/* * MinIO Cloud Storage, (C) 2018 MinIO, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ // PostgreSQL Notifier implementation. Two formats, "namespace" and // "access" are supported. // // * Namespace format // // On each create or update object event in MinIO Object storage // server, a row is created or updated in the table in Postgres. On // each object removal, the corresponding row is deleted from the // table. // // A table with a specific structure (column names, column types, and // primary key/uniqueness constraint) is used. The user may set the // table name in the configuration. A sample SQL command that creates // a table with the required structure is: // // CREATE TABLE myminio ( // key VARCHAR PRIMARY KEY, // value JSONB // ); // // PostgreSQL's "INSERT ... ON CONFLICT ... DO UPDATE ..." feature // (UPSERT) is used here, so the minimum version of PostgreSQL // required is 9.5. // // * Access format // // On each event, a row is appended to the configured table. There is // no deletion or modification of existing rows. // // A different table schema is used for this format. A sample SQL // commant that creates a table with the required structure is: // // CREATE TABLE myminio ( // event_time TIMESTAMP WITH TIME ZONE NOT NULL, // event_data JSONB // ); package target import ( "database/sql" "encoding/json" "errors" "fmt" "net/url" "os" "path/filepath" "strconv" "strings" "time" _ "github.com/lib/pq" // Register postgres driver "github.com/minio/minio/pkg/event" xnet "github.com/minio/minio/pkg/net" ) const ( psqlTableExists = `SELECT 1 FROM %s;` psqlCreateNamespaceTable = `CREATE TABLE %s (key VARCHAR PRIMARY KEY, value JSONB);` psqlCreateAccessTable = `CREATE TABLE %s (event_time TIMESTAMP WITH TIME ZONE NOT NULL, event_data JSONB);` psqlUpdateRow = `INSERT INTO %s (key, value) VALUES ($1, $2) ON CONFLICT (key) DO UPDATE SET value = EXCLUDED.value;` psqlDeleteRow = `DELETE FROM %s WHERE key = $1;` psqlInsertRow = `INSERT INTO %s (event_time, event_data) VALUES ($1, $2);` ) // PostgreSQLArgs - PostgreSQL target arguments. type PostgreSQLArgs struct { Enable bool `json:"enable"` Format string `json:"format"` ConnectionString string `json:"connectionString"` Table string `json:"table"` Host xnet.Host `json:"host"` // default: localhost Port string `json:"port"` // default: 5432 User string `json:"user"` // default: user running minio Password string `json:"password"` // default: no password Database string `json:"database"` // default: same as user QueueDir string `json:"queueDir"` QueueLimit uint64 `json:"queueLimit"` } // Validate PostgreSQLArgs fields func (p PostgreSQLArgs) Validate() error { if !p.Enable { return nil } if p.Table == "" { return fmt.Errorf("empty table name") } if p.Format != "" { f := strings.ToLower(p.Format) if f != event.NamespaceFormat && f != event.AccessFormat { return fmt.Errorf("unrecognized format value") } } if p.ConnectionString != "" { // No pq API doesn't help to validate connection string // prior connection, so no validation for now. } else { // Some fields need to be specified when ConnectionString is unspecified if p.Port == "" { return fmt.Errorf("unspecified port") } if _, err := strconv.Atoi(p.Port); err != nil { return fmt.Errorf("invalid port") } if p.Database == "" { return fmt.Errorf("database unspecified") } } if p.QueueDir != "" { if !filepath.IsAbs(p.QueueDir) { return errors.New("queueDir path should be absolute") } } if p.QueueLimit > 10000 { return errors.New("queueLimit should not exceed 10000") } return nil } // PostgreSQLTarget - PostgreSQL target. type PostgreSQLTarget struct { id event.TargetID args PostgreSQLArgs updateStmt *sql.Stmt deleteStmt *sql.Stmt insertStmt *sql.Stmt db *sql.DB store Store firstPing bool } // ID - returns target ID. func (target *PostgreSQLTarget) ID() event.TargetID { return target.id } // Save - saves the events to the store if questore is configured, which will be replayed when the PostgreSQL connection is active. func (target *PostgreSQLTarget) Save(eventData event.Event) error { if target.store != nil { return target.store.Put(eventData) } if err := target.db.Ping(); err != nil { if IsConnErr(err) { return errNotConnected } return err } return target.send(eventData) } // IsConnErr - To detect a connection error. func IsConnErr(err error) bool { return IsConnRefusedErr(err) || err.Error() == "sql: database is closed" || err.Error() == "sql: statement is closed" || err.Error() == "invalid connection" } // send - sends an event to the PostgreSQL. func (target *PostgreSQLTarget) send(eventData