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sqlite3.go
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sqlite3.go
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// Copyright (C) 2019 Yasuhiro Matsumoto <[email protected]>.
// Copyright (C) 2018 G.J.R. Timmer <[email protected]>.
//
// Use of this source code is governed by an MIT-style
// license that can be found in the LICENSE file.
//go:build cgo
// +build cgo
package sqlite3
/*
#cgo CFLAGS: -std=gnu99
#cgo CFLAGS: -DSQLITE_ENABLE_RTREE
#cgo CFLAGS: -DSQLITE_THREADSAFE=1
#cgo CFLAGS: -DHAVE_USLEEP=1
#cgo CFLAGS: -DSQLITE_ENABLE_FTS3
#cgo CFLAGS: -DSQLITE_ENABLE_FTS3_PARENTHESIS
#cgo CFLAGS: -DSQLITE_TRACE_SIZE_LIMIT=15
#cgo CFLAGS: -DSQLITE_OMIT_DEPRECATED
#cgo CFLAGS: -DSQLITE_DEFAULT_WAL_SYNCHRONOUS=1
#cgo CFLAGS: -DSQLITE_ENABLE_UPDATE_DELETE_LIMIT
#cgo CFLAGS: -Wno-deprecated-declarations
#cgo openbsd CFLAGS: -I/usr/local/include
#cgo openbsd LDFLAGS: -L/usr/local/lib
#ifndef USE_LIBSQLITE3
#include "sqlite3-binding.h"
#else
#include <sqlite3.h>
#endif
#include <stdlib.h>
#include <string.h>
#ifdef __CYGWIN__
# include <errno.h>
#endif
#ifndef SQLITE_OPEN_READWRITE
# define SQLITE_OPEN_READWRITE 0
#endif
#ifndef SQLITE_OPEN_FULLMUTEX
# define SQLITE_OPEN_FULLMUTEX 0
#endif
#ifndef SQLITE_DETERMINISTIC
# define SQLITE_DETERMINISTIC 0
#endif
#if defined(HAVE_PREAD64) && defined(HAVE_PWRITE64)
# undef USE_PREAD
# undef USE_PWRITE
# define USE_PREAD64 1
# define USE_PWRITE64 1
#elif defined(HAVE_PREAD) && defined(HAVE_PWRITE)
# undef USE_PREAD
# undef USE_PWRITE
# define USE_PREAD64 1
# define USE_PWRITE64 1
#endif
static int
_sqlite3_open_v2(const char *filename, sqlite3 **ppDb, int flags, const char *zVfs) {
#ifdef SQLITE_OPEN_URI
return sqlite3_open_v2(filename, ppDb, flags | SQLITE_OPEN_URI, zVfs);
#else
return sqlite3_open_v2(filename, ppDb, flags, zVfs);
#endif
}
static int
_sqlite3_bind_text(sqlite3_stmt *stmt, int n, char *p, int np) {
return sqlite3_bind_text(stmt, n, p, np, SQLITE_TRANSIENT);
}
static int
_sqlite3_bind_blob(sqlite3_stmt *stmt, int n, void *p, int np) {
return sqlite3_bind_blob(stmt, n, p, np, SQLITE_TRANSIENT);
}
#include <stdio.h>
#include <stdint.h>
static int
_sqlite3_exec(sqlite3* db, const char* pcmd, long long* rowid, long long* changes)
{
int rv = sqlite3_exec(db, pcmd, 0, 0, 0);
*rowid = (long long) sqlite3_last_insert_rowid(db);
*changes = (long long) sqlite3_changes(db);
return rv;
}
#ifdef SQLITE_ENABLE_UNLOCK_NOTIFY
extern int _sqlite3_step_blocking(sqlite3_stmt *stmt);
extern int _sqlite3_step_row_blocking(sqlite3_stmt* stmt, long long* rowid, long long* changes);
extern int _sqlite3_prepare_v2_blocking(sqlite3 *db, const char *zSql, int nBytes, sqlite3_stmt **ppStmt, const char **pzTail);
static int
_sqlite3_step_internal(sqlite3_stmt *stmt)
{
return _sqlite3_step_blocking(stmt);
}
static int
_sqlite3_step_row_internal(sqlite3_stmt* stmt, long long* rowid, long long* changes)
{
return _sqlite3_step_row_blocking(stmt, rowid, changes);
}
static int
_sqlite3_prepare_v2_internal(sqlite3 *db, const char *zSql, int nBytes, sqlite3_stmt **ppStmt, const char **pzTail)
