/* * Minio Cloud Storage, (C) 2015, 2016 Minio, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package cmd import ( "path" "strconv" "strings" "sync" "testing" "time" ) // API suite container common to both FS and XL. type TestRPCControllerSuite struct { serverType string testServer TestServer testAuthConf *authConfig } // Setting up the test suite. // Starting the Test server with temporary FS backend. func (s *TestRPCControllerSuite) SetUpSuite(c *testing.T) { s.testServer = StartTestControlRPCServer(c, s.serverType) s.testAuthConf = &authConfig{ address: s.testServer.Server.Listener.Addr().String(), accessKey: s.testServer.AccessKey, secretKey: s.testServer.SecretKey, path: path.Join(reservedBucket, controlPath), loginMethod: "Controller.LoginHandler", } } // No longer used with gocheck, but used in explicit teardown code in // each test function. // Called implicitly by "gopkg.in/check.v1" // after all tests are run. func (s *TestRPCControllerSuite) TearDownSuite(c *testing.T) { s.testServer.Stop() } func TestRPCControlLock(t *testing.T) { //setup code s := &TestRPCControllerSuite{serverType: "XL"} s.SetUpSuite(t) //run test s.testRPCControlLock(t) //teardown code s.TearDownSuite(t) } // Tests to validate the correctness of lock instrumentation control RPC end point. func (s *TestRPCControllerSuite) testRPCControlLock(c *testing.T) { expectedResult := []lockStateCase{ // Test case - 1. // Case where 10 read locks are held. // Entry for any of the 10 reads locks has to be found. // Since they held in a loop, Lock origin for first 10 read locks (opsID 0-9) should be the same. { volume: "my-bucket", path: "my-object", opsID: "0", readLock: true, lockOrigin: "[lock held] in github.com/minio/minio/cmd.TestLockStats[/Users/hackintoshrao/mycode/go/src/github.com/minio/minio/cmd/namespace-lock_test.go:298]", // expected metrics. expectedErr: nil, expectedLockStatus: "Running", expectedGlobalLockCount: 10, expectedRunningLockCount: 10, expectedBlockedLockCount: 0, expectedVolPathLockCount: 10, expectedVolPathRunningCount: 10, expectedVolPathBlockCount: 0, }, // Test case 2. // Testing the existence of entry for the last read lock (read lock with opsID "9"). { volume: "my-bucket", path: "my-object", opsID: "9", readLock: true, lockOrigin: "[lock held] in github.com/minio/minio/cmd.TestLockStats[/Users/hackintoshrao/mycode/go/src/github.com/minio/minio/cmd/namespace-lock_test.go:298]", // expected metrics. expectedErr: nil, expectedLockStatus: "Running", expectedGlobalLockCount: 10, expectedRunningLockCount: 10, expectedBlockedLockCount: 0, expectedVolPathLockCount: 10, expectedVolPathRunningCount: 10, expectedVolPathBlockCount: 0, }, // Test case 3. // Hold a write lock, and it should block since 10 read locks // on <"my-bucket", "my-object"> are still held. { volume: "my-bucket", path: "my-object", opsID: "10", readLock: false, lockOrigin: "[lock held] in github.com/minio/minio/cmd.TestLockStats[/Users/hackintoshrao/mycode/go/src/github.com/minio/minio/cmd/namespace-lock_test.go:298]", // expected metrics. expectedErr: nil, expectedLockStatus: "Blocked", expectedGlobalLockCount: 11, expectedRunningLockCount: 10, expectedBlockedLockCount: 1, expectedVolPathLockCount: 11, expectedVolPathRunningCount: 10, expectedVolPathBlockCount: 1, }, // Test case 4. // Expected result when all the read locks are released and the blocked write lock acquires the lock. { volume: "my-bucket", path: "my-object", opsID: "10", readLock: false, lockOrigin: "[lock held] in github.com/minio/minio/cmd.TestLockStats[/Users/hackintoshrao/mycode/go/src/github.com/minio/minio/cmd/namespace-lock_test.go:298]", // expected metrics. expectedErr: nil, expectedLockStatus: "Running", expectedGlobalLockCount: 1, expectedRunningLockCount: 1, expectedBlockedLockCount: 0, expectedVolPathLockCount: 1, expectedVolPathRunningCount: 1, expectedVolPathBlockCount: 0, }, // Test case - 5. // At the end after locks are released, its verified whether the counters are set to 0. { volume: "my-bucket", path: "my-object", // expected metrics. expectedErr: nil, expectedLockStatus: "Blocked", expectedGlobalLockCount: 0, expectedRunningLockCount: 0, expectedBlockedLockCount: 0, }, } // used to make sure that the tests don't end till locks held in other go routines are released. var wg sync.WaitGroup // Hold 5 read locks. We should find the info about these in the RPC response. // hold 10 read locks. // Then call the RPC control end point for obtaining lock instrumentation info. for i := 0; i < 10; i++ { nsMutex.RLock("my-bucket", "my-object", strconv.Itoa(i)) } client := newAuthClient(s.testAuthConf) defer client.Close() args := &GenericArgs{} reply := &SystemLockState{} // Call the lock instrumentation RPC end point. err := client.Call("Controller.LockInfo", args, reply) if err != nil { c.Errorf("Add: expected no error but got string %q", err.Error()) } // expected lock info. expectedLockStats := expectedResult[0] // verify the actual lock info with the expected one. // verify the existence entry for first read lock (read lock with opsID "0"). verifyRPCLockInfoResponse(expectedLockStats, *reply, c, 1) expectedLockStats = expectedResult[1] // verify the actual lock info with the expected one. // verify the existence