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#
# Copyright 2017 Ettus Research, a National Instruments Company
#
# SPDX-License-Identifier: GPL-3.0-or-later
#
"""
Code to run the discovery port
"""

from __future__ import print_function
from multiprocessing import Process
import socket
from builtins import bytes
from usrp_mpm.mpmtypes import MPM_DISCOVERY_PORT
from usrp_mpm.mpmlog import get_main_logger
from usrp_mpm.mpmutils import to_binary_str

RESPONSE_PREAMBLE = b"USRP-MPM"
RESPONSE_SEP = b";"
RESPONSE_CLAIMED_KEY = b"claimed"
# "Max MTU" is not a redundant name. We don't know the total path MTU, but we
# can say for sure that it won't exceed a certain value, and that's the max MTU
MAX_MTU = 8000
# For setsockopt
IP_MTU_DISCOVER = 10
IP_PMTUDISC_DO = 2

def spawn_discovery_process(shared_state, discovery_addr):
    """
    Returns a process that contains the device discovery.

    Arguments:
    device_info -- A dictionary of type string -> string. All of these items
                   will be included in the response string.
    shared_state -- Shared state of device (is it claimed, etc.). Is a
                    SharedState() object.
    discovery_addr -- Discovery will listen on this address(es)
    """
    proc = Process(
        target=_discovery_process,
        args=(shared_state, discovery_addr)
    )
    proc.start()
    return proc


def _discovery_process(state, discovery_addr):
    """
    The actual process for device discovery. Is spawned by
    spawn_discovery_process().
    """
    log = get_main_logger().getChild('discovery')
    def create_response_string(state):
        " Generate the string that gets sent back to the requester. "
        return RESPONSE_SEP.join(
            [RESPONSE_PREAMBLE] + \
            [b"type="+state.dev_type.value] + \
            [b"product="+state.dev_product.value] + \
            [b"serial="+state.dev_serial.value] + \
            [RESPONSE_CLAIMED_KEY+to_binary_str("={}".format(state.claim_status.value))]
        )

    sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
    # FIXME really, we should only bind to the subnet but I haven't gotten that
    # working yet
    sock.bind((("0.0.0.0", MPM_DISCOVERY_PORT)))
    send_sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
    send_sock.setsockopt(socket.IPPROTO_IP, IP_MTU_DISCOVER, IP_PMTUDISC_DO)

    # TODO yeah I know that's not how you do this
    discovery_addr_prefix = discovery_addr.replace('.255', '')
    if discovery_addr == '0.0.0.0':
        discovery_addr_prefix = ''

    try:
        while True:
            data, sender = sock.recvfrom(MAX_MTU)
            log.debug("Got poked by: %s", sender[0])
            # TODO this is still part of the awful subnet identification
            if not sender[0].startswith(discovery_addr_prefix):
                continue
            if data.strip(b"\0") == b"MPM-DISC":
                log.debug("Sending discovery response to %s port: %d",
                          sender[0], sender[1])
                resp_str = create_response_string(state)
                send_data = resp_str
                log.trace("Return data: %s", send_data)
                send_sock.sendto(send_data, sender)
            elif data.strip(b"\0").startswith(b"MPM-ECHO"):
                log.debug("Received echo request from {sender}"
                          .format(sender=sender[0]))
                send_data = data
                try:
                    send_sock.sendto(send_data, sender)
                except OSError as ex:
                    log.warning("ECHO send error: %s", str(ex))
    except Exception as err:
        log.error("Unexpected error: `%s' Type: `%s'", str(err), type(err))
        sock.close()
        send_sock.close()
        exit(1)