// Package sqlite3 implements the sq driver for SQLite. // The backing SQL driver is mattn/sqlite3. package sqlite3 import "C" import ( "context" "database/sql" "fmt" "net/url" "os" "path/filepath" "strings" "sync" "time" "github.com/neilotoole/sq/libsq/core/lg/lga" "github.com/neilotoole/sq/libsq/core/lg/lgm" "github.com/neilotoole/sq/libsq/core/lg" "golang.org/x/exp/slog" _ "github.com/mattn/go-sqlite3" // Import for side effect of loading the driver "github.com/neilotoole/sq/libsq/ast/sqlbuilder" "github.com/neilotoole/sq/libsq/core/errz" "github.com/neilotoole/sq/libsq/core/kind" "github.com/neilotoole/sq/libsq/core/sqlmodel" "github.com/neilotoole/sq/libsq/core/sqlz" "github.com/neilotoole/sq/libsq/core/stringz" "github.com/neilotoole/sq/libsq/driver" "github.com/neilotoole/sq/libsq/source" ) const ( // Type is the sqlite3 source driver type. Type source.Type = "sqlite3" // dbDrvr is the backing sqlite3 SQL driver impl name. dbDrvr = "sqlite3" // Prefix is the scheme+separator value "sqlite3://". Prefix = "sqlite3://" ) var _ driver.Provider = (*Provider)(nil) // Provider is the SQLite3 implementation of driver.Provider. type Provider struct { Log *slog.Logger } // DriverFor implements driver.Provider. func (d *Provider) DriverFor(typ source.Type) (driver.Driver, error) { if typ != Type { return nil, errz.Errorf("unsupported driver type {%s}", typ) } return &driveri{log: d.Log}, nil } var _ driver.Driver = (*driveri)(nil) // driveri is the SQLite3 implementation of driver.Driver. type driveri struct { log *slog.Logger } // DriverMetadata implements driver.Driver. func (d *driveri) DriverMetadata() driver.Metadata { return driver.Metadata{ Type: Type, Description: "SQLite", Doc: "https://github.com/mattn/go-sqlite3", IsSQL: true, } } // Open implements driver.Driver. func (d *driveri) Open(_ context.Context, src *source.Source) (driver.Database, error) { d.log.Debug(lgm.OpenSrc, lga.Src, src) dsn, err := PathFromLocation(src) if err != nil { return nil, err } db, err := sql.Open(dbDrvr, dsn) if err != nil { return nil, errz.Wrapf(err, "failed to open sqlite3 source with DSN: %s", dsn) } return &database{log: d.log, db: db, src: src, drvr: d}, nil } // Truncate implements driver.Driver. func (d *driveri) Truncate(ctx context.Context, src *source.Source, tbl string, reset bool) (affected int64, err error, ) { dsn, err := PathFromLocation(src) if err != nil { return 0, err } db, err := sql.Open(dbDrvr, dsn) if err != nil { return 0, errz.Err(err) } defer lg.WarnIfFuncError(d.log, lgm.CloseDB, db.Close) tx, err := db.BeginTx(ctx, nil) if err != nil { return 0, errz.Err(err) } affected, err = sqlz.ExecAffected(ctx, tx, fmt.Sprintf("DELETE FROM %q", tbl)) if err != nil { return affected, errz.Append(err, errz.Err(tx.Rollback())) } if reset { // First check that the sqlite_sequence table event exists. It // may not exist if there are no auto-increment columns? const q = `SELECT COUNT(name) FROM sqlite_master WHERE type='table' AND name='sqlite_sequence'` var count int64 err = tx.QueryRowContext(ctx, q).Scan(&count) if err != nil { return 0, errz.Append(err, errz.Err(tx.Rollback())) } if count > 0 { _, err = tx.ExecContext(ctx, "UPDATE sqlite_sequence SET seq = 0 WHERE name = ?", tbl) if err != nil { return 0, errz.Append(err, errz.Err(tx.Rollback())) } } } return affected, errz.Err(tx.Commit()) } // ValidateSource implements driver.Driver. func (d *driveri) ValidateSource(src *source.Source) (*source.Source, error) { if src.Type != Type { return nil, errz.Errorf("expected driver type {%s} but got {%s}", Type, src.Type) } return src, nil } // Ping implements driver.Driver. func (d *driveri) Ping(ctx context.Context, src *source.Source) error { dbase, err := d.Open(ctx, src) if err != nil { return err } defer lg.WarnIfCloseError(d.log, lgm.CloseDB, dbase) return dbase.DB().Ping() } // Dialect implements driver.SQLDriver. func (d *driveri) Dialect() driver.Dialect { return driver.Dialect{ Type: Type, Placeholders: placeholders, Quote: '"', MaxBatchValues: 500, } } func placeholders(numCols, numRows int) string { rows := make([]string, numRows) for i := 0; i < numRows; i++ { rows[i] = "(" + stringz.RepeatJoin("?", numCols, driver.Comma) + ")" } return strings.Join(rows, driver.Comma) } // SQLBuilder implements driver.SQLDriver. func (d *driveri) SQLBuilder() (sqlbuilder.FragmentBuilder, sqlbuilder.QueryBuilder) { return newFragmentBuilder(d.log), &sqlbuilder.BaseQueryBuilder{} } // CopyTable implements driver.SQLDriver. func (d *driveri) CopyTable(ctx context.Context, db sqlz.DB, fromTable, toTable string, copyData bool) (int64, error) { // Per https://stackoverflow.com/questions/12730390/copy-table-structure-to-new-table-in-sqlite3 // It is possible to copy the table structure with a simple statement: // CREATE TABLE copied AS SELECT * FROM mytable WHERE 0 // However, this does not keep the type information as desired. Thus // we need to do something more complicated. var originTblCreateStmt string err := db.QueryRowContext(ctx, fmt.Sprintf("SELECT sql FROM sqlite_master WHERE type='table' AND name='%s'", fromTable)).Scan(&originTblCreateStmt) if err != nil { return 0, errz.Err(err) } // A simple replace of the table name should work to mutate the // above CREATE stmt to use toTable instead of fromTable. destTblCreateStmt := strings.Replace(originTblCreateStmt, fromTable, toTable, 1) _, err = db.ExecContext(ctx, destTblCreateStmt) if err != nil { return 0, errz.Err(err) } if !copyData { return 0, nil } stmt := fmt.Sprintf("INSERT INTO %q SELECT * FROM %q", toTable, fromTable) affected, err := sqlz.ExecAffected(ctx, db, stmt) if err != nil { return 0, errz.Err(err) } return affected, nil } // RecordMeta implements driver.SQLDriver. func (d *driveri) RecordMeta(colTypes []*sql.ColumnType) (sqlz.RecordMeta, driver.NewRecordFunc, error) { recMeta, err := recordMetaFromColumnTypes(d.log, colTypes) if err != nil { return nil, nil, errz.Err(err) } mungeFn := func(vals []any) (sqlz.Record, error) { rec := newRecordFromScanRow(recMeta, vals) return rec, nil } return recMeta, mungeFn, nil } // newRecordFromScanRow iterates over the elements of the row slice // from rows.Scan, and returns a new (record) slice, replacing any // wrapper types such as sql.NullString with the unboxed value, // and other similar sanitization. For example, it will // make a copy of any sql.RawBytes. The row slice // can be reused by rows.Scan after this function returns. // // Note that this function can modify the kind of the RecordMeta elements // if the kind is currently unknown. That is, if meta[0].Kind() returns // kind.Unknown, but this function detects that row[0] is an *int64, then // the kind will be set to kind.Int. func newRecordFromScanRow(meta sqlz.RecordMeta, row []any) (rec sqlz.Record) { //nolint:funlen,gocognit,gocyclo,cyclop rec = make([]any, len(row)) for i := 0; i < len(row); i++ { if row[i] == nil { rec[i] = nil continue } // Dereference *any before the switch col := row[i] if ptr, ok := col.(*any); ok { col = *ptr } switch col := col.