gotosocial/vendor/github.com/ncruces/go-sqlite3/driver/driver.go

703 lines
16 KiB
Go

// Package driver provides a database/sql driver for SQLite.
//
// Importing package driver registers a [database/sql] driver named "sqlite3".
// You may also need to import package embed.
//
// import _ "github.com/ncruces/go-sqlite3/driver"
// import _ "github.com/ncruces/go-sqlite3/embed"
//
// The data source name for "sqlite3" databases can be a filename or a "file:" [URI].
//
// # Default transaction mode
//
// The [TRANSACTION] mode can be specified using "_txlock":
//
// sql.Open("sqlite3", "file:demo.db?_txlock=immediate")
//
// Possible values are: "deferred" (the default), "immediate", "exclusive".
// Regardless of "_txlock":
// - a [linearizable] transaction is always "exclusive";
// - a [serializable] transaction is always "immediate";
// - a [read-only] transaction is always "deferred".
//
// # Working with time
//
// The time encoding/decoding format can be specified using "_timefmt":
//
// sql.Open("sqlite3", "file:demo.db?_timefmt=sqlite")
//
// Possible values are: "auto" (the default), "sqlite", "rfc3339";
// - "auto" encodes as RFC 3339 and decodes any [format] supported by SQLite;
// - "sqlite" encodes as SQLite and decodes any [format] supported by SQLite;
// - "rfc3339" encodes and decodes RFC 3339 only.
//
// If you encode as RFC 3339 (the default),
// consider using the TIME [collating sequence] to produce a time-ordered sequence.
//
// To scan values in other formats, [sqlite3.TimeFormat.Scanner] may be helpful.
// To bind values in other formats, [sqlite3.TimeFormat.Encode] them before binding.
//
// When using a custom time struct, you'll have to implement
// [database/sql/driver.Valuer] and [database/sql.Scanner].
//
// The Value method should ideally encode to a time [format] supported by SQLite.
// This ensures SQL date and time functions work as they should,
// and that your schema works with other SQLite tools.
// [sqlite3.TimeFormat.Encode] may help.
//
// The Scan method needs to take into account that the value it receives can be of differing types.
// It can already be a [time.Time], if the driver decoded the value according to "_timefmt" rules.
// Or it can be a: string, int64, float64, []byte, or nil,
// depending on the column type and what whoever wrote the value.
// [sqlite3.TimeFormat.Decode] may help.
//
// # Setting PRAGMAs
//
// [PRAGMA] statements can be specified using "_pragma":
//
// sql.Open("sqlite3", "file:demo.db?_pragma=busy_timeout(10000)")
//
// If no PRAGMAs are specified, a busy timeout of 1 minute is set.
//
// Order matters:
// encryption keys, busy timeout and locking mode should be the first PRAGMAs set,
// in that order.
//
// [URI]: https://sqlite.org/uri.html
// [PRAGMA]: https://sqlite.org/pragma.html
// [TRANSACTION]: https://sqlite.org/lang_transaction.html#deferred_immediate_and_exclusive_transactions
// [linearizable]: https://pkg.go.dev/database/sql#TxOptions
// [serializable]: https://pkg.go.dev/database/sql#TxOptions
// [read-only]: https://pkg.go.dev/database/sql#TxOptions
// [format]: https://sqlite.org/lang_datefunc.html#time_values
// [collating sequence]: https://sqlite.org/datatype3.html#collating_sequences
package driver
import (
"context"
"database/sql"
"database/sql/driver"
"errors"
"fmt"
"io"
"net/url"
"strings"
"time"
"unsafe"
"github.com/ncruces/go-sqlite3"
"github.com/ncruces/go-sqlite3/internal/util"
)
// This variable can be replaced with -ldflags:
//
// go build -ldflags="-X github.com/ncruces/go-sqlite3/driver.driverName=sqlite"
var driverName = "sqlite3"
func init() {
if driverName != "" {
sql.Register(driverName, &SQLite{})
}
}
// Open opens the SQLite database specified by dataSourceName as a [database/sql.DB].