{
return _sqlite3_prepare_v2_blocking(db, zSql, nBytes, ppStmt, pzTail);
}
#else
static int
_sqlite3_step_internal(sqlite3_stmt *stmt)
{
return sqlite3_step(stmt);
}
static int
_sqlite3_step_row_internal(sqlite3_stmt* stmt, long long* rowid, long long* changes)
{
int rv = sqlite3_step(stmt);
sqlite3* db = sqlite3_db_handle(stmt);
*rowid = (long long) sqlite3_last_insert_rowid(db);
*changes = (long long) sqlite3_changes(db);
return rv;
}
static int
_sqlite3_prepare_v2_internal(sqlite3 *db, const char *zSql, int nBytes, sqlite3_stmt **ppStmt, const char **pzTail)
{
return sqlite3_prepare_v2(db, zSql, nBytes, ppStmt, pzTail);
}
#endif
void _sqlite3_result_text(sqlite3_context* ctx, const char* s) {
sqlite3_result_text(ctx, s, -1, &free);
}
void _sqlite3_result_blob(sqlite3_context* ctx, const void* b, int l) {
sqlite3_result_blob(ctx, b, l, SQLITE_TRANSIENT);
}
int _sqlite3_create_function(
sqlite3 *db,
const char *zFunctionName,
int nArg,
int eTextRep,
uintptr_t pApp,
void (*xFunc)(sqlite3_context*,int,sqlite3_value**),
void (*xStep)(sqlite3_context*,int,sqlite3_value**),
void (*xFinal)(sqlite3_context*)
) {
return sqlite3_create_function(db, zFunctionName, nArg, eTextRep, (void*) pApp, xFunc, xStep, xFinal);
}
void callbackTrampoline(sqlite3_context*, int, sqlite3_value**);
void stepTrampoline(sqlite3_context*, int, sqlite3_value**);
void doneTrampoline(sqlite3_context*);
int compareTrampoline(void*, int, char*, int, char*);
int commitHookTrampoline(void*);
void rollbackHookTrampoline(void*);
void updateHookTrampoline(void*, int, char*, char*, sqlite3_int64);
int authorizerTrampoline(void*, int, char*, char*, char*, char*);
#ifdef SQLITE_LIMIT_WORKER_THREADS
# define _SQLITE_HAS_LIMIT
# define SQLITE_LIMIT_LENGTH 0
# define SQLITE_LIMIT_SQL_LENGTH 1
# define SQLITE_LIMIT_COLUMN 2
# define SQLITE_LIMIT_EXPR_DEPTH 3
# define SQLITE_LIMIT_COMPOUND_SELECT 4
# define SQLITE_LIMIT_VDBE_OP 5
# define SQLITE_LIMIT_FUNCTION_ARG 6
# define SQLITE_LIMIT_ATTACHED 7
# define SQLITE_LIMIT_LIKE_PATTERN_LENGTH 8
# define SQLITE_LIMIT_VARIABLE_NUMBER 9
# define SQLITE_LIMIT_TRIGGER_DEPTH 10
# define SQLITE_LIMIT_WORKER_THREADS 11
# else
# define SQLITE_LIMIT_WORKER_THREADS 11
#endif
static int _sqlite3_limit(sqlite3* db, int limitId, int newLimit) {
#ifndef _SQLITE_HAS_LIMIT
return -1;
#else
return sqlite3_limit(db, limitId, newLimit);
#endif
}
#if SQLITE_VERSION_NUMBER < 3012000
static int sqlite3_system_errno(sqlite3 *db) {
return 0;
}
#endif
*/
import "C"
import (
"context"
"database/sql"
"database/sql/driver"
"errors"
"fmt"
"io"
"net/url"
"reflect"
"runtime"
"strconv"
"strings"
"sync"
"syscall"
"time"
"unsafe"
)
// SQLiteTimestampFormats is timestamp formats understood by both this module
// and SQLite. The first format in the slice will be used when saving time
// values into the database. When parsing a string from a timestamp or datetime
// column, the formats are tried in order.
var SQLiteTimestampFormats = []string{
// By default, store timestamps with whatever timezone they come with.
// When parsed, they will be returned with the same timezone.
