#!python

"""
    ledd
    Front-panel LED control daemon for SONiC
"""

import getopt
import sys

from sonic_py_common import daemon_base
from sonic_py_common import multi_asic
from swsscommon import swsscommon

#============================= Constants =============================

VERSION = '2.0'

SYSLOG_IDENTIFIER = "ledd"

USAGE_HELP = """
Usage: ledd [options]

Options:
  -h,--help       Print this usage statement and exit
  -v,--version    Print version information and exit
"""

LED_MODULE_NAME = "led_control"
LED_CLASS_NAME = "LedControl"

SELECT_TIMEOUT = 1000

LEDUTIL_LOAD_ERROR = 1
LEDUTIL_RUNTIME_ERROR = 2
LEDD_SELECT_ERROR = 3

MAX_FRONT_PANEL_PORTS = 256

class Port():
    PORT_UP = "up" # All subports are up
    PORT_DOWN = "down" # All subports are down
    PORT_OP_FIELD = "netdev_oper_status"

    def __init__(self, name, index, state, subport, role):
        self._name = name
        self._index = index
        self._state = state
        self._subport = subport
        self._role = role

    def __str__(self):
        return "Port(name={}, index={}, state={}, subport={}, role={})".format(
                    self._name, self._index, self._state, self._subport, self._role)

    def isFrontPanelPort(self):
        return multi_asic.is_front_panel_port(self._name, self._role)

class FrontPanelPorts:
    def __init__(self, fp_list, up_subports, logical_pmap, led_ctrl):
        # {port-index, total subports oper UP}
        self.fp_port_up_subports = up_subports
        # {port-index, list of logical ports}
        self.fp_port_list = fp_list
        self.logical_port_mapping = logical_pmap
        self.led_control = led_ctrl

    def initPortLeds(self):
        """
        Initialize the port LEDs based on the current state of the front panel ports
        """
        for index in range(MAX_FRONT_PANEL_PORTS):
            if len(self.fp_port_list[index]) > 0:
               name = next(iter(self.fp_port_list[index]))
               if self.areAllSubportsUp(name):
                  self.updatePortLed(name, Port.PORT_UP)
               else:
                  self.updatePortLed(name, Port.PORT_DOWN)

    def updatePortLed(self, port_name, port_state):
        try:
            self.led_control.port_link_state_change(port_name, port_state)
        except Exception as e:
            sys.exit(LEDUTIL_RUNTIME_ERROR)

    def getPort(self, name):
        if name in self.logical_port_mapping:
            port = self.logical_port_mapping[name]
            return port
        return None

    def areAllSubportsUp(self, name):
        port = self.getPort(name)
        if port:
            return self.fp_port_up_subports[port._index] == self.getTotalSubports(port._index)

        return False

    def areAllSubportsDown(self, name):
        port = self.getPort(name)
        if port:
            return self.fp_port_up_subports[port._index] == 0

        return True

    def getTotalSubports(self, index):
        if index < MAX_FRONT_PANEL_PORTS:
            return len(self.fp_port_list[index])
        return 0

    def updatePortState(self, port_name, port_state):
        """
        Return True if the port state has changed, False otherwise
        """
        assert port_state in [Port.PORT_UP, Port.PORT_DOWN]
        port = self.getPort(port_name)
        if port and port_state != port._state:
            if port_state == Port.PORT_UP:
                self.fp_port_up_subports[port._index] = min(1 + self.fp_port_up_subports[port._index],
                                                            self.getTotalSubports(port._index))
            else:
                self.fp_port_up_subports[port._index] = max(0, self.fp_port_up_subports[port._index] - 1)
            port._state = port_state
            return True
        return False

class PortStateObserver:
    def __init__(self):
       # Subscribe to PORT table notifications in the STATE DB
        self.tables = {}
        self.sel = swsscommon.Select()

    def subscribePortTable(self, namespaces):
        for namespace in namespaces:
            self.subscribeDbTable("STATE_DB", swsscommon.STATE_PORT_TABLE_NAME, namespace)
 
    def connectDB(self, dbname, namespace):
        db = daemon_base.db_connect(dbname, namespace=namespace)
        return db
    
    def getDatabaseTable(self, dbname, tblname, namespace):
        db = self.connectDB(dbname, namespace)
        table = swsscommon.Table(db, tblname)
        return table

    def subscribeDbTable(self, dbname, tblname, namespace):
        db = self.connectDB(dbname, namespace)
        self.tables[namespace] = swsscommon.SubscriberStateTable(db, tblname)
        self.sel.addSelectable(self.tables[namespace])

    def getSelectEvent(self, timeout=SELECT_TIMEOUT):
        return self.sel.select(timeout)

    def getPortTableEvent(self, selectableObj):
        redisSelectObj = swsscommon.CastSelectableToRedisSelectObj(selectableObj)
        namespace = redisSelectObj.getDbConnector().getNamespace()

