eric6/Cooperation/Connection.py

Mon, 15 Apr 2019 19:53:29 +0200

author
Detlev Offenbach <detlev@die-offenbachs.de>
date
Mon, 15 Apr 2019 19:53:29 +0200
branch
setup.py
changeset 6949
a5255f1ba3f0
parent 6942
2602857055c5
child 7192
a22eee00b052
permissions
-rw-r--r--

setup.py: continued implementing support for setup.py.

# -*- coding: utf-8 -*-

# Copyright (c) 2010 - 2019 Detlev Offenbach <detlev@die-offenbachs.de>
#

"""
Module implementing a class representing a peer connection.
"""

from __future__ import unicode_literals
try:
    str = unicode
except NameError:
    pass

from PyQt5.QtCore import pyqtSignal, QTimer, QTime, QByteArray
from PyQt5.QtNetwork import QTcpSocket, QHostInfo

from E5Gui import E5MessageBox
from E5Gui.E5Application import e5App

import Preferences

MaxBufferSize = 1024 * 1024
TransferTimeout = 30 * 1000
PongTimeout = 60 * 1000
PingInterval = 5 * 1000
SeparatorToken = '|||'
SeparatorToken_b = b'|||'


class Connection(QTcpSocket):
    """
    Class representing a peer connection.
    
    @signal readyForUse() emitted when the connection is ready for use
    @signal newMessage(user, message) emitted after a new message has
        arrived (string, string)
    @signal getParticipants() emitted after a get participants message has
        arrived
    @signal participants(participants) emitted after the list of participants
        has arrived (list of strings of "host:port")
    @signal editorCommand(hash, fn, message) emitted after an editor command
        has arrived (string, string, string)
    @signal rejected(message) emitted after a connection has been rejected
        (string)
    """
    WaitingForGreeting = 0
    ReadingGreeting = 1
    ReadyForUse = 2
    
    PlainText = 0
    Ping = 1
    Pong = 2
    Greeting = 3
    GetParticipants = 4
    Participants = 5
    Editor = 6
    Undefined = 99
    
    ProtocolMessage = "MESSAGE"
    ProtocolPing = "PING"
    ProtocolPong = "PONG"
    ProtocolGreeting = "GREETING"
    ProtocolGetParticipants = "GET_PARTICIPANTS"
    ProtocolParticipants = "PARTICIPANTS"
    ProtocolEditor = "EDITOR"
    
    readyForUse = pyqtSignal()
    newMessage = pyqtSignal(str, str)
    getParticipants = pyqtSignal()
    participants = pyqtSignal(list)
    editorCommand = pyqtSignal(str, str, str)
    rejected = pyqtSignal(str)
    
    def __init__(self, parent=None):
        """
        Constructor
        
        @param parent referenec to the parent object (QObject)
        """
        super(Connection, self).__init__(parent)
        
        self.__greetingMessage = self.tr("undefined")
        self.__username = self.tr("unknown")
        self.__serverPort = 0
        self.__state = Connection.WaitingForGreeting
        self.__currentDataType = Connection.Undefined
        self.__numBytesForCurrentDataType = -1
        self.__transferTimerId = 0
        self.__isGreetingMessageSent = False
        self.__pingTimer = QTimer(self)
        self.__pingTimer.setInterval(PingInterval)
        self.__pongTime = QTime()
        self.__buffer = QByteArray()
        self.__client = None
        
        self.readyRead.connect(self.__processReadyRead)
        self.disconnected.connect(self.__disconnected)
        self.__pingTimer.timeout.connect(self.__sendPing)
        self.connected.connect(self.__sendGreetingMessage)
    
    def name(self):
        """
        Public method to get the connection name.
        
        @return connection name (string)
        """
        return self.__username
    
    def serverPort(self):
        """
        Public method to get the server port.
        
        @return server port (integer)
        """
        return self.__serverPort
    
    def setClient(self, client):
        """
        Public method to set the reference to the cooperation client.
        
        @param client reference to the cooperation client (CooperationClient)
        """
        self.__client = client
    
    def setGreetingMessage(self, message, serverPort):
        """
        Public method to set the greeting message.
        
        @param message greeting message (string)
        @param serverPort port number to include in the message (integer)
        """
        self.__greetingMessage = "{0}:{1}".format(message, serverPort)
    
    def sendMessage(self, message):
        """
        Public method to send a message.
        
        @param message message to be sent (string)
        @return flag indicating a successful send (boolean)
        """
        if message == "":
            return False
        
        msg = QByteArray(message.encode("utf-8"))
        data = QByteArray("{0}{1}{2}{1}".format(
            Connection.ProtocolMessage, SeparatorToken, msg.size())
            .encode("utf-8")) + msg
        return self.write(data) == data.size()
    
    def timerEvent(self, evt):
        """
        Protected method to handle timer events.
        
