csit - Integration tests

Age	Commit message (Expand)	Author	Files	Lines
2016-02-08	New version of RF tests.	Stefan Kobza	1	-0/+5

/* *------------------------------------------------------------------ * Copyright (c) 2020 Cisco and/or its affiliates. * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. *------------------------------------------------------------------ */ package memif import ( "bytes" "container/list" "encoding/binary" "fmt" "os" "sync" "syscall" ) const maxEpollEvents = 1 const maxControlLen = 256 const errorFdNotFound = "fd not found" // controlMsg represents a message used in communication between memif peers type controlMsg struct { Buffer *bytes.Buffer Fd int } // listener represents a listener functionality of UNIX domain socket type listener struct { socket *Socket event syscall.EpollEvent } // controlChannel represents a communication channel between memif peers // backed by UNIX domain socket type controlChannel struct { listRef *list.Element socket *Socket i *Interface event syscall.EpollEvent data [msgSize]byte control [maxControlLen]byte controlLen int msgQueue []controlMsg isConnected bool } // Socket represents a UNIX domain socket used for communication // between memif peers type Socket struct { appName string filename string listener *listener interfaceList *list.List ccList *list.List epfd int wakeEvent syscall.EpollEvent stopPollChan chan struct{} wg sync.WaitGroup } // StopPolling stops polling events on the socket func (socket *Socket) StopPolling() error { if socket.stopPollChan != nil { // stop polling msg close(socket.stopPollChan) // wake epoll buf := make([]byte, 8) binary.PutUvarint(buf, 1) n, err := syscall.Write(int(socket.wakeEvent.Fd), buf[:]) if err != nil { return err } if n != 8 { return fmt.Errorf("Faild to write to eventfd") } // wait until polling is stopped socket.wg.Wait() } return nil } // StartPolling starts polling and handling events on the socket, // enabling communication between memif peers func (socket *Socket) StartPolling(errChan chan<- error) { socket.stopPollChan = make(chan struct{}) socket.wg.Add(1) go func() { var events [maxEpollEvents]syscall.EpollEvent defer socket.wg.Done() for { select { case <-socket.stopPollChan: return default: num, err := syscall.EpollWait(socket.epfd, events[:], -1) if err != nil { errChan <- fmt.Errorf("EpollWait: ", err) return } for ev := 0; ev < num; ev++ { if events[0].Fd == socket.wakeEvent.Fd { continue } err = socket.handleEvent(&events[0]) if err != nil { errChan <- fmt.Errorf("handleEvent: ", err) } } } } }() } // addEvent adds event to epoll instance associated with the socket func (socket *Socket) addEvent(event *syscall.EpollEvent) error { err := syscall.EpollCtl(socket.epfd, syscall.EPOLL_CTL_ADD, int(event.Fd), event) if err != nil { return fmt.Errorf("EpollCtl: %s", err) } return nil } // addEvent deletes event to epoll instance associated with the socket func (socket *Socket) delEvent(event *syscall.EpollEvent) error { err := syscall.EpollCtl(socket.epfd, syscall.EPOLL_CTL_DEL, int(event.Fd), event) if err != nil { return fmt.Errorf("EpollCtl: %s", err) } return nil } // Delete deletes the socket func (socket *Socket) Delete() (err error) { for elt := socket.ccList.Front(); elt != nil; elt = elt.Next() { cc, ok := elt.Value.(*controlChannel) if ok { err = cc.close(true, "Socket deleted") if err != nil { return nil } } } for elt := socket.interfaceList.Front(); elt != nil; elt = elt.Next() { i, ok := elt.Value.