"2006-01-02 15:04:05.999999999-07:00",
"2006-01-02T15:04:05.999999999-07:00",
"2006-01-02 15:04:05.999999999",
"2006-01-02T15:04:05.999999999",
"2006-01-02 15:04:05",
"2006-01-02T15:04:05",
"2006-01-02 15:04",
"2006-01-02T15:04",
"2006-01-02",
}
const (
columnDate string = "date"
columnDatetime string = "datetime"
columnTimestamp string = "timestamp"
)
// This variable can be replaced with -ldflags like below:
// go build -ldflags="-X 'github.com/mattn/go-sqlite3.driverName=my-sqlite3'"
var driverName = "sqlite3"
func init() {
if driverName != "" {
sql.Register(driverName, &SQLiteDriver{})
}
}
// Version returns SQLite library version information.
func Version() (libVersion string, libVersionNumber int, sourceID string) {
libVersion = C.GoString(C.sqlite3_libversion())
libVersionNumber = int(C.sqlite3_libversion_number())
sourceID = C.GoString(C.sqlite3_sourceid())
return libVersion, libVersionNumber, sourceID
}
const (
// used by authorizer and pre_update_hook
SQLITE_DELETE = C.SQLITE_DELETE
SQLITE_INSERT = C.SQLITE_INSERT
SQLITE_UPDATE = C.SQLITE_UPDATE
// used by authorzier - as return value
SQLITE_OK = C.SQLITE_OK
SQLITE_IGNORE = C.SQLITE_IGNORE
SQLITE_DENY = C.SQLITE_DENY
// different actions query tries to do - passed as argument to authorizer
SQLITE_CREATE_INDEX = C.SQLITE_CREATE_INDEX
SQLITE_CREATE_TABLE = C.SQLITE_CREATE_TABLE
SQLITE_CREATE_TEMP_INDEX = C.SQLITE_CREATE_TEMP_INDEX
SQLITE_CREATE_TEMP_TABLE = C.SQLITE_CREATE_TEMP_TABLE
SQLITE_CREATE_TEMP_TRIGGER = C.SQLITE_CREATE_TEMP_TRIGGER
SQLITE_CREATE_TEMP_VIEW = C.SQLITE_CREATE_TEMP_VIEW
SQLITE_CREATE_TRIGGER = C.SQLITE_CREATE_TRIGGER
SQLITE_CREATE_VIEW = C.SQLITE_CREATE_VIEW
SQLITE_CREATE_VTABLE = C.SQLITE_CREATE_VTABLE
SQLITE_DROP_INDEX = C.SQLITE_DROP_INDEX
SQLITE_DROP_TABLE = C.SQLITE_DROP_TABLE
SQLITE_DROP_TEMP_INDEX = C.SQLITE_DROP_TEMP_INDEX
SQLITE_DROP_TEMP_TABLE = C.SQLITE_DROP_TEMP_TABLE
SQLITE_DROP_TEMP_TRIGGER = C.SQLITE_DROP_TEMP_TRIGGER
SQLITE_DROP_TEMP_VIEW = C.SQLITE_DROP_TEMP_VIEW
SQLITE_DROP_TRIGGER = C.SQLITE_DROP_TRIGGER
SQLITE_DROP_VIEW = C.SQLITE_DROP_VIEW
SQLITE_DROP_VTABLE = C.SQLITE_DROP_VTABLE
SQLITE_PRAGMA = C.SQLITE_PRAGMA
SQLITE_READ = C.SQLITE_READ
SQLITE_SELECT = C.SQLITE_SELECT
SQLITE_TRANSACTION = C.SQLITE_TRANSACTION
SQLITE_ATTACH = C.SQLITE_ATTACH
SQLITE_DETACH = C.SQLITE_DETACH
SQLITE_ALTER_TABLE = C.SQLITE_ALTER_TABLE
SQLITE_REINDEX = C.SQLITE_REINDEX
SQLITE_ANALYZE = C.SQLITE_ANALYZE
SQLITE_FUNCTION = C.SQLITE_FUNCTION
SQLITE_SAVEPOINT = C.SQLITE_SAVEPOINT
SQLITE_COPY = C.SQLITE_COPY
/*SQLITE_RECURSIVE = C.SQLITE_RECURSIVE*/
)
// Standard File Control Opcodes
// See: https://www.sqlite.org/c3ref/c_fcntl_begin_atomic_write.html
const (
SQLITE_FCNTL_LOCKSTATE = int(1)
SQLITE_FCNTL_GET_LOCKPROXYFILE = int(2)
SQLITE_FCNTL_SET_LOCKPROXYFILE = int(3)
SQLITE_FCNTL_LAST_ERRNO = int(4)
SQLITE_FCNTL_SIZE_HINT = int(5)
