#!/usr/bin/env python
import sys
if sys.version_info[0] >= 3:
    import PySimpleGUI as sg
else:
    import PySimpleGUI27 as sg
import matplotlib.pyplot as plt
from matplotlib.backends.backend_tkagg import FigureCanvasAgg
import matplotlib.backends.tkagg as tkagg
import tkinter as tk


"""
A graph of time to ping Google.com
Demonstrates Matploylib used in an animated way.

Note this file contains a copy of ping.py. It is contained in the first part of this file

"""


"""
    A pure python ping implementation using raw sockets.

    (This is Python 3 port of https://github.com/jedie/python-ping)
    (Tested and working with python 2.7, should work with 2.6+)

    Note that ICMP messages can only be sent from processes running as root
    (in Windows, you must run this script as 'Administrator').

    Derived from ping.c distributed in Linux's netkit. That code is
    copyright (c) 1989 by The Regents of the University of California.
    That code is in turn derived from code written by Mike Muuss of the
    US Army Ballistic Research Laboratory in December, 1983 and
    placed in the public domain. They have my thanks.

    Bugs are naturally mine. I'd be glad to hear about them. There are
    certainly word - size dependencies here.

    Copyright (c) Matthew Dixon Cowles, <http://www.visi.com/~mdc/>.
    Distributable under the terms of the GNU General Public License
    version 2. Provided with no warranties of any sort.

    Original Version from Matthew Dixon Cowles:
      -> ftp://ftp.visi.com/users/mdc/ping.py

    Rewrite by Jens Diemer:
      -> http://www.python-forum.de/post-69122.html#69122

    Rewrite by George Notaras:
      -> http://www.g-loaded.eu/2009/10/30/python-ping/

    Enhancements by Martin Falatic:
      -> http://www.falatic.com/index.php/39/pinging-with-python

    Enhancements and fixes by Georgi Kolev:
      -> http://github.com/jedie/python-ping/

    Bug fix by Andrejs Rozitis:
      -> http://github.com/rozitis/python-ping/

    Revision history
    ~~~~~~~~~~~~~~~~
    May 1, 2014
    -----------
    Little modifications by Mohammad Emami <emamirazavi@gmail.com>
    - Added Python 3 support. For now this project will just support
      python 3.x
    - Tested with python 3.3
    - version was upped to 0.6

    March 19, 2013
    --------------
    * Fixing bug to prevent divide by 0 during run-time.

    January 26, 2012
    ----------------
    * Fixing BUG #4 - competability with python 2.x [tested with 2.7]
      - Packet data building is different for 2.x and 3.x.
        'cose of the string/bytes difference.
    * Fixing BUG #10 - the multiple resolv issue.
      - When pinging domain names insted of hosts (for exmaple google.com)
        you can get different IP every time you try to resolv it, we should
        resolv the host only once and stick to that IP.
    * Fixing BUGs #3 #10 - Doing hostname resolv only once.
    * Fixing BUG #14 - Removing all 'global' stuff.
        - You should not use globul! Its bad for you...and its not thread safe!
    * Fix - forcing the use of different times on linux/windows for
            more accurate mesurments. (time.time - linux/ time.clock - windows)
    * Adding quiet_ping function - This way we'll be able to use this script
        as external lib.
    * Changing default timeout to 3s. (1second is not enought)
    * Switching data syze to packet size. It's easyer for the user to ignore the
        fact that the packet headr is 8b and the datasize 64 will make packet with
        size 72.

    October 12, 2011
    --------------
    Merged updates from the main project
      -> https://github.com/jedie/python-ping

    September 12, 2011
    --------------
    Bugfixes + cleanup by Jens Diemer
    Tested with Ubuntu + Windows 7

    September 6, 2011
    --------------
    Cleanup by Martin Falatic. Restored lost comments and docs. Improved
    functionality: constant time between pings, internal times consistently
    use milliseconds. Clarified annotations (e.g., in the checksum routine).
    Using unsigned data in IP & ICMP header pack/unpack unless otherwise
    necessary. Signal handling. Ping-style output formatting and stats.

    August 3, 2011
    --------------
    Ported to py3k by Zach Ware. Mostly done by 2to3; also minor changes to
    deal with bytes vs. string changes (no more ord() in checksum() because
    >source_string< is actually bytes, added .encode() to data in
    send_one_ping()).  That's about it.

    March 11, 2010
    --------------
    changes by Samuel Stauffer:
    - replaced time.clock with default_timer which is set to
      time.clock on windows and time.time on other systems.

    November 8, 2009
    ----------------
    Improved compatibility with GNU/Linux systems.