//
// Open accepts zero, one, or two callbacks (nil callbacks are ignored).
// The first callback is called when the driver opens a new connection.
// The second callback is called before the driver closes a connection.
// The [sqlite3.Conn] can be used to execute queries, register functions, etc.
func Open(dataSourceName string, fn ...func(*sqlite3.Conn) error) (*sql.DB, error) {
var drv SQLite
if len(fn) > 2 {
return nil, sqlite3.MISUSE
}
if len(fn) > 1 {
drv.term = fn[1]
}
if len(fn) > 0 {
drv.init = fn[0]
}
c, err := drv.OpenConnector(dataSourceName)
if err != nil {
return nil, err
}
return sql.OpenDB(c), nil
}
// SQLite implements [database/sql/driver.Driver].
type SQLite struct {
init func(*sqlite3.Conn) error
term func(*sqlite3.Conn) error
}
var (
// Ensure these interfaces are implemented:
_ driver.DriverContext = &SQLite{}
)
// Open implements [database/sql/driver.Driver].
func (d *SQLite) Open(name string) (driver.Conn, error) {
c, err := d.newConnector(name)
if err != nil {
return nil, err
}
return c.Connect(context.Background())
}
// OpenConnector implements [database/sql/driver.DriverContext].
func (d *SQLite) OpenConnector(name string) (driver.Connector, error) {
return d.newConnector(name)
}
func (d *SQLite) newConnector(name string) (*connector, error) {
c := connector{driver: d, name: name}
var txlock, timefmt string
if strings.HasPrefix(name, "file:") {
if _, after, ok := strings.Cut(name, "?"); ok {
query, err := url.ParseQuery(after)
if err != nil {
return nil, err
}
txlock = query.Get("_txlock")
timefmt = query.Get("_timefmt")
c.pragmas = query.Has("_pragma")
}
}
switch txlock {
case "", "deferred", "concurrent", "immediate", "exclusive":
c.txLock = txlock
default:
return nil, fmt.Errorf("sqlite3: invalid _txlock: %s", txlock)
}
switch timefmt {
case "":
c.tmRead = sqlite3.TimeFormatAuto
c.tmWrite = sqlite3.TimeFormatDefault
case "sqlite":
c.tmRead = sqlite3.TimeFormatAuto
c.tmWrite = sqlite3.TimeFormat3
case "rfc3339":
c.tmRead = sqlite3.TimeFormatDefault
c.tmWrite = sqlite3.TimeFormatDefault
default:
c.tmRead = sqlite3.TimeFormat(timefmt)
c.tmWrite = sqlite3.TimeFormat(timefmt)
}
return &c, nil
}
type connector struct {
driver *SQLite
name string
txLock string
tmRead sqlite3.TimeFormat
tmWrite sqlite3.TimeFormat
pragmas bool
}
func (n *connector) Driver() driver.Driver {
return n.driver
}
func (n *connector) Connect(ctx context.Context) (res driver.Conn, err error) {
c := &conn{
txLock: n.txLock,
tmRead: n.tmRead,
tmWrite: n.tmWrite,
}
c.Conn, err = sqlite3.OpenContext(ctx, n.name)
if err != nil {
return nil, err
}
defer func() {
if res == nil {
c.Close()
}
}()
old := c.Conn.SetInterrupt(ctx)
defer c.Conn.SetInterrupt(old)
if !n.pragmas {
err = c.Conn.BusyTimeout(time.Minute)
if err != nil {
return nil, err
}
}
if n.driver.init != nil {
err = n.driver.init(c.Conn)
if err != nil {
return nil, err
}
}
if n.pragmas || n.driver.init != nil {
s, _, err := c.Conn.Prepare(`PRAGMA query_only`)
if err != nil {
return nil, err
}
defer s.Close()
if s.Step() && s.ColumnBool(0) {
c.readOnly = '1'
} else {
c.readOnly = '0'
}
err = s.Close()
if err != nil {
return nil, err
}
}
if n.driver.term != nil {
err = c.Conn.Trace(sqlite3.TRACE_CLOSE, func(sqlite3.TraceEvent, any, any) error {
return n.driver.term(c.Conn)
})
if err != nil {
return nil, err
}
}
return c, nil
}
// Conn is implemented by the SQLite [database/sql] driver connections.
