mirror of
https://github.com/superseriousbusiness/gotosocial.git
synced 2024-11-30 07:32:45 +00:00
685 lines
20 KiB
Go
685 lines
20 KiB
Go
package sqlite3
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import (
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"context"
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"reflect"
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"github.com/tetratelabs/wazero/api"
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"github.com/ncruces/go-sqlite3/internal/util"
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)
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// CreateModule registers a new virtual table module name.
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// If create is nil, the virtual table is eponymous.
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//
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// https://sqlite.org/c3ref/create_module.html
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func CreateModule[T VTab](db *Conn, name string, create, connect VTabConstructor[T]) error {
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var flags int
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const (
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VTAB_CREATOR = 0x001
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VTAB_DESTROYER = 0x002
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VTAB_UPDATER = 0x004
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VTAB_RENAMER = 0x008
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VTAB_OVERLOADER = 0x010
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VTAB_CHECKER = 0x020
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VTAB_TXN = 0x040
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VTAB_SAVEPOINTER = 0x080
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VTAB_SHADOWTABS = 0x100
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)
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if create != nil {
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flags |= VTAB_CREATOR
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}
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vtab := reflect.TypeOf(connect).Out(0)
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if implements[VTabDestroyer](vtab) {
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flags |= VTAB_DESTROYER
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}
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if implements[VTabUpdater](vtab) {
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flags |= VTAB_UPDATER
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}
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if implements[VTabRenamer](vtab) {
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flags |= VTAB_RENAMER
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}
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if implements[VTabOverloader](vtab) {
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flags |= VTAB_OVERLOADER
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}
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if implements[VTabChecker](vtab) {
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flags |= VTAB_CHECKER
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}
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if implements[VTabTxn](vtab) {
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flags |= VTAB_TXN
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}
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if implements[VTabSavepointer](vtab) {
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flags |= VTAB_SAVEPOINTER
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}
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if implements[VTabShadowTabler](vtab) {
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flags |= VTAB_SHADOWTABS
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}
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var modulePtr uint32
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defer db.arena.mark()()
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namePtr := db.arena.string(name)
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if connect != nil {
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modulePtr = util.AddHandle(db.ctx, module[T]{create, connect})
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}
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r := db.call("sqlite3_create_module_go", uint64(db.handle),
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uint64(namePtr), uint64(flags), uint64(modulePtr))
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return db.error(r)
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}
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func implements[T any](typ reflect.Type) bool {
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var ptr *T
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return typ.Implements(reflect.TypeOf(ptr).Elem())
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}
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// DeclareVTab declares the schema of a virtual table.
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//
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// https://sqlite.org/c3ref/declare_vtab.html
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func (c *Conn) DeclareVTab(sql string) error {
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defer c.arena.mark()()
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sqlPtr := c.arena.string(sql)
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r := c.call("sqlite3_declare_vtab", uint64(c.handle), uint64(sqlPtr))
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return c.error(r)
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}
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// VTabConflictMode is a virtual table conflict resolution mode.
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//
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// https://sqlite.org/c3ref/c_fail.html
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type VTabConflictMode uint8
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const (
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VTAB_ROLLBACK VTabConflictMode = 1
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VTAB_IGNORE VTabConflictMode = 2
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VTAB_FAIL VTabConflictMode = 3
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VTAB_ABORT VTabConflictMode = 4
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VTAB_REPLACE VTabConflictMode = 5
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)
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// VTabOnConflict determines the virtual table conflict policy.
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//
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// https://sqlite.org/c3ref/vtab_on_conflict.html
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func (c *Conn) VTabOnConflict() VTabConflictMode {
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r := c.call("sqlite3_vtab_on_conflict", uint64(c.handle))
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return VTabConflictMode(r)
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}
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// VTabConfigOption is a virtual table configuration option.
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//
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// https://sqlite.org/c3ref/c_vtab_constraint_support.html
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type VTabConfigOption uint8
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const (
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VTAB_CONSTRAINT_SUPPORT VTabConfigOption = 1
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VTAB_INNOCUOUS VTabConfigOption = 2
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VTAB_DIRECTONLY VTabConfigOption = 3
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VTAB_USES_ALL_SCHEMAS VTabConfigOption = 4
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)
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// VTabConfig configures various facets of the virtual table interface.
