// Copyright 2019 The Gitea Authors. All rights reserved. // SPDX-License-Identifier: MIT package db import ( "context" "database/sql" "errors" "runtime" "slices" "sync" "code.gitea.io/gitea/modules/setting" "xorm.io/builder" "xorm.io/xorm" ) // DefaultContext is the default context to run xorm queries in // will be overwritten by Init with HammerContext var DefaultContext context.Context type engineContextKeyType struct{} var engineContextKey = engineContextKeyType{} // Context represents a db context type Context struct { context.Context engine Engine } func newContext(ctx context.Context, e Engine) *Context { return &Context{Context: ctx, engine: e} } // Value shadows Value for context.Context but allows us to get ourselves and an Engined object func (ctx *Context) Value(key any) any { if key == engineContextKey { 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.engine.Context(other)) } var ( contextSafetyOnce sync.Once contextSafetyDeniedFuncPCs []uintptr ) func contextSafetyCheck(e Engine) { if setting.IsProd && !setting.IsInTesting { return } if e == nil { return } // Only do this check for non-end-users. If the problem could be fixed in the future, this code could be removed. contextSafetyOnce.Do(func() { // try to figure out the bad functions to deny type m struct{} _ = e.SQL("SELECT 1").Iterate(&m{}, func(int, any) error { callers := make([]uintptr, 32) callerNum := runtime.Callers(1, callers) for i := 0; i < callerNum; i++ { if funcName := runtime.FuncForPC(callers[i]).Name(); funcName == "xorm.io/xorm.(*Session).Iterate" { contextSafetyDeniedFuncPCs = append(contextSafetyDeniedFuncPCs, callers[i]) } } return nil }) if len(contextSafetyDeniedFuncPCs) != 1 { panic(errors.New("unable to determine the functions to deny")) } }) // it should be very fast: xxxx ns/op callers := make([]uintptr, 32) callerNum := runtime.Callers(3, callers) // skip 3: runtime.Callers, contextSafetyCheck, GetEngine for i := 0; i < callerNum; i++ { if slices.Contains(contextSafetyDeniedFuncPCs, callers[i]) { panic(errors.New("using database context in an iterator would cause corrupted results")) } } } // GetEngine gets an existing db Engine/Statement or creates a new Session func GetEngine(ctx context.Context) Engine { if e := getExistingEngine(ctx); e != nil { return e } return xormEngine.Context(ctx) } // getExistingEngine gets an existing db Engine/Statement from this context or returns nil func getExistingEngine(ctx context.Context) (e Engine) { defer func() { contextSafetyCheck(e) }() if engined, ok := ctx.(*Context); ok { return engined.engine } if engined, ok := ctx.Value(engineContextKey).(*Context); ok { return engined.engine } return nil } // Committer represents an interface to Commit or Close the Context type Committer interface { Commit() error Close() error } // halfCommitter is a wrapper of Committer. // It can be closed early, but can't be committed early, it is useful for reusing a transaction. type halfCommitter struct { committer Committer committed bool } func (c *halfCommitter) Commit() error { c.committed = true // should do nothing, and the parent committer will commit later return nil } func (c *halfCommitter) Close() error { if c.committed { // it's "commit and close", should do nothing, and the parent committer will commit later return nil } // it's "rollback and close", let the parent committer rollback right now return c.committer.Close() } // TxContext represents a transaction Context, // it will reuse the existing transaction in the parent context or create a new one. // Some tips to use: // // 1 It's always recommended to use `WithTx` in new code instead of `TxContext`, since `WithTx` will handle the transaction automatically. // 2. To maintain the old code which uses `TxContext`: // a. Always call `Close()` before returning regardless of whether `Commit()` has been called. // b. Always call `Commit()` before returning if there are no errors, even if the code did not change any data. // c. Remember the `Committer` will be a halfCommitter when a transaction is being reused. // So calling `Commit()` will do nothing, but calling `Close()` without calling `Commit()` will rollback the transaction. // And all operations submitted by the caller stack will be rollbacked as well, not only the operations in the current function. // d. It doesn't mean rollback is forbidden, but always do it only when there is an error, and you do want to rollback. func TxContext(parentCtx context.Context) (*Context, Committer, error) { if sess, ok := inTransaction(parentCtx); ok { return newContext(parentCtx, sess), &halfCommitter{committer: sess}, nil } sess := xormEngine.NewSession() if err := sess.Begin(); err != nil { _ = sess.Close() return nil, nil, err } return newContext(DefaultContext, sess), sess, nil } // WithTx 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 WithTx(parentCtx