(type) { default: // Shouldn't happen // TODO: We really should log here rec[i] = col continue case nil: rec[i] = nil case *int64: sqlz.SetKindIfUnknown(meta, i, kind.Int) v := *col rec[i] = &v case int64: sqlz.SetKindIfUnknown(meta, i, kind.Int) rec[i] = &col case *float64: sqlz.SetKindIfUnknown(meta, i, kind.Float) v := *col rec[i] = &v case float64: sqlz.SetKindIfUnknown(meta, i, kind.Float) rec[i] = &col case *bool: sqlz.SetKindIfUnknown(meta, i, kind.Bool) v := *col rec[i] = &v case bool: sqlz.SetKindIfUnknown(meta, i, kind.Bool) rec[i] = &col case *string: sqlz.SetKindIfUnknown(meta, i, kind.Text) v := *col rec[i] = &v case string: sqlz.SetKindIfUnknown(meta, i, kind.Text) rec[i] = &col case *[]byte: if col == nil || *col == nil { rec[i] = nil continue } if meta[i].Kind() != kind.Bytes { // We only want to use []byte for kind.Bytes. Otherwise // switch to a string. s := string(*col) rec[i] = &s sqlz.SetKindIfUnknown(meta, i, kind.Text) continue } if len(*col) == 0 { v := []byte{} rec[i] = &v } else { dest := make([]byte, len(*col)) copy(dest, *col) rec[i] = &dest } sqlz.SetKindIfUnknown(meta, i, kind.Bytes) case *sql.NullInt64: if col.Valid { v := col.Int64 rec[i] = &v } else { rec[i] = nil } sqlz.SetKindIfUnknown(meta, i, kind.Int) case *sql.NullString: if col.Valid { v := col.String rec[i] = &v } else { rec[i] = nil } sqlz.SetKindIfUnknown(meta, i, kind.Text) case *sql.RawBytes: if col == nil || *col == nil { // Explicitly set rec[i] so that its type becomes nil rec[i] = nil continue } knd := meta[i].Kind() // If RawBytes is of length zero, there's no // need to copy. if len(*col) == 0 { if knd == kind.Bytes { v := []byte{} rec[i] = &v } else { // Else treat it as an empty string var s string rec[i] = &s sqlz.SetKindIfUnknown(meta, i, kind.Text) } continue } dest := make([]byte, len(*col)) copy(dest, *col) if knd == kind.Bytes { rec[i] = &dest } else { str := string(dest) rec[i] = &str sqlz.SetKindIfUnknown(meta, i, kind.Text) } case *sql.NullFloat64: if col.Valid { v := col.Float64 rec[i] = &v } else { rec[i] = nil } sqlz.SetKindIfUnknown(meta, i, kind.Float) case *sql.NullBool: if col.Valid { v := col.Bool rec[i] = &v } else { rec[i] = nil } sqlz.SetKindIfUnknown(meta, i, kind.Bool) case *sqlz.NullBool: // This custom NullBool type is only used by sqlserver at this time. // Possibly this code should skip this item, and allow // the sqlserver munge func handle the conversion? if col.Valid { v := col.Bool rec[i] = &v } else { rec[i] = nil } sqlz.SetKindIfUnknown(meta, i, kind.Bool) case *sql.NullTime: if col.Valid { v := col.Time rec[i] = &v } else { rec[i] = nil } sqlz.SetKindIfUnknown(meta, i, kind.Datetime) case *time.Time: v := *col rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Datetime) case time.Time: v := col rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Datetime) // REVISIT: We probably don't need any of the below cases // for sqlite? case *int: v := int64(*col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) case int: v := int64(col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) case *int8: v := int64(*col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) case int8: v := int64(col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) case *int16: v := int64(*col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) case int16: v := int64(col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) case *int32: v := int64(*col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) case int32: v := int64(col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) case *uint: v := int64(*col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) case uint: v := int64(col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) case *uint8: v := int64(*col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) case uint8: v := int64(col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) case *uint16: v := int64(*col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) case uint16: v := int64(col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) case *uint32: v := int64(*col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) case uint32: v := int64(col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) case *float32: v := float64(*col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) case float32: v := int64(col) rec[i] = &v sqlz.SetKindIfUnknown(meta, i, kind.Int) } if rec[i] != nil && meta[i].Kind() == kind.Decimal { // Drivers use varying types for numeric/money/decimal. // We want to standardize on string. switch col := rec[i].