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//
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// https://sqlite.org/c3ref/vtab_config.html
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func (c *Conn) VTabConfig(op VTabConfigOption, args ...any) error {
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var i uint64
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if op == VTAB_CONSTRAINT_SUPPORT && len(args) > 0 {
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if b, ok := args[0].(bool); ok && b {
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i = 1
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}
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}
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r := c.call("sqlite3_vtab_config_go", uint64(c.handle), uint64(op), i)
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return c.error(r)
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}
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// VTabConstructor is a virtual table constructor function.
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type VTabConstructor[T VTab] func(db *Conn, module, schema, table string, arg ...string) (T, error)
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type module[T VTab] [2]VTabConstructor[T]
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type vtabConstructor int
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const (
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xCreate vtabConstructor = 0
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xConnect vtabConstructor = 1
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)
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// A VTab describes a particular instance of the virtual table.
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// A VTab may optionally implement [io.Closer] to free resources.
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//
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// https://sqlite.org/c3ref/vtab.html
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type VTab interface {
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// https://sqlite.org/vtab.html#xbestindex
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BestIndex(*IndexInfo) error
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// https://sqlite.org/vtab.html#xopen
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Open() (VTabCursor, error)
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}
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// A VTabDestroyer allows a virtual table to drop persistent state.
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type VTabDestroyer interface {
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VTab
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// https://sqlite.org/vtab.html#sqlite3_module.xDestroy
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Destroy() error
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}
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// A VTabUpdater allows a virtual table to be updated.
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type VTabUpdater interface {
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VTab
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// https://sqlite.org/vtab.html#xupdate
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Update(arg ...Value) (rowid int64, err error)
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}
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// A VTabRenamer allows a virtual table to be renamed.
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type VTabRenamer interface {
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VTab
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// https://sqlite.org/vtab.html#xrename
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Rename(new string) error
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}
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// A VTabOverloader allows a virtual table to overload SQL functions.
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type VTabOverloader interface {
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VTab
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// https://sqlite.org/vtab.html#xfindfunction
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FindFunction(arg int, name string) (ScalarFunction, IndexConstraintOp)
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}
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// A VTabShadowTabler allows a virtual table to protect the content
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// of shadow tables from being corrupted by hostile SQL.
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//
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// Implementing this interface signals that a virtual table named
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// "mumble" reserves all table names starting with "mumble_".
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type VTabShadowTabler interface {
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VTab
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// https://sqlite.org/vtab.html#the_xshadowname_method
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ShadowTables()
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}
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// A VTabChecker allows a virtual table to report errors
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// to the PRAGMA integrity_check and PRAGMA quick_check commands.
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//
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// Integrity should return an error if it finds problems in the content of the virtual table,
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// but should avoid returning a (wrapped) [Error], [ErrorCode] or [ExtendedErrorCode],
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// as those indicate the Integrity method itself encountered problems
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// while trying to evaluate the virtual table content.
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type VTabChecker interface {
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VTab
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// https://sqlite.org/vtab.html#xintegrity
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Integrity(schema, table string, flags int) error
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}
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// A VTabTxn allows a virtual table to implement
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// transactions with two-phase commit.
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//
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// Anything that is required as part of a commit that may fail
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// should be performed in the Sync() callback.
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// Current versions of SQLite ignore any errors
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// returned by Commit() and Rollback().
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type VTabTxn interface {
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VTab
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// https://sqlite.org/vtab.html#xBegin
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Begin() error
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// https://sqlite.org/vtab.html#xsync
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Sync() error
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// https://sqlite.org/vtab.html#xcommit
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Commit() error
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// https://sqlite.org/vtab.html#xrollback
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Rollback() error
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}
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// A VTabSavepointer allows a virtual table to implement
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// nested transactions.
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//
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// https://sqlite.org/vtab.html#xsavepoint
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type VTabSavepointer interface {
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VTabTxn
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Savepoint(id int) error
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Release(id int) error
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RollbackTo(id int) error
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}
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// A VTabCursor describes cursors that point
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// into the virtual table and are used
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// to loop through the virtual table.
