kicad/eeschema/sch_io/database/sch_io_database.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2022 Jon Evans <jon@craftyjon.com>
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* Copyright (C) 2022-2024 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 3 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, see <http://www.gnu.org/licenses/>.
*/
#include <iostream>
#include <unordered_set>
#include <wx/datetime.h>
#include <wx/log.h>
#include <boost/algorithm/string.hpp>
#include <database/database_connection.h>
#include <database/database_lib_settings.h>
#include <fmt.h>
#include <lib_symbol.h>
#include <symbol_lib_table.h>
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#include "sch_io_database.h"
SCH_IO_DATABASE::SCH_IO_DATABASE() : SCH_IO( wxS( "Database library" ) ),
m_libTable( nullptr ),
m_settings(),
m_conn()
{
m_cacheTimestamp = 0;
m_cacheModifyHash = 0;
}
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SCH_IO_DATABASE::~SCH_IO_DATABASE()
{
}
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void SCH_IO_DATABASE::EnumerateSymbolLib( wxArrayString& aSymbolNameList,
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const wxString& aLibraryPath,
const STRING_UTF8_MAP* aProperties )
{
std::vector<LIB_SYMBOL*> symbols;
EnumerateSymbolLib( symbols, aLibraryPath, aProperties );
for( LIB_SYMBOL* symbol : symbols )
aSymbolNameList.Add( symbol->GetName() );
}
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void SCH_IO_DATABASE::EnumerateSymbolLib( std::vector<LIB_SYMBOL*>& aSymbolList,
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const wxString& aLibraryPath,
const STRING_UTF8_MAP* aProperties )
{
wxCHECK_RET( m_libTable, "Database plugin missing library table handle!" );
ensureSettings( aLibraryPath );
ensureConnection();
cacheLib();
if( !m_conn )
THROW_IO_ERROR( m_lastError );
bool powerSymbolsOnly = ( aProperties &&
aProperties->find( SYMBOL_LIB_TABLE::PropPowerSymsOnly ) !=
aProperties->end() );
for( auto const& pair : m_nameToSymbolcache )
{
LIB_SYMBOL* symbol = pair.second.get();
if( !powerSymbolsOnly || symbol->IsPower() )
aSymbolList.emplace_back( symbol );
}
}
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LIB_SYMBOL* SCH_IO_DATABASE::LoadSymbol( const wxString& aLibraryPath,
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const wxString& aAliasName,
const STRING_UTF8_MAP* aProperties )
{
wxCHECK( m_libTable, nullptr );
ensureSettings( aLibraryPath );
ensureConnection();
if( !m_conn )
THROW_IO_ERROR( m_lastError );
/*
* Table names are tricky, in order to allow maximum flexibility to the user.
* The slash character is used as a separator between a table name and symbol name, but symbol
* names may also contain slashes and table names may now also be empty (which results in the
* slash being dropped in the symbol name when placing a new symbol). So, if a slash is found,
* we check if the string before the slash is a valid table name. If not, we assume the table
* name is blank if our config has an entry for the null table.