context.Context, f func(ctx context.Context) error) error { if sess, ok := inTransaction(parentCtx); ok { err := f(newContext(parentCtx, sess)) if err != nil { // rollback immediately, in case the caller ignores returned error and tries to commit the transaction. _ = sess.Close() } return err } return txWithNoCheck(parentCtx, f) } func txWithNoCheck(parentCtx context.Context, f func(ctx context.Context) error) error { sess := xormEngine.NewSession() defer sess.Close() if err := sess.Begin(); err != nil { return err } if err := f(newContext(parentCtx, sess)); err != nil { return err } return sess.Commit() } // Insert inserts records into database func Insert(ctx context.Context, beans ...any) error { _, err := GetEngine(ctx).Insert(beans...) return err } // Exec executes a sql with args func Exec(ctx context.Context, sqlAndArgs ...any) (sql.Result, error) { return GetEngine(ctx).Exec(sqlAndArgs...) } func Get[T any](ctx context.Context, cond builder.Cond) (object *T, exist bool, err error) { if !cond.IsValid() { panic("cond is invalid in db.Get(ctx, cond). This should not be possible.") } var bean T has, err := GetEngine(ctx).Where(cond).NoAutoCondition().Get(&bean) if err != nil { return nil, false, err } else if !has { return nil, false, nil } return &bean, true, nil } func GetByID[T any](ctx context.Context, id int64) (object *T, exist bool, err error) { var bean T has, err := GetEngine(ctx).ID(id).NoAutoCondition().Get(&bean) if err != nil { return nil, false, err } else if !has { return nil, false, nil } return &bean, true, nil } func Exist[T any](ctx context.Context, cond builder.Cond) (bool, error) { if !cond.IsValid() { panic("cond is invalid in db.Exist(ctx, cond). This should not be possible.") } var bean T return GetEngine(ctx).Where(cond).NoAutoCondition().Exist(&bean) } func ExistByID[T any](ctx context.Context, id int64) (bool, error) { var bean T return GetEngine(ctx).ID(id).NoAutoCondition().Exist(&bean) } // DeleteByID deletes the given bean with the given ID func DeleteByID[T any](ctx context.Context, id int64) (int64, error) { var bean T return GetEngine(ctx).ID(id).NoAutoCondition().NoAutoTime().Delete(&bean) } func DeleteByIDs[T any](ctx context.Context, ids ...int64) error { if len(ids) == 0 { return nil } var bean T _, err := GetEngine(ctx).In("id", ids).NoAutoCondition().NoAutoTime().Delete(&bean) return err } func Delete[T any](ctx context.Context, opts FindOptions) (int64, error) { if opts == nil || !opts.ToConds().IsValid() { panic("opts are empty or invalid in db.Delete(ctx, opts). This should not be possible.") } var bean T return GetEngine(ctx).Where(opts.ToConds()).NoAutoCondition().NoAutoTime().Delete(&bean) } // DeleteByBean deletes all records according non-empty fields of the bean as conditions. func DeleteByBean(ctx context.Context, bean any) (int64, error) { return GetEngine(ctx).Delete(bean) } // FindIDs finds the IDs for the given table name satisfying the given condition // By passing a different value than "id" for "idCol", you can query for foreign IDs, i.e. the repo IDs which satisfy the condition func FindIDs(ctx context.Context, tableName, idCol string, cond builder.Cond) ([]int64, error) { ids := make([]int64, 0, 10) if err := GetEngine(ctx).Table(tableName). Cols(idCol). Where(cond). Find(&ids); err != nil { return nil, err } return ids, nil } // DecrByIDs decreases the given column for entities of the "bean" type with one of the given ids by one // Timestamps of the entities won't be updated func DecrByIDs(ctx context.Context, ids []int64, decrCol string, bean any) error { _, err := GetEngine(ctx).Decr(decrCol).In("id", ids).NoAutoCondition().NoAutoTime().Update(bean) return err } // DeleteBeans deletes all given beans, beans must contain delete conditions. func DeleteBeans(ctx context.Context, beans ...any) (err error) { e := GetEngine(ctx) for i := range beans { if _, err = e.Delete(beans[i]); err != nil { return err } } return nil } // TruncateBeans deletes all given beans, beans may contain delete conditions. func TruncateBeans(ctx context.Context, beans ...any) (err error) { e := GetEngine(ctx) for i := range beans { if _, err = e.Truncate(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 any) (int64, error) { return GetEngine(ctx).Count(bean) } // TableName returns the table name according a bean object func TableName(bean any) string { return xormEngine.TableName(bean) } // InTransaction returns true if the engine is in a transaction otherwise return false func InTransaction(ctx context.Context) bool { _, ok := inTransaction(ctx) return ok } func inTransaction(ctx context.Context) (*xorm.Session, bool) { e := getExistingEngine(ctx) if e == nil { return nil, false } switch t := e.(type) { case *xorm.Engine: return nil, false case *xorm.Session: if t.IsInTx() { return t, true } return nil, false default: return nil, false } }