package graphvent import ( "testing" "time" "crypto/ed25519" "crypto/rand" ) const TestLockableType = NodeType("TEST_LOCKABLE") func lockableTestContext(t *testing.T, logs []string) *Context { ctx := logTestContext(t, logs) err := ctx.RegisterNodeType(TestLockableType, []ExtType{LockableExtType}) fatalErr(t, err) return ctx } func TestLink(t *testing.T) { ctx := lockableTestContext(t, []string{"listener"}) l1_pub, l1_key, err := ed25519.GenerateKey(rand.Reader) fatalErr(t, err) l1_id := KeyID(l1_pub) policy := NewPerNodePolicy(map[NodeID]Tree{ l1_id: nil, }) l2_listener := NewListenerExt(10) l2 := NewNode(ctx, nil, TestLockableType, 10, map[PolicyType]Policy{ PerNodePolicyType: &policy, }, l2_listener, NewLockableExt(nil), ) l1_listener := NewListenerExt(10) l1 := NewNode(ctx, l1_key, TestLockableType, 10, nil, l1_listener, NewLockableExt([]NodeID{l2.ID}), ) msgs := Messages{} s := NewBaseSignal("TEST", Down) msgs = msgs.Add(l1.ID, l1.Key, &s, l1.ID) err = ctx.Send(msgs) fatalErr(t, err) _, err = WaitForSignal(ctx, l1_listener.Chan, time.Millisecond*10, "TEST", func(sig *BaseSignal) bool { return sig.ID() == s.ID() }) fatalErr(t, err) _, err = WaitForSignal(ctx, l2_listener.Chan, time.Millisecond*10, "TEST", func(sig *BaseSignal) bool { return sig.ID() == s.ID() }) fatalErr(t, err) } func TestLink10K(t *testing.T) { ctx := lockableTestContext(t, []string{"test"}) l_pub, listener_key, err := ed25519.GenerateKey(rand.Reader) fatalErr(t, err) listener_id := KeyID(l_pub) child_policy := NewPerNodePolicy(map[NodeID]Tree{ listener_id: Tree{ LockSignalType.String(): nil, }, }) NewLockable := func()(*Node) { l := NewNode(ctx, nil, TestLockableType, 10, map[PolicyType]Policy{ PerNodePolicyType: &child_policy, }, NewLockableExt(nil), ) return l } reqs := make([]NodeID, 1000) for i, _ := range(reqs) { new_lockable := NewLockable() reqs[i] = new_lockable.ID } ctx.Log.Logf("test", "CREATED_10K") l_policy := NewAllNodesPolicy(Tree{ LockSignalType.String(): nil, }) listener := NewListenerExt(100000) node := NewNode(ctx, listener_key, TestLockableType, 10000, map[PolicyType]Policy{ AllNodesPolicyType: &l_policy, }, listener, NewLockableExt(reqs), ) ctx.Log.Logf("test", "CREATED_LISTENER") err = LockLockable(ctx, node) fatalErr(t, err) _, err = WaitForSignal(ctx, listener.Chan, time.Millisecond*1000, LockSignalType, func(sig *StringSignal) bool { return sig.Str == "locked" }) fatalErr(t, err) for _, _ = range(reqs) { _, err := WaitForSignal(ctx, listener.Chan, time.Millisecond*100, LockSignalType, func(sig *StringSignal) bool { return sig.Str == "locked" }) fatalErr(t, err) } ctx.Log.Logf("test", "LOCKED_10K") } func TestLock(t *testing.T) { ctx := lockableTestContext(t, []string{"lockable", "policy"}) policy := NewAllNodesPolicy(nil) NewLockable := func(reqs []NodeID)(*Node, *ListenerExt) { listener := NewListenerExt(100) l := NewNode(ctx, nil, TestLockableType, 10, map[PolicyType]Policy{ AllNodesPolicyType: &policy, }, listener, NewLockableExt(reqs), ) return l, listener } l2, _ := NewLockable(nil) l3, _ := NewLockable(nil) l4, _ := NewLockable(nil) l5, _ := NewLockable(nil) NewLockable([]NodeID{l2.ID, l3.ID, l4.ID, l5.ID}) l1, l1_listener := NewLockable([]NodeID{l2.ID, l3.ID, l4.ID, l5.ID}) locked := func(sig *StringSignal) bool { return sig.Str == "locked" } err := LockLockable(ctx, l1) fatalErr(t, err) _, err = WaitForSignal(ctx, l1_listener.Chan, time.Millisecond*10, LockSignalType, locked) fatalErr(t, err) _, err = WaitForSignal(ctx, l1_listener.Chan, time.Millisecond*10, LockSignalType, locked) fatalErr(t, err) _, err = WaitForSignal(ctx, l1_listener.Chan, time.Millisecond*10, LockSignalType, locked) fatalErr(t, err) _, err = WaitForSignal(ctx, l1_listener.Chan, time.Millisecond*10, LockSignalType, locked) fatalErr(t, err) _, err = WaitForSignal(ctx, l1_listener.Chan, time.Millisecond*10, LockSignalType, locked) fatalErr(t, err) err = UnlockLockable(ctx, l1) fatalErr(t, err) }