        @param evt reference to the timer event (QTimerEvent)
        """
        if evt.timerId() == self.__transferTimerId:
            self.abort()
            self.killTimer(self.__transferTimerId)
            self.__transferTimerId = 0
    
    def __processReadyRead(self):
        """
        Private slot to handle the readyRead signal.
        """
        if self.__state == Connection.WaitingForGreeting:
            if not self.__readProtocolHeader():
                return
            if self.__currentDataType != Connection.Greeting:
                self.abort()
                return
            self.__state = Connection.ReadingGreeting
        
        if self.__state == Connection.ReadingGreeting:
            if not self.__hasEnoughData():
                return
            
            self.__buffer = QByteArray(
                self.read(self.__numBytesForCurrentDataType))
            if self.__buffer.size() != self.__numBytesForCurrentDataType:
                self.abort()
                return
            
            try:
                user, serverPort = \
                    str(self.__buffer, encoding="utf-8").split(":")
            except ValueError:
                self.abort()
                return
            self.__serverPort = int(serverPort)
            
            hostInfo = QHostInfo.fromName(self.peerAddress().toString())
            self.__username = "{0}@{1}@{2}".format(
                user,
                hostInfo.hostName(),
                self.peerPort()
            )
            self.__currentDataType = Connection.Undefined
            self.__numBytesForCurrentDataType = 0
            self.__buffer.clear()
            
            if not self.isValid():
                self.abort()
                return
            
            bannedName = "{0}@{1}".format(
                user,
                hostInfo.hostName(),
            )
            Preferences.syncPreferences()
            if bannedName in Preferences.getCooperation("BannedUsers"):
                self.rejected.emit(self.tr(
                    "* Connection attempted by banned user '{0}'.")
                    .format(bannedName))
                self.abort()
                return
            
            if self.__serverPort != self.peerPort() and \
               not Preferences.getCooperation("AutoAcceptConnections"):
                # don't ask for reverse connections or
                # if we shall accept automatically
                res = E5MessageBox.yesNo(
                    None,
                    self.tr("New Connection"),
                    self.tr("""<p>Accept connection from """
                            """<strong>{0}@{1}</strong>?</p>""").format(
                        user, hostInfo.hostName()),
                    yesDefault=True)
                if not res:
                    self.abort()
                    return

            if self.__client is not None:
                chatWidget = self.__client.chatWidget()
                if chatWidget is not None and not chatWidget.isVisible():
                    e5App().getObject(
                        "UserInterface").activateCooperationViewer()
            
            if not self.__isGreetingMessageSent:
                self.__sendGreetingMessage()
            
            self.__pingTimer.start()
            self.__pongTime.start()
            self.__state = Connection.ReadyForUse
            self.readyForUse.emit()
        
        while self.bytesAvailable():
            if self.__currentDataType == Connection.Undefined:
                if not self.__readProtocolHeader():
                    return
            
            if not self.__hasEnoughData():
                return
            
            self.__processData()
    
    def __sendPing(self):
        """
        Private slot to send a ping message.
        """
        if self.__pongTime.elapsed() > PongTimeout:
            self.abort()
            return
        
        self.write(QByteArray("{0}{1}1{1}p".format(
            Connection.ProtocolPing, SeparatorToken).encode("utf-8")))
    
    def __sendGreetingMessage(self):
        """
        Private slot to send a greeting message.
        """
        greeting = QByteArray(self.__greetingMessage.encode("utf-8"))
        data = QByteArray("{0}{1}{2}{1}".format(
            Connection.ProtocolGreeting, SeparatorToken, greeting.size())
            .encode("utf-8")) + greeting
        if self.write(data) == data.size():
            self.__isGreetingMessageSent = True
    
    def __readDataIntoBuffer(self, maxSize=MaxBufferSize):
        """
        Private method to read some data into the buffer.
        
        @param maxSize maximum size of data to read (integer)
        @return size of data read (integer)
        """
        if maxSize > MaxBufferSize:
            return 0
        
        numBytesBeforeRead = self.__buffer.size()
        if numBytesBeforeRead == MaxBufferSize:
            self.abort()
            return 0
        
        while self.bytesAvailable() and self.__buffer.size() < maxSize:
            self.__buffer.append(self.read(1))
            if self.__buffer.endsWith(SeparatorToken_b):
                break
        
        return self.__buffer.size() - numBytesBeforeRead
    
    def __dataLengthForCurrentDataType(self):
        """
        Private method to get the data length for the current data type.
        
        @return data length (integer)
        """
        if self.bytesAvailable() <= 0 or \
           self.__readDataIntoBuffer() <= 0 or \
           not self.__buffer.endsWith(SeparatorToken_b):
            return 0
        
        self.__buffer.chop(len(SeparatorToken_b))
        number = self.__buffer.toInt()[0]
        self.__buffer.clear()
        return number
    
    def __readProtocolHeader(self):
        """
        Private method to read the protocol header.
        