    Fixes by:
     * George Notaras -- http://www.g-loaded.eu
    Reported by:
     * Chris Hallman -- http://cdhallman.blogspot.com

    Changes in this release:
     - Re-use time.time() instead of time.clock(). The 2007 implementation
       worked only under Microsoft Windows. Failed on GNU/Linux.
       time.clock() behaves differently under the two OSes[1].

    [1] http://docs.python.org/library/time.html#time.clock

    May 30, 2007
    ------------
    little rewrite by Jens Diemer:
     -  change socket asterisk import to a normal import
     -  replace time.time() with time.clock()
     -  delete "return None" (or change to "return" only)
     -  in checksum() rename "str" to "source_string"

    December 4, 2000
    ----------------
    Changed the struct.pack() calls to pack the checksum and ID as
    unsigned. My thanks to Jerome Poincheval for the fix.

    November 22, 1997
    -----------------
    Initial hack. Doesn't do much, but rather than try to guess
    what features I (or others) will want in the future, I've only
    put in what I need now.

    December 16, 1997
    -----------------
    For some reason, the checksum bytes are in the wrong order when
    this is run under Solaris 2.X for SPARC but it works right under
    Linux x86. Since I don't know just what's wrong, I'll swap the
    bytes always and then do an htons().

    ===========================================================================
    IP header info from RFC791
      -> http://tools.ietf.org/html/rfc791)

    0                   1                   2                   3
    0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    |Version|  IHL  |Type of Service|          Total Length         |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    |         Identification        |Flags|      Fragment Offset    |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    |  Time to Live |    Protocol   |         Header Checksum       |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    |                       Source Address                          |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    |                    Destination Address                        |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    |                    Options                    |    Padding    |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

    ===========================================================================
    ICMP Echo / Echo Reply Message header info from RFC792
      -> http://tools.ietf.org/html/rfc792

        0                   1                   2                   3
        0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
        +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
        |     Type      |     Code      |          Checksum             |
        +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
        |           Identifier          |        Sequence Number        |
        +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
        |     Data ...
        +-+-+-+-+-

    ===========================================================================
    ICMP parameter info:
      -> http://www.iana.org/assignments/icmp-parameters/icmp-parameters.xml

    ===========================================================================
    An example of ping's typical output:

    PING heise.de (193.99.144.80): 56 data bytes
    64 bytes from 193.99.144.80: icmp_seq=0 ttl=240 time=127 ms
    64 bytes from 193.99.144.80: icmp_seq=1 ttl=240 time=127 ms
    64 bytes from 193.99.144.80: icmp_seq=2 ttl=240 time=126 ms
    64 bytes from 193.99.144.80: icmp_seq=3 ttl=240 time=126 ms
    64 bytes from 193.99.144.80: icmp_seq=4 ttl=240 time=127 ms

    ----heise.de PING Statistics----
    5 packets transmitted, 5 packets received, 0.0% packet loss
    round-trip (ms)  min/avg/max/med = 126/127/127/127

    ===========================================================================
"""

# =============================================================================#
import argparse
import os, sys, socket, struct, select, time, signal

__description__ = 'A pure python ICMP ping implementation using raw sockets.'

if sys.platform == "win32":
    # On Windows, the best timer is time.clock()
    default_timer = time.clock
else:
    # On most other platforms the best timer is time.time()
    default_timer = time.time

NUM_PACKETS = 3
PACKET_SIZE = 64
WAIT_TIMEOUT = 3.0

# =============================================================================#
# ICMP parameters

ICMP_ECHOREPLY = 0  # Echo reply (per RFC792)
ICMP_ECHO = 8  # Echo request (per RFC792)
ICMP_MAX_RECV = 2048  # Max size of incoming buffer

MAX_SLEEP = 1000


class MyStats:
    thisIP = "0.0.0.0"
    pktsSent = 0
    pktsRcvd = 0
    minTime = 999999999
    maxTime = 0
    totTime = 0
    avrgTime = 0
    fracLoss = 1.0


myStats = MyStats  # NOT Used globally anymore.


