# -*- coding: utf-8 -*- """ /*************************************************************************** Name : DB Manager Description : Database manager plugin for QGIS Date : May 23, 2011 copyright : (C) 2011 by Giuseppe Sucameli email : brush.tyler@gmail.com ***************************************************************************/ /*************************************************************************** * * * 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 will disable the dbplugin if the connector raise an ImportError from .connector import PostGisDBConnector from PyQt4.QtCore import QSettings, Qt, QRegExp, SIGNAL from PyQt4.QtGui import QIcon, QAction, QApplication, QMessageBox from qgis.gui import QgsMessageBar from ..plugin import ConnectionError, InvalidDataException, DBPlugin, Database, Schema, Table, VectorTable, RasterTable, \ TableField, TableConstraint, TableIndex, TableTrigger, TableRule try: from . import resources_rc except ImportError: pass import re def classFactory(): return PostGisDBPlugin class PostGisDBPlugin(DBPlugin): @classmethod def icon(self): return QIcon(":/db_manager/postgis/icon") @classmethod def typeName(self): return 'postgis' @classmethod def typeNameString(self): return 'PostGIS' @classmethod def providerName(self): return 'postgres' @classmethod def connectionSettingsKey(self): return '/PostgreSQL/connections' def databasesFactory(self, connection, uri): return PGDatabase(connection, uri) def connect(self, parent=None): conn_name = self.connectionName() settings = QSettings() settings.beginGroup(u"/%s/%s" % (self.connectionSettingsKey(), conn_name)) if not settings.contains("database"): # non-existent entry? raise InvalidDataException(self.tr('There is no defined database connection "%s".') % conn_name) from qgis.core import QgsDataSourceURI uri = QgsDataSourceURI() settingsList = ["service", "host", "port", "database", "username", "password", "authcfg"] service, host, port, database, username, password, authcfg = map(lambda x: settings.value(x, "", type=str), settingsList) useEstimatedMetadata = settings.value("estimatedMetadata", False, type=bool) sslmode = settings.value("sslmode", QgsDataSourceURI.SSLprefer, type=int) settings.endGroup() if service: uri.setConnection(service, database, username, password, sslmode, authcfg) else: uri.setConnection(host, port, database, username, password, sslmode, authcfg) uri.setUseEstimatedMetadata(useEstimatedMetadata) try: return self.connectToUri(uri) except ConnectionError as e: return False class PGDatabase(Database): def __init__(self, connection, uri): Database.__init__(self, connection, uri) def connectorsFactory(self, uri): return PostGisDBConnector(uri) def dataTablesFactory(self, row, db, schema=None): return PGTable(row, db, schema) def info(self): from .info_model import PGDatabaseInfo return PGDatabaseInfo(self) def vectorTablesFactory(self, row, db, schema=None): return PGVectorTable(row, db, schema) def rasterTablesFactory(self, row, db, schema=None): return PGRasterTable(row, db, schema) def schemasFactory(self, row, db): return PGSchema(row, db) def sqlResultModel(self, sql, parent): from .data_model import PGSqlResultModel return PGSqlResultModel(self, sql, parent) def registerDatabaseActions(self, mainWindow): Database.registerDatabaseActions(self, mainWindow) # add a separator separator = QAction(self) separator.setSeparator(True) mainWindow.registerAction(separator, self.tr("&Table")) action = QAction(self.tr("Run &Vacuum Analyze"), self) mainWindow.registerAction(action, self.tr("&Table"), self.runVacuumAnalyzeActionSlot) def runVacuumAnalyzeActionSlot(self, item, action, parent): QApplication.restoreOverrideCursor() try: if not isinstance(item, Table) or item.isView: parent.infoBar.pushMessage(self.tr("Select a table for vacuum analyze."), QgsMessageBar.INFO, parent.iface.messageTimeout()) return finally: QApplication.setOverrideCursor(Qt.WaitCursor) item.runVacuumAnalyze() def hasLowercaseFieldNamesOption(self): return True class PGSchema(Schema): def __init__(self, row, db): Schema.__init__(self, db) self.oid, self.name, self.owner, self.perms, self.comment = row class PGTable(Table): def __init__(self, row, db, schema=None): Table.__init__(self, db, schema) self.name, schema_name, self._relationType, self.owner, self.estimatedRowCount, self.pages, self.comment = row self.isView = self._relationType in set(['v', 'm']) self.estimatedRowCount = int(self.estimatedRowCount) def runVacuumAnalyze(self): self.aboutToChange() self.database().connector.runVacuumAnalyze((self.schemaName(), self.name)) # TODO: change only this item, not re-create all the tables in the schema/database self.schema().refresh() if self.schema() else self.database().refresh() def runAction(self, action): action = unicode(action) if action.startswith("vacuumanalyze/"): if action == "vacuumanalyze/run": self.runVacuumAnalyze() return True elif action.startswith("rule/"): parts = action.split('/') rule_name = parts[1] rule_action = parts[2] msg = u"Do you want to %s rule %s?" % (rule_action, rule_name) QApplication.restoreOverrideCursor() try: if QMessageBox.question(None, self.tr("Table rule"), msg, QMessageBox.Yes | QMessageBox.No) == QMessageBox.No: return False finally: QApplication.setOverrideCursor(Qt.WaitCursor) if rule_action == "delete": self.aboutToChange() self.database().connector.deleteTableRule(rule_name, (self.schemaName(), self.name)) self.refreshRules() return True return Table.runAction(self, action) def tableFieldsFactory(self, row, table): return PGTableField(row, table) def tableConstraintsFactory(self, row, table): return PGTableConstraint(row, table) def tableIndexesFactory(self, row, table): return PGTableIndex(row, table) def tableTriggersFactory(self, row, table): return PGTableTrigger(row, table) def tableRulesFactory(self, row, table): return PGTableRule(row, table) def info(self): from .info_model import PGTableInfo return PGTableInfo(self) def tableDataModel(self, parent): from .data_model import PGTableDataModel return PGTableDataModel(self, parent) def delete(self): self.aboutToChange() if self.isView: ret = self.database().connector.deleteView((self.schemaName(), self.name), self._relationType == 'm') else: ret = self.database().connector.deleteTable((self.schemaName(), self.name)) if ret is not False: self.emit(SIGNAL('deleted')) return ret class PGVectorTable(PGTable, VectorTable): def __init__(self, row, db, schema=None): PGTable.__init__(self, row[:-4], db, schema) VectorTable.__init__(self, db, schema) self.geomColumn, self.geomType, self.geomDim, self.srid = row[-4:] def info(self): from .info_model import PGVectorTableInfo return PGVectorTableInfo(self) def runAction(self, action): if PGTable.runAction(self, action): return True return VectorTable.runAction(self, action) class PGRasterTable(PGTable, RasterTable): def __init__(self, row, db, schema=None): PGTable.__init__(self, row[:-6], db, schema) RasterTable.__init__(self, db, schema) self.geomColumn, self.pixelType, self.pixelSizeX, self.pixelSizeY, self.isExternal, self.srid = row[-6:] self.geomType = 'RASTER' def info(self): from .info_model import PGRasterTableInfo return PGRasterTableInfo(self) def gdalUri(self, uri=None): if not uri: uri = self.database().uri() schema = (u'schema=%s' % self.schemaName()) if self.schemaName() else '' dbname = (u'dbname=%s' % uri.database()) if uri.database() else '' host = (u'host=%s' % uri.host()) if uri.host() else '' user = (u'user=%s' % uri.username()) if uri.username() else '' passw = (u'password=%s' % uri.password()) if uri.password() else '' port = (u'port=%s' % uri.port()) if uri.port() else '' # Find first raster field col = '' for fld in self.fields(): if fld.dataType == "raster": col = u'column=%s' % fld.name break gdalUri = u'PG: %s %s %s %s %s mode=2 %s %s table=%s' % \ (dbname, host, user, passw, port, schema, col, self.name) return gdalUri def mimeUri(self): # QGIS has no provider for PGRasters, let's use GDAL uri = u"raster:gdal:%s:%s" % (self.name, re.sub(":", "\:", self.gdalUri())) return uri def toMapLayer(self): from qgis.core import QgsRasterLayer, QgsContrastEnhancement, QgsDataSourceURI, QgsCredentials rl = QgsRasterLayer(self.gdalUri(), self.name) if not rl.isValid(): err = rl.error().summary() uri = QgsDataSourceURI(self.database().uri()) conninfo = uri.connectionInfo(False) username = uri.username() password = uri.password() for i in range(3): (ok, username, password) = QgsCredentials.instance().get(conninfo, username, password, err) if ok: uri.setUsername(username) uri.setPassword(password) rl = QgsRasterLayer(self.gdalUri(uri), self.name) if rl.isValid(): break if rl.isValid(): rl.setContrastEnhancement(QgsContrastEnhancement.StretchToMinimumMaximum) return rl class PGTableField(TableField): def __init__(self, row, table): TableField.__init__(self, table) self.num, self.name, self.dataType, self.charMaxLen, self.modifier, self.notNull, self.hasDefault, self.default, typeStr = row self.primaryKey = False # get modifier (e.g. "precision,scale") from formatted type string trimmedTypeStr = typeStr.strip() regex = QRegExp("\((.+)\)$") startpos = regex.indexIn(trimmedTypeStr) if startpos >= 0: self.modifier = regex.cap(1).strip() else: self.modifier = None # find out whether fields are part of primary key for con in self.table().constraints(): if con.type == TableConstraint.TypePrimaryKey and self.num in con.columns: self.primaryKey = True break class PGTableConstraint(TableConstraint): def __init__(self, row, table): TableConstraint.__init__(self, table) self.name, constr_type_str, self.isDefferable, self.isDeffered, columns = row[:5] self.columns = map(int, columns.split(' ')) if constr_type_str in TableConstraint.types: self.type = TableConstraint.types[constr_type_str] else: self.type = TableConstraint.TypeUnknown if self.type == TableConstraint.TypeCheck: self.checkSource = row[5] elif self.type == TableConstraint.TypeForeignKey: self.foreignTable = row[6] self.foreignOnUpdate = TableConstraint.onAction[row[7]] self.foreignOnDelete = TableConstraint.onAction[row[8]] self.foreignMatchType = TableConstraint.matchTypes[row[9]] self.foreignKeys = row[10] class PGTableIndex(TableIndex): def __init__(self, row, table): TableIndex.__init__(self, table) self.name, columns, self.isUnique = row self.columns = map(int, columns.split(' ')) class PGTableTrigger(TableTrigger): def __init__(self, row, table): TableTrigger.__init__(self, table) self.name, self.function, self.type, self.enabled = row class PGTableRule(TableRule): def __init__(self, row, table): TableRule.__init__(self, table) self.name, self.definition = row