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// A VTabCursor may optionally implement
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// [io.Closer] to free resources.
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//
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// http://sqlite.org/c3ref/vtab_cursor.html
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type VTabCursor interface {
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// https://sqlite.org/vtab.html#xfilter
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Filter(idxNum int, idxStr string, arg ...Value) error
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// https://sqlite.org/vtab.html#xnext
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Next() error
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// https://sqlite.org/vtab.html#xeof
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EOF() bool
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// https://sqlite.org/vtab.html#xcolumn
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Column(ctx Context, n int) error
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// https://sqlite.org/vtab.html#xrowid
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RowID() (int64, error)
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}
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// An IndexInfo describes virtual table indexing information.
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//
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// https://sqlite.org/c3ref/index_info.html
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type IndexInfo struct {
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// Inputs
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Constraint []IndexConstraint
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OrderBy []IndexOrderBy
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ColumnsUsed int64
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// Outputs
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ConstraintUsage []IndexConstraintUsage
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IdxNum int
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IdxStr string
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IdxFlags IndexScanFlag
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OrderByConsumed bool
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EstimatedCost float64
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EstimatedRows int64
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// Internal
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c *Conn
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handle uint32
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}
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// An IndexConstraint describes virtual table indexing constraint information.
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//
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// https://sqlite.org/c3ref/index_info.html
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type IndexConstraint struct {
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Column int
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Op IndexConstraintOp
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Usable bool
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}
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// An IndexOrderBy describes virtual table indexing order by information.
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//
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// https://sqlite.org/c3ref/index_info.html
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type IndexOrderBy struct {
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Column int
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Desc bool
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}
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// An IndexConstraintUsage describes how virtual table indexing constraints will be used.
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//
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// https://sqlite.org/c3ref/index_info.html
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type IndexConstraintUsage struct {
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ArgvIndex int
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Omit bool
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}
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// RHSValue returns the value of the right-hand operand of a constraint
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// if the right-hand operand is known.
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//
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// https://sqlite.org/c3ref/vtab_rhs_value.html
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func (idx *IndexInfo) RHSValue(column int) (Value, error) {
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defer idx.c.arena.mark()()
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valPtr := idx.c.arena.new(ptrlen)
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r := idx.c.call("sqlite3_vtab_rhs_value", uint64(idx.handle),
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uint64(column), uint64(valPtr))
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if err := idx.c.error(r); err != nil {
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return Value{}, err
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}
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return Value{
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c: idx.c,
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handle: util.ReadUint32(idx.c.mod, valPtr),
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}, nil
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}
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// Collation returns the name of the collation for a virtual table constraint.
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//
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// https://sqlite.org/c3ref/vtab_collation.html
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func (idx *IndexInfo) Collation(column int) string {
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r := idx.c.call("sqlite3_vtab_collation", uint64(idx.handle),
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uint64(column))
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return util.ReadString(idx.c.mod, uint32(r), _MAX_NAME)
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}
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// Distinct determines if a virtual table query is DISTINCT.
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//
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// https://sqlite.org/c3ref/vtab_distinct.html
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func (idx *IndexInfo) Distinct() int {
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r := idx.c.call("sqlite3_vtab_distinct", uint64(idx.handle))
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return int(r)
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}
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// In identifies and handles IN constraints.