entry for last read lock (read lock with opsID "9"). verifyRPCLockInfoResponse(expectedLockStats, *reply, c, 2) // now hold a write lock in a different go routine and it should block since 10 read locks are // still held. wg.Add(1) go func() { defer wg.Done() // blocks till all read locks are released. nsMutex.Lock("my-bucket", "my-object", strconv.Itoa(10)) // Once the above attempt to lock is unblocked/acquired, we verify the stats and release the lock. expectedWLockStats := expectedResult[3] // Since the write lock acquired here, the number of blocked locks should reduce by 1 and // count of running locks should increase by 1. // Call the RPC control handle to fetch the lock instrumentation info. reply = &SystemLockState{} // Call the lock instrumentation RPC end point. err = client.Call("Controller.LockInfo", args, reply) if err != nil { c.Errorf("Add: expected no error but got string %q", err.Error()) } verifyRPCLockInfoResponse(expectedWLockStats, *reply, c, 4) // release the write lock. nsMutex.Unlock("my-bucket", "my-object", strconv.Itoa(10)) }() // waiting for a second so that the attempt to acquire the write lock in // the above go routines gets blocked. time.Sleep(1 * time.Second) // The write lock should have got blocked by now, // check whether the entry for one blocked lock exists. expectedLockStats = expectedResult[2] // Call the RPC control handle to fetch the lock instrumentation info. reply = &SystemLockState{} // Call the lock instrumentation RPC end point. err = client.Call("Controller.LockInfo", args, reply) if err != nil { c.Errorf("Add: expected no error but got string %q", err.Error()) } verifyRPCLockInfoResponse(expectedLockStats, *reply, c, 3) // Release all the read locks held. // the blocked write lock in the above go routines should get unblocked. for i := 0; i < 10; i++ { nsMutex.RUnlock("my-bucket", "my-object", strconv.Itoa(i)) } wg.Wait() // Since all the locks are released. There should not be any entry in the lock info. // and all the counters should be set to 0. reply = &SystemLockState{} // Call the lock instrumentation RPC end point. err = client.Call("Controller.LockInfo", args, reply) if err != nil { c.Errorf("Add: expected no error but got string %q", err.Error()) } if reply.TotalAcquiredLocks != 0 && reply.TotalLocks != 0 && reply.TotalBlockedLocks != 0 { c.Fatalf("The counters are not reset properly after all locks are released") } if len(reply.LocksInfoPerObject) != 0 { c.Fatalf("Since all locks are released there shouldn't have been any lock info entry, but found %d", len(reply.LocksInfoPerObject)) } } func TestControllerHealDiskMetadataH(t *testing.T) { //setup code s := &TestRPCControllerSuite{serverType: "XL"} s.SetUpSuite(t) //run test s.testControllerHealDiskMetadataH(t) //teardown code s.TearDownSuite(t) } // TestControllerHandlerHealDiskMetadata - Registers and call the `HealDiskMetadataHandler`, // asserts to validate the success. func (s *TestRPCControllerSuite) testControllerHealDiskMetadataH(c *testing.T) { // The suite has already started the test RPC server, just send RPC calls. client := newAuthClient(s.testAuthConf) defer client.Close() args := &GenericArgs{} reply := &GenericReply{} err := client.Call("Controller.HealDiskMetadataHandler", args, reply) if err != nil { c.Errorf("Control.HealDiskMetadataH - test failed with %s", err) } } func TestControllerHealObjectH(t *testing.T) { //setup code s := &TestRPCControllerSuite{serverType: "XL"} s.SetUpSuite(t) //run test s.testControllerHealObjectH(t) //teardown code s.TearDownSuite(t) } func (s *TestRPCControllerSuite) testControllerHealObjectH(t *testing.T) { client := newAuthClient(s.testAuthConf) defer client.Close() err := newObjectLayerFn().MakeBucket("testbucket") if err != nil { t.Fatalf( "Controller.HealObjectH - create bucket failed with %s", err) } datum := strings.NewReader("a") _, err = newObjectLayerFn().PutObject("testbucket", "testobject", 1, datum, nil, "") if err != nil { t.Fatalf("Controller.HealObjectH - put object failed with %s", err) } args := &HealObjectArgs{GenericArgs{}, "testbucket", "testobject"} reply := &GenericReply{} err = client.Call("Controller.HealObjectHandler", args, reply) if err != nil { t.Errorf("Controller.HealObjectH - test failed with %s", err) } } func TestControllerListObjectsHealH(t *testing.T) { //setup code s := &TestRPCControllerSuite{serverType: "XL"} s.SetUpSuite(t) //run test s.testControllerListObjectsHealH(t) //teardown code s.TearDownSuite(t) } func (s *TestRPCControllerSuite) testControllerListObjectsHealH(t *testing.T) { client := newAuthClient(s.testAuthConf) defer client.Close() // careate a bucket err := newObjectLayerFn().MakeBucket("testbucket") if err != nil { t.Fatalf( "Controller.ListObjectsHealH - create bucket failed - %s", err) } r := strings.NewReader("0") _, err = newObjectLayerFn().PutObject("testbucket", "testObj-0", 1, r, nil, "") if err != nil { t.Fatalf("Controller.ListObjectsHealH - object creation failed - %s", err) } args := &HealListArgs{ GenericArgs{}, "testbucket", "testObj-", "", "", 100, } reply := &GenericReply{} err = client.Call("Controller.ListObjectsHealHandler", args, reply) if err != nil { t.Errorf("Controller.ListObjectsHealHandler - test failed - %s", err) } }