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serveroptions_test.go
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serveroptions_test.go
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package signalr
import (
"context"
"errors"
"fmt"
"strings"
"time"
"github.com/go-kit/log"
"github.com/google/uuid"
. "github.com/onsi/ginkgo"
. "github.com/onsi/gomega"
)
type singleHub struct {
Hub
id string
}
func (s *singleHub) OnConnected(string) {
s.initUUID()
singleHubMsg <- s.id
}
func (s *singleHub) GetUUID() string {
s.initUUID()
singleHubMsg <- s.id
return s.id
}
func (s *singleHub) initUUID() {
if s.id == "" {
s.id = uuid.New().String()
}
}
var singleHubMsg = make(chan string, 100)
var _ = Describe("Server options", func() {
Describe("UseHub option", func() {
Context("When the UseHub option is used", func() {
It("should use the same hub instance on all invocations", func(done Done) {
server, err := NewServer(context.TODO(), UseHub(&singleHub{}))
Expect(server).NotTo(BeNil())
Expect(err).To(BeNil())
conn1 := newTestingConnectionForServer()
Expect(conn1).NotTo(BeNil())
go func() { _ = server.Serve(conn1) }()
<-singleHubMsg
conn2 := newTestingConnectionForServer()
Expect(conn2).NotTo(BeNil())
go func() { _ = server.Serve(conn2) }()
<-singleHubMsg
// Call GetId twice. If different instances used the results are different
var uuid string
conn1.ClientSend(`{"type":1,"invocationId": "123","target":"getuuid"}`)
<-singleHubMsg
select {
case message := <-conn1.received:
Expect(message).To(BeAssignableToTypeOf(completionMessage{}))
uuid = fmt.Sprint(message.(completionMessage).Result)
case <-time.After(1000 * time.Millisecond):
Fail("timed out")
}
conn1.ClientSend(`{"type":1,"invocationId": "456","target":"getuuid"}`)
<-singleHubMsg
select {
case message := <-conn1.received:
Expect(message).To(BeAssignableToTypeOf(completionMessage{}))
Expect(fmt.Sprint(message.(completionMessage).Result)).To(Equal(uuid))
case <-time.After(1000 * time.Millisecond):
Fail("timed out")
}
// Even on another connection, the uuid should be the same
conn2.ClientSend(`{"type":1,"invocationId": "456","target":"getuuid"}`)
<-singleHubMsg
select {
case message := <-conn2.received:
Expect(message).To(BeAssignableToTypeOf(completionMessage{}))
Expect(fmt.Sprint(message.(completionMessage).Result)).To(Equal(uuid))
case <-time.After(1000 * time.Millisecond):
Fail("timed out")
}
close(done)
}, 3.0)
})
Context("When UseHub is used on a client", func() {
It("should return an error", func(done Done) {
_, err := NewClient(context.TODO(), WithConnection(newTestingConnection()), testLoggerOption(), UseHub(&singleHub{}))
Expect(err).To(HaveOccurred())
close(done)
})
})
})
Describe("SimpleHubFactory option", func() {
Context("When the SimpleHubFactory option is used", func() {
It("should call the hub factory on each hub method invocation", func(done Done) {
server, err := NewServer(context.TODO(), SimpleHubFactory(&singleHub{}), testLoggerOption())
Expect(server).NotTo(BeNil())
Expect(err).To(BeNil())
conn := newTestingConnectionForServer()
Expect(conn).NotTo(BeNil())
go func() { _ = server.Serve(conn) }()
uuids := make(map[string]interface{})
uuid := <-singleHubMsg
if _, ok := uuids[uuid]; ok {
Fail("same hub called twice")
} else {
uuids[uuid] = nil
}
conn.ClientSend(`{"type":1,"invocationId": "123","target":"getuuid"}`)
select {
case uuid = <-singleHubMsg:
if _, ok := uuids[uuid]; ok {
Fail("same hub called twice")
} else {
uuids[uuid] = nil
}
case <-time.After(1000 * time.Millisecond):
Fail("timed out")
}
conn.ClientSend(`{"type":1,"invocationId": "456","target":"getuuid"}`)
select {
case uuid = <-singleHubMsg:
if _, ok := uuids[uuid]; ok {
Fail("same hub called twice")
} else {
uuids[uuid] = nil
}
case <-time.After(1000 * time.Millisecond):
Fail("timed out")
}
close(done)
}, 2.0)
})
Context("When SimpleHubFactory is used on a client", func() {
It("should return an error", func(done Done) {
_, err := NewClient(context.TODO(), WithConnection(newTestingConnection()), testLoggerOption(), SimpleHubFactory(&singleHub{}))
Expect(err).To(HaveOccurred())
close(done)
})
})
})
Describe("Logger option", func() {
Context("When the Logger option with debug false is used", func() {
It("calling a method correctly should log no events", func(done Done) {
cw := newChannelWriter()