//
// It can be used to access SQLite features like [online backup]:
//
// db, err := driver.Open("temp.db")
// if err != nil {
// log.Fatal(err)
// }
// defer db.Close()
//
// conn, err := db.Conn(context.TODO())
// if err != nil {
// log.Fatal(err)
// }
//
// err = conn.Raw(func(driverConn any) error {
// conn := driverConn.(driver.Conn)
// return conn.Raw().Backup("main", "backup.db")
// })
// if err != nil {
// log.Fatal(err)
// }
//
// [online backup]: https://sqlite.org/backup.html
type Conn interface {
Raw() *sqlite3.Conn
driver.Conn
}
type conn struct {
*sqlite3.Conn
txLock string
txReset string
tmRead sqlite3.TimeFormat
tmWrite sqlite3.TimeFormat
readOnly byte
}
var (
// Ensure these interfaces are implemented:
_ Conn = &conn{}
_ driver.ConnBeginTx = &conn{}
_ driver.ConnPrepareContext = &conn{}
_ driver.ExecerContext = &conn{}
)
func (c *conn) Raw() *sqlite3.Conn {
return c.Conn
}
// Deprecated: use BeginTx instead.
func (c *conn) Begin() (driver.Tx, error) {
// notest
return c.BeginTx(context.Background(), driver.TxOptions{})
}
func (c *conn) BeginTx(ctx context.Context, opts driver.TxOptions) (driver.Tx, error) {
var txLock string
switch opts.Isolation {
default:
return nil, util.IsolationErr
case driver.IsolationLevel(sql.LevelLinearizable):
txLock = "exclusive"
case driver.IsolationLevel(sql.LevelSerializable):
txLock = "immediate"
case driver.IsolationLevel(sql.LevelDefault):
if !opts.ReadOnly {
txLock = c.txLock
}
}
c.txReset = ``
txBegin := `BEGIN ` + txLock
if opts.ReadOnly {
txBegin += ` ; PRAGMA query_only=on`
c.txReset = `; PRAGMA query_only=` + string(c.readOnly)
}
old := c.Conn.SetInterrupt(ctx)
defer c.Conn.SetInterrupt(old)
err := c.Conn.Exec(txBegin)
if err != nil {
return nil, err
}
return c, nil
}
func (c *conn) Commit() error {
err := c.Conn.Exec(`COMMIT` + c.txReset)
if err != nil && !c.Conn.GetAutocommit() {
c.Rollback()
}
return err
}
func (c *conn) Rollback() error {
err := c.Conn.Exec(`ROLLBACK` + c.txReset)
if errors.Is(err, sqlite3.INTERRUPT) {
old := c.Conn.SetInterrupt(context.Background())
defer c.Conn.SetInterrupt(old)
err = c.Conn.Exec(`ROLLBACK` + c.txReset)
}
return err
}
func (c *conn) Prepare(query string) (driver.Stmt, error) {
// notest
return c.PrepareContext(context.Background(), query)
}
func (c *conn) PrepareContext(ctx context.Context, query string) (driver.Stmt, error) {
old := c.Conn.SetInterrupt(ctx)
defer c.Conn.SetInterrupt(old)
s, tail, err := c.Conn.Prepare(query)
if err != nil {
return nil, err
}
if tail != "" {
s.Close()
return nil, util.TailErr
}
return &stmt{Stmt: s, tmRead: c.tmRead, tmWrite: c.tmWrite, inputs: -2}, nil
}
func (c *conn) ExecContext(ctx context.Context, query string, args []driver.NamedValue) (driver.Result, error) {
if len(args) != 0 {
// Slow path.
return nil, driver.ErrSkip
}
if savept, ok := ctx.(*saveptCtx); ok {
// Called from driver.Savepoint.
savept.Savepoint = c.Conn.Savepoint()
return resultRowsAffected(0), nil
}
old := c.Conn.SetInterrupt(ctx)
defer c.Conn.SetInterrupt(old)
err := c.Conn.Exec(query)
if err != nil {
return nil, err
}
return newResult(c.Conn), nil
}
func (c *conn) CheckNamedValue(arg *driver.NamedValue) error {
// Fast path: short circuit argument verification.