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//
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// https://sqlite.org/c3ref/vtab_in.html
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func (idx *IndexInfo) In(column, handle int) bool {
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r := idx.c.call("sqlite3_vtab_in", uint64(idx.handle),
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uint64(column), uint64(handle))
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return r != 0
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}
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func (idx *IndexInfo) load() {
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// https://sqlite.org/c3ref/index_info.html
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mod := idx.c.mod
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ptr := idx.handle
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idx.Constraint = make([]IndexConstraint, util.ReadUint32(mod, ptr+0))
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idx.ConstraintUsage = make([]IndexConstraintUsage, util.ReadUint32(mod, ptr+0))
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idx.OrderBy = make([]IndexOrderBy, util.ReadUint32(mod, ptr+8))
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constraintPtr := util.ReadUint32(mod, ptr+4)
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constraint := idx.Constraint
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for i := range idx.Constraint {
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constraint[i] = IndexConstraint{
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Column: int(int32(util.ReadUint32(mod, constraintPtr+0))),
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Op: IndexConstraintOp(util.ReadUint8(mod, constraintPtr+4)),
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Usable: util.ReadUint8(mod, constraintPtr+5) != 0,
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}
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constraintPtr += 12
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}
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orderByPtr := util.ReadUint32(mod, ptr+12)
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orderBy := idx.OrderBy
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for i := range orderBy {
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orderBy[i] = IndexOrderBy{
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Column: int(int32(util.ReadUint32(mod, orderByPtr+0))),
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Desc: util.ReadUint8(mod, orderByPtr+4) != 0,
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}
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orderByPtr += 8
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}
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idx.EstimatedCost = util.ReadFloat64(mod, ptr+40)
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idx.EstimatedRows = int64(util.ReadUint64(mod, ptr+48))
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idx.ColumnsUsed = int64(util.ReadUint64(mod, ptr+64))
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}
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func (idx *IndexInfo) save() {
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// https://sqlite.org/c3ref/index_info.html
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mod := idx.c.mod
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ptr := idx.handle
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usagePtr := util.ReadUint32(mod, ptr+16)
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for _, usage := range idx.ConstraintUsage {
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util.WriteUint32(mod, usagePtr+0, uint32(usage.ArgvIndex))
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if usage.Omit {
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util.WriteUint8(mod, usagePtr+4, 1)
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}
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usagePtr += 8
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}
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util.WriteUint32(mod, ptr+20, uint32(idx.IdxNum))
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if idx.IdxStr != "" {
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util.WriteUint32(mod, ptr+24, idx.c.newString(idx.IdxStr))
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util.WriteUint32(mod, ptr+28, 1) // needToFreeIdxStr
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}
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if idx.OrderByConsumed {
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util.WriteUint32(mod, ptr+32, 1)
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}
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util.WriteFloat64(mod, ptr+40, idx.EstimatedCost)
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util.WriteUint64(mod, ptr+48, uint64(idx.EstimatedRows))
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util.WriteUint32(mod, ptr+56, uint32(idx.IdxFlags))
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}
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// IndexConstraintOp is a virtual table constraint operator code.
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//
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// https://sqlite.org/c3ref/c_index_constraint_eq.html
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type IndexConstraintOp uint8
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const (
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INDEX_CONSTRAINT_EQ IndexConstraintOp = 2
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INDEX_CONSTRAINT_GT IndexConstraintOp = 4
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INDEX_CONSTRAINT_LE IndexConstraintOp = 8
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INDEX_CONSTRAINT_LT IndexConstraintOp = 16
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INDEX_CONSTRAINT_GE IndexConstraintOp = 32
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INDEX_CONSTRAINT_MATCH IndexConstraintOp = 64
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INDEX_CONSTRAINT_LIKE IndexConstraintOp = 65
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INDEX_CONSTRAINT_GLOB IndexConstraintOp = 66
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INDEX_CONSTRAINT_REGEXP IndexConstraintOp = 67
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INDEX_CONSTRAINT_NE IndexConstraintOp = 68
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INDEX_CONSTRAINT_ISNOT IndexConstraintOp = 69
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INDEX_CONSTRAINT_ISNOTNULL IndexConstraintOp = 70
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INDEX_CONSTRAINT_ISNULL IndexConstraintOp = 71
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INDEX_CONSTRAINT_IS IndexConstraintOp = 72
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INDEX_CONSTRAINT_LIMIT IndexConstraintOp = 73
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INDEX_CONSTRAINT_OFFSET IndexConstraintOp = 74
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INDEX_CONSTRAINT_FUNCTION IndexConstraintOp = 150
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)
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// IndexScanFlag is a virtual table scan flag.
