graphvent/signal.go

393 lines
8.1 KiB
Go

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package graphvent
import (
"fmt"
"time"
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"github.com/google/uuid"
)
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type SignalDirection uint8
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const (
Up SignalDirection = iota
Down
Direct
)
type TimeoutSignal struct {
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ResponseHeader
}
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func NewTimeoutSignal(req_id uuid.UUID) *TimeoutSignal {
return &TimeoutSignal{
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NewResponseHeader(req_id, Direct),
}
}
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func (signal TimeoutSignal) String() string {
return fmt.Sprintf("TimeoutSignal(%s)", &signal.ResponseHeader)
}
// Timeouts are internal only, no permission allows sending them
func (signal TimeoutSignal) Permission() Tree {
return nil
}
type SignalHeader struct {
Id uuid.UUID `gv:"id"`
Dir SignalDirection `gv:"direction"`
}
func (signal SignalHeader) ID() uuid.UUID {
return signal.Id
}
func (signal SignalHeader) Direction() SignalDirection {
return signal.Dir
}
func (header SignalHeader) String() string {
return fmt.Sprintf("SignalHeader(%d, %s)", header.Dir, header.Id)
}
type ResponseSignal interface {
Signal
ResponseID() uuid.UUID
}
type ResponseHeader struct {
SignalHeader
ReqID uuid.UUID `gv:"req_id"`
}
func (header ResponseHeader) ResponseID() uuid.UUID {
return header.ReqID
}
func (header ResponseHeader) String() string {
return fmt.Sprintf("ResponseHeader(%d, %s->%s)", header.Dir, header.Id, header.ReqID)
}
type Signal interface {
fmt.Stringer
ID() uuid.UUID
Direction() SignalDirection
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Permission() Tree
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}
func WaitForResponse(listener chan Signal, timeout time.Duration, req_id uuid.UUID) (ResponseSignal, []Signal, error) {
signals := []Signal{}
var timeout_channel <- chan time.Time
if timeout > 0 {
timeout_channel = time.After(timeout)
}
for true {
select {
case signal := <- listener:
if signal == nil {
return nil, signals, fmt.Errorf("LISTENER_CLOSED")
}
resp_signal, ok := signal.(ResponseSignal)
if ok == true && resp_signal.ResponseID() == req_id {
return resp_signal, signals, nil
} else {
signals = append(signals, signal)
}
case <-timeout_channel:
return nil, signals, fmt.Errorf("LISTENER_TIMEOUT")
}
}
return nil, signals, fmt.Errorf("UNREACHABLE")
}
//TODO: Add []Signal return as well for other signals
func WaitForSignal[S Signal](listener chan Signal, timeout time.Duration, check func(S)bool) (S, error) {
var zero S
var timeout_channel <- chan time.Time
if timeout > 0 {
timeout_channel = time.After(timeout)
}
for true {
select {
case signal := <- listener:
if signal == nil {
return zero, fmt.Errorf("LISTENER_CLOSED")
}
sig, ok := signal.(S)
if ok == true {
if check(sig) == true {
return sig, nil
}
}
case <-timeout_channel:
return zero, fmt.Errorf("LISTENER_TIMEOUT")
}
}
return zero, fmt.Errorf("LOOP_ENDED")
}
func NewSignalHeader(direction SignalDirection) SignalHeader {
return SignalHeader{
uuid.New(),
direction,
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}
}
func NewResponseHeader(req_id uuid.UUID, direction SignalDirection) ResponseHeader {
return ResponseHeader{
NewSignalHeader(direction),
req_id,
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}
}
type CreateSignal struct {
SignalHeader
}
func (signal CreateSignal) Permission() Tree {
return Tree{
SerializedType(CreateSignalType): nil,
}
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}
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func NewCreateSignal() *CreateSignal {
return &CreateSignal{
NewSignalHeader(Direct),
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}
}
type StartSignal struct {
SignalHeader
}
func (signal StartSignal) Permission() Tree {
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return Tree{
SerializedType(StartSignalType): nil,
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}
}
func NewStartSignal() *StartSignal {
return &StartSignal{
NewSignalHeader(Direct),
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}
}
type StoppedSignal struct {
ResponseHeader
Source NodeID
}
func (signal StoppedSignal) Permission() Tree {
return Tree{
ResponseType: nil,
}
}
func NewStoppedSignal(sig *StopSignal, source NodeID) *StoppedSignal {
return &StoppedSignal{
NewResponseHeader(sig.ID(), Up),
source,
}
}
type StopSignal struct {
SignalHeader
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}
func (signal StopSignal) Permission() Tree {
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return Tree{
SerializedType(StopSignalType): nil,
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}
}
func NewStopSignal() *StopSignal {
return &StopSignal{
NewSignalHeader(Direct),
}
}
type SuccessSignal struct {
ResponseHeader
}
func (signal SuccessSignal) String() string {
