#!/usr/bin/python
# Copyright (C) 2013 Nicira, Inc. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at:
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

# Limitations:
#     - Doesn't support multicast other than "unknown-dst"

import argparse
import re
import subprocess
import sys
import time
import types

import ovs.dirs
import ovs.util
import ovs.daemon
import ovs.unixctl.server
import ovs.vlog


VERSION = "0.99"

root_prefix = ""

__pychecker__ = 'no-reuseattr'  # Remove in pychecker >= 0.8.19.
vlog = ovs.vlog.Vlog("ovs-vtep")
exiting = False

Tunnel_Ip = ""
Lswitches = {}
Bindings = {}
ls_count = 0
tun_id = 0

def call_prog(prog, args_list):
    cmd = [prog, "-vconsole:off"] + args_list
    output = subprocess.Popen(cmd, stdout=subprocess.PIPE).communicate()
    if len(output) == 0 or output[0] == None:
        output = ""
    else:
        output = output[0].strip()
    return output

def ovs_vsctl(args):
    return call_prog("ovs-vsctl", args.split())

def ovs_ofctl(args):
    return call_prog("ovs-ofctl", args.split())

def vtep_ctl(args):
    return call_prog("vtep-ctl", args.split())


def unixctl_exit(conn, unused_argv, unused_aux):
    global exiting
    exiting = True
    conn.reply(None)


class Logical_Switch(object):
    def __init__(self, ls_name):
        global ls_count
        self.name = ls_name
        ls_count += 1
        self.short_name = "vtep_ls" + str(ls_count)
        vlog.info("creating lswitch %s (%s)" % (self.name, self.short_name))
        self.ports = {}
        self.tunnels = {}
        self.local_macs = set()
        self.remote_macs = {}
        self.unknown_dsts = set()
        self.tunnel_key = 0
        self.setup_ls()

    def __del__(self):
        vlog.info("destroying lswitch %s" % self.name)

    def setup_ls(self):
        column = vtep_ctl("--columns=tunnel_key find logical_switch "
                              "name=%s" % self.name)
        tunnel_key = column.partition(":")[2].strip()
        if (tunnel_key and type(eval(tunnel_key)) == types.IntType):
            self.tunnel_key = tunnel_key
            vlog.info("using tunnel key %s in %s"
                      % (self.tunnel_key, self.name))
        else:
            self.tunnel_key = 0
            vlog.warn("invalid tunnel key for %s, using 0" % self.name)

        ovs_vsctl("--may-exist add-br %s" % self.short_name)
        ovs_vsctl("br-set-external-id %s vtep_logical_switch true"
                  % self.short_name)
        ovs_vsctl("br-set-external-id %s logical_switch_name %s"
                  % (self.short_name, self.name))

        vtep_ctl("clear-local-macs %s" % self.name)
        vtep_ctl("add-mcast-local %s unknown-dst %s" % (self.name, Tunnel_Ip))

        ovs_ofctl("del-flows %s" % self.short_name)
        ovs_ofctl("add-flow %s priority=0,action=drop" % self.short_name)

    def update_flood(self):
        flood_ports = self.ports.values()

        # Traffic flowing from one 'unknown-dst' should not be flooded to
        # port belonging to another 'unknown-dst'.
        for tunnel in self.unknown_dsts:
            port_no = self.tunnels[tunnel][0]
            ovs_ofctl("add-flow %s table=1,priority=1,in_port=%s,action=%s"
                        % (self.short_name, port_no, ",".join(flood_ports)))