server, err := NewServer(context.TODO(), UseHub(&invocationHub{}), Logger(log.NewLogfmtLogger(cw), false))
Expect(server).NotTo(BeNil())
Expect(err).To(BeNil())
conn := newTestingConnectionForServer()
Expect(conn).NotTo(BeNil())
go func() { _ = server.Serve(conn) }()
conn.ClientSend(`{"type":1,"invocationId": "123","target":"simple"}`)
<-invocationQueue
select {
case logEntry := <-cw.Chan():
Fail(fmt.Sprintf("log entry written: %v", string(logEntry)))
case <-time.After(1000 * time.Millisecond):
break
}
close(done)
}, 2.0)
})
Context("When the Logger option with debug true is used", func() {
It("calling a method correctly should log events", func(done Done) {
cw := newChannelWriter()
server, err := NewServer(context.TODO(), UseHub(&invocationHub{}), Logger(log.NewLogfmtLogger(cw), true))
Expect(server).NotTo(BeNil())
Expect(err).To(BeNil())
conn := newTestingConnectionForServer()
Expect(conn).NotTo(BeNil())
go func() { _ = server.Serve(conn) }()
conn.ClientSend(`{"type":1,"invocationId": "123","target":"simple"}`)
<-invocationQueue
select {
case <-cw.Chan():
break
case <-time.After(1000 * time.Millisecond):
Fail("timed out")
}
close(done)
}, 2.0)
})
Context("When the Logger option with debug false is used", func() {
It("calling a method incorrectly should log events", func(done Done) {
cw := newChannelWriter()
server, err := NewServer(context.TODO(), UseHub(&invocationHub{}), Logger(log.NewLogfmtLogger(cw), false))
Expect(server).NotTo(BeNil())
Expect(err).To(BeNil())
conn := newTestingConnectionForServer()
Expect(conn).NotTo(BeNil())
go func() { _ = server.Serve(conn) }()
conn.ClientSend(`{"type":1,"invocationId": "123","target":"sumple is simple with typo"}`)
select {
case <-cw.Chan():
break
case <-time.After(1000 * time.Millisecond):
Fail("timed out")
}
close(done)
}, 2.0)
})
Context("When no option which sets the hub type is used, NewServer", func() {
It("should return an error", func(done Done) {
_, err := NewServer(context.TODO(), testLoggerOption())
Expect(err).NotTo(BeNil())
close(done)
})
})
Context("When an option returns an error, NewServer", func() {
It("should return an error", func(done Done) {
_, err := NewServer(context.TODO(), func(Party) error { return errors.New("bad option") })
Expect(err).NotTo(BeNil())
close(done)
})
})
})
Describe("EnableDetailedErrors option", func() {
Context("When the EnableDetailedErrors option false is used, calling a method which panics", func() {
It("should return a completion, which contains only the panic", func(done Done) {
server, err := NewServer(context.TODO(), UseHub(&invocationHub{}), testLoggerOption())
Expect(server).NotTo(BeNil())
Expect(err).To(BeNil())
conn := newTestingConnectionForServer()
Expect(conn).NotTo(BeNil())
go func() { _ = server.Serve(conn) }()
conn.ClientSend(`{"type":1,"invocationId": "ppp","target":"Panic"}`)
<-invocationQueue
select {
case m := <-conn.ReceiveChan():
Expect(m).To(BeAssignableToTypeOf(completionMessage{}))
cm := m.(completionMessage)
Expect(cm.Error).To(Equal("Don't panic!\n"))
case <-time.After(100 * time.Millisecond):
Fail("timed out")
}
close(done)
}, 1.0)
})
Context("When the EnableDetailedErrors option true is used, calling a method which panics", func() {
It("should return a completion, which contains only the panic", func(done Done) {
server, err := NewServer(context.TODO(), UseHub(&invocationHub{}), EnableDetailedErrors(true), testLoggerOption())
Expect(server).NotTo(BeNil())
Expect(err).To(BeNil())
conn := newTestingConnectionForServer()
Expect(conn).NotTo(BeNil())
go func() { _ = server.Serve(conn) }()
conn.ClientSend(`{"type":1,"invocationId": "ppp","target":"Panic"}`)
<-invocationQueue
select {
case m := <-conn.ReceiveChan():
Expect(m).To(BeAssignableToTypeOf(completionMessage{}))
cm := m.(completionMessage)
Expect(cm.Error).NotTo(Equal("Don't panic!\n"))
case <-time.After(100 * time.Millisecond):
Fail("timed out")
}
close(done)
}, 1.0)
})
})
Describe("TimeoutInterval option", func() {
Context("When the TimeoutInterval has expired without any client message", func() {
It("the connection should be closed", func(done Done) {
server, err := NewServer(context.TODO(), UseHub(&invocationHub{}), TimeoutInterval(100*time.Millisecond), testLoggerOption())
Expect(server).NotTo(BeNil())
Expect(err).To(BeNil())
conn := newTestingConnectionForServer()
