package pub_balancer import ( "fmt" cmap "github.com/orcaman/concurrent-map/v2" "github.com/seaweedfs/seaweedfs/weed/pb/mq_pb" "github.com/stretchr/testify/assert" "testing" ) func Test_allocateOneBroker(t *testing.T) { brokers := cmap.New[*BrokerStats]() brokers.SetIfAbsent("localhost:17777", &BrokerStats{ TopicPartitionCount: 0, ConsumerCount: 0, CpuUsagePercent: 0, }) tests := []struct { name string args args wantAssignments []*mq_pb.BrokerPartitionAssignment }{ { name: "test only one broker", args: args{ brokers: brokers, partitionCount: 1, }, wantAssignments: []*mq_pb.BrokerPartitionAssignment{ { LeaderBroker: "localhost:17777", Partition: &mq_pb.Partition{ RingSize: MaxPartitionCount, RangeStart: 0, RangeStop: MaxPartitionCount, }, }, }, }, } testThem(t, tests) } type args struct { brokers cmap.ConcurrentMap[string, *BrokerStats] partitionCount int32 } func testThem(t *testing.T, tests []struct { name string args args wantAssignments []*mq_pb.BrokerPartitionAssignment }) { for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { gotAssignments := AllocateTopicPartitions(tt.args.brokers, tt.args.partitionCount) assert.Equal(t, len(tt.wantAssignments), len(gotAssignments)) for i, gotAssignment := range gotAssignments { assert.Equal(t, tt.wantAssignments[i].LeaderBroker, gotAssignment.LeaderBroker) assert.Equal(t, tt.wantAssignments[i].Partition.RangeStart, gotAssignment.Partition.RangeStart) assert.Equal(t, tt.wantAssignments[i].Partition.RangeStop, gotAssignment.Partition.RangeStop) assert.Equal(t, tt.wantAssignments[i].Partition.RingSize, gotAssignment.Partition.RingSize) assert.Equal(t, tt.wantAssignments[i].Partition.UnixTimeNs, gotAssignment.Partition.UnixTimeNs) } }) } } func TestEnsureAssignmentsToActiveBrokersX(t *testing.T) { type args struct { activeBrokers cmap.ConcurrentMap[string, *BrokerStats] followerCount int assignments []*mq_pb.BrokerPartitionAssignment } activeBrokers := cmap.New[*BrokerStats]() activeBrokers.SetIfAbsent("localhost:1", &BrokerStats{}) activeBrokers.SetIfAbsent("localhost:2", &BrokerStats{}) activeBrokers.SetIfAbsent("localhost:3", &BrokerStats{}) activeBrokers.SetIfAbsent("localhost:4", &BrokerStats{}) activeBrokers.SetIfAbsent("localhost:5", &BrokerStats{}) activeBrokers.SetIfAbsent("localhost:6", &BrokerStats{}) lowActiveBrokers := cmap.New[*BrokerStats]() lowActiveBrokers.SetIfAbsent("localhost:1", &BrokerStats{}) lowActiveBrokers.SetIfAbsent("localhost:2", &BrokerStats{}) singleActiveBroker := cmap.New[*BrokerStats]() singleActiveBroker.SetIfAbsent("localhost:1", &BrokerStats{}) tests := []struct { name string args args hasChanges bool }{ { name: "test empty leader", args: args{ activeBrokers: activeBrokers, followerCount: 1, assignments: []*mq_pb.BrokerPartitionAssignment{ { LeaderBroker: "", Partition: &mq_pb.Partition{}, FollowerBrokers: []string{ "localhost:2", }, }, }, }, hasChanges: true, }, { name: "test empty follower", args: args{ activeBrokers: activeBrokers, followerCount: 1, assignments: []*mq_pb.BrokerPartitionAssignment{ { LeaderBroker: "localhost:1", Partition: &mq_pb.Partition{}, FollowerBrokers: []string{ "", }, }, }, }, hasChanges: true, }, { name: "test dead follower", args: args{ activeBrokers: activeBrokers, followerCount: 1, assignments: []*mq_pb.BrokerPartitionAssignment{ { LeaderBroker: "localhost:1", Partition: &mq_pb.Partition{}, FollowerBrokers: []string{ "localhost:200", }, }, }, }, hasChanges: true, }, { name: "test dead leader and follower", args: args{ activeBrokers: activeBrokers, followerCount: 1, assignments: []*mq_pb.BrokerPartitionAssignment{ { LeaderBroker: "localhost:100", Partition: &mq_pb.Partition{}, FollowerBrokers: []string{ "localhost:200", }, }, }, }, hasChanges: true, }, { name: "test missing two followers", args: args{ activeBrokers: activeBrokers, followerCount: 3, assignments: []*mq_pb.BrokerPartitionAssignment{ { LeaderBroker: "localhost:1", Partition: &mq_pb.Partition{}, FollowerBrokers: []string{ "localhost:2", }, }, }, }, hasChanges: true, }, { name: "test missing some followers", args: args{ activeBrokers: activeBrokers, followerCount: 10, assignments: []*mq_pb.BrokerPartitionAssignment{ { LeaderBroker: "localhost:1", Partition: &mq_pb.Partition{}, FollowerBrokers: []string{ "localhost:2", }, }, }, }, hasChanges: true, }, { name: "test low active brokers", args: args{ activeBrokers: lowActiveBrokers, followerCount: 3, assignments: []*mq_pb.BrokerPartitionAssignment{ { LeaderBroker: "localhost:1", Partition: &mq_pb.Partition{}, FollowerBrokers: []string{ "localhost:2", }, }, }, }, hasChanges: false, }, { name: "test single active broker", args: args{ activeBrokers: singleActiveBroker, followerCount: 3, assignments: []*mq_pb.BrokerPartitionAssignment{ { LeaderBroker: "localhost:1", Partition: &mq_pb.Partition{}, FollowerBrokers: []string{ "localhost:2", }, }, }, }, hasChanges: true, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { fmt.Printf("%v before %v\n", tt.name, tt.args.assignments) hasChanges := EnsureAssignmentsToActiveBrokers(tt.args.activeBrokers, tt.args.followerCount, tt.args.assignments) assert.Equalf(t, tt.hasChanges, hasChanges, "EnsureAssignmentsToActiveBrokers(%v, %v, %v)", tt.args.activeBrokers, tt.args.followerCount, tt.args.assignments) fmt.Printf("%v after %v\n", tt.name, tt.args.assignments) }) } }