        # Traffic coming from a VTEP physical port should only be flooded to
        # one 'unknown-dst' and to all other physical ports that belong to that
        # VTEP device and this logical switch.
        for tunnel in self.unknown_dsts:
            port_no = self.tunnels[tunnel][0]
            flood_ports.append(port_no)
            break

        ovs_ofctl("add-flow %s table=1,priority=0,action=%s"
                  % (self.short_name, ",".join(flood_ports)))

    def add_lbinding(self, lbinding):
        vlog.info("adding %s binding to %s" % (lbinding, self.name))
        port_no = ovs_vsctl("get Interface %s ofport" % lbinding)
        self.ports[lbinding] = port_no
        ovs_ofctl("add-flow %s in_port=%s,action=learn(table=1,"
                  "priority=1000,idle_timeout=15,cookie=0x5000,"
                  "NXM_OF_ETH_DST[]=NXM_OF_ETH_SRC[],"
                  "output:NXM_OF_IN_PORT[]),resubmit(,1)"
                  % (self.short_name, port_no))

        self.update_flood()

    def del_lbinding(self, lbinding):
        vlog.info("removing %s binding from %s" % (lbinding, self.name))
        port_no = self.ports[lbinding]
        ovs_ofctl("del-flows %s in_port=%s" % (self.short_name, port_no));
        del self.ports[lbinding]
        self.update_flood()

    def add_tunnel(self, tunnel):
        global tun_id
        vlog.info("adding tunnel %s" % tunnel)
        encap, ip = tunnel.split("/")

        if encap != "vxlan_over_ipv4":
            vlog.warn("unsupported tunnel format %s" % encap)
            return

        tun_id += 1
        tun_name = "vx" + str(tun_id)

        ovs_vsctl("add-port %s %s -- set Interface %s type=vxlan "
                  "options:key=%s options:remote_ip=%s"
                  % (self.short_name, tun_name, tun_name, self.tunnel_key, ip))

        for i in range(10):
            port_no = ovs_vsctl("get Interface %s ofport" % tun_name)
            if port_no != "-1":
                break
            elif i == 9:
                vlog.warn("couldn't create tunnel %s" % tunnel)
                ovs_vsctl("del-port %s %s" % (self.short_name, tun_name))
                return

            # Give the system a moment to allocate the port number
            time.sleep(0.5)

        self.tunnels[tunnel] = (port_no, tun_name)

        ovs_ofctl("add-flow %s table=0,priority=1000,in_port=%s,"
                  "actions=resubmit(,1)"
                  % (self.short_name, port_no))

    def del_tunnel(self, tunnel):
        vlog.info("removing tunnel %s" % tunnel)

        port_no, tun_name = self.tunnels[tunnel]
        ovs_ofctl("del-flows %s table=0,in_port=%s"
                    % (self.short_name, port_no))
        ovs_vsctl("del-port %s %s" % (self.short_name, tun_name))

        del self.tunnels[tunnel]

    def update_local_macs(self):
        flows = ovs_ofctl("dump-flows %s cookie=0x5000/-1,table=1"
                          % self.short_name).splitlines()
        macs = set()
        for f in flows:
            mac = re.split(r'.*dl_dst=(.*) .*', f)
            if len(mac) == 3:
                macs.add(mac[1])

        for mac in macs.difference(self.local_macs):
            vlog.info("adding local ucast %s to %s" % (mac, self.name))
            vtep_ctl("add-ucast-local %s %s %s" % (self.name, mac, Tunnel_Ip))

        for mac in self.local_macs.difference(macs):
            vlog.info("removing local ucast %s from %s" % (mac, self.name))
            vtep_ctl("del-ucast-local %s %s" % (self.name, mac))

        self.local_macs = macs

    def add_remote_mac(self, mac, tunnel):
        port_no = self.tunnels.get(tunnel, (0,""))[0]
        if not port_no:
            return

        ovs_ofctl("add-flow %s table=1,priority=1000,dl_dst=%s,action=%s"
                  % (self.short_name, mac, port_no))

    def del_remote_mac(self, mac):
        ovs_ofctl("del-flows %s table=1,dl_dst=%s" % (self.short_name, mac))

    def update_remote_macs(self):
        remote_macs = {}
        unknown_dsts = set()
        tunnels = set()
        parse_ucast = True

        mac_list = vtep_ctl("list-remote-macs %s" % self.name).splitlines()
        for line in mac_list:
            if (line.find("mcast-mac-remote") != -1):
                parse_ucast = False
                continue

            entry = re.split(r'  (.*) -> (.*)', line)
            if len(entry) != 4:
                continue