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//
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// https://sqlite.org/c3ref/c_index_scan_unique.html
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type IndexScanFlag uint32
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const (
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INDEX_SCAN_UNIQUE IndexScanFlag = 1
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)
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func vtabModuleCallback(i vtabConstructor) func(_ context.Context, _ api.Module, _, _, _, _, _ uint32) uint32 {
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return func(ctx context.Context, mod api.Module, pMod, nArg, pArg, ppVTab, pzErr uint32) uint32 {
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arg := make([]reflect.Value, 1+nArg)
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arg[0] = reflect.ValueOf(ctx.Value(connKey{}))
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for i := uint32(0); i < nArg; i++ {
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ptr := util.ReadUint32(mod, pArg+i*ptrlen)
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arg[i+1] = reflect.ValueOf(util.ReadString(mod, ptr, _MAX_SQL_LENGTH))
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}
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module := vtabGetHandle(ctx, mod, pMod)
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res := reflect.ValueOf(module).Index(int(i)).Call(arg)
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err, _ := res[1].Interface().(error)
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if err == nil {
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vtabPutHandle(ctx, mod, ppVTab, res[0].Interface())
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}
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return vtabError(ctx, mod, pzErr, _PTR_ERROR, err)
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}
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}
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func vtabDisconnectCallback(ctx context.Context, mod api.Module, pVTab uint32) uint32 {
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err := vtabDelHandle(ctx, mod, pVTab)
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return vtabError(ctx, mod, 0, _PTR_ERROR, err)
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}
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func vtabDestroyCallback(ctx context.Context, mod api.Module, pVTab uint32) uint32 {
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vtab := vtabGetHandle(ctx, mod, pVTab).(VTabDestroyer)
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err := vtab.Destroy()
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if cerr := vtabDelHandle(ctx, mod, pVTab); err == nil {
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err = cerr
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}
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return vtabError(ctx, mod, 0, _PTR_ERROR, err)
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}
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func vtabBestIndexCallback(ctx context.Context, mod api.Module, pVTab, pIdxInfo uint32) uint32 {
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var info IndexInfo
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info.handle = pIdxInfo
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info.c = ctx.Value(connKey{}).(*Conn)
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info.load()
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vtab := vtabGetHandle(ctx, mod, pVTab).(VTab)
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err := vtab.BestIndex(&info)
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info.save()
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return vtabError(ctx, mod, pVTab, _VTAB_ERROR, err)
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}
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func vtabUpdateCallback(ctx context.Context, mod api.Module, pVTab, nArg, pArg, pRowID uint32) uint32 {
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vtab := vtabGetHandle(ctx, mod, pVTab).(VTabUpdater)
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|
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db := ctx.Value(connKey{}).(*Conn)
|
|
args := make([]Value, nArg)
|
|
callbackArgs(db, args, pArg)
|
|
rowID, err := vtab.Update(args...)
|
|
if err == nil {
|
|
util.WriteUint64(mod, pRowID, uint64(rowID))
|
|
}
|
|
|
|
return vtabError(ctx, mod, pVTab, _VTAB_ERROR, err)
|
|
}
|
|
|
|
func vtabRenameCallback(ctx context.Context, mod api.Module, pVTab, zNew uint32) uint32 {
|
|
vtab := vtabGetHandle(ctx, mod, pVTab).(VTabRenamer)
|
|
err := vtab.Rename(util.ReadString(mod, zNew, _MAX_NAME))
|
|
return vtabError(ctx, mod, pVTab, _VTAB_ERROR, err)
|
|
}
|
|
|
|
func vtabFindFuncCallback(ctx context.Context, mod api.Module, pVTab uint32, nArg int32, zName, pxFunc uint32) uint32 {
|
|
vtab := vtabGetHandle(ctx, mod, pVTab).(VTabOverloader)
|
|
f, op := vtab.FindFunction(int(nArg), util.ReadString(mod, zName, _MAX_NAME))
|
|
if op != 0 {
|
|
var wrapper uint32
|
|
wrapper = util.AddHandle(ctx, func(c Context, arg ...Value) {
|
|
defer util.DelHandle(ctx, wrapper)
|
|
f(c, arg...)
|
|
})
|
|
util.WriteUint32(mod, pxFunc, wrapper)
|
|
}
|
|
return uint32(op)
|
|
}
|
|
|
|
func vtabIntegrityCallback(ctx context.Context, mod api.Module, pVTab, zSchema, zTabName, mFlags, pzErr uint32) uint32 {
|
|
vtab := vtabGetHandle(ctx, mod, pVTab).(VTabChecker)
|
|
schema := util.ReadString(mod, zSchema, _MAX_NAME)
|
|
table := util.ReadString(mod, zTabName, _MAX_NAME)
|
|
err := vtab.Integrity(schema, table, int(mFlags))
|
|
// xIntegrity should return OK - even if it finds problems in the content of the virtual table.
