// Copyright 2011 Google Inc. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package uuid import ( "bytes" "fmt" "os" "strings" "testing" "time" ) type test struct { in string version Version variant Variant isuuid bool } var tests = []test{ {"f47ac10b-58cc-0372-8567-0e02b2c3d479", 0, RFC4122, true}, {"f47ac10b-58cc-1372-8567-0e02b2c3d479", 1, RFC4122, true}, {"f47ac10b-58cc-2372-8567-0e02b2c3d479", 2, RFC4122, true}, {"f47ac10b-58cc-3372-8567-0e02b2c3d479", 3, RFC4122, true}, {"f47ac10b-58cc-4372-8567-0e02b2c3d479", 4, RFC4122, true}, {"f47ac10b-58cc-5372-8567-0e02b2c3d479", 5, RFC4122, true}, {"f47ac10b-58cc-6372-8567-0e02b2c3d479", 6, RFC4122, true}, {"f47ac10b-58cc-7372-8567-0e02b2c3d479", 7, RFC4122, true}, {"f47ac10b-58cc-8372-8567-0e02b2c3d479", 8, RFC4122, true}, {"f47ac10b-58cc-9372-8567-0e02b2c3d479", 9, RFC4122, true}, {"f47ac10b-58cc-a372-8567-0e02b2c3d479", 10, RFC4122, true}, {"f47ac10b-58cc-b372-8567-0e02b2c3d479", 11, RFC4122, true}, {"f47ac10b-58cc-c372-8567-0e02b2c3d479", 12, RFC4122, true}, {"f47ac10b-58cc-d372-8567-0e02b2c3d479", 13, RFC4122, true}, {"f47ac10b-58cc-e372-8567-0e02b2c3d479", 14, RFC4122, true}, {"f47ac10b-58cc-f372-8567-0e02b2c3d479", 15, RFC4122, true}, {"urn:uuid:f47ac10b-58cc-4372-0567-0e02b2c3d479", 4, Reserved, true}, {"URN:UUID:f47ac10b-58cc-4372-0567-0e02b2c3d479", 4, Reserved, true}, {"f47ac10b-58cc-4372-0567-0e02b2c3d479", 4, Reserved, true}, {"f47ac10b-58cc-4372-1567-0e02b2c3d479", 4, Reserved, true}, {"f47ac10b-58cc-4372-2567-0e02b2c3d479", 4, Reserved, true}, {"f47ac10b-58cc-4372-3567-0e02b2c3d479", 4, Reserved, true}, {"f47ac10b-58cc-4372-4567-0e02b2c3d479", 4, Reserved, true}, {"f47ac10b-58cc-4372-5567-0e02b2c3d479", 4, Reserved, true}, {"f47ac10b-58cc-4372-6567-0e02b2c3d479", 4, Reserved, true}, {"f47ac10b-58cc-4372-7567-0e02b2c3d479", 4, Reserved, true}, {"f47ac10b-58cc-4372-8567-0e02b2c3d479", 4, RFC4122, true}, {"f47ac10b-58cc-4372-9567-0e02b2c3d479", 4, RFC4122, true}, {"f47ac10b-58cc-4372-a567-0e02b2c3d479", 4, RFC4122, true}, {"f47ac10b-58cc-4372-b567-0e02b2c3d479", 4, RFC4122, true}, {"f47ac10b-58cc-4372-c567-0e02b2c3d479", 4, Microsoft, true}, {"f47ac10b-58cc-4372-d567-0e02b2c3d479", 4, Microsoft, true}, {"f47ac10b-58cc-4372-e567-0e02b2c3d479", 4, Future, true}, {"f47ac10b-58cc-4372-f567-0e02b2c3d479", 4, Future, true}, {"f47ac10b158cc-5372-a567-0e02b2c3d479", 0, Invalid, false}, {"f47ac10b-58cc25372-a567-0e02b2c3d479", 0, Invalid, false}, {"f47ac10b-58cc-53723a567-0e02b2c3d479", 0, Invalid, false}, {"f47ac10b-58cc-5372-a56740e02b2c3d479", 0, Invalid, false}, {"f47ac10b-58cc-5372-a567-0e02-2c3d479", 0, Invalid, false}, {"g47ac10b-58cc-4372-a567-0e02b2c3d479", 0, Invalid, false}, } var constants = []struct { c interface{} name string }{ {Person, "Person"}, {Group, "Group"}, {Org, "Org"}, {Invalid, "Invalid"}, {RFC4122, "RFC4122"}, {Reserved, "Reserved"}, {Microsoft, "Microsoft"}, {Future, "Future"}, {Domain(17), "Domain17"}, {Variant(42), "BadVariant42"}, } func testTest(t *testing.T, in string, tt test) { uuid := Parse(in) if ok := (uuid != nil); ok != tt.isuuid { t.Errorf("Parse(%s) got %v expected %v\b", in, ok, tt.isuuid) } if uuid == nil { return } if v := uuid.Variant(); v != tt.variant { t.Errorf("Variant(%s) got %d expected %d\b", in, v, tt.variant) } if v, _ := uuid.Version(); v != tt.version { t.Errorf("Version(%s) got %d expected %d\b", in, v, tt.version) } } func TestUUID(t *testing.T) { for _, tt := range tests { testTest(t, tt.in, tt) testTest(t, strings.ToUpper(tt.in), tt) } } func TestConstants(t *testing.T) { for x, tt := range constants { v, ok := tt.c.