*/
std::string tableName = "";
std::string symbolName( aAliasName.ToUTF8() );
if( aAliasName.Contains( '/' ) )
{
tableName = std::string( aAliasName.BeforeFirst( '/' ).ToUTF8() );
symbolName = std::string( aAliasName.AfterFirst( '/' ).ToUTF8() );
}
std::vector<const DATABASE_LIB_TABLE*> tablesToTry;
for( const DATABASE_LIB_TABLE& tableIter : m_settings->m_Tables )
{
if( tableIter.name == tableName )
tablesToTry.emplace_back( &tableIter );
}
if( tablesToTry.empty() )
{
wxLogTrace( traceDatabase, wxT( "LoadSymbol: table '%s' not found in config" ), tableName );
return nullptr;
}
const DATABASE_LIB_TABLE* foundTable = nullptr;
DATABASE_CONNECTION::ROW result;
for( const DATABASE_LIB_TABLE* table : tablesToTry )
{
if( m_conn->SelectOne( table->table, std::make_pair( table->key_col, symbolName ),
result ) )
{
foundTable = table;
wxLogTrace( traceDatabase, wxT( "LoadSymbol: SelectOne (%s, %s) found in %s" ),
table->key_col, symbolName, table->table );
}
else
{
wxLogTrace( traceDatabase, wxT( "LoadSymbol: SelectOne (%s, %s) failed for table %s" ),
table->key_col, symbolName, table->table );
}
}
wxCHECK( foundTable, nullptr );
return loadSymbolFromRow( aAliasName, *foundTable, result ).release();
}
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void SCH_IO_DATABASE::GetSubLibraryNames( std::vector<wxString>& aNames )
{
ensureSettings( wxEmptyString );
aNames.clear();
std::set<wxString> tableNames;
for( const DATABASE_LIB_TABLE& tableIter : m_settings->m_Tables )
{
if( tableNames.count( tableIter.name ) )
continue;
aNames.emplace_back( tableIter.name );
tableNames.insert( tableIter.name );
}
}
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void SCH_IO_DATABASE::GetAvailableSymbolFields( std::vector<wxString>& aNames )
{
std::copy( m_customFields.begin(), m_customFields.end(), std::back_inserter( aNames ) );
}
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void SCH_IO_DATABASE::GetDefaultSymbolFields( std::vector<wxString>& aNames )
{
std::copy( m_defaultShownFields.begin(), m_defaultShownFields.end(),
std::back_inserter( aNames ) );
}
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bool SCH_IO_DATABASE::TestConnection( wxString* aErrorMsg )
{
if( m_conn && m_conn->IsConnected() )
return true;
connect();
if( aErrorMsg && ( !m_conn || !m_conn->IsConnected() ) )
*aErrorMsg = m_lastError;
return m_conn && m_conn->IsConnected();
}
void SCH_IO_DATABASE::cacheLib()
{
long long currentTimestampSeconds = wxDateTime::Now().GetValue().GetValue() / 1000;
if( m_libTable->GetModifyHash() == m_cacheModifyHash
&& ( currentTimestampSeconds - m_cacheTimestamp ) < m_settings->m_Cache.max_age )
{
return;
}
for( const DATABASE_LIB_TABLE& table : m_settings->m_Tables )
{
std::vector<DATABASE_CONNECTION::ROW> results;
if( !m_conn->SelectAll( table.table, table.key_col, results ) )
{
if( !m_conn->GetLastError().empty() )
{
wxString msg = wxString::Format( _( "Error reading database table %s: %s" ),
table.table, m_conn->GetLastError() );
THROW_IO_ERROR( msg );
}
continue;
}
for( DATABASE_CONNECTION::ROW& result : results )
{
if( !result.count( table.key_col ) )
continue;
std::string prefix = table.name.empty() ? "" : fmt::format( "{}/", table.name );
wxString name( fmt::format( "{}{}", prefix,
std::any_cast<std::string>( result[table.key_col] ) ) );
std::unique_ptr<LIB_SYMBOL> symbol = loadSymbolFromRow( name, table, result );
if( symbol )
m_nameToSymbolcache[symbol->GetName()] = std::move( symbol );