# =============================================================================#
def checksum(source_string):
    """
    A port of the functionality of in_cksum() from ping.c
    Ideally this would act on the string as a series of 16-bit ints (host
    packed), but this works.
    Network data is big-endian, hosts are typically little-endian
    """
    countTo = (int(len(source_string) / 2)) * 2
    sum = 0
    count = 0

    # Handle bytes in pairs (decoding as short ints)
    loByte = 0
    hiByte = 0
    while count < countTo:
        if (sys.byteorder == "little"):
            loByte = source_string[count]
            hiByte = source_string[count + 1]
        else:
            loByte = source_string[count + 1]
            hiByte = source_string[count]
        try:  # For Python3
            sum = sum + (hiByte * 256 + loByte)
        except:  # For Python2
            sum = sum + (ord(hiByte) * 256 + ord(loByte))
        count += 2

    # Handle last byte if applicable (odd-number of bytes)
    # Endianness should be irrelevant in this case
    if countTo < len(source_string):  # Check for odd length
        loByte = source_string[len(source_string) - 1]
        try:  # For Python3
            sum += loByte
        except:  # For Python2
            sum += ord(loByte)

    sum &= 0xffffffff  # Truncate sum to 32 bits (a variance from ping.c, which
    # uses signed ints, but overflow is unlikely in ping)

    sum = (sum >> 16) + (sum & 0xffff)  # Add high 16 bits to low 16 bits
    sum += (sum >> 16)  # Add carry from above (if any)
    answer = ~sum & 0xffff  # Invert and truncate to 16 bits
    answer = socket.htons(answer)

    return answer


# =============================================================================#
def do_one(myStats, destIP, hostname, timeout, mySeqNumber, packet_size, quiet=False):
    """
    Returns either the delay (in ms) or None on timeout.
    """
    delay = None

    try:  # One could use UDP here, but it's obscure
        mySocket = socket.socket(socket.AF_INET, socket.SOCK_RAW, socket.getprotobyname("icmp"))
    except socket.error as e:
        print("failed. (socket error: '%s')" % e.args[1])
        raise  # raise the original error

    my_ID = os.getpid() & 0xFFFF

    sentTime = send_one_ping(mySocket, destIP, my_ID, mySeqNumber, packet_size)
    if sentTime == None:
        mySocket.close()
        return delay

    myStats.pktsSent += 1

    recvTime, dataSize, iphSrcIP, icmpSeqNumber, iphTTL = receive_one_ping(mySocket, my_ID, timeout)

    mySocket.close()

    if recvTime:
        delay = (recvTime - sentTime) * 1000
        if not quiet:
            print("%d bytes from %s: icmp_seq=%d ttl=%d time=%d ms" % (
                dataSize, socket.inet_ntoa(struct.pack("!I", iphSrcIP)), icmpSeqNumber, iphTTL, delay)
                  )
        myStats.pktsRcvd += 1
        myStats.totTime += delay
        if myStats.minTime > delay:
            myStats.minTime = delay
        if myStats.maxTime < delay:
            myStats.maxTime = delay
    else:
        delay = None
        print("Request timed out.")

    return delay


# =============================================================================#
def send_one_ping(mySocket, destIP, myID, mySeqNumber, packet_size):
    """
    Send one ping to the given >destIP<.
    """
    # destIP  =  socket.gethostbyname(destIP)

    # Header is type (8), code (8), checksum (16), id (16), sequence (16)
    # (packet_size - 8) - Remove header size from packet size
    myChecksum = 0

    # Make a dummy heder with a 0 checksum.
    header = struct.pack(
        "!BBHHH", ICMP_ECHO, 0, myChecksum, myID, mySeqNumber
    )

    padBytes = []
    startVal = 0x42
    # 'cose of the string/byte changes in python 2/3 we have
    # to build the data differnely for different version
    # or it will make packets with unexpected size.
    if sys.version[:1] == '2':
        bytes = struct.calcsize("d")
        data = ((packet_size - 8) - bytes) * "Q"
        data = struct.pack("d", default_timer()) + data
    else:
        for i in range(startVal, startVal + (packet_size - 8)):
            padBytes += [(i & 0xff)]  # Keep chars in the 0-255 range
        # data = bytes(padBytes)
        data = bytearray(padBytes)

    # Calculate the checksum on the data and the dummy header.
    myChecksum = checksum(header + data)  # Checksum is in network order