            if parse_ucast:
                remote_macs[entry[1]] = entry[2]
            else:
                if entry[1] != "unknown-dst":
                    continue

                unknown_dsts.add(entry[2])

            tunnels.add(entry[2])

        old_tunnels = set(self.tunnels.keys())

        for tunnel in tunnels.difference(old_tunnels):
            self.add_tunnel(tunnel)

        for tunnel in old_tunnels.difference(tunnels):
            self.del_tunnel(tunnel)

        for mac in remote_macs.keys():
            if (self.remote_macs.get(mac) != remote_macs[mac]):
                self.add_remote_mac(mac, remote_macs[mac])

        for mac in self.remote_macs.keys():
            if not remote_macs.has_key(mac):
                self.del_remote_mac(mac)

        self.remote_macs = remote_macs

        if (self.unknown_dsts != unknown_dsts):
            self.unknown_dsts = unknown_dsts
            self.update_flood()

    def update_stats(self):
        # Map Open_vSwitch's "interface:statistics" to columns of
        # vtep's logical_binding_stats. Since we are using the 'interface' from
        # the logical switch to collect stats, packets transmitted from it
        # is received in the physical switch and vice versa.
        stats_map = {'tx_packets':'packets_to_local',
                    'tx_bytes':'bytes_to_local',
                    'rx_packets':'packets_from_local',
                     'rx_bytes':'bytes_from_local'}

        # Go through all the logical switch's interfaces that end with "-l"
        # and copy the statistics to logical_binding_stats.
        for interface in self.ports.iterkeys():
            if not interface.endswith("-l"):
                continue
            vlan, pp_name, logical = interface.split("-")
            uuid = vtep_ctl("get physical_port %s vlan_stats:%s"
                            % (pp_name, vlan))
            if not uuid:
                continue

            for (mapfrom, mapto) in stats_map.iteritems():
                value = ovs_vsctl("get interface %s statistics:%s"
                                % (interface, mapfrom)).strip('"')
                vtep_ctl("set logical_binding_stats %s %s=%s"
                        % (uuid, mapto, value))

    def run(self):
        self.update_local_macs()
        self.update_remote_macs()
        self.update_stats()

def add_binding(ps_name, binding, ls):
    vlog.info("adding binding %s" % binding)

    vlan, pp_name = binding.split("-")
    pbinding = binding+"-p"
    lbinding = binding+"-l"

    # Create a patch port that connects the VLAN+port to the lswitch.
    # Do them as two separate calls so if one side already exists, the
    # other side is created.
    ovs_vsctl("add-port %s %s "
              " -- set Interface %s type=patch options:peer=%s"
              % (ps_name, pbinding, pbinding, lbinding))
    ovs_vsctl("add-port %s %s "
              " -- set Interface %s type=patch options:peer=%s"
              % (ls.short_name, lbinding, lbinding, pbinding))

    port_no = ovs_vsctl("get Interface %s ofport" % pp_name)
    patch_no = ovs_vsctl("get Interface %s ofport" % pbinding)
    vlan_ = vlan.lstrip('0')
    if vlan_:
        ovs_ofctl("add-flow %s in_port=%s,dl_vlan=%s,action=strip_vlan,%s"
                  % (ps_name, port_no, vlan_, patch_no))
        ovs_ofctl("add-flow %s in_port=%s,action=mod_vlan_vid:%s,%s"
                  % (ps_name, patch_no, vlan_, port_no))
    else:
        ovs_ofctl("add-flow %s in_port=%s,action=%s"
                  % (ps_name, port_no, patch_no))
        ovs_ofctl("add-flow %s in_port=%s,action=%s"
                  % (ps_name, patch_no, port_no))