}
}
m_cacheTimestamp = currentTimestampSeconds;
m_cacheModifyHash = m_libTable->GetModifyHash();
}
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void SCH_IO_DATABASE::ensureSettings( const wxString& aSettingsPath )
{
auto tryLoad =
[&]()
{
if( !m_settings->LoadFromFile() )
{
wxString msg = wxString::Format(
_( "Could not load database library: settings file %s missing or invalid" ),
aSettingsPath );
THROW_IO_ERROR( msg );
}
};
if( !m_settings && !aSettingsPath.IsEmpty() )
{
std::string path( aSettingsPath.ToUTF8() );
m_settings = std::make_unique<DATABASE_LIB_SETTINGS>( path );
m_settings->SetReadOnly( true );
tryLoad();
}
else if( !m_conn && m_settings )
{
// If we have valid settings but no connection yet; reload settings in case user is editing
tryLoad();
}
else if( m_conn && m_settings && !aSettingsPath.IsEmpty() )
{
wxASSERT_MSG( aSettingsPath == m_settings->GetFilename(),
"Path changed for database library without re-initializing plugin!" );
}
else if( !m_settings )
{
wxLogTrace( traceDatabase, wxT( "ensureSettings: no settings but no valid path!" ) );
}
}
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void SCH_IO_DATABASE::ensureConnection()
{
wxCHECK_RET( m_settings, "Call ensureSettings before ensureConnection!" );
connect();
if( !m_conn || !m_conn->IsConnected() )
{
wxString msg = wxString::Format(
_( "Could not load database library: could not connect to database %s (%s)" ),
m_settings->m_Source.dsn, m_lastError );
THROW_IO_ERROR( msg );
}
}
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void SCH_IO_DATABASE::connect()
{
wxCHECK_RET( m_settings, "Call ensureSettings before connect()!" );
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if( m_conn && !m_conn->IsConnected() )
m_conn.reset();
if( !m_conn )
{
if( m_settings->m_Source.connection_string.empty() )
{
m_conn = std::make_unique<DATABASE_CONNECTION>( m_settings->m_Source.dsn,
m_settings->m_Source.username,
m_settings->m_Source.password,
m_settings->m_Source.timeout );
}
else
{
std::string cs = m_settings->m_Source.connection_string;
std::string basePath( wxFileName( m_settings->GetFilename() ).GetPath().ToUTF8() );
// Database drivers that use files operate on absolute paths, so provide a mechanism
// for specifying on-disk databases that live next to the kicad_dbl file
boost::replace_all( cs, "${CWD}", basePath );
m_conn = std::make_unique<DATABASE_CONNECTION>( cs, m_settings->m_Source.timeout );
}
if( !m_conn->IsConnected() )
{
m_lastError = m_conn->GetLastError();
m_conn.reset();
return;
}
for( const DATABASE_LIB_TABLE& tableIter : m_settings->m_Tables )
{
std::set<std::string> columns;
columns.insert( tableIter.key_col );
columns.insert( tableIter.footprints_col );
columns.insert( tableIter.symbols_col );
columns.insert( tableIter.properties.description );
columns.insert( tableIter.properties.footprint_filters );
columns.insert( tableIter.properties.keywords );
columns.insert( tableIter.properties.exclude_from_sim );
columns.insert( tableIter.properties.exclude_from_bom );
columns.insert( tableIter.properties.exclude_from_board );
for( const DATABASE_FIELD_MAPPING& field : tableIter.fields )
columns.insert( field.column );
m_conn->CacheTableInfo( tableIter.table, columns );
}
m_conn->SetCacheParams( m_settings->m_Cache.max_size, m_settings->m_Cache.max_age );
}
}
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std::optional<bool> SCH_IO_DATABASE::boolFromAny( const std::any& aVal )