    # Now that we have the right checksum, we put that in. It's just easier
    # to make up a new header than to stuff it into the dummy.
    header = struct.pack(
        "!BBHHH", ICMP_ECHO, 0, myChecksum, myID, mySeqNumber
    )

    packet = header + data

    sendTime = default_timer()

    try:
        mySocket.sendto(packet, (destIP, 1))  # Port number is irrelevant for ICMP
    except socket.error as e:
        print("General failure (%s)" % (e.args[1]))
        return

    return sendTime


# =============================================================================#
def receive_one_ping(mySocket, myID, timeout):
    """
    Receive the ping from the socket. Timeout = in ms
    """
    timeLeft = timeout / 1000

    while True:  # Loop while waiting for packet or timeout
        startedSelect = default_timer()
        whatReady = select.select([mySocket], [], [], timeLeft)
        howLongInSelect = (default_timer() - startedSelect)
        if whatReady[0] == []:  # Timeout
            return None, 0, 0, 0, 0

        timeReceived = default_timer()

        recPacket, addr = mySocket.recvfrom(ICMP_MAX_RECV)

        ipHeader = recPacket[:20]
        iphVersion, iphTypeOfSvc, iphLength, \
        iphID, iphFlags, iphTTL, iphProtocol, \
        iphChecksum, iphSrcIP, iphDestIP = struct.unpack(
            "!BBHHHBBHII", ipHeader
        )

        icmpHeader = recPacket[20:28]
        icmpType, icmpCode, icmpChecksum, \
        icmpPacketID, icmpSeqNumber = struct.unpack(
            "!BBHHH", icmpHeader
        )

        if icmpPacketID == myID:  # Our packet
            dataSize = len(recPacket) - 28
            # print (len(recPacket.encode()))
            return timeReceived, (dataSize + 8), iphSrcIP, icmpSeqNumber, iphTTL

        timeLeft = timeLeft - howLongInSelect
        if timeLeft <= 0:
            return None, 0, 0, 0, 0


# =============================================================================#
def dump_stats(myStats):
    """
    Show stats when pings are done
    """
    print("\n----%s PYTHON PING Statistics----" % (myStats.thisIP))

    if myStats.pktsSent > 0:
        myStats.fracLoss = (myStats.pktsSent - myStats.pktsRcvd) / myStats.pktsSent

    print("%d packets transmitted, %d packets received, %0.1f%% packet loss" % (
        myStats.pktsSent, myStats.pktsRcvd, 100.0 * myStats.fracLoss
    ))

    if myStats.pktsRcvd > 0:
        print("round-trip (ms)  min/avg/max = %d/%0.1f/%d" % (
            myStats.minTime, myStats.totTime / myStats.pktsRcvd, myStats.maxTime
        ))

    print("")
    return


# =============================================================================#
def signal_handler(signum, frame):
    """
    Handle exit via signals
    """
    dump_stats()
    print("\n(Terminated with signal %d)\n" % (signum))
    sys.exit(0)


# =============================================================================#
def verbose_ping(hostname, timeout=WAIT_TIMEOUT, count=NUM_PACKETS,
                 packet_size=PACKET_SIZE, path_finder=False):
    """
    Send >count< ping to >destIP< with the given >timeout< and display
    the result.
    """
    signal.signal(signal.SIGINT, signal_handler)  # Handle Ctrl-C
    if hasattr(signal, "SIGBREAK"):
        # Handle Ctrl-Break e.g. under Windows
        signal.signal(signal.SIGBREAK, signal_handler)

    myStats = MyStats()  # Reset the stats

    mySeqNumber = 0  # Starting value

    try:
        destIP = socket.gethostbyname(hostname)
        print("\nPYTHON PING %s (%s): %d data bytes" % (hostname, destIP, packet_size))
    except socket.gaierror as e:
        print("\nPYTHON PING: Unknown host: %s (%s)" % (hostname, e.args[1]))
        print()
        return

    myStats.thisIP = destIP

    for i in range(count):
        delay = do_one(myStats, destIP, hostname, timeout, mySeqNumber, packet_size)

        if delay == None:
            delay = 0

        mySeqNumber += 1

        # Pause for the remainder of the MAX_SLEEP period (if applicable)
        if (MAX_SLEEP > delay):
            time.sleep((MAX_SLEEP - delay) / 1000)

    dump_stats(myStats)

#=============================================================================#
def quiet_ping(hostname, timeout=WAIT_TIMEOUT, count=NUM_PACKETS,
               packet_size=PACKET_SIZE, path_finder=False):
    """
    Same as verbose_ping, but the results are returned as tuple
    """
    myStats = MyStats() # Reset the stats
    mySeqNumber = 0 # Starting value

    try:
        destIP = socket.gethostbyname(hostname)
    except socket.gaierror as e:
        return 0,0,0,0

    myStats.thisIP = destIP

    # This will send packet that we dont care about 0.5 seconds before it starts
    # acrutally pinging. This is needed in big MAN/LAN networks where you sometimes
    # loose the first packet. (while the switches find the way... :/ )
    if path_finder:
        fakeStats = MyStats()
        do_one(fakeStats, destIP, hostname, timeout,
                        mySeqNumber, packet_size, quiet=True)
        time.sleep(0.5)