        (key, op, fvp) = self.tables[namespace].pop()
        if not key:
            return None

        if fvp:
            if key in ["PortConfigDone", "PortInitDone"]:
                return None

            fvp_dict = dict(fvp)
            if op == "SET" and Port.PORT_OP_FIELD in fvp_dict:
                return (key, fvp_dict[Port.PORT_OP_FIELD])

        return None

class DaemonLedd(daemon_base.DaemonBase):
    def __init__(self):
        daemon_base.DaemonBase.__init__(self, SYSLOG_IDENTIFIER)

        if multi_asic.is_multi_asic():
            # Load the namespace details first from the database_global.json file.
            swsscommon.SonicDBConfig.initializeGlobalConfig()

        # Load platform-specific LedControl module
        try:
            self.led_control = self.load_platform_util(LED_MODULE_NAME, LED_CLASS_NAME)
        except Exception as e:
            self.log_error("Failed to load ledutil: %s" % (str(e)), True)
            sys.exit(LEDUTIL_LOAD_ERROR)


        # Initialize the PortStateObserver
        self.portObserver = PortStateObserver()

        # subscribe to all the front panel ports namespaces
        namespaces = multi_asic.get_front_end_namespaces()
        self.portObserver.subscribePortTable(namespaces)

        # Discover the front panel ports
        fp_plist, fp_ups, lmap = self.findFrontPanelPorts(namespaces)
        self.fp_ports = FrontPanelPorts(fp_plist, fp_ups, lmap, self.led_control)

        # Initialize the port LEDs color
        self.fp_ports.initPortLeds()

    def findFrontPanelPorts(self, namespaces):
        # {port-index, list of logical ports}
        fp_port_list = [set() for _ in range(MAX_FRONT_PANEL_PORTS)]
        # {port-index, total subports oper UP}
        fp_port_up_subports = [0] * MAX_FRONT_PANEL_PORTS
        logical_port_mapping = {}
        
        for namespace in namespaces:
            port_cfg_table = self.portObserver.getDatabaseTable("CONFIG_DB", swsscommon.CFG_PORT_TABLE_NAME, namespace)
            port_st_table = self.portObserver.getDatabaseTable("STATE_DB", swsscommon.STATE_PORT_TABLE_NAME, namespace)
            for key in port_cfg_table.getKeys():
                _, pcfg = port_cfg_table.get(key)
                _, pstate = port_st_table.get(key)
                pcfg_dict = dict(pcfg)
                pstate_dict = dict(pstate)
                p = Port(key,
                            int(pcfg_dict['index']),
                            pstate_dict.get(Port.PORT_OP_FIELD, Port.PORT_DOWN), # Current oper state
                            pcfg_dict.get('subport', 0),
                            pcfg_dict.get('role', None))
                if p.isFrontPanelPort():
                    logical_port_mapping[key] = p
                    fp_port_list[p._index].add(key)
                    if p._state == Port.PORT_UP:
                        fp_port_up_subports[p._index] += 1
        return fp_port_list, fp_port_up_subports, logical_port_mapping

    def processPortStateChange(self, port_name, port_state):
        if self.fp_ports.getPort(port_name):
            # Update the port state for front panel ports
            if self.fp_ports.updatePortState(port_name, port_state):
                if self.fp_ports.areAllSubportsUp(port_name):
                    state = Port.PORT_UP
                else:
                    state = Port.PORT_DOWN
                self.log_notice("Setting Port %s LED state change for %s" % (port_name, state))
                self.fp_ports.updatePortLed(port_name, state)
    # Run daemon
    def run(self):
        state, event = self.portObserver.getSelectEvent()

        if state == swsscommon.Select.TIMEOUT:
            # Process final state
            return 0

        if state != swsscommon.Select.OBJECT:
            self.log_warning("sel.select() did not return swsscommon.Select.OBJECT - May be socket closed???")
            return -1 ## Fail here so that the daemon can be restarted

        portEvent = self.portObserver.getPortTableEvent(event)
        if portEvent:
            self.log_notice("Received PORT table event: key=%s, state=%s" % (portEvent[0], portEvent[1]))
            self.processPortStateChange(portEvent[0], portEvent[1])

        return 0

def main():
    # Parse options if provided
    if len(sys.argv) > 1:
        try:
            (options, remainder) = getopt.getopt(sys.argv[1:], 'hv', ['help', 'version'])
        except getopt.GetoptError as e:
            print(e)
            print(USAGE_HELP)
            sys.exit(1)

        for opt, arg in options:
            if opt == '--help' or opt == '-h':
                print(USAGE_HELP)
                sys.exit(0)
            elif opt == '--version' or opt == '-v':
                print('ledd version {}'.format(VERSION))
                sys.exit(0)

    ledd = DaemonLedd()

    # Listen indefinitely for port oper status changes
    while True:
        if 0 != ledd.run():
            print("ledd.run() failed... Exiting")
            sys.exit(LEDD_SELECT_ERROR)

if __name__ == '__main__':
    main()
