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// Copyright (c) 2017 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 mock is an alternative VPP adapter aimed for unit/integration testing where the
// actual communication with VPP is not demanded.
package mock
import (
"bytes"
"log"
"reflect"
"sync"
"git.fd.io/govpp.git/adapter"
"git.fd.io/govpp.git/adapter/mock/binapi"
"git.fd.io/govpp.git/api"
"git.fd.io/govpp.git/core"
"github.com/lunixbochs/struc"
)
type replyMode int
const (
_ replyMode = 0
useRepliesQueue = 1 // use replies in the queue
useReplyHandlers = 2 // use reply handler
)
// VppAdapter represents a mock VPP adapter that can be used for unit/integration testing instead of the vppapiclient adapter.
type VppAdapter struct {
callback func(context uint32, msgId uint16, data []byte)
msgNameToIds map[string]uint16
msgIDsToName map[uint16]string
msgIDSeq uint16
binAPITypes map[string]reflect.Type
access sync.RWMutex
replies []reply // FIFO queue of messages
replyHandlers []ReplyHandler // callbacks that are able to calculate mock responses
repliesLock sync.Mutex // mutex for the queue
mode replyMode // mode in which the mock operates
}
// defaultReply is a default reply message that mock adapter returns for a request.
type defaultReply struct {
Retval int32
}
// MessageDTO is a structure used for propagating information to ReplyHandlers.
type MessageDTO struct {
MsgID uint16
MsgName string
ClientID uint32
Data []byte
}
// reply for one request (can be multipart, contain replies to previously timeouted requests, etc.)
type reply struct {
msgs []MsgWithContext
}
// MsgWithContext encapsulates reply message with possibly sequence number and is-multipart flag.
type MsgWithContext struct {
Msg api.Message
SeqNum uint16
Multipart bool
/* set by mock adapter */
hasCtx bool
}
// ReplyHandler is a type that allows to extend the behaviour of VPP mock.
// Return value ok is used to signalize that mock reply is calculated and ready to be used.
type ReplyHandler func(request MessageDTO) (reply []byte, msgID uint16, ok bool)
const (
defaultReplyMsgID = 1 // default message ID for the reply to be sent back via callback
)
// NewVppAdapter returns a new mock adapter.
func NewVppAdapter() adapter.VppAdapter {
return &VppAdapter{}
}
// Connect emulates connecting the process to VPP.
func (a *VppAdapter) Connect() error {
return nil
}
// Disconnect emulates disconnecting the process from VPP.
func (a *VppAdapter) Disconnect() {
// no op
}
// GetMsgNameByID returns message name for specified message ID.
func (a *VppAdapter) GetMsgNameByID(msgID uint16) (string, bool) {
switch msgID {
case 100:
return "control_ping", true
case 101:
return "control_ping_reply", true
case 200:
return "sw_interface_dump", true
case 201:
return "sw_interface_details", true
}
a.access.Lock()
defer a.access.Unlock()
a.initMaps()
msgName, found := a.msgIDsToName[msgID]
return msgName, found
}
// RegisterBinAPITypes registers binary API message types in the mock adapter.
func (a *VppAdapter) RegisterBinAPITypes(binAPITypes map[string]reflect.Type) {
a.access.Lock()
defer a.access.Unlock()
a.initMaps()
for _, v := range binAPITypes {
if msg, ok := reflect.New(v).Interface().(api.Message); ok {
a.binAPITypes[msg.GetMessageName()] = v
}
}
}
// ReplyTypeFor returns reply message type for given request message name.
func (a *VppAdapter) ReplyTypeFor(requestMsgName string) (reflect.Type, uint16, bool) {
replyName, foundName := binapi.ReplyNameFor(requestMsgName)
if foundName {
if reply, found := a.binAPITypes[replyName]; found {
msgID, err := a.GetMsgID(replyName, "")
if err == nil {
return reply, msgID, found
}
}
}
return nil, 0, false
}
// ReplyFor returns reply message for given request message name.