(*Interface) if ok { err = i.Delete() if err != nil { return err } } } if socket.listener != nil { err = socket.listener.close() if err != nil { return err } err = os.Remove(socket.filename) if err != nil { return nil } } err = socket.delEvent(&socket.wakeEvent) if err != nil { return fmt.Errorf("Failed to delete event: ", err) } syscall.Close(socket.epfd) return nil } // NewSocket returns a new Socket func NewSocket(appName string, filename string) (socket *Socket, err error) { socket = &Socket{ appName: appName, filename: filename, interfaceList: list.New(), ccList: list.New(), } if socket.filename == "" { socket.filename = DefaultSocketFilename } socket.epfd, _ = syscall.EpollCreate1(0) efd, err := eventFd() socket.wakeEvent = syscall.EpollEvent{ Events: syscall.EPOLLIN | syscall.EPOLLERR | syscall.EPOLLHUP, Fd: int32(efd), } err = socket.addEvent(&socket.wakeEvent) if err != nil { return nil, fmt.Errorf("Failed to add event: ", err) } return socket, nil } // handleEvent handles epoll event func (socket *Socket) handleEvent(event *syscall.EpollEvent) error { if socket.listener != nil && socket.listener.event.Fd == event.Fd { return socket.listener.handleEvent(event) } for elt := socket.ccList.Front(); elt != nil; elt = elt.Next() { cc, ok := elt.Value.(*controlChannel) if ok { if cc.event.Fd == event.Fd { return cc.handleEvent(event) } } } return fmt.Errorf(errorFdNotFound) } // handleEvent handles epoll event for listener func (l *listener) handleEvent(event *syscall.EpollEvent) error { // hang up if (event.Events & syscall.EPOLLHUP) == syscall.EPOLLHUP { err := l.close() if err != nil { return fmt.Errorf("Failed to close listener after hang up event: ", err) } return fmt.Errorf("Hang up: ", l.socket.filename) } // error if (event.Events & syscall.EPOLLERR) == syscall.EPOLLERR { err := l.close() if err != nil { return fmt.Errorf("Failed to close listener after receiving an error event: ", err) } return fmt.Errorf("Received error event on listener ", l.socket.filename) } // read message if (event.Events & syscall.EPOLLIN) == syscall.EPOLLIN { newFd, _, err := syscall.Accept(int(l.event.Fd)) if err != nil { return fmt.Errorf("Accept: %s", err) } cc, err := l.socket.addControlChannel(newFd, nil) if err != nil { return fmt.Errorf("Failed to add control channel: %s", err) } err = cc.msgEnqHello() if err != nil { return fmt.Errorf("msgEnqHello: %s", err) } err = cc.sendMsg() if err != nil { return err } return nil } return fmt.Errorf("Unexpected event: ", event.Events) } // handleEvent handles epoll event for control channel func (cc *controlChannel) handleEvent(event *syscall.EpollEvent) error { var size int var err error // hang up if (event.Events & syscall.EPOLLHUP) == syscall.EPOLLHUP { // close cc, don't send msg err := cc.close(false, "") if err != nil { return fmt.Errorf("Failed to close control channel after hang up event: ", err) } return fmt.Errorf("Hang up: ", cc.i.GetName()) } if (event.Events & syscall.EPOLLERR) == syscall.EPOLLERR { // close cc, don't send msg err := cc.close(false, "") if err != nil { return fmt.Errorf("Failed to close control channel after receiving an error event: ", err) } return fmt.Errorf("Received error event on control channel ", cc.i.GetName()) } if (event.Events & syscall.EPOLLIN) == syscall.EPOLLIN { size, cc.controlLen, _, _, err = syscall.Recvmsg(int(cc.event.Fd), cc.data[:], cc.control[:], 0) if err != nil { return fmt.Errorf("recvmsg: %s", err) } if size != msgSize { return fmt.Errorf("invalid message size %d", size) } err = cc.parseMsg() if err != nil { return err } err = cc.sendMsg() if err != nil { return err } return nil } return fmt.Errorf("Unexpected event: ", event.Events) } // close closes the listener func (l *listener) close() error { err := l.socket.delEvent(&l.event) if err != nil { return fmt.Errorf("Failed to del event: ", err) } err = syscall.Close(int(l.event.Fd)) if err != nil { return fmt.Errorf("Failed to close socket: ", err) } return nil } // AddListener adds a lisntener to the socket. The fd must describe a // UNIX domain socket already bound to a UNIX domain filename and // marked as listener func (socket *Socket) AddListener(fd int) (err error) { l := &listener{ // we will need this to look up master interface by id socket: socket, } l.event = syscall.EpollEvent{ Events: syscall.EPOLLIN | syscall.EPOLLERR | syscall.EPOLLHUP, Fd: int32(fd), } err = socket.addEvent(&l.event) if err != nil { return fmt.Errorf("Failed to add event: ", err) } socket.listener = l return nil } // addListener creates new UNIX domain socket, binds it to the address // and marks it as listener func (socket *Socket) addListener() (err error) { // create socket fd, err := syscall.Socket(syscall.AF_UNIX, syscall.SOCK_SEQPACKET, 0) if err != nil { return fmt.Errorf("Failed to create UNIX domain socket") } usa := &syscall.SockaddrUnix{Name: socket.filename} // Bind to address and start listening err = syscall.SetsockoptInt(fd, syscall.SOL_SOCKET, syscall.SO_PASSCRED, 1) if err != nil { return fmt.Errorf("Failed to set socket option %s : %v", socket.filename, err) } err = syscall.Bind(fd, usa) if err != nil { return fmt.Errorf("Failed to bind socket %s : %v", socket.filename, err) } err = syscall.Listen(fd, syscall.SOMAXCONN) if err != nil { return fmt.Errorf("Failed to listen on socket %s : %v", socket.filename, err) } return socket.AddListener(fd) } // close closes a control channel, if the control channel is assigned an // interface, the interface is disconnected func (cc *controlChannel) close(sendMsg bool, str string) (err error) { if sendMsg == true { // first clear message queue so that the disconnect // message is the only message in queue cc.msgQueue = []controlMsg{} cc.msgEnqDisconnect(str) err = cc.sendMsg() if err != nil { return err } } err = cc.socket.delEvent(&cc.event) if err != nil { return fmt.Errorf("Failed to del event: ", err) } // remove referance form socket cc.socket.ccList.Remove(cc.listRef) if cc.i != nil { err = cc.i.disconnect() if err != nil { return fmt.Errorf("Interface Disconnect: ", err) } } return nil } //addControlChannel returns a new controlChannel and adds it to the socket func (socket *Socket) addControlChannel(fd int, i *Interface) (*controlChannel, error) { cc := &controlChannel{ socket: socket, i: i, isConnected: false, } var err error cc.event = syscall.EpollEvent{ Events: syscall.EPOLLIN | syscall.EPOLLERR | syscall.EPOLLHUP, Fd: int32(fd), } err = socket.addEvent(&cc.event) if err != nil { return nil, fmt.Errorf("Failed to add event: ", err) } cc.listRef = socket.ccList.PushBack(cc) return cc, nil } func (cc *controlChannel) msgEnqAck() (err error) { buf := new(bytes.Buffer) err = binary.Write(buf, binary.LittleEndian, msgTypeAck) msg := controlMsg{ Buffer: buf, Fd: -1, } cc.msgQueue = append(cc.msgQueue, msg) return nil } func (cc *controlChannel) msgEnqHello() (err error) { hello := MsgHello{ VersionMin: Version, VersionMax: Version, MaxRegion: 255, MaxRingM2S: 255, MaxRingS2M: 255, MaxLog2RingSize: 14, } copy(hello.Name[:], []byte(cc.socket.appName)) buf := new(bytes.Buffer) err = binary.Write(buf, binary.LittleEndian, msgTypeHello) err = binary.Write(buf, binary.LittleEndian, hello) msg := controlMsg{ Buffer: buf, Fd: -1, } cc.msgQueue = append(cc.msgQueue, msg) return nil } func (cc *controlChannel) parseHello() (err error) { var hello MsgHello buf := bytes.NewReader(cc.data[msgTypeSize:]) err = binary.Read(buf, binary.LittleEndian, &hello) if err != nil { return } if hello.VersionMin > Version || hello.VersionMax < Version { return fmt.Errorf("Incompatible memif version") } cc.i.run = cc.i.args.MemoryConfig cc.i.run.NumQueuePairs = min16(cc.i.args.MemoryConfig.NumQueuePairs, hello.MaxRingS2M) cc.i.run.NumQueuePairs = min16(cc.i.args.MemoryConfig.NumQueuePairs, hello.MaxRingM2S) cc.i.run.Log2RingSize = min8(cc.i.args.MemoryConfig.Log2RingSize, hello.MaxLog2RingSize) cc.i.remoteName = string(hello.Name[:]) return nil } func (cc *controlChannel) msgEnqInit() (err error) { init := MsgInit{ Version: Version, Id: cc.i.args.Id, Mode: interfaceModeEthernet, } copy(init.Name[:], []byte(cc.socket.appName)) buf := new(bytes.Buffer) err = binary.Write(buf, binary.LittleEndian, msgTypeInit) err = binary.Write(buf, binary.LittleEndian, init) msg := controlMsg{ Buffer: buf, Fd: -1, } cc.msgQueue = append(cc.msgQueue, msg) return nil } func (cc *controlChannel) parseInit() (err error) { var init MsgInit buf := bytes.NewReader(cc.data[msgTypeSize:]) err = binary.Read(buf, binary.LittleEndian, &init) if err != nil { return } if init.Version != Version { return fmt.Errorf("Incompatible memif driver version") } // find peer interface for elt := cc.socket.interfaceList.Front(); elt != nil; elt = elt.Next() { i, ok := elt.Value.