// Arguments will be rejected by conn.ExecContext.
return nil
}
type stmt struct {
*sqlite3.Stmt
tmWrite sqlite3.TimeFormat
tmRead sqlite3.TimeFormat
inputs int
}
var (
// Ensure these interfaces are implemented:
_ driver.StmtExecContext = &stmt{}
_ driver.StmtQueryContext = &stmt{}
_ driver.NamedValueChecker = &stmt{}
)
func (s *stmt) NumInput() int {
if s.inputs >= -1 {
return s.inputs
}
n := s.Stmt.BindCount()
for i := 1; i <= n; i++ {
if s.Stmt.BindName(i) != "" {
s.inputs = -1
return -1
}
}
s.inputs = n
return n
}
// Deprecated: use ExecContext instead.
func (s *stmt) Exec(args []driver.Value) (driver.Result, error) {
// notest
return s.ExecContext(context.Background(), namedValues(args))
}
// Deprecated: use QueryContext instead.
func (s *stmt) Query(args []driver.Value) (driver.Rows, error) {
// notest
return s.QueryContext(context.Background(), namedValues(args))
}
func (s *stmt) ExecContext(ctx context.Context, args []driver.NamedValue) (driver.Result, error) {
err := s.setupBindings(args)
if err != nil {
return nil, err
}
old := s.Stmt.Conn().SetInterrupt(ctx)
defer s.Stmt.Conn().SetInterrupt(old)
err = s.Stmt.Exec()
s.Stmt.ClearBindings()
if err != nil {
return nil, err
}
return newResult(s.Stmt.Conn()), nil
}
func (s *stmt) QueryContext(ctx context.Context, args []driver.NamedValue) (driver.Rows, error) {
err := s.setupBindings(args)
if err != nil {
return nil, err
}
return &rows{ctx: ctx, stmt: s}, nil
}
func (s *stmt) setupBindings(args []driver.NamedValue) (err error) {
var ids [3]int
for _, arg := range args {
ids := ids[:0]
if arg.Name == "" {
ids = append(ids, arg.Ordinal)
} else {
for _, prefix := range [...]string{":", "@", "$"} {
if id := s.Stmt.BindIndex(prefix + arg.Name); id != 0 {
ids = append(ids, id)
}
}
}
for _, id := range ids {
switch a := arg.Value.(type) {
case bool:
err = s.Stmt.BindBool(id, a)
case int:
err = s.Stmt.BindInt(id, a)
case int64:
err = s.Stmt.BindInt64(id, a)
case float64:
err = s.Stmt.BindFloat(id, a)
case string:
err = s.Stmt.BindText(id, a)
case []byte:
err = s.Stmt.BindBlob(id, a)
case sqlite3.ZeroBlob:
err = s.Stmt.BindZeroBlob(id, int64(a))
case time.Time:
err = s.Stmt.BindTime(id, a, s.tmWrite)
case util.JSON:
err = s.Stmt.BindJSON(id, a.Value)
case util.PointerUnwrap:
err = s.Stmt.BindPointer(id, util.UnwrapPointer(a))
case nil:
err = s.Stmt.BindNull(id)
default:
panic(util.AssertErr())
}
if err != nil {
return err
}
}
}
return nil
}
func (s *stmt) CheckNamedValue(arg *driver.NamedValue) error {
switch arg.Value.(type) {
case bool, int, int64, float64, string, []byte,
time.Time, sqlite3.ZeroBlob,
util.JSON, util.PointerUnwrap,
nil:
return nil
default:
return driver.ErrSkip
}
}
func newResult(c *sqlite3.Conn) driver.Result {
rows := c.Changes()
if rows != 0 {
id := c.LastInsertRowID()
if id != 0 {
return result{id, rows}
}
}
return resultRowsAffected(rows)