func (a *VppAdapter) ReplyFor(requestMsgName string) (api.Message, uint16, bool) {
replType, msgID, foundReplType := a.ReplyTypeFor(requestMsgName)
if foundReplType {
msgVal := reflect.New(replType)
if msg, ok := msgVal.Interface().(api.Message); ok {
log.Println("FFF ", replType, msgID, foundReplType)
return msg, msgID, true
}
}
return nil, 0, false
}
// ReplyBytes encodes the mocked reply into binary format.
func (a *VppAdapter) ReplyBytes(request MessageDTO, reply api.Message) ([]byte, error) {
replyMsgID, err := a.GetMsgID(reply.GetMessageName(), reply.GetCrcString())
if err != nil {
log.Println("ReplyBytesE ", replyMsgID, " ", reply.GetMessageName(), " clientId: ", request.ClientID,
" ", err)
return nil, err
}
log.Println("ReplyBytes ", replyMsgID, " ", reply.GetMessageName(), " clientId: ", request.ClientID)
buf := new(bytes.Buffer)
struc.Pack(buf, &core.VppReplyHeader{VlMsgID: replyMsgID, Context: request.ClientID})
struc.Pack(buf, reply)
return buf.Bytes(), nil
}
// GetMsgID returns mocked message ID for the given message name and CRC.
func (a *VppAdapter) GetMsgID(msgName string, msgCrc string) (uint16, error) {
switch msgName {
case "control_ping":
return 100, nil
case "control_ping_reply":
return 101, nil
case "sw_interface_dump":
return 200, nil
case "sw_interface_details":
return 201, nil
}
a.access.Lock()
defer a.access.Unlock()
a.initMaps()
msgID, found := a.msgNameToIds[msgName]
if found {
return msgID, nil
}
a.msgIDSeq++
msgID = a.msgIDSeq
a.msgNameToIds[msgName] = msgID
a.msgIDsToName[msgID] = msgName
log.Println("VPP GetMessageId ", msgID, " name:", msgName, " crc:", msgCrc)
return msgID, nil
}
// initMaps initializes internal maps (if not already initialized).
func (a *VppAdapter) initMaps() {
if a.msgIDsToName == nil {
a.msgIDsToName = map[uint16]string{}
a.msgNameToIds = map[string]uint16{}
a.msgIDSeq = 1000
}
if a.binAPITypes == nil {
a.binAPITypes = map[string]reflect.Type{}
}
}
// SendMsg emulates sending a binary-encoded message to VPP.
func (a *VppAdapter) SendMsg(clientID uint32, data []byte) error {
switch a.mode {
case useReplyHandlers:
a.initMaps()
for i := len(a.replyHandlers) - 1; i >= 0; i-- {
replyHandler := a.replyHandlers[i]
buf := bytes.NewReader(data)
reqHeader := core.VppRequestHeader{}
struc.Unpack(buf, &reqHeader)
a.access.Lock()
reqMsgName := a.msgIDsToName[reqHeader.VlMsgID]
a.access.Unlock()
reply, msgID, finished := replyHandler(MessageDTO{
MsgID: reqHeader.VlMsgID,
MsgName: reqMsgName,
ClientID: clientID,
Data: data,
})
if finished {
a.callback(clientID, msgID, reply)
return nil
}
}
fallthrough
case useRepliesQueue:
a.repliesLock.Lock()
defer a.repliesLock.Unlock()
// pop the first reply
if len(a.replies) > 0 {
reply := a.replies[0]
for _, msg := range reply.msgs {
msgID, _ := a.GetMsgID(msg.Msg.GetMessageName(), msg.Msg.GetCrcString())
buf := new(bytes.Buffer)
context := clientID
if msg.hasCtx {
context = setMultipart(context, msg.Multipart)
context = setSeqNum(context, msg.SeqNum)
}
if msg.Msg.GetMessageType() == api.ReplyMessage {
struc.Pack(buf, &core.VppReplyHeader{VlMsgID: msgID, Context: context})
} else if msg.Msg.GetMessageType() == api.EventMessage {
struc.Pack(buf, &core.VppEventHeader{VlMsgID: msgID, Context: context})
} else if msg.Msg.GetMessageType() == api.RequestMessage {
struc.Pack(buf, &core.VppRequestHeader{VlMsgID: msgID, Context: context})
} else {
struc.Pack(buf, &core.VppOtherHeader{VlMsgID: msgID})
}
struc.Pack(buf, msg.Msg)
a.callback(context, msgID, buf.Bytes())
}
a.replies = a.replies[1:]
if len(a.replies) == 0 && len(a.replyHandlers) > 0 {
// Switch back to handlers once the queue is empty to revert back
// the fallthrough effect.