SQLITE_FCNTL_CHUNK_SIZE = int(6)
SQLITE_FCNTL_FILE_POINTER = int(7)
SQLITE_FCNTL_SYNC_OMITTED = int(8)
SQLITE_FCNTL_WIN32_AV_RETRY = int(9)
SQLITE_FCNTL_PERSIST_WAL = int(10)
SQLITE_FCNTL_OVERWRITE = int(11)
SQLITE_FCNTL_VFSNAME = int(12)
SQLITE_FCNTL_POWERSAFE_OVERWRITE = int(13)
SQLITE_FCNTL_PRAGMA = int(14)
SQLITE_FCNTL_BUSYHANDLER = int(15)
SQLITE_FCNTL_TEMPFILENAME = int(16)
SQLITE_FCNTL_MMAP_SIZE = int(18)
SQLITE_FCNTL_TRACE = int(19)
SQLITE_FCNTL_HAS_MOVED = int(20)
SQLITE_FCNTL_SYNC = int(21)
SQLITE_FCNTL_COMMIT_PHASETWO = int(22)
SQLITE_FCNTL_WIN32_SET_HANDLE = int(23)
SQLITE_FCNTL_WAL_BLOCK = int(24)
SQLITE_FCNTL_ZIPVFS = int(25)
SQLITE_FCNTL_RBU = int(26)
SQLITE_FCNTL_VFS_POINTER = int(27)
SQLITE_FCNTL_JOURNAL_POINTER = int(28)
SQLITE_FCNTL_WIN32_GET_HANDLE = int(29)
SQLITE_FCNTL_PDB = int(30)
SQLITE_FCNTL_BEGIN_ATOMIC_WRITE = int(31)
SQLITE_FCNTL_COMMIT_ATOMIC_WRITE = int(32)
SQLITE_FCNTL_ROLLBACK_ATOMIC_WRITE = int(33)
SQLITE_FCNTL_LOCK_TIMEOUT = int(34)
SQLITE_FCNTL_DATA_VERSION = int(35)
SQLITE_FCNTL_SIZE_LIMIT = int(36)
SQLITE_FCNTL_CKPT_DONE = int(37)
SQLITE_FCNTL_RESERVE_BYTES = int(38)
SQLITE_FCNTL_CKPT_START = int(39)
SQLITE_FCNTL_EXTERNAL_READER = int(40)
SQLITE_FCNTL_CKSM_FILE = int(41)
)
// SQLiteDriver implements driver.Driver.
type SQLiteDriver struct {
Extensions []string
ConnectHook func(*SQLiteConn) error
}
// SQLiteConn implements driver.Conn.
type SQLiteConn struct {
mu sync.Mutex
db *C.sqlite3
loc *time.Location
txlock string
funcs []*functionInfo
aggregators []*aggInfo
}
// SQLiteTx implements driver.Tx.
type SQLiteTx struct {
c *SQLiteConn
}
// SQLiteStmt implements driver.Stmt.
type SQLiteStmt struct {
mu sync.Mutex
c *SQLiteConn
s *C.sqlite3_stmt
t string
closed bool
cls bool
}
// SQLiteResult implements sql.Result.
type SQLiteResult struct {
id int64
changes int64
}
// SQLiteRows implements driver.Rows.
type SQLiteRows struct {
s *SQLiteStmt
nc int
cols []string
decltype []string
cls bool
closed bool
ctx context.Context // no better alternative to pass context into Next() method
}
type functionInfo struct {
f reflect.Value
argConverters []callbackArgConverter
variadicConverter callbackArgConverter
retConverter callbackRetConverter
}
func (fi *functionInfo) Call(ctx *C.sqlite3_context, argv []*C.sqlite3_value) {
args, err := callbackConvertArgs(argv, fi.argConverters, fi.variadicConverter)
if err != nil {
callbackError(ctx, err)
return
}
ret := fi.f.Call(args)
if len(ret) == 2 && ret[1].Interface() != nil {
callbackError(ctx, ret[1].Interface().(error))
return
}
err = fi.retConverter(ctx, ret[0])
if err != nil {
callbackError(ctx, err)
return
}
}
type aggInfo struct {
constructor reflect.Value
// Active aggregator objects for aggregations in flight. The
// aggregators are indexed by a counter stored in the aggregation
// user data space provided by sqlite.