{
try
{
bool val = std::any_cast<bool>( aVal );
return val;
}
catch( const std::bad_any_cast& )
{
}
try
{
int val = std::any_cast<int>( aVal );
return static_cast<bool>( val );
}
catch( const std::bad_any_cast& )
{
}
try
{
wxString strval( std::any_cast<std::string>( aVal ).c_str(), wxConvUTF8 );
if( strval.IsEmpty() )
return std::nullopt;
strval.MakeLower();
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for( const auto& trueVal : { wxS( "true" ), wxS( "yes" ), wxS( "y" ), wxS( "1" ) } )
{
if( strval.Matches( trueVal ) )
return true;
}
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for( const auto& falseVal : { wxS( "false" ), wxS( "no" ), wxS( "n" ), wxS( "0" ) } )
{
if( strval.Matches( falseVal ) )
return false;
}
}
catch( const std::bad_any_cast& )
{
}
return std::nullopt;
}
std::unique_ptr<LIB_SYMBOL> SCH_IO_DATABASE::loadSymbolFromRow( const wxString& aSymbolName,
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const DATABASE_LIB_TABLE& aTable,
const DATABASE_CONNECTION::ROW& aRow )
{
std::unique_ptr<LIB_SYMBOL> symbol = nullptr;
if( aRow.count( aTable.symbols_col ) )
{
LIB_SYMBOL* originalSymbol = nullptr;
// TODO: Support multiple options for symbol
std::string symbolIdStr = std::any_cast<std::string>( aRow.at( aTable.symbols_col ) );
LIB_ID symbolId;
symbolId.Parse( std::any_cast<std::string>( aRow.at( aTable.symbols_col ) ) );
if( symbolId.IsValid() )
originalSymbol = m_libTable->LoadSymbol( symbolId );
if( originalSymbol )
{
wxLogTrace( traceDatabase, wxT( "loadSymbolFromRow: found original symbol '%s'" ),
symbolIdStr );
symbol.reset( originalSymbol->Duplicate() );
symbol->SetSourceLibId( symbolId );
}
else if( !symbolId.IsValid() )
{
wxLogTrace( traceDatabase, wxT( "loadSymboFromRow: source symbol id '%s' is invalid, "
"will create empty symbol" ), symbolIdStr );
}
else
{
wxLogTrace( traceDatabase, wxT( "loadSymboFromRow: source symbol '%s' not found, "
"will create empty symbol" ), symbolIdStr );
}
}
if( !symbol )
{
// Actual symbol not found: return metadata only; error will be indicated in the
// symbol chooser
symbol.reset( new LIB_SYMBOL( aSymbolName ) );
}
else
{
symbol->SetName( aSymbolName );
}
LIB_ID libId = symbol->GetLibId();
libId.SetSubLibraryName( aTable.name );;
symbol->SetLibId( libId );
if( aRow.count( aTable.footprints_col ) )
{
std::string footprints = std::any_cast<std::string>( aRow.at( aTable.footprints_col ) );
wxString footprintsStr = wxString( footprints.c_str(), wxConvUTF8 );
wxArrayString footprintsList;
wxStringTokenizer tokenizer( footprintsStr, ';' );
while( tokenizer.HasMoreTokens() )
footprintsList.Add( tokenizer.GetNextToken() );
if( footprintsList.size() > 0 )
symbol->GetFootprintField().SetText( footprintsList[0] );
symbol->SetFPFilters( footprintsList );
}
else
{
wxLogTrace( traceDatabase, wxT( "loadSymboFromRow: footprint field %s not found." ),
aTable.footprints_col );
}
if( !aTable.properties.description.empty() && aRow.count( aTable.properties.description ) )
{
wxString value(
std::any_cast<std::string>( aRow.at( aTable.properties.description ) ).c_str(),
wxConvUTF8 );
symbol->SetDescription( value );
}
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if( !aTable.properties.keywords.empty() && aRow.count( aTable.properties.keywords ) )
{
wxString value( std::any_cast<std::string>( aRow.at( aTable.properties.keywords ) ).c_str(),
wxConvUTF8 );
symbol->SetKeyWords( value );
}
if( !aTable.properties.footprint_filters.empty()