a.mode = useReplyHandlers
}
return nil
}
//fallthrough
default:
// return default reply
buf := new(bytes.Buffer)
msgID := uint16(defaultReplyMsgID)
struc.Pack(buf, &core.VppReplyHeader{VlMsgID: msgID, Context: clientID})
struc.Pack(buf, &defaultReply{})
a.callback(clientID, msgID, buf.Bytes())
}
return nil
}
// SetMsgCallback sets a callback function that will be called by the adapter whenever a message comes from the mock.
func (a *VppAdapter) SetMsgCallback(cb func(context uint32, msgID uint16, data []byte)) {
a.callback = cb
}
// WaitReady mocks waiting for VPP
func (a *VppAdapter) WaitReady() error {
return nil
}
// MockReply stores a message or a list of multipart messages to be returned when
// the next request comes. It is a FIFO queue - multiple replies can be pushed into it,
// the first message or the first set of multi-part messages will be popped when
// some request comes.
// Using of this method automatically switches the mock into the useRepliesQueue mode.
//
// Note: multipart requests are implemented using two requests actually - the multipart
// request itself followed by control ping used to tell which multipart message
// is the last one. A mock reply to a multipart request has to thus consist of
// exactly two calls of this method.
// For example:
//
// mockVpp.MockReply( // push multipart messages all at once
// &interfaces.SwInterfaceDetails{SwIfIndex:1},
// &interfaces.SwInterfaceDetails{SwIfIndex:2},
// &interfaces.SwInterfaceDetails{SwIfIndex:3},
// )
// mockVpp.MockReply(&vpe.ControlPingReply{})
//
// Even if the multipart request has no replies, MockReply has to be called twice:
//
// mockVpp.MockReply() // zero multipart messages
// mockVpp.MockReply(&vpe.ControlPingReply{})
func (a *VppAdapter) MockReply(msgs ...api.Message) {
a.repliesLock.Lock()
defer a.repliesLock.Unlock()
r := reply{}
for _, msg := range msgs {
r.msgs = append(r.msgs, MsgWithContext{Msg: msg, hasCtx: false})
}
a.replies = append(a.replies, r)
a.mode = useRepliesQueue
}
// MockReplyWithContext queues next reply like MockReply() does, except that the
// sequence number and multipart flag (= context minus channel ID) can be customized
// and not necessarily match with the request.
// The purpose of this function is to test handling of sequence numbers and as such
// it is not really meant to be used outside the govpp UTs.
func (a *VppAdapter) MockReplyWithContext(msgs ...MsgWithContext) {
a.repliesLock.Lock()
defer a.repliesLock.Unlock()
r := reply{}
for _, msg := range msgs {
r.msgs = append(r.msgs,
MsgWithContext{Msg: msg.Msg, SeqNum: msg.SeqNum, Multipart: msg.Multipart, hasCtx: true})
}
a.replies = append(a.replies, r)
a.mode = useRepliesQueue
}
// MockReplyHandler registers a handler function that is supposed to generate mock responses to incoming requests.
// Using of this method automatically switches the mock into th useReplyHandlers mode.
func (a *VppAdapter) MockReplyHandler(replyHandler ReplyHandler) {
a.repliesLock.Lock()
defer a.repliesLock.Unlock()
a.replyHandlers = append(a.replyHandlers, replyHandler)
a.mode = useReplyHandlers
}
func setSeqNum(context uint32, seqNum uint16) (newContext uint32) {
context &= 0xffff0000
context |= uint32(seqNum)
return context
}
func setMultipart(context uint32, isMultipart bool) (newContext uint32) {
context &= 0xfffeffff
if isMultipart {
context |= 1 << 16
}
return context
}
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