active map[int64]reflect.Value
next int64
stepArgConverters []callbackArgConverter
stepVariadicConverter callbackArgConverter
doneRetConverter callbackRetConverter
}
func (ai *aggInfo) agg(ctx *C.sqlite3_context) (int64, reflect.Value, error) {
aggIdx := (*int64)(C.sqlite3_aggregate_context(ctx, C.int(8)))
if *aggIdx == 0 {
*aggIdx = ai.next
ret := ai.constructor.Call(nil)
if len(ret) == 2 && ret[1].Interface() != nil {
return 0, reflect.Value{}, ret[1].Interface().(error)
}
if ret[0].IsNil() {
return 0, reflect.Value{}, errors.New("aggregator constructor returned nil state")
}
ai.next++
ai.active[*aggIdx] = ret[0]
}
return *aggIdx, ai.active[*aggIdx], nil
}
func (ai *aggInfo) Step(ctx *C.sqlite3_context, argv []*C.sqlite3_value) {
_, agg, err := ai.agg(ctx)
if err != nil {
callbackError(ctx, err)
return
}
args, err := callbackConvertArgs(argv, ai.stepArgConverters, ai.stepVariadicConverter)
if err != nil {
callbackError(ctx, err)
return
}
ret := agg.MethodByName("Step").Call(args)
if len(ret) == 1 && ret[0].Interface() != nil {
callbackError(ctx, ret[0].Interface().(error))
return
}
}
func (ai *aggInfo) Done(ctx *C.sqlite3_context) {
idx, agg, err := ai.agg(ctx)
if err != nil {
callbackError(ctx, err)
return
}
defer func() { delete(ai.active, idx) }()
ret := agg.MethodByName("Done").Call(nil)
if len(ret) == 2 && ret[1].Interface() != nil {
callbackError(ctx, ret[1].Interface().(error))
return
}
err = ai.doneRetConverter(ctx, ret[0])
if err != nil {
callbackError(ctx, err)
return
}
}
// Commit transaction.
func (tx *SQLiteTx) Commit() error {
_, err := tx.c.exec(context.Background(), "COMMIT", nil)
if err != nil {
// sqlite3 may leave the transaction open in this scenario.
// However, database/sql considers the transaction complete once we
// return from Commit() - we must clean up to honour its semantics.
// We don't know if the ROLLBACK is strictly necessary, but according
// to sqlite's docs, there is no harm in calling ROLLBACK unnecessarily.
tx.c.exec(context.Background(), "ROLLBACK", nil)
}
return err
}
// Rollback transaction.
func (tx *SQLiteTx) Rollback() error {
_, err := tx.c.exec(context.Background(), "ROLLBACK", nil)
return err
}
// RegisterCollation makes a Go function available as a collation.
//
// cmp receives two UTF-8 strings, a and b. The result should be 0 if
// a==b, -1 if a < b, and +1 if a > b.
//
// cmp must always return the same result given the same
// inputs. Additionally, it must have the following properties for all
// strings A, B and C: if A==B then B==A; if A==B and B==C then A==C;
// if A<B then B>A; if A<B and B<C then A<C.
//
// If cmp does not obey these constraints, sqlite3's behavior is
// undefined when the collation is used.
func (c *SQLiteConn) RegisterCollation(name string, cmp func(string, string) int) error {
handle := newHandle(c, cmp)
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
rv := C.sqlite3_create_collation(c.db, cname, C.SQLITE_UTF8, handle, (*[0]byte)(unsafe.Pointer(C.compareTrampoline)))
if rv != C.SQLITE_OK {
return c.lastError()
}
return nil
}
// RegisterCommitHook sets the commit hook for a connection.
//
// If the callback returns non-zero the transaction will become a rollback.
//
// If there is an existing commit hook for this connection, it will be
// removed. If callback is nil the existing hook (if any) will be removed
// without creating a new one.
func (c *SQLiteConn) RegisterCommitHook(callback func() int) {
if callback == nil {
C.sqlite3_commit_hook(c.db, nil, nil)
} else {
C.sqlite3_commit_hook(c.db, (*[0]byte)(C.commitHookTrampoline), newHandle(c, callback))
}
}
// RegisterRollbackHook sets the rollback hook for a connection.
//
// If there is an existing rollback hook for this connection, it will be
// removed. If callback is nil the existing hook (if any) will be removed
// without creating a new one.
func (c *SQLiteConn) RegisterRollbackHook(callback func()) {
if callback == nil {
C.sqlite3_rollback_hook(c.db, nil, nil)
} else {
C.sqlite3_rollback_hook(c.db, (*[0]byte)(C.rollbackHookTrampoline), newHandle(c, callback))
}
}
// RegisterUpdateHook sets the update hook for a connection.
//
// The parameters to the callback are the operation (one of the constants
// SQLITE_INSERT, SQLITE_DELETE, or SQLITE_UPDATE), the database name, the
// table name, and the rowid.