|
|
// https://sqlite.org/vtab.html#xintegrity
|
|
vtabError(ctx, mod, pzErr, _PTR_ERROR, err)
|
|
_, code := errorCode(err, _OK)
|
|
return code
|
|
}
|
|
|
|
func vtabBeginCallback(ctx context.Context, mod api.Module, pVTab uint32) uint32 {
|
|
vtab := vtabGetHandle(ctx, mod, pVTab).(VTabTxn)
|
|
err := vtab.Begin()
|
|
return vtabError(ctx, mod, pVTab, _VTAB_ERROR, err)
|
|
}
|
|
|
|
func vtabSyncCallback(ctx context.Context, mod api.Module, pVTab uint32) uint32 {
|
|
vtab := vtabGetHandle(ctx, mod, pVTab).(VTabTxn)
|
|
err := vtab.Sync()
|
|
return vtabError(ctx, mod, pVTab, _VTAB_ERROR, err)
|
|
}
|
|
|
|
func vtabCommitCallback(ctx context.Context, mod api.Module, pVTab uint32) uint32 {
|
|
vtab := vtabGetHandle(ctx, mod, pVTab).(VTabTxn)
|
|
err := vtab.Commit()
|
|
return vtabError(ctx, mod, pVTab, _VTAB_ERROR, err)
|
|
}
|
|
|
|
func vtabRollbackCallback(ctx context.Context, mod api.Module, pVTab uint32) uint32 {
|
|
vtab := vtabGetHandle(ctx, mod, pVTab).(VTabTxn)
|
|
err := vtab.Rollback()
|
|
return vtabError(ctx, mod, pVTab, _VTAB_ERROR, err)
|
|
}
|
|
|
|
func vtabSavepointCallback(ctx context.Context, mod api.Module, pVTab uint32, id int32) uint32 {
|
|
vtab := vtabGetHandle(ctx, mod, pVTab).(VTabSavepointer)
|
|
err := vtab.Savepoint(int(id))
|
|
return vtabError(ctx, mod, pVTab, _VTAB_ERROR, err)
|
|
}
|
|
|
|
func vtabReleaseCallback(ctx context.Context, mod api.Module, pVTab uint32, id int32) uint32 {
|
|
vtab := vtabGetHandle(ctx, mod, pVTab).(VTabSavepointer)
|
|
err := vtab.Release(int(id))
|
|
return vtabError(ctx, mod, pVTab, _VTAB_ERROR, err)
|
|
}
|
|
|
|
func vtabRollbackToCallback(ctx context.Context, mod api.Module, pVTab uint32, id int32) uint32 {
|
|
vtab := vtabGetHandle(ctx, mod, pVTab).(VTabSavepointer)
|
|
err := vtab.RollbackTo(int(id))
|
|
return vtabError(ctx, mod, pVTab, _VTAB_ERROR, err)
|
|
}
|
|
|
|
func cursorOpenCallback(ctx context.Context, mod api.Module, pVTab, ppCur uint32) uint32 {
|
|
vtab := vtabGetHandle(ctx, mod, pVTab).(VTab)
|
|
|
|
cursor, err := vtab.Open()
|
|
if err == nil {
|
|
vtabPutHandle(ctx, mod, ppCur, cursor)
|
|
}
|
|
|
|
return vtabError(ctx, mod, pVTab, _VTAB_ERROR, err)
|
|
}
|
|
|
|
func cursorCloseCallback(ctx context.Context, mod api.Module, pCur uint32) uint32 {
|
|
err := vtabDelHandle(ctx, mod, pCur)
|
|
return vtabError(ctx, mod, 0, _VTAB_ERROR, err)
|
|
}
|
|
|
|
func cursorFilterCallback(ctx context.Context, mod api.Module, pCur uint32, idxNum int32, idxStr, nArg, pArg uint32) uint32 {
|
|
cursor := vtabGetHandle(ctx, mod, pCur).(VTabCursor)
|
|
db := ctx.Value(connKey{}).(*Conn)
|
|
args := make([]Value, nArg)
|
|
callbackArgs(db, args, pArg)
|
|
var idxName string
|
|
if idxStr != 0 {
|
|
idxName = util.ReadString(mod, idxStr, _MAX_LENGTH)
|
|
}
|
|
err := cursor.Filter(int(idxNum), idxName, args...)