}
type result struct{ lastInsertId, rowsAffected int64 }
func (r result) LastInsertId() (int64, error) {
return r.lastInsertId, nil
}
func (r result) RowsAffected() (int64, error) {
return r.rowsAffected, nil
}
type resultRowsAffected int64
func (r resultRowsAffected) LastInsertId() (int64, error) {
return 0, nil
}
func (r resultRowsAffected) RowsAffected() (int64, error) {
return int64(r), nil
}
type rows struct {
ctx context.Context
*stmt
names []string
types []string
nulls []bool
}
var (
// Ensure these interfaces are implemented:
_ driver.RowsColumnTypeDatabaseTypeName = &rows{}
_ driver.RowsColumnTypeNullable = &rows{}
)
func (r *rows) Close() error {
r.Stmt.ClearBindings()
return r.Stmt.Reset()
}
func (r *rows) Columns() []string {
if r.names == nil {
count := r.Stmt.ColumnCount()
names := make([]string, count)
for i := range names {
names[i] = r.Stmt.ColumnName(i)
}
r.names = names
}
return r.names
}
func (r *rows) loadTypes() {
if r.nulls == nil {
count := r.Stmt.ColumnCount()
nulls := make([]bool, count)
types := make([]string, count)
for i := range nulls {
if col := r.Stmt.ColumnOriginName(i); col != "" {
types[i], _, nulls[i], _, _, _ = r.Stmt.Conn().TableColumnMetadata(
r.Stmt.ColumnDatabaseName(i),
r.Stmt.ColumnTableName(i),
col)
}
}
r.nulls = nulls
r.types = types
}
}
func (r *rows) declType(index int) string {
if r.types == nil {
count := r.Stmt.ColumnCount()
types := make([]string, count)
for i := range types {
types[i] = strings.ToUpper(r.Stmt.ColumnDeclType(i))
}
r.types = types
}
return r.types[index]
}
func (r *rows) ColumnTypeDatabaseTypeName(index int) string {
r.loadTypes()
decltype := r.types[index]
if len := len(decltype); len > 0 && decltype[len-1] == ')' {
if i := strings.LastIndexByte(decltype, '('); i >= 0 {
decltype = decltype[:i]
}
}
return strings.TrimSpace(decltype)
}
func (r *rows) ColumnTypeNullable(index int) (nullable, ok bool) {
r.loadTypes()
if r.nulls[index] {
return false, true
}
return true, false
}
func (r *rows) Next(dest []driver.Value) error {
old := r.Stmt.Conn().SetInterrupt(r.ctx)
defer r.Stmt.Conn().SetInterrupt(old)
if !r.Stmt.Step() {
if err := r.Stmt.Err(); err != nil {
return err
}
return io.EOF
}
data := unsafe.Slice((*any)(unsafe.SliceData(dest)), len(dest))
err := r.Stmt.Columns(data)
for i := range dest {
if t, ok := r.decodeTime(i, dest[i]); ok {
dest[i] = t
}
}
return err
}
func (r *rows) decodeTime(i int, v any) (_ time.Time, ok bool) {
switch v := v.(type) {
case int64, float64:
// could be a time value
case string:
if r.tmWrite != "" && r.tmWrite != time.RFC3339 && r.tmWrite != time.RFC3339Nano {
break
}
t, ok := maybeTime(v)
if ok {
return t, true
}
default:
return
}
switch r.declType(i) {
case "DATE", "TIME", "DATETIME", "TIMESTAMP":
// could be a time value
default:
return
}
t, err := r.tmRead.Decode(v)
return t, err == nil
}