//
// If there is an existing update hook for this connection, it will be
// removed. If callback is nil the existing hook (if any) will be removed
// without creating a new one.
func (c *SQLiteConn) RegisterUpdateHook(callback func(int, string, string, int64)) {
if callback == nil {
C.sqlite3_update_hook(c.db, nil, nil)
} else {
C.sqlite3_update_hook(c.db, (*[0]byte)(C.updateHookTrampoline), newHandle(c, callback))
}
}
// RegisterAuthorizer sets the authorizer for connection.
//
// The parameters to the callback are the operation (one of the constants
// SQLITE_INSERT, SQLITE_DELETE, or SQLITE_UPDATE), and 1 to 3 arguments,
// depending on operation. More details see:
// https://www.sqlite.org/c3ref/c_alter_table.html
func (c *SQLiteConn) RegisterAuthorizer(callback func(int, string, string, string) int) {
if callback == nil {
C.sqlite3_set_authorizer(c.db, nil, nil)
} else {
C.sqlite3_set_authorizer(c.db, (*[0]byte)(C.authorizerTrampoline), newHandle(c, callback))
}
}
// RegisterFunc makes a Go function available as a SQLite function.
//
// The Go function can have arguments of the following types: any
// numeric type except complex, bool, []byte, string and any.
// any arguments are given the direct translation of the SQLite data type:
// int64 for INTEGER, float64 for FLOAT, []byte for BLOB, string for TEXT.
//
// The function can additionally be variadic, as long as the type of
// the variadic argument is one of the above.
//
// If pure is true. SQLite will assume that the function's return
// value depends only on its inputs, and make more aggressive
// optimizations in its queries.
//
// See _example/go_custom_funcs for a detailed example.
func (c *SQLiteConn) RegisterFunc(name string, impl any, pure bool) error {
var fi functionInfo
fi.f = reflect.ValueOf(impl)
t := fi.f.Type()
if t.Kind() != reflect.Func {
return errors.New("Non-function passed to RegisterFunc")
}
if t.NumOut() != 1 && t.NumOut() != 2 {
return errors.New("SQLite functions must return 1 or 2 values")
}
if t.NumOut() == 2 && !t.Out(1).Implements(reflect.TypeOf((*error)(nil)).Elem()) {
return errors.New("Second return value of SQLite function must be error")
}
numArgs := t.NumIn()
if t.IsVariadic() {
numArgs--
}
for i := 0; i < numArgs; i++ {
conv, err := callbackArg(t.In(i))
if err != nil {
return err
}
fi.argConverters = append(fi.argConverters, conv)
}
if t.IsVariadic() {
conv, err := callbackArg(t.In(numArgs).Elem())
if err != nil {
return err
}
fi.variadicConverter = conv
// Pass -1 to sqlite so that it allows any number of
// arguments. The call helper verifies that the minimum number
// of arguments is present for variadic functions.
numArgs = -1
}
conv, err := callbackRet(t.Out(0))
if err != nil {
return err
}
fi.retConverter = conv
// fi must outlast the database connection, or we'll have dangling pointers.
c.funcs = append(c.funcs, &fi)
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
opts := C.SQLITE_UTF8
if pure {
opts |= C.SQLITE_DETERMINISTIC
}
rv := sqlite3CreateFunction(c.db, cname, C.int(numArgs), C.int(opts), newHandle(c, &fi), C.callbackTrampoline, nil, nil)
if rv != C.SQLITE_OK {
return c.lastError()
}
return nil
}
func sqlite3CreateFunction(db *C.sqlite3, zFunctionName *C.char, nArg C.int, eTextRep C.int, pApp unsafe.Pointer, xFunc unsafe.Pointer, xStep unsafe.Pointer, xFinal unsafe.Pointer) C.int {
return C._sqlite3_create_function(db, zFunctionName, nArg, eTextRep, C.uintptr_t(uintptr(pApp)), (*[0]byte)(xFunc), (*[0]byte)(xStep), (*[0]byte)(xFinal))
}
// RegisterAggregator makes a Go type available as a SQLite aggregation function.
//
// Because aggregation is incremental, it's implemented in Go with a
// type that has 2 methods: func Step(values) accumulates one row of
// data into the accumulator, and func Done() ret finalizes and
// returns the aggregate value. "values" and "ret" may be any type
// supported by RegisterFunc.
//
// RegisterAggregator takes as implementation a constructor function
// that constructs an instance of the aggregator type each time an
// aggregation begins. The constructor must return a pointer to a
// type, or an interface that implements Step() and Done().
//
// The constructor function and the Step/Done methods may optionally
// return an error in addition to their other return values.