Expect(conn).NotTo(BeNil())
go func() { _ = server.Serve(conn) }()
time.Sleep(200 * time.Millisecond)
conn.ClientSend(`{"type":1,"invocationId": "timeout100","target":"Simple"}`)
select {
case m := <-conn.ReceiveChan():
Expect(m).To(BeAssignableToTypeOf(closeMessage{}))
cm := m.(closeMessage)
Expect(cm.Error).NotTo(BeNil())
case <-time.After(200 * time.Millisecond):
Fail("timed out")
case <-invocationQueue:
Fail("hub method invoked")
}
close(done)
}, 2.0)
})
})
Describe("KeepAliveInterval option", func() {
Context("When the KeepAliveInterval has expired without any server message", func() {
It("a ping should have been sent", func(done Done) {
server, err := NewServer(context.TODO(), UseHub(&invocationHub{}), KeepAliveInterval(200*time.Millisecond), testLoggerOption())
Expect(server).NotTo(BeNil())
Expect(err).To(BeNil())
conn := newTestingConnection()
go func() { _ = server.Serve(conn) }()
// Send initial Handshake
conn.ClientSend(`{"protocol": "json","version": 1}`)
// Handshake response
hr, _ := conn.ClientReceive()
Expect(hr).To(Equal("{}"))
for i := 0; i < 5; i++ {
// Wait for ping
hmc := make(chan interface{}, 1)
go func() {
m, _ := conn.ClientReceive()
hmc <- m
}()
select {
case m := <-hmc:
Expect(strings.TrimRight(m.(string), "\n")).To(Equal("{\"type\":6}"))
case <-time.After(600 * time.Millisecond):
Fail("timed out")
}
}
server.cancel()
close(done)
}, 2.0)
})
})
Describe("StreamBufferCapacity option", func() {
Context("When the StreamBufferCapacity is 0", func() {
It("should return an error", func(done Done) {
_, err := NewServer(context.TODO(), UseHub(&singleHub{}), StreamBufferCapacity(0), testLoggerOption())
Expect(err).NotTo(BeNil())
close(done)
})
})
})
Describe("MaximumReceiveMessageSize option", func() {
Context("When the MaximumReceiveMessageSize is 0", func() {
It("should return an error", func(done Done) {
_, err := NewServer(context.TODO(), UseHub(&singleHub{}), MaximumReceiveMessageSize(0), testLoggerOption())
Expect(err).NotTo(BeNil())
close(done)
})
})
})
Describe("HTTPTransports option", func() {
Context("When HTTPTransports is one of WebSockets, ServerSentEvents or both", func() {
It("should set these transports", func(done Done) {
s, err := NewServer(context.TODO(), UseHub(&singleHub{}), HTTPTransports(TransportWebSockets), testLoggerOption())
Expect(err).NotTo(HaveOccurred())
Expect(s.availableTransports()).To(ContainElement(TransportWebSockets))
close(done)
})
It("should set these transports", func(done Done) {
s, err := NewServer(context.TODO(), UseHub(&singleHub{}), HTTPTransports(TransportServerSentEvents), testLoggerOption())
Expect(err).NotTo(HaveOccurred())
Expect(s.availableTransports()).To(ContainElement(TransportServerSentEvents))
close(done)
})
It("should set these transports", func(done Done) {
s, err := NewServer(context.TODO(), UseHub(&singleHub{}), HTTPTransports(TransportServerSentEvents, TransportWebSockets), testLoggerOption())
Expect(err).NotTo(HaveOccurred())
Expect(s.availableTransports()).To(ContainElement(TransportWebSockets))
Expect(s.availableTransports()).To(ContainElement(TransportServerSentEvents))
close(done)
})
})
Context("When HTTPTransports is none of WebSockets, ServerSentEvents", func() {
It("should return an error", func(done Done) {
_, err := NewServer(context.TODO(), UseHub(&singleHub{}), HTTPTransports("WebTransport"), testLoggerOption())
Expect(err).To(HaveOccurred())
close(done)
})
})
Context("When HTTPTransports is used on a client", func() {
It("should return an error", func(done Done) {
_, err := NewClient(context.TODO(), WithConnection(newTestingConnection()), HTTPTransports(TransportServerSentEvents), testLoggerOption())
Expect(err).To(HaveOccurred())
close(done)
})
})
})
})
type channelWriter struct {
channel chan []byte
}
func (c *channelWriter) Write(p []byte) (n int, err error) {
c.channel <- p
return len(p), nil
}
func (c *channelWriter) Chan() chan []byte {
return c.channel
}
func newChannelWriter() *channelWriter {
return &channelWriter{make(chan []byte, 100)}
}
// type mapLogger struct {
// c chan bool
// m map[string]string
// }
//
// func (m *mapLogger) Log(keyvals ...interface{}) error {
// m.m = make(map[string]string)
// for i := 0; i < len(keyvals); i += 2 {
// m.m[keyvals[i].(string)] = keyvals[i+1].(string)
// }
// m.c <- true
// return nil
// }