Implemented locking over signals, TODO: implement unlock

gql_cataclysm
noah metz 2023-07-27 19:53:43 -06:00
parent a44b00bc97
commit a1ce4238cc
2 changed files with 119 additions and 58 deletions

@ -70,33 +70,22 @@ func (ext *LockableExt) Serialize() ([]byte, error) {
func NewLockableExt() *LockableExt {
return &LockableExt{
Owner: nil,
PendingOwner: nil,
Requirements: map[NodeID]string{},
Dependencies: map[NodeID]string{},
LocksHeld: map[NodeID]*NodeID{},
LockStates: map[NodeID]string{},
}
}
type LockableExt struct {
Owner *NodeID `json:"owner"`
PendingOwner *NodeID `json:"pending_owner"`
Requirements map[NodeID]string `json:"requirements"`
Dependencies map[NodeID]string `json:"dependencies"`
LockStates map[NodeID]string `json:"lock_states"`
LocksHeld map[NodeID]*NodeID `json:"locks_held"`
}
func LockLockable(ctx *Context, node *Node) error {
ext, err := GetExt[*LockableExt](node)
if err != nil {
return err
}
_, exists := ext.LockStates[node.ID]
if exists == true {
return fmt.Errorf("%s is already being locked, cannot lock again", node.ID)
}
ext.LockStates[node.ID] = "start"
return ctx.Send(node.ID, node.ID, NewLockSignal("lock"))
}
@ -124,11 +113,64 @@ func (ext *LockableExt) HandleLockSignal(ctx *Context, source NodeID, node *Node
ctx.Log.Logf("lockable", "LOCK_SIGNAL: %s->%s %+v", source, node.ID, signal)
state := signal.State
switch state {
case "locked":
if source == node.ID {
return
}
_, exists := ext.LockStates[source]
if exists == true {
ext.LockStates[source] = "locked"
locked_reqs := 0
for _, state := range(ext.LockStates) {
if state == "locked" {
locked_reqs += 1
}
}
if len(ext.Requirements) == locked_reqs {
ext.Owner = ext.PendingOwner
ext.PendingOwner = nil
ctx.Send(node.ID, *ext.Owner, NewLockSignal("locked"))
}
} else {
ctx.Send(node.ID, source, NewLockSignal("reset"))
}
case "pending":
state, exists := ext.LockStates[source]
if exists == true && state != "pending" {
delete(ext.LockStates, source)
ctx.Send(node.ID, source, NewLockSignal("reset"))
} else if exists == false {
ctx.Send(node.ID, source, NewLockSignal("reset"))
}
case "lock":
if ext.Owner != nil {
ctx.Send(node.ID, source, NewLockSignal("already_locked"))
} else if ext.PendingOwner == nil {
if len(ext.Requirements) == 0 {
owner := source
ext.Owner = &owner
ctx.Send(node.ID, source, NewLockSignal("locked"))
} else {
pending_owner := source
ext.PendingOwner = &pending_owner
for id, state := range(ext.Requirements) {
if state == "linked" {
ext.LockStates[id] = "pending"
ctx.Send(node.ID, id, NewLockSignal("lock"))
}
}
if source != node.ID {
ctx.Send(node.ID, source, NewLockSignal("pending"))
}
}
}
default:
ctx.Log.Logf("lockable", "LOCK_ERR: unkown state %s", state)
}
}
// TODO: don't allow changes to requirements or dependencies while being locked or locked
func (ext *LockableExt) HandleLinkSignal(ctx *Context, source NodeID, node *Node, signal StateSignal) {
ctx.Log.Logf("lockable", "LINK_SIGNAL: %s->%s %+v", source, node.ID, signal)
state := signal.State
@ -195,7 +237,8 @@ func (ext *LockableExt) Process(ctx *Context, source NodeID, node *Node, signal
switch signal.Direction() {
case Up:
owner_sent := false
for dependency, _ := range(ext.Dependencies) {
for dependency, state := range(ext.Dependencies) {
if state == "linked" {
err := ctx.Send(node.ID, dependency, signal)
if err != nil {
ctx.Log.Logf("signal", "LOCKABLE_SIGNAL_ERR: %s->%s - %e", node.ID, dependency, err)
@ -207,6 +250,7 @@ func (ext *LockableExt) Process(ctx *Context, source NodeID, node *Node, signal
}
}
}
}
if ext.Owner != nil && owner_sent == false {
if *ext.Owner != node.ID {
@ -217,12 +261,14 @@ func (ext *LockableExt) Process(ctx *Context, source NodeID, node *Node, signal
}
}
case Down:
for requirement, _ := range(ext.Requirements) {
for requirement, state := range(ext.Requirements) {
if state == "linked" {
err := ctx.Send(node.ID, requirement, signal)
if err != nil {
ctx.Log.Logf("signal", "LOCKABLE_SIGNAL_ERR: %s->%s - %e", node.ID, requirement, err)
}
}
}
case Direct:
switch signal.Type() {
case LinkSignalType:
@ -235,23 +281,6 @@ func (ext *LockableExt) Process(ctx *Context, source NodeID, node *Node, signal
}
}
func (ext *LockableExt) RecordUnlock(node NodeID) *NodeID {
last_owner, exists := ext.LocksHeld[node]
if exists == false {
panic("Attempted to take a get the original lock holder of a lockable we don't own")
}
delete(ext.LocksHeld, node)
return last_owner
}
func (ext *LockableExt) RecordLock(node NodeID, last_owner *NodeID) {
_, exists := ext.LocksHeld[node]
if exists == true {
panic("Attempted to lock a lockable we're already holding(lock cycle)")
}
ext.LocksHeld[node] = last_owner
}
func SaveNode(node *Node) string {
str := ""
if node != nil {

