package migrate import ( "bytes" "database/sql" "errors" "fmt" "io" "net/http" "path" "regexp" "sort" "strconv" "strings" "time" "github.com/rubenv/sql-migrate/sqlparse" "gopkg.in/gorp.v1" ) type MigrationDirection int const ( Up MigrationDirection = iota Down ) var tableName = "gorp_migrations" var schemaName = "" var numberPrefixRegex = regexp.MustCompile(`^(\d+).*$`) // PlanError happens where no migration plan could be created between the sets // of already applied migrations and the currently found. For example, when the database // contains a migration which is not among the migrations list found for an operation. type PlanError struct { Migration *Migration ErrorMessag string } func newPlanError(migration *Migration, errorMessage string) error { return &PlanError{ Migration: migration, ErrorMessag: errorMessage, } } func (p *PlanError) Error() string { return fmt.Sprintf("Unable to create migration plan because of %s: %s", p.Migration.Id, p.ErrorMessag) } // TxError is returned when any error is encountered during a database // transaction. It contains the relevant *Migration and notes it's Id in the // Error function output. type TxError struct { Migration *Migration Err error } func newTxError(migration *PlannedMigration, err error) error { return &TxError{ Migration: migration.Migration, Err: err, } } func (e *TxError) Error() string { return e.Err.Error() + " handling " + e.Migration.Id } // Set the name of the table used to store migration info. // // Should be called before any other call such as (Exec, ExecMax, ...). func SetTable(name string) { if name != "" { tableName = name } } // SetSchema sets the name of a schema that the migration table be referenced. func SetSchema(name string) { if name != "" { schemaName = name } } type Migration struct { Id string Up []string Down []string DisableTransactionUp bool DisableTransactionDown bool } func (m Migration) Less(other *Migration) bool { switch { case m.isNumeric() && other.isNumeric() && m.VersionInt() != other.VersionInt(): return m.VersionInt() < other.VersionInt() case m.isNumeric() && !other.isNumeric(): return true case !m.isNumeric() && other.isNumeric(): return false default: return m.Id < other.Id } } func (m Migration) isNumeric() bool { return len(m.NumberPrefixMatches()) > 0 } func (m Migration) NumberPrefixMatches() []string { return numberPrefixRegex.FindStringSubmatch(m.Id) } func (m Migration) VersionInt() int64 { v := m.NumberPrefixMatches()[1] value, err := strconv.ParseInt(v, 10, 64) if err != nil { panic(fmt.Sprintf("Could not parse %q into int64: %s", v, err)) } return value } type PlannedMigration struct { *Migration DisableTransaction bool Queries []string } type byId []*Migration func (b byId) Len() int { return len(b) } func (b byId) Swap(i, j int) { b[i], b[j] = b[j], b[i] } func (b byId) Less(i, j int) bool { return b[i].Less(b[j]) } type MigrationRecord struct { Id string `db:"id"` AppliedAt time.Time `db:"applied_at"` } var MigrationDialects = map[string]gorp.Dialect{ "sqlite3": gorp.SqliteDialect{}, "postgres": gorp.PostgresDialect{}, "mysql": gorp.MySQLDialect{Engine: "InnoDB", Encoding: "UTF8"}, "mssql": gorp.SqlServerDialect{}, "oci8": gorp.OracleDialect{}, } type MigrationSource interface { // Finds the migrations. // // The resulting slice of migrations should be sorted by Id. FindMigrations() ([]*Migration, error) } // A hardcoded set of migrations, in-memory. type MemoryMigrationSource struct { Migrations []*Migration } var _ MigrationSource = (*MemoryMigrationSource)(nil) func (m MemoryMigrationSource) FindMigrations() ([]*Migration, error) { // Make sure migrations are sorted. In order to make the MemoryMigrationSource safe for // concurrent use we should not mutate it in place. So `FindMigrations` would sort a copy // of the m.Migrations. migrations := make([]*Migration, len(m.Migrations)) copy(migrations, m.Migrations) sort.Sort(byId(migrations)) return migrations, nil } // A set of migrations loaded from an http.FileServer type HttpFileSystemMigrationSource struct { FileSystem http.FileSystem } var _ MigrationSource = (*HttpFileSystemMigrationSource)(nil) func (f HttpFileSystemMigrationSource) FindMigrations() ([]*Migration, error) { return findMigrations(f.FileSystem) } // A set of migrations loaded from a directory. type FileMigrationSource struct { Dir string } var _ MigrationSource = (*FileMigrationSource)(nil) func (f FileMigrationSource) FindMigrations() ([]*Migration, error) { filesystem := http.Dir(f.Dir) return findMigrations(filesystem) } func findMigrations(dir http.FileSystem) ([]*Migration, error) { migrations := make([]*Migration, 0) file, err := dir.Open("/") if err != nil { return nil, err } files, err := file.Readdir(0) if err != nil { return nil, err } for _, info := range files { if strings.HasSuffix(info.Name(), ".sql") { file, err := dir.Open(info.Name()) if err != nil { return nil, fmt.Errorf("Error while opening %s: %s", info.Name(), err) } migration, err := ParseMigration(info.Name(), file) if err != nil { return nil, fmt.Errorf("Error while parsing %s: %s", info.Name(), err) } migrations = append(migrations, migration) } } // Make sure migrations are sorted sort.Sort(byId(migrations)) return migrations, nil } // Migrations from a bindata asset set. type AssetMigrationSource struct { // Asset should return content of file in path if exists Asset func(path string) ([]byte, error) // AssetDir should return list of files in the path AssetDir func(path string) ([]string, error) // Path in the bindata to use. Dir string } var _ MigrationSource = (*AssetMigrationSource)(nil) func (a AssetMigrationSource) FindMigrations() ([]*Migration, error) { migrations := make([]*Migration, 0) files, err := a.AssetDir(a.Dir) if err != nil { return nil, err } for _, name := range files { if strings.HasSuffix(name, ".sql") { file, err := a.Asset(path.Join(a.Dir, name)) if err != nil { return nil, err } migration, err := ParseMigration(name, bytes.NewReader(file)) if err != nil { return nil, err } migrations = append(migrations, migration) } } // Make sure migrations are sorted sort.Sort(byId(migrations)) return migrations, nil } // Avoids pulling in the packr library for everyone, mimicks the bits of // packr.Box that we need. type PackrBox interface { List() []string Bytes(name string) []byte } // Migrations from a packr box. type PackrMigrationSource struct { Box PackrBox // Path in the box to use. Dir string } var _ MigrationSource = (*PackrMigrationSource)(nil) func (p PackrMigrationSource) FindMigrations() ([]*Migration, error) { migrations := make([]*Migration, 0) items := p.Box.List() prefix := "" dir := path.Clean(p.Dir) if dir != "." { prefix = fmt.Sprintf("%s/", dir) } for _, item := range items { if !strings.HasPrefix(item, prefix) { continue } name := strings.TrimPrefix(item, prefix) if strings.Contains(name, "/") { continue } if strings.HasSuffix(name, ".sql") { file := p.Box.Bytes(item) migration, err := ParseMigration(name, bytes.NewReader(file)) if err != nil { return nil, err } migrations = append(migrations, migration) } } // Make sure migrations are sorted sort.Sort(byId(migrations)) return migrations, nil } // Migration parsing func ParseMigration(id string, r io.ReadSeeker) (*Migration, error) { m := &Migration{ Id: id, } parsed, err := sqlparse.ParseMigration(r) if err != nil { return nil, fmt.Errorf("Error parsing migration (%s): %s", id, err) } m.Up = parsed.UpStatements m.Down = parsed.DownStatements m.DisableTransactionUp = parsed.DisableTransactionUp m.DisableTransactionDown = parsed.DisableTransactionDown return m, nil } type SqlExecutor interface { Exec(query string, args ...interface{}) (sql.Result, error) Insert(list ...interface{}) error Delete(list ...interface{}) (int64, error) } // Execute a set of migrations // // Returns the number of applied migrations. func Exec(db *sql.DB, dialect string, m MigrationSource, dir MigrationDirection) (int, error) { return ExecMax(db, dialect, m, dir, 0) } // Execute a set of migrations // // Will apply at most `max` migrations. Pass 0 for no limit (or use Exec). // // Returns the number of applied migrations. func ExecMax(db *sql.DB, dialect string, m MigrationSource, dir MigrationDirection, max int) (int, error) { migrations, dbMap, err := PlanMigration(db, dialect, m, dir, max) if err != nil { return 0, err } // Apply migrations applied := 0 for _, migration := range migrations { var executor SqlExecutor if migration.DisableTransaction { executor = dbMap } else { executor, err = dbMap.Begin() if err != nil { return applied, newTxError(migration, err) } } for _, stmt := range migration.Queries { if _, err := executor.Exec(stmt); err != nil { if trans, ok := executor.(*gorp.Transaction); ok { trans.Rollback() } return applied, newTxError(migration, err) } } switch dir { case Up: err = executor.Insert(&MigrationRecord{ Id: migration.Id, AppliedAt: time.Now(), }) if err != nil { if trans, ok := executor.(*gorp.Transaction); ok { trans.Rollback() } return applied, newTxError(migration, err) } case Down: _, err := executor.Delete(&MigrationRecord{ Id: migration.Id, }) if err != nil { if trans, ok := executor.(*gorp.Transaction); ok { trans.Rollback() } return applied, newTxError(migration, err) } default: panic("Not possible") } if trans, ok := executor.(*gorp.Transaction); ok { if err := trans.Commit(); err != nil { return applied, newTxError(migration, err) } } applied++ } return applied, nil } // Plan a migration. func PlanMigration(db *sql.DB, dialect string, m MigrationSource, dir MigrationDirection, max int) ([]*PlannedMigration, *gorp.DbMap, error) { dbMap, err := getMigrationDbMap(db, dialect) if err != nil { return nil, nil, err } migrations, err := m.FindMigrations() if err != nil { return nil, nil, err } var migrationRecords []MigrationRecord _, err = dbMap.Select(&migrationRecords, fmt.Sprintf("SELECT * FROM %s", dbMap.Dialect.QuotedTableForQuery(schemaName, tableName))) if err != nil { return nil, nil, err } // Sort migrations that have been run by Id. var existingMigrations []*Migration for _, migrationRecord := range migrationRecords { existingMigrations = append(existingMigrations, &Migration{ Id: migrationRecord.Id, }) } sort.Sort(byId(existingMigrations)) // Make sure all migrations in the database are among the found migrations which // are to be applied. migrationsSearch := make(map[string]struct{}) for _, migration := range migrations { migrationsSearch[migration.Id] = struct{}{} } for _, existingMigration := range existingMigrations { if _, ok := migrationsSearch[existingMigration.Id]; !ok { return nil, nil, newPlanError(existingMigration, "unknown migration in database") } } // Get last migration that was run record := &Migration{} if len(existingMigrations) > 0 { record = existingMigrations[len(existingMigrations)-1] } result := make([]*PlannedMigration, 0) // Add missing migrations up to the last run migration. // This can happen for example when merges happened. if len(existingMigrations) > 0 { result = append(result, ToCatchup(migrations, existingMigrations, record)...) } // Figure out which migrations to apply toApply := ToApply(migrations, record.Id, dir) toApplyCount := len(toApply) if max > 0 && max < toApplyCount { toApplyCount = max } for _, v := range toApply[0:toApplyCount] { if dir == Up { result = append(result, &PlannedMigration{ Migration: v, Queries: v.Up, DisableTransaction: v.DisableTransactionUp, }) } else if dir == Down { result = append(result, &PlannedMigration{ Migration: v, Queries: v.Down, DisableTransaction: v.DisableTransactionDown, }) } } return result, dbMap, nil } // Skip a set of migrations // // Will skip at most `max` migrations. Pass 0 for no limit. // // Returns the number of skipped migrations. func SkipMax(db *sql.DB, dialect string, m MigrationSource, dir MigrationDirection, max int) (int, error) { migrations, dbMap, err := PlanMigration(db, dialect, m, dir, max) if err != nil { return 0, err } // Skip migrations applied := 0 for _, migration := range migrations { var executor SqlExecutor if migration.DisableTransaction { executor = dbMap } else { executor, err = dbMap.Begin() if err != nil { return applied, newTxError(migration, err) } } err = executor.Insert(&MigrationRecord{ Id: migration.Id, AppliedAt: time.Now(), }) if err != nil { if trans, ok := executor.(*gorp.Transaction); ok { trans.Rollback() } return applied, newTxError(migration, err) } if trans, ok := executor.(*gorp.Transaction); ok { if err := trans.Commit(); err != nil { return applied, newTxError(migration, err) } } applied++ } return applied, nil } // Filter a slice of migrations into ones that should be applied. func ToApply(migrations []*Migration, current string, direction MigrationDirection) []*Migration { var index = -1 if current != "" { for index < len(migrations)-1 { index++ if migrations[index].Id == current { break } } } if direction == Up { return migrations[index+1:] } else if direction == Down { if index == -1 { return []*Migration{} } // Add in reverse order toApply := make([]*Migration, index+1) for i := 0; i < index+1; i++ { toApply[index-i] = migrations[i] } return toApply } panic("Not possible") } func ToCatchup(migrations, existingMigrations []*Migration, lastRun *Migration) []*PlannedMigration { missing := make([]*PlannedMigration, 0) for _, migration := range migrations { found := false for _, existing := range existingMigrations { if existing.Id == migration.Id { found = true break } } if !found && migration.Less(lastRun) { missing = append(missing, &PlannedMigration{ Migration: migration, Queries: migration.Up, DisableTransaction: migration.DisableTransactionUp, }) } } return missing } func GetMigrationRecords(db *sql.DB, dialect string) ([]*MigrationRecord, error) { dbMap, err := getMigrationDbMap(db, dialect) if err != nil { return nil, err } var records []*MigrationRecord query := fmt.Sprintf("SELECT * FROM %s ORDER BY id ASC", dbMap.Dialect.QuotedTableForQuery(schemaName, tableName)) _, err = dbMap.Select(&records, query) if err != nil { return nil, err } return records, nil } func getMigrationDbMap(db *sql.DB, dialect string) (*gorp.DbMap, error) { d, ok := MigrationDialects[dialect] if !ok { return nil, fmt.Errorf("Unknown dialect: %s", dialect) } // When using the mysql driver, make sure that the parseTime option is // configured, otherwise it won't map time columns to time.Time. See // https://github.com/rubenv/sql-migrate/issues/2 if dialect == "mysql" { var out *time.Time err := db.QueryRow("SELECT NOW()").Scan(&out) if err != nil { if err.Error() == "sql: Scan error on column index 0: unsupported driver -> Scan pair: []uint8 -> *time.Time" || err.Error() == "sql: Scan error on column index 0: unsupported Scan, storing driver.Value type []uint8 into type *time.Time" { return nil, errors.New(`Cannot parse dates. Make sure that the parseTime option is supplied to your database connection. Check https://github.com/go-sql-driver/mysql#parsetime for more info.`) } else { return nil, err } } } // Create migration database map dbMap := &gorp.DbMap{Db: db, Dialect: d} dbMap.AddTableWithNameAndSchema(MigrationRecord{}, schemaName, tableName).SetKeys(false, "Id") //dbMap.TraceOn("", log.New(os.Stdout, "migrate: ", log.Lmicroseconds)) err := dbMap.CreateTablesIfNotExists() if err != nil { return nil, err } return dbMap, nil } // TODO: Run migration + record insert in transaction.