//
// See _example/go_custom_funcs for a detailed example.
func (c *SQLiteConn) RegisterAggregator(name string, impl any, pure bool) error {
var ai aggInfo
ai.constructor = reflect.ValueOf(impl)
t := ai.constructor.Type()
if t.Kind() != reflect.Func {
return errors.New("non-function passed to RegisterAggregator")
}
if t.NumOut() != 1 && t.NumOut() != 2 {
return errors.New("SQLite aggregator constructors must return 1 or 2 values")
}
if t.NumOut() == 2 && !t.Out(1).Implements(reflect.TypeOf((*error)(nil)).Elem()) {
return errors.New("Second return value of SQLite function must be error")
}
if t.NumIn() != 0 {
return errors.New("SQLite aggregator constructors must not have arguments")
}
agg := t.Out(0)
switch agg.Kind() {
case reflect.Ptr, reflect.Interface:
default:
return errors.New("SQlite aggregator constructor must return a pointer object")
}
stepFn, found := agg.MethodByName("Step")
if !found {
return errors.New("SQlite aggregator doesn't have a Step() function")
}
step := stepFn.Type
if step.NumOut() != 0 && step.NumOut() != 1 {
return errors.New("SQlite aggregator Step() function must return 0 or 1 values")
}
if step.NumOut() == 1 && !step.Out(0).Implements(reflect.TypeOf((*error)(nil)).Elem()) {
return errors.New("type of SQlite aggregator Step() return value must be error")
}
stepNArgs := step.NumIn()
start := 0
if agg.Kind() == reflect.Ptr {
// Skip over the method receiver
stepNArgs--
start++
}
if step.IsVariadic() {
stepNArgs--
}
for i := start; i < start+stepNArgs; i++ {
conv, err := callbackArg(step.In(i))
if err != nil {
return err
}
ai.stepArgConverters = append(ai.stepArgConverters, conv)
}
if step.IsVariadic() {
conv, err := callbackArg(step.In(start + stepNArgs).Elem())
if err != nil {
return err
}
ai.stepVariadicConverter = conv
// Pass -1 to sqlite so that it allows any number of
// arguments. The call helper verifies that the minimum number
// of arguments is present for variadic functions.
stepNArgs = -1
}
doneFn, found := agg.MethodByName("Done")
if !found {
return errors.New("SQlite aggregator doesn't have a Done() function")
}
done := doneFn.Type
doneNArgs := done.NumIn()
if agg.Kind() == reflect.Ptr {
// Skip over the method receiver
doneNArgs--
}
if doneNArgs != 0 {
return errors.New("SQlite aggregator Done() function must have no arguments")
}
if done.NumOut() != 1 && done.NumOut() != 2 {
return errors.New("SQLite aggregator Done() function must return 1 or 2 values")
}
if done.NumOut() == 2 && !done.Out(1).Implements(reflect.TypeOf((*error)(nil)).Elem()) {
return errors.New("second return value of SQLite aggregator Done() function must be error")
}
conv, err := callbackRet(done.Out(0))
if err != nil {
return err
}
ai.doneRetConverter = conv
ai.active = make(map[int64]reflect.Value)
ai.next = 1
// ai must outlast the database connection, or we'll have dangling pointers.
c.aggregators = append(c.aggregators, &ai)
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
opts := C.SQLITE_UTF8
if pure {
opts |= C.SQLITE_DETERMINISTIC
}
rv := sqlite3CreateFunction(c.db, cname, C.int(stepNArgs), C.int(opts), newHandle(c, &ai), nil, C.stepTrampoline, C.doneTrampoline)
if rv != C.SQLITE_OK {
return c.lastError()
}
return nil
}
// AutoCommit return which currently auto commit or not.
func (c *SQLiteConn) AutoCommit() bool {
c.mu.Lock()
defer c.mu.Unlock()
return int(C.sqlite3_get_autocommit(c.db)) != 0
}
func (c *SQLiteConn) lastError() error {
return lastError(c.db)
}
// Note: may be called with db == nil
func lastError(db *C.sqlite3) error {
rv := C.sqlite3_errcode(db) // returns SQLITE_NOMEM if db == nil
if rv == C.SQLITE_OK {
return nil
}
extrv := C.sqlite3_extended_errcode(db) // returns SQLITE_NOMEM if db == nil
errStr := C.GoString(C.sqlite3_errmsg(db)) // returns "out of memory" if db == nil
// https://www.sqlite.org/c3ref/system_errno.html
// sqlite3_system_errno is only meaningful if the error code was SQLITE_CANTOPEN,
// or it was SQLITE_IOERR and the extended code was not SQLITE_IOERR_NOMEM
var systemErrno syscall.Errno
if rv == C.SQLITE_CANTOPEN || (rv == C.SQLITE_IOERR && extrv != C.SQLITE_IOERR_NOMEM) {
systemErrno = syscall.Errno(C.sqlite3_system_errno(db))
}
return Error{
Code: ErrNo(rv),
ExtendedCode: ErrNoExtended(extrv),
SystemErrno: systemErrno,
err: errStr,
}
}
// Exec implements Execer.