        @return flag indicating a successful read (boolean)
        """
        if self.__transferTimerId:
            self.killTimer(self.__transferTimerId)
            self.__transferTimerId = 0
        
        if self.__readDataIntoBuffer() <= 0:
            self.__transferTimerId = self.startTimer(TransferTimeout)
            return False
        
        self.__buffer.chop(len(SeparatorToken))
        protocolHeader = str(self.__buffer, encoding="utf-8")
        if protocolHeader == Connection.ProtocolPing:
            self.__currentDataType = Connection.Ping
        elif protocolHeader == Connection.ProtocolPong:
            self.__currentDataType = Connection.Pong
        elif protocolHeader == Connection.ProtocolMessage:
            self.__currentDataType = Connection.PlainText
        elif protocolHeader == Connection.ProtocolGreeting:
            self.__currentDataType = Connection.Greeting
        elif protocolHeader == Connection.ProtocolGetParticipants:
            self.__currentDataType = Connection.GetParticipants
        elif protocolHeader == Connection.ProtocolParticipants:
            self.__currentDataType = Connection.Participants
        elif protocolHeader == Connection.ProtocolEditor:
            self.__currentDataType = Connection.Editor
        else:
            self.__currentDataType = Connection.Undefined
            self.abort()
            return False
        
        self.__buffer.clear()
        self.__numBytesForCurrentDataType = \
            self.__dataLengthForCurrentDataType()
        return True
    
    def __hasEnoughData(self):
        """
        Private method to check, if enough data is available.
        
        @return flag indicating availability of enough data (boolean)
        """
        if self.__transferTimerId:
            self.killTimer(self.__transferTimerId)
            self.__transferTimerId = 0
        
        if self.__numBytesForCurrentDataType <= 0:
            self.__numBytesForCurrentDataType = \
                self.__dataLengthForCurrentDataType()
        
        if self.bytesAvailable() < self.__numBytesForCurrentDataType or \
           self.__numBytesForCurrentDataType <= 0:
            self.__transferTimerId = self.startTimer(TransferTimeout)
            return False
        
        return True
    
    def __processData(self):
        """
        Private method to process the received data.
        """
        self.__buffer = QByteArray(
            self.read(self.__numBytesForCurrentDataType))
        if self.__buffer.size() != self.__numBytesForCurrentDataType:
            self.abort()
            return
        
        if self.__currentDataType == Connection.PlainText:
            self.newMessage.emit(
                self.__username, str(self.__buffer, encoding="utf-8"))
        elif self.__currentDataType == Connection.Ping:
            self.write(QByteArray("{0}{1}1{1}p".format(
                Connection.ProtocolPong, SeparatorToken).encode("utf-8")))
        elif self.__currentDataType == Connection.Pong:
            self.__pongTime.restart()
        elif self.__currentDataType == Connection.GetParticipants:
            self.getParticipants.emit()
        elif self.__currentDataType == Connection.Participants:
            msg = str(self.__buffer, encoding="utf-8")
            if msg == "<empty>":
                participantsList = []
            else:
                participantsList = msg.split(SeparatorToken)
            self.participants.emit(participantsList[:])
        elif self.__currentDataType == Connection.Editor:
            hashStr, fn, msg = \
                str(self.__buffer, encoding="utf-8").split(SeparatorToken)
            self.editorCommand.emit(hashStr, fn, msg)
        
        self.__currentDataType = Connection.Undefined
        self.__numBytesForCurrentDataType = 0
        self.__buffer.clear()
    
    def sendGetParticipants(self):
        """
        Public method to request a list of participants.
        """
        self.write(QByteArray(
            "{0}{1}1{1}l".format(
                Connection.ProtocolGetParticipants, SeparatorToken
            ).encode("utf-8")
        ))
    
    def sendParticipants(self, participants):
        """
        Public method to send the list of participants.
        
        @param participants list of participants (list of strings of
            "host:port")
        """
        if participants:
            message = SeparatorToken.join(participants)
        else:
            message = "<empty>"
        msg = QByteArray(message.encode("utf-8"))
        data = QByteArray("{0}{1}{2}{1}".format(
            Connection.ProtocolParticipants, SeparatorToken, msg.size())
            .encode("utf-8")) + msg
        self.write(data)
    
    def sendEditorCommand(self, projectHash, filename, message):
        """
        Public method to send an editor command.
        
        @param projectHash hash of the project (string)
        @param filename project relative universal file name of
            the sending editor (string)
        @param message editor command to be sent (string)
        """
        msg = QByteArray("{0}{1}{2}{1}{3}".format(
            projectHash, SeparatorToken, filename, message).encode("utf-8"))
        data = QByteArray("{0}{1}{2}{1}".format(
            Connection.ProtocolEditor, SeparatorToken, msg.size())
            .encode("utf-8")) + msg
        self.write(data)
    
    def __disconnected(self):
        """
        Private slot to handle the connection being dropped.
        """
        self.__pingTimer.stop()
        if self.__state == Connection.WaitingForGreeting:
            self.rejected.emit(self.tr(
                "* Connection to {0}:{1} refused.").format(
                self.peerName(), self.peerPort()))

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