@ -50,27 +50,59 @@ func TestLink(t *testing.T) {
}
func TestLock(t *testing.T) {
ctx := lockableTestContext(t, []string{"test", "lockable"})
ctx := lockableTestContext(t, []string{"lockable"})
l1_listener := NewListenerExt(10)
l1 := NewNode(ctx, RandID(), TestLockableType, nil,
l1_listener,
NewACLExt(&link_policy),
NewLockableExt(),
)
l2_listener := NewListenerExt(10)
l2 := NewNode(ctx, RandID(), TestLockableType, nil,
l2_listener,
NewACLExt(&link_policy),
NewLockable := func()(*Node, *ListenerExt) {
listener := NewListenerExt(10)
l := NewNode(ctx, RandID(), TestLockableType, nil,
listener,
NewACLExt(&lock_policy),
NewLockableExt(),
)
return l, listener
}
err := LinkRequirement(ctx, l1, l2.ID)
l0, l0_listener := NewLockable()
l1, l1_listener := NewLockable()
l2, _ := NewLockable()
l3, _ := NewLockable()
l4, _ := NewLockable()
l5, _ := NewLockable()
var err error
err = LinkRequirement(ctx, l1, l2.ID)
fatalErr(t, err)
err = LinkRequirement(ctx, l1, l3.ID)
fatalErr(t, err)
err = LinkRequirement(ctx, l1, l4.ID)
fatalErr(t, err)
err = LinkRequirement(ctx, l1, l5.ID)
fatalErr(t, err)
err = LinkRequirement(ctx, l0, l2.ID)
fatalErr(t, err)
err = LinkRequirement(ctx, l0, l3.ID)
fatalErr(t, err)
err = LinkRequirement(ctx, l0, l4.ID)
fatalErr(t, err)
err = LinkRequirement(ctx, l0, l5.ID)
fatalErr(t, err)
(*GraphTester)(t).WaitForState(ctx, l1_listener, LinkSignalType, "dep_linked", time.Millisecond*10, "No dep_link")
(*GraphTester)(t).WaitForState(ctx, l1_listener, LinkSignalType, "dep_linked", time.Millisecond*10, "No dep_link")
(*GraphTester)(t).WaitForState(ctx, l1_listener, LinkSignalType, "dep_linked", time.Millisecond*10, "No dep_link")
(*GraphTester)(t).WaitForState(ctx, l1_listener, LinkSignalType, "dep_linked", time.Millisecond*10, "No dep_link")
(*GraphTester)(t).WaitForState(ctx, l2_listener, LinkSignalType, "req_linked", time.Millisecond*10, "No req_linked")
(*GraphTester)(t).WaitForState(ctx, l0_listener, LinkSignalType, "dep_linked", time.Millisecond*10, "No dep_link")
(*GraphTester)(t).WaitForState(ctx, l0_listener, LinkSignalType, "dep_linked", time.Millisecond*10, "No dep_link")
(*GraphTester)(t).WaitForState(ctx, l0_listener, LinkSignalType, "dep_linked", time.Millisecond*10, "No dep_link")
(*GraphTester)(t).WaitForState(ctx, l0_listener, LinkSignalType, "dep_linked", time.Millisecond*10, "No dep_link")
err = LockLockable(ctx, l1)
fatalErr(t, err)
(*GraphTester)(t).WaitForState(ctx, l1_listener, LockSignalType, "locked", time.Millisecond*10, "No locked")
err = LockLockable(ctx, l0)
fatalErr(t, err)
(*GraphTester)(t).WaitForState(ctx, l1_listener, LockSignalType, "locked", time.Millisecond*10, "No locked")
}