(type) { case *string: // Do nothing, it's already string case *[]byte: v := string(*col) rec[i] = &v case *float64: v := stringz.FormatFloat(*col) rec[i] = &v default: // Shouldn't happen v := fmt.Sprintf("%v", col) rec[i] = &v } } } return rec } // DropTable implements driver.SQLDriver. func (d *driveri) DropTable(ctx context.Context, db sqlz.DB, tbl string, ifExists bool) error { var stmt string if ifExists { stmt = fmt.Sprintf("DROP TABLE IF EXISTS %q", tbl) } else { stmt = fmt.Sprintf("DROP TABLE %q", tbl) } _, err := db.ExecContext(ctx, stmt) return errz.Err(err) } // CreateTable implements driver.SQLDriver. func (d *driveri) CreateTable(ctx context.Context, db sqlz.DB, tblDef *sqlmodel.TableDef) error { query := buildCreateTableStmt(tblDef) stmt, err := db.PrepareContext(ctx, query) if err != nil { return errz.Err(err) } _, err = stmt.ExecContext(ctx) if err != nil { lg.WarnIfCloseError(d.log, lgm.CloseDBStmt, stmt) return errz.Err(err) } return errz.Err(stmt.Close()) } // CurrentSchema implements driver.SQLDriver. func (d *driveri) CurrentSchema(ctx context.Context, db sqlz.DB) (string, error) { const q = `SELECT name FROM pragma_database_list ORDER BY seq limit 1` var name string if err := db.QueryRowContext(ctx, q).Scan(&name); err != nil { return "", errz.Err(err) } return name, nil } // AlterTableRename implements driver.SQLDriver. func (d *driveri) AlterTableRename(ctx context.Context, db sqlz.DB, tbl, newName string) error { q := fmt.Sprintf(`ALTER TABLE %q RENAME TO %q`, tbl, newName) _, err := db.ExecContext(ctx, q) return errz.Wrapf(err, "alter table: failed to rename table {%s} to {%s}", tbl, newName) } // AlterTableRenameColumn implements driver.SQLDriver. func (d *driveri) AlterTableRenameColumn(ctx context.Context, db sqlz.DB, tbl, col, newName string) error { q := fmt.Sprintf("ALTER TABLE %q RENAME COLUMN %q TO %q", tbl, col, newName) _, err := db.ExecContext(ctx, q) return errz.Wrapf(err, "alter table: failed to rename column {%s.%s} to {%s}", tbl, col, newName) } // AlterTableAddColumn implements driver.SQLDriver. func (d *driveri) AlterTableAddColumn(ctx context.Context, db sqlz.DB, tbl, col string, knd kind.Kind) error { q := fmt.Sprintf("ALTER TABLE %q ADD COLUMN %q ", tbl, col) + DBTypeForKind(knd) _, err := db.ExecContext(ctx, q) if err != nil { return errz.Wrapf(err, "alter table: failed to add column {%s} to table {%s}", col, tbl) } return nil } // TableExists implements driver.SQLDriver. func (d *driveri) TableExists(ctx context.Context, db sqlz.DB, tbl string) (bool, error) { const query = `SELECT COUNT(*) FROM sqlite_master WHERE name = ? AND type='table'` var count int64 err := db.QueryRowContext(ctx, query, tbl).Scan(&count) if err != nil { return false, errz.Err(err) } return count == 1, nil } // PrepareInsertStmt implements driver.SQLDriver. func (d *driveri) PrepareInsertStmt(ctx context.Context, db sqlz.DB, destTbl string, destColNames []string, numRows int, ) (*driver.StmtExecer, error) { destColsMeta, err := d.getTableRecordMeta(ctx, db, destTbl, destColNames) if err != nil { return nil, err } stmt, err := driver.PrepareInsertStmt(ctx, d, db, destTbl, destColsMeta.Names(), numRows) if err != nil { return nil, err } execer := driver.NewStmtExecer(stmt, driver.DefaultInsertMungeFunc(destTbl, destColsMeta), newStmtExecFunc(stmt), destColsMeta) return execer, nil } // PrepareUpdateStmt implements driver.SQLDriver. func (d *driveri) PrepareUpdateStmt(ctx context.Context, db sqlz.DB, destTbl string, destColNames []string, where string, ) (*driver.StmtExecer, error) { destColsMeta, err := d.getTableRecordMeta(ctx, db, destTbl, destColNames) if err != nil { return nil, err } query, err := buildUpdateStmt(destTbl, destColNames, where) if err != nil { return nil, err } stmt, err := db.PrepareContext(ctx, query) if err != nil { return nil, err } execer := driver.NewStmtExecer(stmt, driver.DefaultInsertMungeFunc(destTbl, destColsMeta), newStmtExecFunc(stmt), destColsMeta) return execer, nil } func newStmtExecFunc(stmt *sql.Stmt) driver.StmtExecFunc { return func(ctx context.Context, args ...any) (int64, error) { res, err := stmt.ExecContext(ctx, args...) if err != nil { return 0, errz.Err(err) } affected, err := res.RowsAffected() return affected, errz.Err(err) } } // TableColumnTypes implements driver.SQLDriver. func (d *driveri) TableColumnTypes(ctx context.Context, db sqlz.DB, tblName string, colNames []string, ) ([]*sql.ColumnType, error) { // Given the dynamic behavior of sqlite's rows.ColumnTypes, // this query selects a single row, as that'll give us more // accurate column type info than no rows. For other db // impls, LIMIT can be 0. const queryTpl = "SELECT %s FROM %s LIMIT 1" dialect := d.Dialect() quote := string(dialect.Quote) tblNameQuoted := stringz.Surround(tblName, quote) colsClause := "*" if len(colNames) > 0 { colNamesQuoted := stringz.SurroundSlice(colNames, quote) colsClause = strings.Join(colNamesQuoted, driver.Comma) } query := fmt.Sprintf(queryTpl, colsClause, tblNameQuoted) rows, err := db.QueryContext(ctx, query) if err != nil { return nil, errz.Err(err) } // We invoke rows.ColumnTypes twice. // The first time is to cover the scenario where the table // is empty (no rows), so that we at least get some // column type info. colTypes, err := rows.ColumnTypes() if err != nil { lg.WarnIfFuncError(d.log, lgm.CloseDBRows, rows.Close) return nil, errz.Err(err) } // If the table does have rows, we invoke rows.ColumnTypes again, // as on this invocation the column type info will be more // accurate (col nullability will be reported etc). if rows.Next() { colTypes, err = rows.ColumnTypes() if err != nil { lg.WarnIfFuncError(d.log, lgm.CloseDBRows, rows.Close) return nil, errz.Err(err) } } err = rows.Err() if err != nil { lg.WarnIfFuncError(d.log, lgm.CloseDBRows, rows.Close) return nil, errz.Err(err) } err = rows.Close() if err != nil { return nil, errz.Err(err) } return colTypes, nil } func (d *driveri) getTableRecordMeta(ctx context.Context, db sqlz.DB, tblName string, colNames []string, ) (sqlz.RecordMeta, error) { colTypes, err := d.TableColumnTypes(ctx, db, tblName, colNames) if err != nil { return nil, err } destCols, _, err := d.RecordMeta(colTypes) if err != nil { return nil, err } return destCols, nil } // database implements driver.Database. type database struct { log *slog.Logger db *sql.DB src *source.Source drvr *driveri // DEBUG: closeMu and closed exist while debugging close behavior closeMu sync.Mutex closed bool } // DB implements driver.Database. func (d *database) DB() *sql.DB { return d.db } // SQLDriver implements driver.Database. func (d *database) SQLDriver() driver.SQLDriver { return d.drvr } // Source implements driver.Database. func (d *database) Source() *source.Source { return d.src } // TableMetadata implements driver.Database. func (d *database) TableMetadata(ctx context.Context, tblName string) (*source.TableMetadata, error) { return getTableMetadata(ctx, d.DB(), tblName) } // SourceMetadata implements