|
|
return vtabError(ctx, mod, pCur, _CURSOR_ERROR, err)
|
|
}
|
|
|
|
func cursorEOFCallback(ctx context.Context, mod api.Module, pCur uint32) uint32 {
|
|
cursor := vtabGetHandle(ctx, mod, pCur).(VTabCursor)
|
|
if cursor.EOF() {
|
|
return 1
|
|
}
|
|
return 0
|
|
}
|
|
|
|
func cursorNextCallback(ctx context.Context, mod api.Module, pCur uint32) uint32 {
|
|
cursor := vtabGetHandle(ctx, mod, pCur).(VTabCursor)
|
|
err := cursor.Next()
|
|
return vtabError(ctx, mod, pCur, _CURSOR_ERROR, err)
|
|
}
|
|
|
|
func cursorColumnCallback(ctx context.Context, mod api.Module, pCur, pCtx uint32, n int32) uint32 {
|
|
cursor := vtabGetHandle(ctx, mod, pCur).(VTabCursor)
|
|
db := ctx.Value(connKey{}).(*Conn)
|
|
err := cursor.Column(Context{db, pCtx}, int(n))
|
|
return vtabError(ctx, mod, pCur, _CURSOR_ERROR, err)
|
|
}
|
|
|
|
func cursorRowIDCallback(ctx context.Context, mod api.Module, pCur, pRowID uint32) uint32 {
|
|
cursor := vtabGetHandle(ctx, mod, pCur).(VTabCursor)
|
|
|
|
rowID, err := cursor.RowID()
|
|
if err == nil {
|
|
util.WriteUint64(mod, pRowID, uint64(rowID))
|
|
}
|
|
|
|
return vtabError(ctx, mod, pCur, _CURSOR_ERROR, err)
|
|
}
|
|
|
|
const (
|
|
_PTR_ERROR = iota
|
|
_VTAB_ERROR
|
|
_CURSOR_ERROR
|
|
)
|
|
|
|
func vtabError(ctx context.Context, mod api.Module, ptr, kind uint32, err error) uint32 {
|
|
const zErrMsgOffset = 8
|
|
msg, code := errorCode(err, ERROR)
|
|
if msg != "" && ptr != 0 {
|
|
switch kind {
|
|
case _VTAB_ERROR:
|
|
ptr = ptr + zErrMsgOffset // zErrMsg
|
|
case _CURSOR_ERROR:
|
|
ptr = util.ReadUint32(mod, ptr) + zErrMsgOffset // pVTab->zErrMsg
|
|
}
|
|
db := ctx.Value(connKey{}).(*Conn)
|
|
if ptr := util.ReadUint32(mod, ptr); ptr != 0 {
|
|
db.free(ptr)
|
|
}
|
|
util.WriteUint32(mod, ptr, db.newString(msg))
|
|
}
|
|
return code
|
|
}
|
|
|
|
func vtabGetHandle(ctx context.Context, mod api.Module, ptr uint32) any {
|
|
const handleOffset = 4
|
|
handle := util.ReadUint32(mod, ptr-handleOffset)
|
|
return util.GetHandle(ctx, handle)
|
|
}
|
|
|
|
func vtabDelHandle(ctx context.Context, mod api.Module, ptr uint32) error {
|
|
const handleOffset = 4
|
|
handle := util.ReadUint32(mod, ptr-handleOffset)
|
|
return util.DelHandle(ctx, handle)
|
|
}
|
|
|
|
func vtabPutHandle(ctx context.Context, mod api.Module, pptr uint32, val any) {
|
|
const handleOffset = 4
|
|
handle := util.AddHandle(ctx, val)
|
|
ptr := util.ReadUint32(mod, pptr)
|
|
util.WriteUint32(mod, ptr-handleOffset, handle)
|
|
}
|