    for i in range(count):
        delay = do_one(myStats, destIP, hostname, timeout,
                        mySeqNumber, packet_size, quiet=True)

        if delay == None:
            delay = 0

        mySeqNumber += 1

        # Pause for the remainder of the MAX_SLEEP period (if applicable)
        if (MAX_SLEEP > delay):
            time.sleep((MAX_SLEEP - delay)/1000)

    if myStats.pktsSent > 0:
        myStats.fracLoss = (myStats.pktsSent - myStats.pktsRcvd)/myStats.pktsSent
    if myStats.pktsRcvd > 0:
        myStats.avrgTime = myStats.totTime / myStats.pktsRcvd

    # return tuple(max_rtt, min_rtt, avrg_rtt, percent_lost)
    return myStats.maxTime, myStats.minTime, myStats.avrgTime, myStats.fracLoss

# =============================================================================#



#================================================================================
#   Globals
#       These are needed because callback functions are used.
#       Need to retain state across calls
#================================================================================
SIZE=(320,240)

class MyGlobals:
    axis_pings = None
    ping_x_array = []
    ping_y_array = []

g_my_globals = MyGlobals()

#================================================================================
#       Performs *** PING! ***
#================================================================================
def run_a_ping_and_graph():
    global g_my_globals                 # graphs are global so that can be retained across multiple calls to this callback

    #===================== Do the ping =====================#
    response = quiet_ping('google.com',timeout=1000)
    if response[0] == 0:
        ping_time = 1000
    else:
        ping_time = response[0]
    #===================== Store current ping in historical array =====================#
    g_my_globals.ping_x_array.append(len(g_my_globals.ping_x_array))
    g_my_globals.ping_y_array.append(ping_time)
    # ===================== Only graph last 100 items =====================#
    if len(g_my_globals.ping_x_array) > 100:
        x_array = g_my_globals.ping_x_array[-100:]
        y_array = g_my_globals.ping_y_array[-100:]
    else:
        x_array = g_my_globals.ping_x_array
        y_array = g_my_globals.ping_y_array

    # ===================== Call graphinc functions =====================#
    g_my_globals.axis_ping.clear()              # clear before graphing
    set_chart_labels()
    g_my_globals.axis_ping.plot(x_array,y_array)  # graph the ping values

#================================================================================
#   Function:   Set graph titles and Axis labels
#       Sets the text for the subplots
#       Have to do this in 2 places... initially when creating and when updating
#       So, putting into a function so don't have to duplicate code
#================================================================================
def set_chart_labels():
    global g_my_globals

    g_my_globals.axis_ping.set_xlabel('Time', fontsize=8)
    g_my_globals.axis_ping.set_ylabel('Ping (ms)', fontsize=8)
    g_my_globals.axis_ping.set_title('Current Ping Duration', fontsize = 8)

def draw(fig, canvas):
    # Magic code that draws the figure onto the Canvas Element's canvas
    figure_x, figure_y, figure_w, figure_h = fig.bbox.bounds
    figure_w, figure_h = int(figure_w), int(figure_h)
    photo = tk.PhotoImage(master=canvas, width=figure_w, height=figure_h)
    canvas.create_image(SIZE[0] / 2, SIZE[1] / 2, image=photo)
    figure_canvas_agg = FigureCanvasAgg(fig)
    figure_canvas_agg.draw()
    tkagg.blit(photo, figure_canvas_agg.get_renderer()._renderer, colormode=2)
    return photo

#================================================================================
#   Function:   MAIN
#================================================================================
def main():
    global g_my_globals

    # define the form layout
    layout = [[ sg.Canvas(size=SIZE, background_color='white',key='canvas') , sg.Button('Exit', pad=(0, (210, 0)))]]

    # create the form and show it without the plot
    window = sg.Window('Ping Graph', background_color='white', grab_anywhere=True).Layout(layout).Finalize()

    canvas_elem = window.FindElement('canvas')
    canvas = canvas_elem.TKCanvas

    fig = plt.figure(figsize=(3.1, 2.25), tight_layout={'pad':0})
    g_my_globals.axis_ping = fig.add_subplot(1,1,1)
    plt.rcParams['xtick.labelsize'] = 8
    plt.rcParams['ytick.labelsize'] = 8
    set_chart_labels()
    plt.tight_layout()

    while True:
        event, values = window.Read(timeout=0)
        if event in ('Exit', None):
            exit(0)

        run_a_ping_and_graph()
        photo = draw(fig, canvas)


if __name__ == '__main__':
    main()