(fmt.Stringer) if !ok { t.Errorf("%x: %v: not a stringer", x, v) } else if s := v.String(); s != tt.name { v, _ := tt.c.(int) t.Errorf("%x: Constant %T:%d gives %q, expected %q\n", x, tt.c, v, s, tt.name) } } } func TestRandomUUID(t *testing.T) { m := make(map[string]bool) for x := 1; x < 32; x++ { uuid := NewRandom() s := uuid.String() if m[s] { t.Errorf("NewRandom returned duplicated UUID %s\n", s) } m[s] = true if v, _ := uuid.Version(); v != 4 { t.Errorf("Random UUID of version %s\n", v) } if uuid.Variant() != RFC4122 { t.Errorf("Random UUID is variant %d\n", uuid.Variant()) } } } func TestNew(t *testing.T) { m := make(map[string]bool) for x := 1; x < 32; x++ { s := New() if m[s] { t.Errorf("New returned duplicated UUID %s\n", s) } m[s] = true uuid := Parse(s) if uuid == nil { t.Errorf("New returned %q which does not decode\n", s) continue } if v, _ := uuid.Version(); v != 4 { t.Errorf("Random UUID of version %s\n", v) } if uuid.Variant() != RFC4122 { t.Errorf("Random UUID is variant %d\n", uuid.Variant()) } } } func clockSeq(t *testing.T, uuid UUID) int { seq, ok := uuid.ClockSequence() if !ok { t.Fatalf("%s: invalid clock sequence\n", uuid) } return seq } func TestClockSeq(t *testing.T) { // Fake time.Now for this test to return a monotonically advancing time; restore it at end. defer func(orig func() time.Time) { timeNow = orig }(timeNow) monTime := time.Now() timeNow = func() time.Time { monTime = monTime.Add(1 * time.Second) return monTime } SetClockSequence(-1) uuid1 := NewUUID() uuid2 := NewUUID() if clockSeq(t, uuid1) != clockSeq(t, uuid2) { t.Errorf("clock sequence %d != %d\n", clockSeq(t, uuid1), clockSeq(t, uuid2)) } SetClockSequence(-1) uuid2 = NewUUID() // Just on the very off chance we generated the same sequence // two times we try again. if clockSeq(t, uuid1) == clockSeq(t, uuid2) { SetClockSequence(-1) uuid2 = NewUUID() } if clockSeq(t, uuid1) == clockSeq(t, uuid2) { t.Errorf("Duplicate clock sequence %d\n", clockSeq(t, uuid1)) } SetClockSequence(0x1234) uuid1 = NewUUID() if seq := clockSeq(t, uuid1); seq != 0x1234 { t.Errorf("%s: expected seq 0x1234 got 0x%04x\n", uuid1, seq) } } func TestCoding(t *testing.T) { text := "7d444840-9dc0-11d1-b245-5ffdce74fad2" urn := "urn:uuid:7d444840-9dc0-11d1-b245-5ffdce74fad2" data := UUID{ 0x7d, 0x44, 0x48, 0x40, 0x9d, 0xc0, 0x11, 0xd1, 0xb2, 0x45, 0x5f, 0xfd, 0xce, 0x74, 0xfa, 0xd2, } if v := data.String(); v != text { t.Errorf("%x: encoded to %s, expected %s\n", data, v, text) } if v := data.URN(); v != urn { t.Errorf("%x: urn is %s, expected %s\n", data, v, urn) } uuid := Parse(text) if !Equal(uuid, data) { t.Errorf("%s: decoded to %s, expected %s\n", text, uuid, data) } } func TestVersion1(t *testing.T) { uuid1 := NewUUID() uuid2 := NewUUID() if Equal(uuid1, uuid2) { t.Errorf("%s:duplicate uuid\n", uuid1) } if v, _ := uuid1.Version(); v != 1 { t.Errorf("%s: version %s expected 1\n", uuid1, v) } if v, _ := uuid2.Version(); v != 1 { t.Errorf("%s: version %s expected 1\n", uuid2, v) } n1 := uuid1.NodeID() n2 := uuid2.NodeID() if !bytes.Equal(n1, n2) { t.Errorf("Different nodes %x != %x\n", n1, n2) } t1, ok := uuid1.Time() if !ok { t.Errorf("%s: invalid time\n", uuid1) } t2, ok := uuid2.Time() if !ok { t.Errorf("%s: invalid time\n", uuid2) } q1, ok := uuid1.ClockSequence() if !ok { t.Errorf("%s: invalid clock sequence\n", uuid1) } q2, ok := uuid2.ClockSequence() if !ok { t.Errorf("%s: invalid clock sequence", uuid2) } switch { case t1 == t2 && q1 == q2: t.Errorf("time stopped\n") case t1 > t2 && q1 == q2: t.Errorf("time reversed\n") case t1 < t2 && q1 != q2: t.Errorf("clock sequence chaned unexpectedly\n") } } func TestNodeAndTime(t *testing.T) { // Time is February 5, 1998 12:30:23.136364800 AM GMT uuid := Parse("7d444840-9dc0-11d1-b245-5ffdce74fad2") node := []byte{0x5f, 0xfd, 0xce, 0x74, 0xfa, 0xd2} ts, ok := uuid.Time() if ok { c := time.Unix(ts.UnixTime()) want := time.Date(1998, 2, 5, 0, 30, 23, 136364800, time.UTC) if !c.Equal(want) { t.Errorf("Got time %v, want %v", c, want) } } else { t.Errorf("%s: bad time\n", uuid) } if !bytes.Equal(node, uuid.NodeID()) { t.Errorf("Expected node %v got %v\n", node, uuid.NodeID()) } } func TestMD5(t *testing.T) { uuid := NewMD5(NameSpace_DNS, []byte("python.org")).String() want := "6fa459ea-ee8a-3ca4-894e-db77e160355e" if uuid != want { t.Errorf("MD5: got %q expected %q\n", uuid, want) } } func TestSHA1(t *testing.T) { uuid := NewSHA1(NameSpace_DNS, []byte("python.org")).String() want := "886313e1-3b8a-5372-9b90-0c9aee199e5d" if uuid != want { t.Errorf("SHA1: got %q expected %q\n", uuid, want) } } func TestNodeID(t *testing.T) { nid := []byte{1, 2, 3, 4, 5, 6} SetNodeInterface("") s := NodeInterface() if s == "" || s == "user" { t.Errorf("NodeInterface %q after SetInteface\n", s) } node1 := NodeID() if node1 == nil { t.Errorf("NodeID nil after SetNodeInterface\n", s) } SetNodeID(nid) s = NodeInterface() if s != "user" { t.Errorf("Expected NodeInterface %q got %q\n", "user", s) } node2 := NodeID() if node2 == nil { t.Errorf("NodeID nil after SetNodeID\n", s) } if bytes.Equal(node1, node2) { t.Errorf("NodeID not changed after SetNodeID\n", s) } else if !bytes.Equal(nid, node2) { t.Errorf("NodeID is %x, expected %x\n", node2, nid) } } func testDCE(t *testing.T, name string, uuid UUID, domain Domain, id uint32) { if uuid == nil { t.Errorf("%s failed\n", name) return } if v, _ := uuid.Version(); v != 2 { t.Errorf("%s: %s: expected version 2, got %s\n", name, uuid, v) return } if v, ok := uuid.Domain(); !ok || v != domain { if !ok { t.Errorf("%s: %d: Domain failed\n", name, uuid) } else { t.Errorf("%s: %s: expected domain %d, got %d\n", name, uuid, domain, v) } } if v, ok := uuid.Id(); !ok || v != id { if !ok { t.Errorf("%s: %d: Id failed\n", name, uuid) } else { t.Errorf("%s: %s: expected id %d, got %d\n", name, uuid, id, v) } } } func TestDCE(t *testing.T) { testDCE(t, "NewDCESecurity", NewDCESecurity(42, 12345678), 42, 12345678) testDCE(t, "NewDCEPerson", NewDCEPerson(), Person, uint32(os.Getuid())) testDCE(t, "NewDCEGroup", NewDCEGroup(), Group, uint32(os.Getgid())) } type badRand struct{} func (r badRand) Read(buf []byte) (int, error) { for i, _ := range buf { buf[i] = byte(i) } return len(buf), nil } func TestBadRand(t *testing.T) { SetRand(badRand{}) uuid1 := New() uuid2 := New() if uuid1 != uuid2 { t.Errorf("execpted duplicates, got %q and %q\n", uuid1, uuid2) } SetRand(nil) uuid1 = New() uuid2 = New() if uuid1 == uuid2 { t.Errorf("unexecpted duplicates, got %q\n", uuid1) } } func BenchmarkParse(b *testing.B) { for i := 0; i < b.N; i++ { uuid := Parse("f47ac10b-58cc-0372-8567-0e02b2c3d479") if uuid == nil { b.Fatal("invalid uuid") } } } func BenchmarkNew(b *testing.B) { for i := 0; i < b.N; i++ { New() } } func BenchmarkUUID_String(b *testing.B) { uuid := Parse("f47ac10b-58cc-0372-8567-0e02b2c3d479") if uuid == nil { b.Fatal("invalid uuid") } for i := 0; i < b.N; i++ { if uuid.String() == "" { b.Fatal("invalid uuid") } } } func BenchmarkUUID_URN(b *testing.B) { uuid := Parse("f47ac10b-58cc-0372-8567-0e02b2c3d479") if uuid == nil { b.Fatal("invalid uuid") } for i := 0; i < b.N; i++ { if uuid.URN() == "" { b.Fatal("invalid uuid") } } }