driver.Database. func (d *database) SourceMetadata(ctx context.Context) (*source.Metadata, error) { // https://stackoverflow.com/questions/9646353/how-to-find-sqlite-database-file-version meta := &source.Metadata{Handle: d.src.Handle, SourceType: Type, DBDriverType: dbDrvr} dsn, err := PathFromLocation(d.src) if err != nil { return nil, err } const q = "SELECT sqlite_version(), (SELECT name FROM pragma_database_list ORDER BY seq limit 1);" err = d.DB().QueryRowContext(ctx, q).Scan(&meta.DBVersion, &meta.Schema) if err != nil { return nil, errz.Err(err) } meta.DBProduct = "SQLite3 v" + meta.DBVersion fi, err := os.Stat(dsn) if err != nil { return nil, errz.Err(err) } meta.Size = fi.Size() meta.Name = fi.Name() meta.FQName = fi.Name() + "/" + meta.Schema meta.Location = d.src.Location meta.Tables, err = getAllTblMeta(ctx, d.db) if err != nil { return nil, err } return meta, nil } // Close implements driver.Database. func (d *database) Close() error { d.closeMu.Lock() defer d.closeMu.Unlock() if d.closed { d.log.Warn("SQLite DB already closed", lga.Src, d.src) return nil } d.log.Debug(lgm.CloseDB, lga.Src, d.src) err := errz.Err(d.db.Close()) d.closed = true return err } // NewScratchSource returns a new scratch src. Effectively this // function creates a new sqlite db file in the temp dir, and // src points at this file. The returned clnup func closes that // db file and deletes it. func NewScratchSource(log *slog.Logger, name string) (src *source.Source, clnup func() error, err error) { name = stringz.SanitizeAlphaNumeric(name, '_') _, f, cleanFn, err := source.TempDirFile(name + ".sqlite") if err != nil { return nil, cleanFn, err } log.Debug("Created sqlite3 scratchdb data file", lga.Path, f.Name()) src = &source.Source{ Type: Type, Handle: source.ScratchHandle, Location: Prefix + f.Name(), } return src, cleanFn, nil } // PathFromLocation returns the absolute file path // from the source location, which should have the "sqlite3://" prefix. func PathFromLocation(src *source.Source) (string, error) { if src.Type != Type { return "", errz.Errorf("driver {%s} does not support {%s}", Type, src.Type) } if !strings.HasPrefix(src.Location, Prefix) { return "", errz.Errorf("sqlite3 source location must begin with {%s} but was: %s", Prefix, src.RedactedLocation()) } loc := strings.TrimPrefix(src.Location, Prefix) if len(loc) < 2 { return "", errz.Errorf("sqlite3 source location is too short: %s", src.RedactedLocation()) } loc = filepath.Clean(loc) return loc, nil } // MungeLocation takes a location argument (as received from the user) // and builds a sqlite3 location URL. Each of these forms are allowed: // // sqlite3:///path/to/sakila.db --> sqlite3:///path/to/sakila.db // sqlite3:sakila.db --> sqlite3:///current/working/dir/sakila.db // sqlite3:/sakila.db --> sqlite3:///sakila.db // sqlite3:./sakila.db --> sqlite3:///current/working/dir/sakila.db // sqlite3:sakila.db --> sqlite3:///current/working/dir/sakila.db // sakila.db --> sqlite3:///current/working/dir/sakila.db // /path/to/sakila.db --> sqlite3:///path/to/sakila.db // // The final form is particularly nice for shell completion etc. func MungeLocation(loc string) (string, error) { loc2 := strings.TrimSpace(loc) if loc2 == "" { return "", errz.New("location must not be empty") } loc2 = strings.TrimPrefix(loc2, "sqlite3://") loc2 = strings.TrimPrefix(loc2, "sqlite3:") // Now we should be left with just a path, which could be // relative or absolute. u, err := url.Parse(loc2) if err != nil { return "", errz.Wrapf(err, "invalid location: %s", loc) } fp, err := filepath.Abs(u.Path) if err != nil { return "", errz.Wrapf(err, "invalid location: %s", loc) } fp = filepath.ToSlash(fp) return "sqlite3://" + fp, nil }