// Copyright 2019 The Gitea Authors. All rights reserved.
// SPDX-License-Identifier: MIT
package db
import (
"context"
"database/sql"
"xorm.io/xorm"
"xorm.io/xorm/schemas"
)
// DefaultContext is the default context to run xorm queries in
// will be overwritten by Init with HammerContext
var DefaultContext context . Context
// contextKey is a value for use with context.WithValue.
type contextKey struct {
name string
}
// enginedContextKey is a context key. It is used with context.Value() to get the current Engined for the context
var (
enginedContextKey = & contextKey { "engined" }
_ Engined = & Context { }
)
// Context represents a db context
type Context struct {
context . Context
e Engine
transaction bool
}
func newContext ( ctx context . Context , e Engine , transaction bool ) * Context {
return & Context {
Context : ctx ,
e : e ,
transaction : transaction ,
}
}
// InTransaction if context is in a transaction
func ( ctx * Context ) InTransaction ( ) bool {
return ctx . transaction
}
// Engine returns db engine
func ( ctx * Context ) Engine ( ) Engine {
return ctx . e
}
// Value shadows Value for context.Context but allows us to get ourselves and an Engined object
func ( ctx * Context ) Value ( key interface { } ) interface { } {
if key == enginedContextKey {
return ctx
}
return ctx . Context . Value ( key )
}
// WithContext returns this engine tied to this context
func ( ctx * Context ) WithContext ( other context . Context ) * Context {
return newContext ( ctx , ctx . e . Context ( other ) , ctx . transaction )
}
// Engined structs provide an Engine
type Engined interface {
Engine ( ) Engine
}
// GetEngine will get a db Engine from this context or return an Engine restricted to this context
func GetEngine ( ctx context . Context ) Engine {
if engined , ok := ctx . ( Engined ) ; ok {
return engined . Engine ( )
}
enginedInterface := ctx . Value ( enginedContextKey )
if enginedInterface != nil {
return enginedInterface . ( Engined ) . Engine ( )
}
return x . Context ( ctx )
}
// Committer represents an interface to Commit or Close the Context
type Committer interface {
Commit ( ) error
Close ( ) error
}
// TxContext represents a transaction Context
func TxContext ( parentCtx context . Context ) ( * Context , Committer , error ) {
if InTransaction ( parentCtx ) {
return nil , nil , ErrAlreadyInTransaction
}
sess := x . NewSession ( )
if err := sess . Begin ( ) ; err != nil {
sess . Close ( )
return nil , nil , err
}
return newContext ( DefaultContext , sess , true ) , sess , nil
}
// WithTx represents executing database operations on a transaction
// This function will always open a new transaction, if a transaction exist in parentCtx return an error.
func WithTx ( parentCtx context . Context , f func ( ctx context . Context ) error ) error {
if InTransaction ( parentCtx ) {
return ErrAlreadyInTransaction
}
return txWithNoCheck ( parentCtx , f )
}
// AutoTx represents executing database operations on a transaction, if the transaction exist,
// this function will reuse it otherwise will create a new one and close it when finished.
func AutoTx ( parentCtx context . Context , f func ( ctx context . Context ) error ) error {
if InTransaction ( parentCtx ) {
return f ( newContext ( parentCtx , GetEngine ( parentCtx ) , true ) )
}
return txWithNoCheck ( parentCtx , f )
}
func txWithNoCheck ( parentCtx context . Context , f func ( ctx context . Context ) error ) error {
sess := x . NewSession ( )
defer sess . Close ( )
if err := sess . Begin ( ) ; err != nil {
return err
}
if err := f ( newContext ( parentCtx , sess , true ) ) ; err != nil {
return err
}
return sess . Commit ( )
}
// Insert inserts records into database
func Insert ( ctx context . Context , beans ... interface { } ) error {
_ , err := GetEngine ( ctx ) . Insert ( beans ... )
return err
}
// Exec executes a sql with args
func Exec ( ctx context . Context , sqlAndArgs ... interface { } ) ( sql . Result , error ) {
return GetEngine ( ctx ) . Exec ( sqlAndArgs ... )
}
// GetByBean filled empty fields of the bean according non-empty fields to query in database.
func GetByBean ( ctx context . Context , bean interface { } ) ( bool , error ) {
return GetEngine ( ctx ) . Get ( bean )
}
// DeleteByBean deletes all records according non-empty fields of the bean as conditions.
func DeleteByBean ( ctx context . Context , bean interface { } ) ( int64 , error ) {
return GetEngine ( ctx ) . Delete ( bean )
}
// DeleteBeans deletes all given beans, beans should contain delete conditions.
func DeleteBeans ( ctx context . Context , beans ... interface { } ) ( err error ) {
e := GetEngine ( ctx )
for i := range beans {
if _ , err = e . Delete ( beans [ i ] ) ; err != nil {
return err
}
}
return nil
}
// CountByBean counts the number of database records according non-empty fields of the bean as conditions.
func CountByBean ( ctx context . Context , bean interface { } ) ( int64 , error ) {
return GetEngine ( ctx ) . Count ( bean )
}
// TableName returns the table name according a bean object
func TableName ( bean interface { } ) string {
return x . TableName ( bean )
}
// EstimateCount returns an estimate of total number of rows in table
func EstimateCount ( ctx context . Context , bean interface { } ) ( int64 , error ) {
e := GetEngine ( ctx )
e . Context ( ctx )
var rows int64
var err error
tablename := TableName ( bean )
switch x . Dialect ( ) . URI ( ) . DBType {
case schemas . MYSQL :
_ , err = e . Context ( ctx ) . SQL ( "SELECT table_rows FROM information_schema.tables WHERE tables.table_name = ? AND tables.table_schema = ?;" , tablename , x . Dialect ( ) . URI ( ) . DBName ) . Get ( & rows )
case schemas . POSTGRES :
_ , err = e . Context ( ctx ) . SQL ( "SELECT reltuples AS estimate FROM pg_class WHERE relname = ?;" , tablename ) . Get ( & rows )
case schemas . MSSQL :
_ , err = e . Context ( ctx ) . SQL ( "sp_spaceused ?;" , tablename ) . Get ( & rows )
default :
return e . Context ( ctx ) . Count ( tablename )
}
return rows , err
}
// InTransaction returns true if the engine is in a transaction otherwise return false
func InTransaction ( ctx context . Context ) bool {
var e Engine
if engined , ok := ctx . ( Engined ) ; ok {
e = engined . Engine ( )
} else {
enginedInterface := ctx . Value ( enginedContextKey )
if enginedInterface != nil {
e = enginedInterface . ( Engined ) . Engine ( )
}
}
if e == nil {
return false
}
switch t := e . ( type ) {
case * xorm . Engine :
return false
case * xorm . Session :
return t . IsInTx ( )
default :
return false
}
}