istr.str( tnum ); size_t nchars; istr >> nchars; if( (i2 + nchars) >= aString.size() ) { std::ostringstream ostr; ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n"; wxString errmsg = wxT( "invalid entry (unexpected end of line)" ); ostr << " * " << errmsg.ToUTF8() << "\n'" << aString << "'"; wxLogTrace( MASK_3D_RESOLVER, wxT( "%s\n" ), ostr.str().c_str() ); return false; } if( nchars > 0 ) { aResult = wxString::FromUTF8( aString.substr( i2, nchars ).c_str() ); i2 += nchars; } if( i2 >= aString.size() || aString[i2] != '"' ) { std::ostringstream ostr; ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n"; wxString errmsg = wxT( "missing closing quote mark in config file" ); ostr << " * " << errmsg.ToUTF8() << "\n'" << aString << "'"; wxLogTrace( MASK_3D_RESOLVER, wxT( "%s\n" ), ostr.str().c_str() ); return false; } aIndex = i2 + 1; return true; } bool FILENAME_RESOLVER::ValidateFileName( const wxString& aFileName, bool& hasAlias ) const { // Rules: // 1. The generic form of an aliased 3D relative path is: // ALIAS:relative/path // 2. ALIAS is a UTF string excluding wxT( "{}[]()%~<>\"='`;:.,&?/\\|$" ) // 3. The relative path must be a valid relative path for the platform hasAlias = false; if( aFileName.empty() ) return false; wxString filename = aFileName; wxString lpath; size_t aliasStart = aFileName.StartsWith( ':' ) ? 1 : 0; size_t aliasEnd = aFileName.find( ':', aliasStart ); // ensure that the file separators suit the current platform #ifdef __WINDOWS__ filename.Replace( wxT( "/" ), wxT( "\\" ) ); // if we see the :\ pattern then it must be a drive designator if( aliasEnd != wxString::npos ) { size_t pos1 = filename.find( wxT( ":\\" ) ); if( pos1 != wxString::npos && ( pos1 != aliasEnd || pos1 != 1 ) ) return false; // if we have a drive designator then we have no alias if( pos1 != wxString::npos ) aliasEnd = wxString::npos; } #else filename.Replace( wxT( "\\" ), wxT( "/" ) ); #endif // names may not end with ':' if( aliasEnd == aFileName.length() -1 ) return false; if( aliasEnd != wxString::npos ) { // ensure the alias component is not empty if( aliasEnd == aliasStart ) return false; lpath = filename.substr( aliasStart, aliasEnd ); // check the alias for restricted characters if( wxString::npos != lpath.find_first_of( wxT( "{}[]()%~<>\"='`;:.,&?/\\|$" ) ) ) return false; hasAlias = true; lpath = aFileName.substr( aliasEnd + 1 ); } else { lpath = aFileName; // in the case of ${ENV_VAR}|$(ENV_VAR)/path, strip the // environment string before testing aliasEnd = wxString::npos; if( aFileName.StartsWith( wxT( "${" ) ) ) aliasEnd = aFileName.find( '}' ); else if( aFileName.StartsWith( wxT( "$(" ) ) ) aliasEnd = aFileName.find( ')' ); if( aliasEnd != wxString::npos ) lpath = aFileName.substr( aliasEnd + 1 ); } // Test for forbidden chars in filenames. Should be wxFileName::GetForbiddenChars() // On MSW, the list returned by wxFileName::GetForbiddenChars() contains separators // '\'and '/' used here because lpath can be a full path. // So remove separators wxString lpath_no_sep = lpath; #ifdef __WINDOWS__ lpath_no_sep.Replace( wxT( "/" ), wxT( " " ) ); lpath_no_sep.Replace( wxT( "\\" ), wxT( " " ) ); // A disk identifier is allowed, and therefore remove its separator if( lpath_no_sep.Length() > 1 && lpath_no_sep[1] == ':' ) lpath_no_sep[1] = ' '; #endif if( wxString::npos != lpath_no_sep.find_first_of( wxFileName::GetForbiddenChars() ) ) return false; return true; } bool FILENAME_RESOLVER::GetKicadPaths( std::list< wxString >& paths ) const { paths.clear(); if( !m_pgm ) return false; bool hasKisys3D = false; // iterate over the list of internally defined ENV VARs // and add them to the paths list ENV_VAR_MAP_CITER mS = m_pgm->GetLocalEnvVariables().begin(); ENV_VAR_MAP_CITER mE = m_pgm->GetLocalEnvVariables().end(); while( mS != mE ) { // filter out URLs, template directories, and known system paths if( mS->first == wxString( wxT( "KICAD_PTEMPLATES" ) ) || mS->first == wxString( wxT( "KICAD6_FOOTPRINT_DIR" ) ) ) { ++mS; continue; } if( wxString::npos != mS->second.GetValue().find( wxString( wxT( "://" ) ) ) ) { ++mS; continue; } wxString tmp( wxT( "${" ) ); tmp.Append( mS->first ); tmp.Append( wxT( "}" ) ); paths.push_back( tmp ); if( tmp == wxT( "${KICAD6_3DMODEL_DIR}" ) ) hasKisys3D = true; ++mS; } if( !hasKisys3D ) paths.emplace_back(wxT( "${KICAD6_3DMODEL_DIR}" ) ); return true; }