#!python

import argparse
import os
import re
import sys
import ipaddress

from natsort import natsorted
from tabulate import tabulate
from utilities_common import multi_asic as multi_asic_util
from swsscommon import swsscommon

# mock the redis for unit test purposes #
try:
    if os.environ["UTILITIES_UNIT_TESTING"] == "1":
        modules_path = os.path.join(os.path.dirname(__file__), "..")
        tests_path = os.path.join(modules_path, "tests")
        sys.path.insert(0, modules_path)
        sys.path.insert(0, tests_path)
        import mock_tables.dbconnector
        if os.environ["UTILITIES_UNIT_TESTING_TOPOLOGY"] == "multi_asic":
            import mock_tables.mock_multi_asic
            mock_tables.dbconnector.load_namespace_config()
        else:
            mock_tables.dbconnector.load_database_config()

except KeyError:
    pass


# ========================== Common VOQ util logic ==========================

SYSTEM_PORT_TABLE_PREFIX = swsscommon.APP_SYSTEM_PORT_TABLE_NAME + ":"
SYSTEM_STATE_PORT_TABLE_PREFIX = swsscommon.STATE_PORT_TABLE_NAME + "|"
SYSTEM_PORT_ID = "system_port_id"
SYSTEM_PORT_CORE = "core_index"
SYSTEM_PORT_CORE_PORT = "core_port_index"
SYSTEM_PORT_SPEED = "speed"
SYSTEM_PORT_SWITCH_ID = "switch_id"
SYSTEM_PORT_OPER_STATUS = "oper_status"

SYSTEM_NEIGH_TABLE_PREFIX = swsscommon.CHASSIS_APP_SYSTEM_NEIGH_TABLE_NAME + "|"
SYSTEM_NEIGH_MAC = "neigh"
SYSTEM_NEIGH_ENCAP_INDEX = "encap_index"

SYSTEM_LAG_TABLE_PREFIX = swsscommon.CHASSIS_APP_LAG_TABLE_NAME + "|"
SYSTEM_LAG_MEMBER_TABLE_PREFIX = swsscommon.CHASSIS_APP_LAG_MEMBER_TABLE_NAME + "|"
SYSTEM_LAG_ID = "lag_id"
SYSTEM_LAG_SWITCH_ID = "switch_id"

def parse_systemintf_in_filter(intf_filter):
    intf_fs = []

    if intf_filter is None:
        return intf_fs

    fs = intf_filter.split(',')
    for x in fs:
        intf_fs.append(x.strip())

    return intf_fs

def is_ipv4_address(ip_address):
    """
    Checks if given ip is ipv4
    :param ip_address: str ipv4
    :return: bool
    """
    try:
        ipaddress.IPv4Address(ip_address)
        return True
    except ipaddress.AddressValueError as err:
        return False


def is_ipv6_address(ip_address):
    """
    Checks if given ip is ipv6
    :param ip_address: str ipv6
    :return: bool
    """
    try:
        ipaddress.IPv6Address(ip_address)
        return True
    except ipaddress.AddressValueError as err:
        return False

def appl_db_keys_get_system_port(appl_db, system_port_name):
    """
    Get APPL_DB SYSTEM_PORT_TABLE Keys
    """
    if system_port_name is None or system_port_name == "":
        appl_db_keys = appl_db.keys(appl_db.APPL_DB, SYSTEM_PORT_TABLE_PREFIX+"*")
    else:
        appl_db_keys = appl_db.keys(appl_db.APPL_DB, SYSTEM_PORT_TABLE_PREFIX+"%s" % system_port_name)

    return appl_db_keys


def appl_db_system_port_status_get(appl_db, system_port_name, status_type):
    """
    Get the system port status
    """
    full_table_id = SYSTEM_PORT_TABLE_PREFIX + system_port_name
    status = appl_db.get(appl_db.APPL_DB, full_table_id, status_type)
    if status is None:
        return "N/A"
    if status_type == SYSTEM_PORT_SPEED and status != "N/A":
       status = '{}G'.format(status[:-3])
    return status


def port_oper_speed_get(db, system_port_name):
    """
    Get port oper speed
    """
    full_table_id = SYSTEM_STATE_PORT_TABLE_PREFIX + system_port_name
    oper_speed = db.get(db.STATE_DB, full_table_id, SYSTEM_PORT_SPEED)
    oper_status = db.get(db.APPL_DB, SYSTEM_PORT_TABLE_PREFIX + system_port_name,
                         SYSTEM_PORT_OPER_STATUS)
    if oper_speed is None or oper_speed == "N/A" or oper_status != "up":
        return appl_db_system_port_status_get(db, system_port_name, SYSTEM_PORT_SPEED)

    return '{}G'.format(oper_speed[:-3])


def chassis_app_db_keys_get_system_neigh(chassis_app_db):
    """
    Get CHASSIS_APP_DB SYSTEM_NEIGH table Keys
    """
    system_neigh_keys = chassis_app_db.keys(chassis_app_db.CHASSIS_APP_DB, SYSTEM_NEIGH_TABLE_PREFIX+"*")