(*Interface) if ok { if i.args.Id == init.Id && i.args.IsMaster && i.cc == nil { // verify secret if i.args.Secret != init.Secret { return fmt.Errorf("Invalid secret") } // interface is assigned to control channel i.cc = cc cc.i = i cc.i.run = cc.i.args.MemoryConfig cc.i.remoteName = string(init.Name[:]) return nil } } } return fmt.Errorf("Invalid interface id") } func (cc *controlChannel) msgEnqAddRegion(regionIndex uint16) (err error) { if len(cc.i.regions) <= int(regionIndex) { return fmt.Errorf("Invalid region index") } addRegion := MsgAddRegion{ Index: regionIndex, Size: cc.i.regions[regionIndex].size, } buf := new(bytes.Buffer) err = binary.Write(buf, binary.LittleEndian, msgTypeAddRegion) err = binary.Write(buf, binary.LittleEndian, addRegion) msg := controlMsg{ Buffer: buf, Fd: cc.i.regions[regionIndex].fd, } cc.msgQueue = append(cc.msgQueue, msg) return nil } func (cc *controlChannel) parseAddRegion() (err error) { var addRegion MsgAddRegion buf := bytes.NewReader(cc.data[msgTypeSize:]) err = binary.Read(buf, binary.LittleEndian, &addRegion) if err != nil { return } fd, err := cc.parseControlMsg() if err != nil { return fmt.Errorf("parseControlMsg: %s", err) } if addRegion.Index > 255 { return fmt.Errorf("Invalid memory region index") } region := memoryRegion{ size: addRegion.Size, fd: fd, } cc.i.regions = append(cc.i.regions, region) return nil } func (cc *controlChannel) msgEnqAddRing(ringType ringType, ringIndex uint16) (err error) { var q Queue var flags uint16 = 0 if ringType == ringTypeS2M { q = cc.i.txQueues[ringIndex] flags = msgAddRingFlagS2M } else { q = cc.i.rxQueues[ringIndex] } addRing := MsgAddRing{ Index: ringIndex, Offset: uint32(q.ring.offset), Region: uint16(q.ring.region), RingSizeLog2: uint8(q.ring.log2Size), Flags: flags, PrivateHdrSize: 0, } buf := new(bytes.Buffer) err = binary.Write(buf, binary.LittleEndian, msgTypeAddRing) err = binary.Write(buf, binary.LittleEndian, addRing) msg := controlMsg{ Buffer: buf, Fd: q.interruptFd, } cc.msgQueue = append(cc.msgQueue, msg) return nil } func (cc *controlChannel) parseAddRing() (err error) { var addRing MsgAddRing buf := bytes.NewReader(cc.data[msgTypeSize:]) err = binary.Read(buf, binary.LittleEndian, &addRing) if err != nil { return } fd, err := cc.parseControlMsg() if err != nil { return err } if addRing.Index >= cc.i.run.NumQueuePairs { return fmt.Errorf("invalid ring index") } q := Queue{ i: cc.i, interruptFd: fd, } if (addRing.Flags & msgAddRingFlagS2M) == msgAddRingFlagS2M { q.ring = newRing(int(addRing.Region), ringTypeS2M, int(addRing.Offset), int(addRing.RingSizeLog2)) cc.i.rxQueues = append(cc.i.rxQueues, q) } else { q.ring = newRing(int(addRing.Region), ringTypeM2S, int(addRing.Offset), int(addRing.RingSizeLog2)) cc.i.txQueues = append(cc.i.txQueues, q) } return nil } func (cc *controlChannel) msgEnqConnect() (err error) { var connect MsgConnect copy(connect.Name[:], []byte(cc.i.args.Name)) buf := new(bytes.Buffer) err = binary.Write(buf, binary.LittleEndian, msgTypeConnect) err = binary.Write(buf, binary.LittleEndian, connect) msg := controlMsg{ Buffer: buf, Fd: -1, } cc.msgQueue = append(cc.msgQueue, msg) return nil } func (cc *controlChannel) parseConnect() (err error) { var connect MsgConnect buf := bytes.NewReader(cc.data[msgTypeSize:]) err = binary.Read(buf, binary.LittleEndian, &connect) if err != nil { return } cc.i.peerName = string(connect.Name[:]) err = cc.i.connect() if err != nil { return err } cc.isConnected = true return nil } func (cc *controlChannel) msgEnqConnected() (err error) { var connected MsgConnected copy(connected.Name[:], []byte(cc.i.args.Name)) buf := new(bytes.Buffer) err = binary.Write(buf, binary.LittleEndian, msgTypeConnected) err = binary.Write(buf, binary.LittleEndian, connected) msg := controlMsg{ Buffer: buf, Fd: -1, } cc.msgQueue = append(cc.msgQueue, msg) return nil } func (cc *controlChannel) parseConnected() (err error) { var conn MsgConnected buf := bytes.NewReader(cc.data[msgTypeSize:]) err = binary.Read(buf, binary.LittleEndian, &conn) if err != nil { return } cc.i.peerName = string(conn.Name[:]) err = cc.i.connect() if err != nil { return err } cc.isConnected = true return nil } func (cc *controlChannel) msgEnqDisconnect(str string) (err error) { dc := MsgDisconnect{ // not implemented Code: 0, } copy(dc.String[:], str) buf := new(bytes.Buffer) err = binary.Write(buf, binary.LittleEndian, msgTypeDisconnect) err = binary.Write(buf, binary.LittleEndian, dc) msg := controlMsg{ Buffer: buf, Fd: -1, } cc.msgQueue = append(cc.msgQueue, msg) return nil } func (cc *controlChannel) parseDisconnect() (err error) { var dc MsgDisconnect buf := bytes.NewReader(cc.data[msgTypeSize:]) err = binary.Read(buf, binary.LittleEndian, &dc) if err != nil { return } err = cc.close(false, string(dc.String[:])) if err != nil { return fmt.Errorf("Failed to disconnect control channel: ", err) } return nil } func (cc *controlChannel) parseMsg() error { var msgType msgType var err error buf := bytes.NewReader(cc.data[:]) err = binary.Read(buf, binary.LittleEndian, &msgType) if msgType == msgTypeAck { return nil } else if msgType == msgTypeHello { // Configure err = cc.parseHello() if err != nil { goto error } // Initialize slave memif err = cc.i.initializeRegions() if err != nil { goto error } err = cc.i.initializeQueues() if err != nil { goto error } // Enqueue messages err = cc.msgEnqInit() if err != nil { goto error } for i := 0; i < len(cc.i.regions); i++ { err = cc.msgEnqAddRegion(uint16(i)) if err != nil { goto error } } for i := 0; uint16(i) < cc.i.run.NumQueuePairs; i++ { err = cc.msgEnqAddRing(ringTypeS2M, uint16(i)) if err != nil { goto error } } for i := 0; uint16(i) < cc.i.run.NumQueuePairs; i++ { err = cc.msgEnqAddRing(ringTypeM2S, uint16(i)) if err != nil { goto error } } err = cc.msgEnqConnect() if err != nil { goto error } } else if msgType == msgTypeInit { err = cc.parseInit() if err != nil { goto error } err = cc.msgEnqAck() if err != nil { goto error } } else if msgType == msgTypeAddRegion { err = cc.parseAddRegion() if err != nil { goto error } err = cc.msgEnqAck() if err != nil { goto error } } else if msgType == msgTypeAddRing { err = cc.parseAddRing() if err != nil { goto error } err = cc.msgEnqAck() if err != nil { goto error } } else if msgType == msgTypeConnect { err = cc.parseConnect() if err != nil { goto error } err = cc.msgEnqConnected() if err != nil { goto error } } else if msgType == msgTypeConnected { err = cc.parseConnected() if err != nil { goto error } } else if msgType == msgTypeDisconnect { err = cc.parseDisconnect() if err != nil { goto error } } else { err = fmt.Errorf("unknown message %d", msgType) goto error } return nil error: err1 := cc.close(true, err.Error()) if err1 != nil { return fmt.Errorf(err.Error(), ": Failed to close control channel: ", err1) } return err } // parseControlMsg parses control message and returns file descriptor // if any func (cc *controlChannel) parseControlMsg() (fd int, err error) { // Assert only called when we require FD fd = -1 controlMsgs, err := syscall.ParseSocketControlMessage(cc.control[:cc.controlLen]) if err != nil { return -1, fmt.Errorf("syscall.ParseSocketControlMessage: %s", err) } if len(controlMsgs) == 0 { return -1, fmt.Errorf("Missing control message") } for _, cmsg := range controlMsgs { if cmsg.Header.Level == syscall.SOL_SOCKET { if cmsg.Header.Type == syscall.SCM_RIGHTS { FDs, err := syscall.ParseUnixRights(&cmsg) if err != nil { return -1, fmt.Errorf("syscall.ParseUnixRights: %s", err) } if len(FDs) == 0 { continue } // Only expect single FD fd = FDs[0] } } } if fd == -1 { return -1, fmt.Errorf("Missing file descriptor") } return fd, nil }