return fmt.Sprintf("SuccessSignal(%s)", signal.SignalHeader)
}
func (signal SuccessSignal) Permission() Tree {
return Tree{
ResponseType: {
SerializedType(SuccessSignalType): nil,
},
}
}
func NewSuccessSignal(req_id uuid.UUID) Signal {
return &SuccessSignal{
NewResponseHeader(req_id, Direct),
}
}
type ErrorSignal struct {
ResponseHeader
Error string
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}
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func (signal ErrorSignal) String() string {
return fmt.Sprintf("ErrorSignal(%s, %s)", signal.SignalHeader, signal.Error)
}
func (signal ErrorSignal) Permission() Tree {
return Tree{
ResponseType: {
SerializedType(ErrorSignalType): nil,
},
}
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}
func NewErrorSignal(req_id uuid.UUID, fmt_string string, args ...interface{}) Signal {
return &ErrorSignal{
NewResponseHeader(req_id, Direct),
fmt.Sprintf(fmt_string, args...),
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}
}
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type ACLTimeoutSignal struct {
ResponseHeader
}
func (signal ACLTimeoutSignal) Permission() Tree {
return Tree{
SerializedType(ACLTimeoutSignalType): nil,
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}
}
func NewACLTimeoutSignal(req_id uuid.UUID) *ACLTimeoutSignal {
sig := &ACLTimeoutSignal{
NewResponseHeader(req_id, Direct),
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}
return sig
}
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type StatusSignal struct {
SignalHeader
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Source NodeID `gv:"source"`
Changes Changes `gv:"changes"`
}
func (signal StatusSignal) Permission() Tree {
return Tree{
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StatusType: nil,
}
}
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func (signal StatusSignal) String() string {
return fmt.Sprintf("StatusSignal(%s, %+v)", signal.SignalHeader, signal.Changes)
}
func NewStatusSignal(source NodeID, changes Changes) *StatusSignal {
return &StatusSignal{
NewSignalHeader(Up),
source,
changes,
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}
}
type LinkSignal struct {
SignalHeader
NodeID NodeID
Action string
}
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const (
LinkActionBase = "LINK_ACTION"
LinkActionAdd = "ADD"
)
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func (signal LinkSignal) Permission() Tree {
return Tree{
SerializedType(LinkSignalType): Tree{
Hash(LinkActionBase, signal.Action): nil,
},
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}
}
func NewLinkSignal(action string, id NodeID) Signal {
return &LinkSignal{
NewSignalHeader(Direct),
id,
action,
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}
}
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type LockSignal struct {
SignalHeader
State string
}
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func (signal LockSignal) String() string {
return fmt.Sprintf("LockSignal(%s, %s)", signal.SignalHeader, signal.State)
}
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const (
LockStateBase = "LOCK_STATE"
)
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func (signal LockSignal) Permission() Tree {
return Tree{
SerializedType(LockSignalType): Tree{
Hash(LockStateBase, signal.State): nil,
},
}
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}
func NewLockSignal(state string) *LockSignal {
return &LockSignal{
NewSignalHeader(Direct),
state,
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}
}
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type ReadSignal struct {
SignalHeader
Extensions map[ExtType][]string `json:"extensions"`
}
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func (signal ReadSignal) String() string {
return fmt.Sprintf("ReadSignal(%s, %+v)", signal.SignalHeader, signal.Extensions)
}
func (signal ReadSignal) Permission() Tree {
ret := Tree{}
for ext, fields := range(signal.Extensions) {
field_tree := Tree{}
for _, field := range(fields) {
field_tree[Hash(FieldNameBase, field)] = nil
}
ret[SerializedType(ext)] = field_tree
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}
return Tree{SerializedType(ReadSignalType): ret}
}
func NewReadSignal(exts map[ExtType][]string) *ReadSignal {
return &ReadSignal{
NewSignalHeader(Direct),
exts,
}
}
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type ReadResultSignal struct {
ResponseHeader
NodeID NodeID
NodeType NodeType
Extensions map[ExtType]map[string]SerializedValue
}
func (signal ReadResultSignal) String() string {
return fmt.Sprintf("ReadResultSignal(%s, %s, %+v, %+v)", signal.SignalHeader, signal.NodeID, signal.NodeType, signal.Extensions)
}
func (signal ReadResultSignal) Permission() Tree {
return Tree{
ResponseType: {
SerializedType(ReadResultSignalType): nil,
},
}
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}
func NewReadResultSignal(req_id uuid.UUID, node_id NodeID, node_type NodeType, exts map[ExtType]map[string]SerializedValue) *ReadResultSignal {
return &ReadResultSignal{
NewResponseHeader(req_id, Direct),
node_id,
node_type,
exts,
}
}