package pool_test import ( "context" "sync" "testing" "time" "github.com/go-redis/redis/v8/internal/pool" . "github.com/onsi/ginkgo" . "github.com/onsi/gomega" ) var _ = Describe("ConnPool", func() { c := context.Background() var connPool *pool.ConnPool BeforeEach(func() { connPool = pool.NewConnPool(&pool.Options{ Dialer: dummyDialer, PoolSize: 10, PoolTimeout: time.Hour, IdleTimeout: time.Millisecond, IdleCheckFrequency: time.Millisecond, }) }) AfterEach(func() { connPool.Close() }) It("should unblock client when conn is removed", func() { // Reserve one connection. cn, err := connPool.Get(c) Expect(err).NotTo(HaveOccurred()) // Reserve all other connections. var cns []*pool.Conn for i := 0; i < 9; i++ { cn, err := connPool.Get(c) Expect(err).NotTo(HaveOccurred()) cns = append(cns, cn) } started := make(chan bool, 1) done := make(chan bool, 1) go func() { defer GinkgoRecover() started <- true _, err := connPool.Get(c) Expect(err).NotTo(HaveOccurred()) done <- true connPool.Put(cn) }() <-started // Check that Get is blocked. select { case <-done: Fail("Get is not blocked") case <-time.After(time.Millisecond): // ok } connPool.Remove(cn, nil) // Check that Get is unblocked. select { case <-done: // ok case <-time.After(time.Second): Fail("Get is not unblocked") } for _, cn := range cns { connPool.Put(cn) } }) }) var _ = Describe("MinIdleConns", func() { c := context.Background() const poolSize = 100 var minIdleConns int var connPool *pool.ConnPool newConnPool := func() *pool.ConnPool { connPool := pool.NewConnPool(&pool.Options{ Dialer: dummyDialer, PoolSize: poolSize, MinIdleConns: minIdleConns, PoolTimeout: 100 * time.Millisecond, IdleTimeout: -1, IdleCheckFrequency: -1, }) Eventually(func() int { return connPool.Len() }).Should(Equal(minIdleConns)) return connPool } assert := func() { It("has idle connections when created", func() { Expect(connPool.Len()).To(Equal(minIdleConns)) Expect(connPool.IdleLen()).To(Equal(minIdleConns)) }) Context("after Get", func() { var cn *pool.Conn BeforeEach(func() { var err error cn, err = connPool.Get(c) Expect(err).NotTo(HaveOccurred()) Eventually(func() int { return connPool.Len() }).Should(Equal(minIdleConns + 1)) }) It("has idle connections", func() { Expect(connPool.Len()).To(Equal(minIdleConns + 1)) Expect(connPool.IdleLen()).To(Equal(minIdleConns)) }) Context("after Remove", func() { BeforeEach(func() { connPool.Remove(cn, nil) }) It("has idle connections", func() { Expect(connPool.Len()).To(Equal(minIdleConns)) Expect(connPool.IdleLen()).To(Equal(minIdleConns)) }) }) }) Describe("Get does not exceed pool size", func() { var mu sync.RWMutex var cns []*pool.Conn BeforeEach(func() { cns = make([]*pool.Conn, 0) perform(poolSize, func(_ int) { defer GinkgoRecover() cn, err := connPool.Get(c) Expect(err).NotTo(HaveOccurred()) mu.Lock() cns = append(cns, cn) mu.Unlock() }) Eventually(func() int { return connPool.Len() }).Should(BeNumerically(">=", poolSize)) }) It("Get is blocked", func() { done := make(chan struct{}) go func() { connPool.Get(c) close(done) }() select { case <-done: Fail("Get is not blocked") case <-time.After(time.Millisecond): // ok } select { case <-done: // ok case <-time.After(time.Second): Fail("Get is not unblocked") } }) Context("after Put", func() { BeforeEach(func() { perform(len(cns), func(i int) { mu.RLock() connPool.Put(cns[i]) mu.RUnlock() }) Eventually(func() int { return connPool.Len() }).Should(Equal(poolSize)) }) It("pool.Len is back to normal", func() { Expect(connPool.Len()).To(Equal(poolSize)) Expect(connPool.IdleLen()).To(Equal(poolSize)) }) }) Context("after Remove", func() { BeforeEach(func() { perform(len(cns), func(i int) { mu.RLock() connPool.Remove(cns[i], nil) mu.RUnlock() }) Eventually(func() int { return connPool.Len() }).Should(Equal(minIdleConns)) }) It("has