func (c *SQLiteConn) Exec(query string, args []driver.Value) (driver.Result, error) {
list := make([]driver.NamedValue, len(args))
for i, v := range args {
list[i] = driver.NamedValue{
Ordinal: i + 1,
Value: v,
}
}
return c.exec(context.Background(), query, list)
}
func (c *SQLiteConn) exec(ctx context.Context, query string, args []driver.NamedValue) (driver.Result, error) {
start := 0
for {
s, err := c.prepare(ctx, query)
if err != nil {
return nil, err
}
var res driver.Result
if s.(*SQLiteStmt).s != nil {
stmtArgs := make([]driver.NamedValue, 0, len(args))
na := s.NumInput()
if len(args)-start < na {
s.Close()
return nil, fmt.Errorf("not enough args to execute query: want %d got %d", na, len(args))
}
// consume the number of arguments used in the current
// statement and append all named arguments not
// contained therein
if len(args[start:start+na]) > 0 {
stmtArgs = append(stmtArgs, args[start:start+na]...)
for i := range args {
if (i < start || i >= na) && args[i].Name != "" {
stmtArgs = append(stmtArgs, args[i])
}
}
for i := range stmtArgs {
stmtArgs[i].Ordinal = i + 1
}
}
res, err = s.(*SQLiteStmt).exec(ctx, stmtArgs)
if err != nil && err != driver.ErrSkip {
s.Close()
return nil, err
}
start += na
}
tail := s.(*SQLiteStmt).t
s.Close()
if tail == "" {
if res == nil {
// https://github.com/mattn/go-sqlite3/issues/963
res = &SQLiteResult{0, 0}
}
return res, nil
}
query = tail
}
}
// Query implements Queryer.
func (c *SQLiteConn) Query(query string, args []driver.Value) (driver.Rows, error) {
list := make([]driver.NamedValue, len(args))
for i, v := range args {
list[i] = driver.NamedValue{
Ordinal: i + 1,
Value: v,
}
}
return c.query(context.Background(), query, list)
}
func (c *SQLiteConn) query(ctx context.Context, query string, args []driver.NamedValue) (driver.Rows, error) {
start := 0
for {
stmtArgs := make([]driver.NamedValue, 0, len(args))
s, err := c.prepare(ctx, query)
if err != nil {
return nil, err
}
s.(*SQLiteStmt).cls = true
na := s.NumInput()
if len(args)-start < na {
s.Close()
return nil, fmt.Errorf("not enough args to execute query: want %d got %d", na, len(args)-start)
}
// consume the number of arguments used in the current
// statement and append all named arguments not contained
// therein
stmtArgs = append(stmtArgs, args[start:start+na]...)
for i := range args {
if (i < start || i >= na) && args[i].Name != "" {
stmtArgs = append(stmtArgs, args[i])
}
}
for i := range stmtArgs {
stmtArgs[i].Ordinal = i + 1
}
rows, err := s.(*SQLiteStmt).query(ctx, stmtArgs)
if err != nil && err != driver.ErrSkip {
s.Close()
return rows, err
}
start += na
tail := s.(*SQLiteStmt).t
if tail == "" {
return rows, nil
}
rows.Close()
s.Close()
query = tail
}
}
// Begin transaction.
func (c *SQLiteConn) Begin() (driver.Tx, error) {
return c.begin(context.Background())
}
func (c *SQLiteConn) begin(ctx context.Context) (driver.Tx, error) {
if _, err := c.exec(ctx, c.txlock, nil); err != nil {
return nil, err
}
return &SQLiteTx{c}, nil
}
// Open database and return a new connection.
//
// A pragma can take either zero or one argument.
// The argument is may be either in parentheses or it may be separated from
// the pragma name by an equal sign. The two syntaxes yield identical results.
// In many pragmas, the argument is a boolean. The boolean can be one of:
//
// 1 yes true on
// 0 no false off
//
// You can specify a DSN string using a URI as the filename.
//
// test.db
// file:test.db?cache=shared&mode=memory
// :memory:
// file::memory:
//
// mode
// Access mode of the database.
// https://www.sqlite.org/c3ref/open.html
// Values:
// - ro
// - rw
// - rwc
// - memory
//