    return system_neigh_keys

def chassis_app_db_system_neigh_status_get(chassis_app_db, system_neigh_name, status_type):
    """
    Get the system neigh status
    """
    full_table_id = SYSTEM_NEIGH_TABLE_PREFIX + system_neigh_name
    status = chassis_app_db.get(chassis_app_db.CHASSIS_APP_DB, full_table_id, status_type)
    if status is None:
        return "N/A"
    return status

def chassis_app_db_keys_get_system_lag(chassis_app_db, system_lag_name):
    """
    Get CHASSIS_APP_DB SYSTEM_LAG_TABLE Keys
    """
    if system_lag_name is None or system_lag_name == "":
        chassis_app_db_keys = chassis_app_db.keys(chassis_app_db.CHASSIS_APP_DB, SYSTEM_LAG_TABLE_PREFIX+"*")
    else:
        chassis_app_db_keys = chassis_app_db.keys(chassis_app_db.CHASSIS_APP_DB, SYSTEM_LAG_TABLE_PREFIX+"%s" % system_lag_name)

    return chassis_app_db_keys

def chassis_app_db_system_lag_status_get(chassis_app_db, system_lag_name, status_type):
    """
    Get the system lag status
    """
    full_table_id = SYSTEM_LAG_TABLE_PREFIX + system_lag_name
    status = chassis_app_db.get(chassis_app_db.CHASSIS_APP_DB, full_table_id, status_type)
    if status is None:
        return "N/A"
    return status

def chassis_app_db_keys_get_system_lag_member(chassis_app_db, system_lag_name, system_lag_member_name):
    """
    Get CHASSIS_APP_DB SYSTEM_LAG_MEMBER_TABLE Keys for a given system lag
    """
    if system_lag_name is None or system_lag_name == "":
        chassis_app_db_keys = chassis_app_db.keys(chassis_app_db.CHASSIS_APP_DB, SYSTEM_LAG_MEMBER_TABLE_PREFIX+"*")
    elif system_lag_member_name is None or system_lag_member_name == "":
        chassis_app_db_keys = chassis_app_db.keys(chassis_app_db.CHASSIS_APP_DB, SYSTEM_LAG_MEMBER_TABLE_PREFIX+"%s*" % system_lag_name)
    else:
        chassis_app_db_keys = chassis_app_db.keys(chassis_app_db.CHASSIS_APP_DB, SYSTEM_LAG_MEMBER_TABLE_PREFIX+"%s:%s" % system_lag_name, system_lag_member_name)

    return chassis_app_db_keys

# ========================== VOQ system port status logic ==========================

header_system_port = ['System Port Name', 'Port Id', 'Switch Id', 'Core', 'Core Port', 'Speed']

class SystemPortStatus(object):

    def __init__(self, system_port_name, namespace_option):
        """
        Class constructor method
        :param self:
        :param intf_name: string of system port name
        :return:
        """
        self.db = None
        self.config_db = None
        self.system_port_name = system_port_name
        self.table = []
        self.multi_asic = multi_asic_util.MultiAsic(namespace_option=namespace_option)

    def display_systemport_status(self):
        self.get_systemport_status()
        sorted_table = natsorted(self.table)
        print(tabulate(sorted_table,
                       header_system_port,
                       tablefmt="simple",
                       stralign='right'))

    def generate_systemport_status(self):
        """
            Generate system port status output
        """

        i = {}
        table = []
        key = []

        intf_fs = parse_systemintf_in_filter(self.system_port_name)
        #
        # Iterate through all the keys and append system port's associated info to
        # the result table.
        #
        for i in self.appl_db_keys_system_port:
            key = re.split(':', i, maxsplit=1)[-1].strip()
            if self.system_port_name is None or key in intf_fs:
                table.append((key,
                        appl_db_system_port_status_get(self.db, key, SYSTEM_PORT_ID),
                        appl_db_system_port_status_get(self.db, key, SYSTEM_PORT_SWITCH_ID),
                        appl_db_system_port_status_get(self.db, key, SYSTEM_PORT_CORE),
                        appl_db_system_port_status_get(self.db, key, SYSTEM_PORT_CORE_PORT),
                        port_oper_speed_get(self.db, key)))

        return table

    @multi_asic_util.run_on_multi_asic
    def get_systemport_status(self):
        self.appl_db_keys_system_port = appl_db_keys_get_system_port(self.db, None)
        if self.appl_db_keys_system_port:
            self.table += self.generate_systemport_status()

# ========================== voq system neigh status logic ==========================

header_system_neigh = ['System Port Interface', 'Neighbor', 'MAC', 'Encap Index']

class SystemNeighStatus(object):

    def __init__(self, ipaddress, asicname):
        self.db = None
        self.config_db = None
        self.ipaddress = ipaddress
        self.asicname = asicname
        self.table = []

    def display_systemneigh_status(self):

        self.get_systemneigh_status()

