package stmtcache import ( "container/list" "context" "fmt" "sync/atomic" "github.com/jackc/pgconn" ) var lruCount uint64 // LRU implements Cache with a Least Recently Used (LRU) cache. type LRU struct { conn *pgconn.PgConn mode int cap int prepareCount int m map[string]*list.Element l *list.List psNamePrefix string stmtsToClear []string } // NewLRU creates a new LRU. mode is either ModePrepare or ModeDescribe. cap is the maximum size of the cache. func NewLRU(conn *pgconn.PgConn, mode int, cap int) *LRU { mustBeValidMode(mode) mustBeValidCap(cap) n := atomic.AddUint64(&lruCount, 1) return &LRU{ conn: conn, mode: mode, cap: cap, m: make(map[string]*list.Element), l: list.New(), psNamePrefix: fmt.Sprintf("lrupsc_%d", n), } } // Get returns the prepared statement description for sql preparing or describing the sql on the server as needed. func (c *LRU) Get(ctx context.Context, sql string) (*pgconn.StatementDescription, error) { // flush an outstanding bad statements txStatus := c.conn.TxStatus() if (txStatus == 'I' || txStatus == 'T') && len(c.stmtsToClear) > 0 { for _, stmt := range c.stmtsToClear { err := c.clearStmt(ctx, stmt) if err != nil { return nil, err } } } if el, ok := c.m[sql]; ok { c.l.MoveToFront(el) return el.Value.(*pgconn.StatementDescription), nil } if c.l.Len() == c.cap { err := c.removeOldest(ctx) if err != nil { return nil, err } } psd, err := c.prepare(ctx, sql) if err != nil { return nil, err } el := c.l.PushFront(psd) c.m[sql] = el return psd, nil } // Clear removes all entries in the cache. Any prepared statements will be deallocated from the PostgreSQL session. func (c *LRU) Clear(ctx context.Context) error { for c.l.Len() > 0 { err := c.removeOldest(ctx) if err != nil { return err } } return nil } func (c *LRU) StatementErrored(sql string, err error) { pgErr, ok := err.(*pgconn.PgError) if !ok { return } isInvalidCachedPlanError := pgErr.Severity == "ERROR" && pgErr.Code == "0A000" && pgErr.Message == "cached plan must not change result type" if isInvalidCachedPlanError { c.stmtsToClear = append(c.stmtsToClear, sql) } } func (c *LRU) clearStmt(ctx context.Context, sql string) error { elem, inMap := c.m[sql] if !inMap { // The statement probably fell off the back of the list. In that case, we've // ensured that it isn't in the cache, so we can declare victory. return nil } c.l.Remove(elem) psd := elem.Value.(*pgconn.StatementDescription) delete(c.m, psd.SQL) if c.mode == ModePrepare { return c.conn.Exec(ctx, fmt.Sprintf("deallocate %s", psd.Name)).Close() } return nil } // Len returns the number of cached prepared statement descriptions. func (c *LRU) Len() int { return c.l.Len() } // Cap returns the maximum number of cached prepared statement descriptions. func (c *LRU) Cap() int { return c.cap } // Mode returns the mode of the cache (ModePrepare or ModeDescribe) func (c *LRU) Mode() int { return c.mode } func (c *LRU) prepare(ctx context.Context, sql string) (*pgconn.StatementDescription, error) { var name string if c.mode == ModePrepare { name = fmt.Sprintf("%s_%d", c.psNamePrefix, c.prepareCount) c.prepareCount += 1 } return c.conn.Prepare(ctx, name, sql, nil) } func (c *LRU) removeOldest(ctx context.Context) error { oldest := c.l.Back() c.l.Remove(oldest) psd := oldest.Value.(*pgconn.StatementDescription) delete(c.m, psd.SQL) if c.mode == ModePrepare { return c.conn.Exec(ctx, fmt.Sprintf("deallocate %s", psd.Name)).Close() } return nil }