/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2019-2020 Thomas Pointhuber * Copyright (C) 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 "altium_binary_parser.h" #include "altium_parser_utils.h" #include #include #include #include #include #include #include #include // Helper for debug logging std::string FormatPath( const std::vector& aVectorPath ) { return std::accumulate( aVectorPath.cbegin(), aVectorPath.cend(), std::string(), []( const std::string& ss, const std::string& s ) { return ss.empty() ? s : ss + '\\' + s; } ); } ALTIUM_COMPOUND_FILE::ALTIUM_COMPOUND_FILE( const wxString& aFilePath ) { // Open file FILE* fp = wxFopen( aFilePath, "rb" ); if( fp == nullptr ) { THROW_IO_ERROR( wxString::Format( _( "Cannot open file '%s'." ), aFilePath ) ); } fseek( fp, 0, SEEK_END ); long len = ftell( fp ); if( len < 0 ) { fclose( fp ); THROW_IO_ERROR( _( "Error reading file: cannot determine length." ) ); } // Read into buffer (TODO: add support for memory-mapped files to avoid this copy!) m_buffer.resize( len ); fseek( fp, 0, SEEK_SET ); size_t bytesRead = fread( m_buffer.data(), sizeof( unsigned char ), len, fp ); fclose( fp ); if( static_cast( len ) != bytesRead ) { THROW_IO_ERROR( _( "Error reading file." ) ); } try { m_reader = std::make_unique( m_buffer.data(), m_buffer.size() ); } catch( CFB::CFBException& exception ) { THROW_IO_ERROR( exception.what() ); } } ALTIUM_COMPOUND_FILE::ALTIUM_COMPOUND_FILE( const void* aBuffer, size_t aLen ) { m_buffer.resize( aLen ); memcpy( m_buffer.data(), aBuffer, aLen ); try { m_reader = std::make_unique( m_buffer.data(), m_buffer.size() ); } catch( CFB::CFBException& exception ) { THROW_IO_ERROR( exception.what() ); } } std::unique_ptr ALTIUM_COMPOUND_FILE::DecodeIntLibStream( const CFB::COMPOUND_FILE_ENTRY& cfe ) { wxCHECK( cfe.size >= 1, nullptr ); size_t streamSize = cfe.size; wxMemoryBuffer buffer( streamSize ); buffer.SetDataLen( streamSize ); // read file into buffer GetCompoundFileReader().ReadFile( &cfe, 0, reinterpret_cast( buffer.GetData() ), streamSize ); // 0x02: compressed stream, 0x00: uncompressed if( buffer[0] == 0x02 ) { wxMemoryInputStream memoryInputStream( buffer.GetData(), streamSize ); memoryInputStream.SeekI( 1, wxFromStart ); wxZlibInputStream zlibInputStream( memoryInputStream ); wxMemoryOutputStream decodedPcbLibStream; decodedPcbLibStream << zlibInputStream; wxStreamBuffer* outStream = decodedPcbLibStream.GetOutputStreamBuffer(); return std::make_unique( outStream->GetBufferStart(), outStream->GetIntPosition() ); } else if( buffer[0] == 0x00 ) { return std::make_unique( reinterpret_cast( buffer.GetData() ) + 1, streamSize - 1 ); } else { wxFAIL_MSG( wxString::Format( "Altium IntLib unknown header: %02x %02x %02x %02x %02x", buffer[0], buffer[1], buffer[2], buffer[3], buffer[4] ) ); } return nullptr; } std::map ALTIUM_COMPOUND_FILE::ListLibFootprints() { if( m_libFootprintDirNameCache.empty() ) cacheLibFootprintNames(); return m_libFootprintDirNameCache; } std::tuple ALTIUM_COMPOUND_FILE::FindLibFootprintDirName( const wxString& aFpUnicodeName ) { if( m_libFootprintNameCache.empty() ) cacheLibFootprintNames(); auto it = m_libFootprintNameCache.find( aFpUnicodeName ); if( it == m_libFootprintNameCache.end() ) return { wxEmptyString, nullptr }; return { it->first, it->second }; } const CFB::COMPOUND_FILE_ENTRY* ALTIUM_COMPOUND_FILE::FindStreamSingleLevel( const CFB::COMPOUND_FILE_ENTRY* aEntry, const std::string aName, const bool aIsStream ) const { if( !m_reader || !aEntry ) return nullptr; const CFB::COMPOUND_FILE_ENTRY* ret = nullptr; m_reader->EnumFiles( aEntry, 1, [&]( const CFB::COMPOUND_FILE_ENTRY* entry, const CFB::utf16string& dir, int level ) -> int { if( ret != nullptr ) return 1; if( m_reader->IsStream( entry ) == aIsStream ) { std::string name = UTF16ToUTF8( entry->name ); if( name == aName.c_str() ) { ret = entry; return 1; } } return 0; } ); return ret; } std::map ALTIUM_COMPOUND_FILE::GetLibSymbols( const CFB::COMPOUND_FILE_ENTRY* aStart ) const { const CFB::COMPOUND_FILE_ENTRY* root = aStart ? aStart : m_reader->GetRootEntry(); if( !root ) return {}; std::map folders; m_reader->EnumFiles( root, 1, [&]( const CFB::COMPOUND_FILE_ENTRY* tentry, const CFB::utf16string&, int ) -> int { wxString dirName = UTF16ToWstring( tentry->name, tentry->nameLen ); if( m_reader->IsStream( tentry ) ) return 0; m_reader->EnumFiles( tentry, 1, [&]( const CFB::COMPOUND_FILE_ENTRY* entry, const CFB::utf16string&, int ) -> int { std::wstring fileName = UTF16ToWstring( entry->name, entry->nameLen ); if( m_reader->IsStream( entry ) && fileName == L"Data" ) folders[dirName] = entry; return 0; } ); return 0; } ); return folders; } std::map ALTIUM_COMPOUND_FILE::EnumDir( const std::wstring& aDir ) const { const CFB::COMPOUND_FILE_ENTRY* root = m_reader->GetRootEntry(); if( !root ) return {}; std::map files; m_reader->EnumFiles( root, 1, [&]( const CFB::COMPOUND_FILE_ENTRY* tentry, const CFB::utf16string& dir, int level ) -> int { if( m_reader->IsStream( tentry ) ) return 0; std::wstring dirName = UTF16ToWstring( tentry->name, tentry->nameLen ); if( dirName != aDir ) return 0; m_reader->EnumFiles( tentry, 1, [&]( const CFB::COMPOUND_FILE_ENTRY* entry, const CFB::utf16string&, int ) -> int { if( m_reader->IsStream( entry ) ) { std::wstring fileName = UTF16ToWstring( entry->name, entry->nameLen ); files[fileName] = entry; } return 0; } ); return 0; } ); return files; } const CFB::COMPOUND_FILE_ENTRY* ALTIUM_COMPOUND_FILE::FindStream( const CFB::COMPOUND_FILE_ENTRY* aStart, const std::vector& aStreamPath ) const { if( !m_reader ) return nullptr; if( !aStart ) aStart = m_reader->GetRootEntry(); auto it = aStreamPath.cbegin(); while( aStart != nullptr ) { const std::string& name = *it; if( ++it == aStreamPath.cend() ) { const CFB::COMPOUND_FILE_ENTRY* ret = FindStreamSingleLevel( aStart, name, true ); return ret; } else { const CFB::COMPOUND_FILE_ENTRY* ret = FindStreamSingleLevel( aStart, name, false ); aStart = ret; } } return nullptr; } const CFB::COMPOUND_FILE_ENTRY* ALTIUM_COMPOUND_FILE::FindStream( const std::vector& aStreamPath ) const { return FindStream( nullptr, aStreamPath ); } void ALTIUM_COMPOUND_FILE::cacheLibFootprintNames() { m_libFootprintDirNameCache.clear(); m_libFootprintNameCache.clear(); if( !m_reader ) return; const CFB::COMPOUND_FILE_ENTRY* root = m_reader->GetRootEntry(); if( !root ) return; m_reader->EnumFiles( root, 1, [this]( const CFB::COMPOUND_FILE_ENTRY* tentry, const CFB::utf16string& dir, int level ) -> int { if( m_reader->IsStream( tentry ) ) return 0; m_reader->EnumFiles( tentry, 1, [&]( const CFB::COMPOUND_FILE_ENTRY* entry, const CFB::utf16string&, int ) -> int { std::wstring fileName = UTF16ToWstring( entry->name, entry->nameLen ); if( m_reader->IsStream( entry ) && fileName == L"Parameters" ) { ALTIUM_BINARY_PARSER parametersReader( *this, entry ); std::map parameterProperties = parametersReader.ReadProperties(); wxString key = ALTIUM_PROPS_UTILS::ReadString( parameterProperties, wxT( "PATTERN" ), wxT( "" ) ); wxString fpName = ALTIUM_PROPS_UTILS::ReadUnicodeString( parameterProperties, wxT( "PATTERN" ), wxT( "" ) ); m_libFootprintDirNameCache[key] = fpName; m_libFootprintNameCache[fpName] = tentry; } return 0; } ); return 0; } ); } ALTIUM_BINARY_PARSER::ALTIUM_BINARY_PARSER( const ALTIUM_COMPOUND_FILE& aFile, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { m_subrecord_end = nullptr; m_size = static_cast( aEntry->size ); m_error = false; m_content.reset( new char[m_size] ); m_pos = m_content.get(); // read file into buffer aFile.GetCompoundFileReader().ReadFile( aEntry, 0, m_content.get(), m_size ); } ALTIUM_BINARY_PARSER::ALTIUM_BINARY_PARSER( std::unique_ptr& aContent, size_t aSize ) { m_subrecord_end = nullptr; m_size = aSize; m_error = false; m_content = std::move( aContent ); m_pos = m_content.get(); } std::map ALTIUM_BINARY_PARSER::ReadProperties( std::function( const std::string& )> handleBinaryData ) { std::map kv; uint32_t length = Read(); bool isBinary = ( length & 0xff000000 ) != 0; length &= 0x00ffffff; if( length > GetRemainingBytes() ) { m_error = true; return kv; } if( length == 0 ) { return kv; } // There is one case by kliment where Board6 ends with "|NEARDISTANCE=1000mi". // Both the 'l' and the null-byte are missing, which looks like Altium swallowed two bytes. bool hasNullByte = m_pos[length - 1] == '\0'; if( !hasNullByte ) { wxLogError( _( "Missing null byte at end of property list. Imported data might be " "malformed or missing." ) ); } // we use std::string because std::string can handle NULL-bytes // wxString would end the string at the first NULL-byte std::string str = std::string( m_pos, length - ( hasNullByte ? 1 : 0 ) ); m_pos += length; if( isBinary ) { return handleBinaryData( str ); } std::size_t token_end = 0; while( token_end < str.size() && token_end != std::string::npos ) { std::size_t token_start = str.find( '|', token_end ); std::size_t token_equal = str.find( '=', token_end ); std::size_t key_start; if( token_start <= token_equal ) { key_start = token_start + 1; } else { // Leading "|" before "RECORD=28" may be missing in older schematic versions. key_start = token_end; } token_end = str.find( '|', key_start ); if( token_equal >= token_end ) { continue; // this looks like an error: skip the entry. Also matches on std::string::npos } if( token_end == std::string::npos ) { token_end = str.size() + 1; // this is the correct offset } std::string keyS = str.substr( key_start, token_equal - key_start ); std::string valueS = str.substr( token_equal + 1, token_end - token_equal - 1 ); // convert the strings to wxStrings, since we use them everywhere // value can have non-ASCII characters, so we convert them from LATIN1/ISO8859-1 wxString key( keyS.c_str(), wxConvISO8859_1 ); // Altium stores keys either in Upper, or in CamelCase. Lets unify it. wxString canonicalKey = key.Trim( false ).Trim( true ).MakeUpper(); // If the key starts with '%UTF8%' we have to parse the value using UTF8 wxString value; if( canonicalKey.StartsWith( "%UTF8%" ) ) value = wxString( valueS.c_str(), wxConvUTF8 ); else value = wxString( valueS.c_str(), wxConvISO8859_1 ); if( canonicalKey != wxS( "PATTERN" ) && canonicalKey != wxS( "SOURCEFOOTPRINTLIBRARY" ) ) { // Breathless hack because I haven't a clue what the story is here (but this character // appears in a lot of radial dimensions and is rendered by Altium as a space). value.Replace( wxT( "ÿ" ), wxT( " " ) ); } if( canonicalKey == wxT( "DESIGNATOR" ) || canonicalKey == wxT( "NAME" ) || canonicalKey == wxT( "TEXT" ) ) { value = AltiumPropertyToKiCadString( value.Trim() ); } kv.insert( { canonicalKey, value.Trim() } ); } return kv; }