&& aRow.count( aTable.properties.footprint_filters ) )
{
wxString value( std::any_cast<std::string>( aRow.at( aTable.properties.footprint_filters ) )
.c_str(),
wxConvUTF8 );
wxArrayString filters;
filters.push_back( value );
symbol->SetFPFilters( filters );
}
if( !aTable.properties.exclude_from_sim.empty()
&& aRow.count( aTable.properties.exclude_from_sim ) )
{
std::optional<bool> val = boolFromAny( aRow.at( aTable.properties.exclude_from_sim ) );
if( val )
{
symbol->SetExcludedFromSim( *val );
}
else
{
wxLogTrace( traceDatabase, wxT( "loadSymbolFromRow: exclude_from_sim value for %s "
"could not be cast to a boolean" ), aSymbolName );
}
}
if( !aTable.properties.exclude_from_board.empty()
&& aRow.count( aTable.properties.exclude_from_board ) )
{
std::optional<bool> val = boolFromAny( aRow.at( aTable.properties.exclude_from_board ) );
if( val )
{
symbol->SetExcludedFromBoard( *val );
}
else
{
wxLogTrace( traceDatabase, wxT( "loadSymbolFromRow: exclude_from_board value for %s "
"could not be cast to a boolean" ), aSymbolName );
}
}
if( !aTable.properties.exclude_from_bom.empty()
&& aRow.count( aTable.properties.exclude_from_bom ) )
{
std::optional<bool> val = boolFromAny( aRow.at( aTable.properties.exclude_from_bom ) );
if( val )
{
symbol->SetExcludedFromBOM( *val );
}
else
{
wxLogTrace( traceDatabase, wxT( "loadSymbolFromRow: exclude_from_bom value for %s "
"could not be cast to a boolean" ), aSymbolName );
}
}
std::vector<LIB_FIELD*> fields;
symbol->GetFields( fields );
std::unordered_map<wxString, LIB_FIELD*> fieldsMap;
for( LIB_FIELD* field : fields )
fieldsMap[field->GetName()] = field;
static const wxString c_valueFieldName( wxS( "Value" ) );
static const wxString c_datasheetFieldName( wxS( "Datasheet" ) );
for( const DATABASE_FIELD_MAPPING& mapping : aTable.fields )
{
if( !aRow.count( mapping.column ) )
{
wxLogTrace( traceDatabase, wxT( "loadSymbolFromRow: field %s not found in result" ),
mapping.column );
continue;
}
std::string strValue;
try
{
strValue = std::any_cast<std::string>( aRow.at( mapping.column ) );
}
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catch( std::bad_any_cast& )
{
}
wxString value( strValue.c_str(), wxConvUTF8 );
if( mapping.name_wx == c_valueFieldName )
{
LIB_FIELD& field = symbol->GetValueField();
field.SetText( value );
if( !mapping.inherit_properties )
{
field.SetVisible( mapping.visible_on_add );
field.SetNameShown( mapping.show_name );
}
continue;
}
else if( mapping.name_wx == c_datasheetFieldName )
{
LIB_FIELD& field = symbol->GetDatasheetField();
field.SetText( value );
if( !mapping.inherit_properties )
{
field.SetVisible( mapping.visible_on_add );
field.SetNameShown( mapping.show_name );
if( mapping.visible_on_add )
field.SetAutoAdded( true );
}
continue;
}
LIB_FIELD* field;
bool isNew = false;
if( fieldsMap.count( mapping.name_wx ) )
{
field = fieldsMap[mapping.name_wx];
}
else
{
field = new LIB_FIELD( symbol->GetNextAvailableFieldId() );
field->SetName( mapping.name_wx );
isNew = true;
fieldsMap[mapping.name_wx] = field;
}
if( !mapping.inherit_properties || isNew )
{
field->SetVisible( mapping.visible_on_add );
field->SetAutoAdded( true );
field->SetNameShown( mapping.show_name );
}
field->SetText( value );
if( isNew )
symbol->AddDrawItem( field, false );
m_customFields.insert( mapping.name_wx );
if( mapping.visible_in_chooser )
m_defaultShownFields.insert( mapping.name_wx );
}
symbol->GetDrawItems().sort();
return symbol;
}