        # Sorting and tabulating the result table.
        sorted_table = natsorted(self.table)
        print(tabulate(sorted_table, header_system_neigh, tablefmt="simple", stralign='right'))

    def generate_systemneigh_status(self):
        """
            Generate system neigh status output
        """

        i = {}
        table = []
        key = []

        if self.ipaddress is not None:
            if not is_ipv4_address(self.ipaddress) and not is_ipv6_address(self.ipaddress):
                print("{} is not valid ip address\n".format(self.ipaddress))
                return table

        #
        # Iterate through all the keys and append system neigh's associated info to
        # the result table.
        #
        for i in self.chassis_app_db_keys_system_neigh:
            key_tokens = re.split('\|', i)
            nbr = key_tokens[-1].strip()
            intf = '|'.join(key_tokens[1:-1])
            key = '|'.join(key_tokens[1:])
            if ((self.ipaddress is None or nbr in self.ipaddress) and
                (self.asicname is None or self.asicname in intf)):
                table.append((intf, nbr,
                                chassis_app_db_system_neigh_status_get(self.db, key, SYSTEM_NEIGH_MAC),
                                chassis_app_db_system_neigh_status_get(self.db, key, SYSTEM_NEIGH_ENCAP_INDEX)))
        return table

    def get_systemneigh_status(self):
        self.db = swsscommon.SonicV2Connector(use_unix_socket_path=False)
        self.db.connect(self.db.CHASSIS_APP_DB, False)
        self.chassis_app_db_keys_system_neigh = chassis_app_db_keys_get_system_neigh(self.db)
        if self.chassis_app_db_keys_system_neigh:
            self.table += self.generate_systemneigh_status()

# ========================== VOQ system lag status logic ==========================

header_system_lag = ['System Lag Name', 'Lag Id', 'Switch Id', 'Member System Ports']

class SystemLagStatus(object):

    def __init__(self, system_lag_name, asicname, hostname):
        """
        Class constructor method
        :param self:
        :param intf_name: string of system lag name
        :return:
        """
        self.db = None
        self.config_db = None
        self.system_lag_name = system_lag_name
        self.asicname = asicname
        self.hostname = hostname
        self.table = []

    def display_systemlag_status(self):
        self.get_systemlag_status()
        sorted_table = natsorted(self.table)
        print(tabulate(sorted_table,
                       header_system_lag,
                       tablefmt="simple",
                       stralign='right'))

    def generate_systemlag_status(self):
        """
            Generate system lag status output
        """

        i = {}
        table = []
        key = []
        members = []

        intf_fs = parse_systemintf_in_filter(self.system_lag_name)
        #
        # Iterate through all the keys and append system lag's associated info to
        # the result table.
        #
        for i in self.chassis_app_db_keys_system_lag:
            key_tokens = re.split('\|', i)
            key = '|'.join(key_tokens[1:])
            if ((self.system_lag_name is None or key in intf_fs) and
                (self.asicname is None or self.asicname in key) and
                (self.hostname is None or self.hostname in key)):
                mkeys = chassis_app_db_keys_get_system_lag_member(self.db, key, '')
                members.clear()
                for mk in mkeys:
                    members.append(mk.split(':')[-1].strip())
                memstr = ', '.join(members)
                table.append((key,
                        chassis_app_db_system_lag_status_get(self.db, key, SYSTEM_LAG_ID),
                        chassis_app_db_system_lag_status_get(self.db, key, SYSTEM_LAG_SWITCH_ID),
                        memstr))

        return table

    def get_systemlag_status(self):
        self.db = swsscommon.SonicV2Connector(use_unix_socket_path=False)
        self.db.connect(self.db.CHASSIS_APP_DB, False)
        self.chassis_app_db_keys_system_lag = chassis_app_db_keys_get_system_lag(self.db, None)
        if self.chassis_app_db_keys_system_lag:
            self.table += self.generate_systemlag_status()

# ========================== VOQ util logic main ==========================

def main():
    parser = argparse.ArgumentParser(description='Display VOQ information',
                                     formatter_class=argparse.RawTextHelpFormatter)
    parser.add_argument('-c', '--command', type=str, help='get system ports or system neighbors or system lags', default=None)
    parser.add_argument('-a', '--ipaddress', type=str, help='information for specific neighbor', default=None)
    parser.add_argument('-i', '--interface', type=str, help='information for specific system port', default=None)
    parser.add_argument('-s', '--systemlag', type=str, help='information for specific system lag', default=None)
    parser.add_argument('-n', '--namespace', type=str, help='information from specific namespace or asicname', default=None)
    parser.add_argument('-l', '--linecardname', type=str, help='information for specific linecard or host', default=None)
    args = parser.parse_args()

    if args.command == "system_ports":
        system_port_status = SystemPortStatus(args.interface, args.namespace)
        system_port_status.display_systemport_status()
    elif args.command == "system_neighbors":
        system_neigh_status = SystemNeighStatus(args.ipaddress, args.namespace)
        system_neigh_status.display_systemneigh_status()
    elif args.command == "system_lags":
        system_lag_status = SystemLagStatus(args.systemlag, args.namespace, args.linecardname)
        system_lag_status.display_systemlag_status()

    sys.exit(0)

if __name__ == "__main__":
     main()