event.Event) error { if target.args.Format == event.NamespaceFormat { objectName, err := url.QueryUnescape(eventData.S3.Object.Key) if err != nil { return err } key := eventData.S3.Bucket.Name + "/" + objectName if eventData.EventName == event.ObjectRemovedDelete { _, err = target.deleteStmt.Exec(key) } else { var data []byte if data, err = json.Marshal(struct{ Records []event.Event }{[]event.Event{eventData}}); err != nil { return err } _, err = target.updateStmt.Exec(key, data) } return err } if target.args.Format == event.AccessFormat { eventTime, err := time.Parse(event.AMZTimeFormat, eventData.EventTime) if err != nil { return err } data, err := json.Marshal(struct{ Records []event.Event }{[]event.Event{eventData}}) if err != nil { return err } if _, err = target.insertStmt.Exec(eventTime, data); err != nil { return err } } return nil } // Send - reads an event from store and sends it to PostgreSQL. func (target *PostgreSQLTarget) Send(eventKey string) error { if err := target.db.Ping(); err != nil { if IsConnErr(err) { return errNotConnected } return err } if !target.firstPing { if err := target.executeStmts(); err != nil { if IsConnErr(err) { return errNotConnected } return err } } eventData, eErr := target.store.Get(eventKey) if eErr != nil { // The last event key in a successful batch will be sent in the channel atmost once by the replayEvents() // Such events will not exist and wouldve been already been sent successfully. if os.IsNotExist(eErr) { return nil } return eErr } if err := target.send(eventData); err != nil { if IsConnErr(err) { return errNotConnected } return err } // Delete the event from store. return target.store.Del(eventKey) } // Close - closes underneath connections to PostgreSQL database. func (target *PostgreSQLTarget) Close() error { if target.updateStmt != nil { // FIXME: log returned error. ignore time being. _ = target.updateStmt.Close() } if target.deleteStmt != nil { // FIXME: log returned error. ignore time being. _ = target.deleteStmt.Close() } if target.insertStmt != nil { // FIXME: log returned error. ignore time being. _ = target.insertStmt.Close() } return target.db.Close() } // Executes the table creation statements. func (target *PostgreSQLTarget) executeStmts() error { _, err := target.db.Exec(fmt.Sprintf(psqlTableExists, target.args.Table)) if err != nil { createStmt := psqlCreateNamespaceTable if target.args.Format == event.AccessFormat { createStmt = psqlCreateAccessTable } if _, dbErr := target.db.Exec(fmt.Sprintf(createStmt, target.args.Table)); dbErr != nil { return dbErr } } switch target.args.Format { case event.NamespaceFormat: // insert or update statement if target.updateStmt, err = target.db.Prepare(fmt.Sprintf(psqlUpdateRow, target.args.Table)); err != nil { return err } // delete statement if target.deleteStmt, err = target.db.Prepare(fmt.Sprintf(psqlDeleteRow, target.args.Table)); err != nil { return err } case event.AccessFormat: // insert statement if target.insertStmt, err = target.db.Prepare(fmt.Sprintf(psqlInsertRow, target.args.Table)); err != nil { return err } } return nil } // NewPostgreSQLTarget - creates new PostgreSQL target. func NewPostgreSQLTarget(id string, args PostgreSQLArgs, doneCh <-chan struct{}) (*PostgreSQLTarget, error) { var firstPing bool params := []string{args.ConnectionString} if !args.Host.IsEmpty() { params = append(params, "host="+args.Host.String()) } if args.Port != "" { params = append(params, "port="+args.Port) } if args.User != "" { params = append(params, "user="+args.User) } if args.Password != "" { params = append(params, "password="+args.Password) } if args.Database != "" { params = append(params, "dbname="+args.Database) } connStr := strings.Join(params, " ") db, err := sql.Open("postgres", connStr) if err != nil { return nil, err } var store Store if args.QueueDir != "" { queueDir := filepath.Join(args.QueueDir, storePrefix+"-postgresql-"+id) store = NewQueueStore(queueDir, args.QueueLimit) if oErr := store.Open(); oErr != nil { return nil, oErr } } target := &PostgreSQLTarget{ id: event.TargetID{ID: id, Name: "postgresql"}, args: args, db: db, store: store, firstPing: firstPing, } err = target.db.Ping() if err != nil { if target.store == nil || !IsConnRefusedErr(err) { return nil, err } } else { if err = target.executeStmts(); err != nil { return nil, err } target.firstPing = true } if target.store != nil { // Replays the events from the store. eventKeyCh := replayEvents(target.store, doneCh) // Start replaying events from the store. go sendEvents(target, eventKeyCh, doneCh) } return target, nil }