idle connections", func() { Expect(connPool.Len()).To(Equal(minIdleConns)) Expect(connPool.IdleLen()).To(Equal(minIdleConns)) }) }) }) } Context("minIdleConns = 1", func() { BeforeEach(func() { minIdleConns = 1 connPool = newConnPool() }) AfterEach(func() { connPool.Close() }) assert() }) Context("minIdleConns = 32", func() { BeforeEach(func() { minIdleConns = 32 connPool = newConnPool() }) AfterEach(func() { connPool.Close() }) assert() }) }) var _ = Describe("conns reaper", func() { c := context.Background() const idleTimeout = time.Minute const maxAge = time.Hour var connPool *pool.ConnPool var conns, staleConns, closedConns []*pool.Conn assert := func(typ string) { BeforeEach(func() { closedConns = nil connPool = pool.NewConnPool(&pool.Options{ Dialer: dummyDialer, PoolSize: 10, IdleTimeout: idleTimeout, MaxConnAge: maxAge, PoolTimeout: time.Second, IdleCheckFrequency: time.Hour, OnClose: func(cn *pool.Conn) error { closedConns = append(closedConns, cn) return nil }, }) conns = nil // add stale connections staleConns = nil for i := 0; i < 3; i++ { cn, err := connPool.Get(c) Expect(err).NotTo(HaveOccurred()) switch typ { case "idle": cn.SetUsedAt(time.Now().Add(-2 * idleTimeout)) case "aged": cn.SetCreatedAt(time.Now().Add(-2 * maxAge)) } conns = append(conns, cn) staleConns = append(staleConns, cn) } // add fresh connections for i := 0; i < 3; i++ { cn, err := connPool.Get(c) Expect(err).NotTo(HaveOccurred()) conns = append(conns, cn) } for _, cn := range conns { connPool.Put(cn) } Expect(connPool.Len()).To(Equal(6)) Expect(connPool.IdleLen()).To(Equal(6)) n, err := connPool.ReapStaleConns() Expect(err).NotTo(HaveOccurred()) Expect(n).To(Equal(3)) }) AfterEach(func() { _ = connPool.Close() Expect(connPool.Len()).To(Equal(0)) Expect(connPool.IdleLen()).To(Equal(0)) Expect(len(closedConns)).To(Equal(len(conns))) Expect(closedConns).To(ConsistOf(conns)) }) It("reaps stale connections", func() { Expect(connPool.Len()).To(Equal(3)) Expect(connPool.IdleLen()).To(Equal(3)) }) It("does not reap fresh connections", func() { n, err := connPool.ReapStaleConns() Expect(err).NotTo(HaveOccurred()) Expect(n).To(Equal(0)) }) It("stale connections are closed", func() { Expect(len(closedConns)).To(Equal(len(staleConns))) Expect(closedConns).To(ConsistOf(staleConns)) }) It("pool is functional", func() { for j := 0; j < 3; j++ { var freeCns []*pool.Conn for i := 0; i < 3; i++ { cn, err := connPool.Get(c) Expect(err).NotTo(HaveOccurred()) Expect(cn).NotTo(BeNil()) freeCns = append(freeCns, cn) } Expect(connPool.Len()).To(Equal(3)) Expect(connPool.IdleLen()).To(Equal(0)) cn, err := connPool.Get(c) Expect(err).NotTo(HaveOccurred()) Expect(cn).NotTo(BeNil()) conns = append(conns, cn) Expect(connPool.Len()).To(Equal(4)) Expect(connPool.IdleLen()).To(Equal(0)) connPool.Remove(cn, nil) Expect(connPool.Len()).To(Equal(3)) Expect(connPool.IdleLen()).To(Equal(0)) for _, cn := range freeCns { connPool.Put(cn) } Expect(connPool.Len()).To(Equal(3)) Expect(connPool.IdleLen()).To(Equal(3)) } }) } assert("idle") assert("aged") }) var _ = Describe("race", func() { c := context.Background() var connPool *pool.ConnPool var C, N int BeforeEach(func() { C, N = 10, 1000 if testing.Short() { C = 4 N = 100 } }) AfterEach(func() { connPool.Close() }) It("does not happen on Get, Put, and Remove", func() { connPool = pool.NewConnPool(&pool.Options{ Dialer: dummyDialer, PoolSize: 10, PoolTimeout: time.Minute, IdleTimeout: time.Millisecond, IdleCheckFrequency: time.Millisecond, }) perform(C, func(id int) { for i := 0; i < N; i++ { cn, err := connPool.Get(c) Expect(err).NotTo(HaveOccurred()) if err == nil { connPool.Put(cn) } } }, func(id int) { for i := 0; i < N; i++ { cn, err := connPool.Get(c) Expect(err).NotTo(HaveOccurred()) if err == nil { connPool.Remove(cn, nil) } } }) }) })