    # Create a logical_bindings_stats record.
    if not vlan_:
        vlan_ = "0"
    vtep_ctl("set physical_port %s vlan_stats:%s=@stats --\
            --id=@stats create logical_binding_stats packets_from_local=0"\
            % (pp_name, vlan_))

    ls.add_lbinding(lbinding)
    Bindings[binding] = ls.name

def del_binding(ps_name, binding, ls):
    vlog.info("removing binding %s" % binding)

    vlan, pp_name = binding.split("-")
    pbinding = binding+"-p"
    lbinding = binding+"-l"

    port_no = ovs_vsctl("get Interface %s ofport" % pp_name)
    patch_no = ovs_vsctl("get Interface %s ofport" % pbinding)
    vlan_ = vlan.lstrip('0')
    if vlan_:
        ovs_ofctl("del-flows %s in_port=%s,dl_vlan=%s"
                  % (ps_name, port_no, vlan_))
        ovs_ofctl("del-flows %s in_port=%s" % (ps_name, patch_no))
    else:
        ovs_ofctl("del-flows %s in_port=%s" % (ps_name, port_no))
        ovs_ofctl("del-flows %s in_port=%s" % (ps_name, patch_no))

    ls.del_lbinding(lbinding)

    # Destroy the patch port that connects the VLAN+port to the lswitch
    ovs_vsctl("del-port %s %s -- del-port %s %s"
              % (ps_name, pbinding, ls.short_name, lbinding))

    # Remove the record that links vlan with stats in logical_binding_stats.
    vtep_ctl("remove physical_port %s vlan_stats %s" % (pp_name, vlan))

    del Bindings[binding]

def handle_physical(ps_name):
    # Gather physical ports except the patch ports we created
    ovs_ports = ovs_vsctl("list-ports %s" % ps_name).split()
    ovs_port_set = set([port for port in ovs_ports if port[-2:] != "-p"])

    vtep_pp_set = set(vtep_ctl("list-ports %s" % ps_name).split())

    for pp_name in ovs_port_set.difference(vtep_pp_set):
        vlog.info("adding %s to %s" % (pp_name, ps_name))
        vtep_ctl("add-port %s %s" % (ps_name, pp_name))

    for pp_name in vtep_pp_set.difference(ovs_port_set):
        vlog.info("deleting %s from %s" % (pp_name, ps_name))
        vtep_ctl("del-port %s %s" % (ps_name, pp_name))

    new_bindings = set()
    for pp_name in vtep_pp_set:
        binding_set = set(vtep_ctl("list-bindings %s %s"
                                   % (ps_name, pp_name)).splitlines())

        for b in binding_set:
            vlan, ls_name = b.split()
            if ls_name not in Lswitches:
                Lswitches[ls_name] = Logical_Switch(ls_name)

            binding = "%s-%s" % (vlan, pp_name)
            ls = Lswitches[ls_name]
            new_bindings.add(binding)

            if Bindings.has_key(binding):
                if Bindings[binding] == ls_name:
                    continue
                else:
                    del_binding(ps_name, binding, Lswitches[Bindings[binding]])

            add_binding(ps_name, binding, ls)


    dead_bindings = set(Bindings.keys()).difference(new_bindings)
    for binding in dead_bindings:
        ls_name = Bindings[binding]
        ls = Lswitches[ls_name]

        del_binding(ps_name, binding, ls)

        if not len(ls.ports):
            ovs_vsctl("del-br %s" % Lswitches[ls_name].short_name)
            del Lswitches[ls_name]

def setup(ps_name):
    br_list = ovs_vsctl("list-br").split()
    if (ps_name not in br_list):
        ovs.util.ovs_fatal(0, "couldn't find OVS bridge %s" % ps_name, vlog)

    call_prog("vtep-ctl", ["set", "physical_switch", ps_name,
                           'description="OVS VTEP Emulator"'])

    tunnel_ips = vtep_ctl("get physical_switch %s tunnel_ips"
                          % ps_name).strip('[]"').split(", ")
    if len(tunnel_ips) != 1 or not tunnel_ips[0]:
        ovs.util.ovs_fatal(0, "exactly one 'tunnel_ips' should be set", vlog)

    global Tunnel_Ip
    Tunnel_Ip = tunnel_ips[0]

    ovs_ofctl("del-flows %s" % ps_name)

    # Remove any logical bridges from the previous run
    for br in br_list:
        if ovs_vsctl("br-get-external-id %s vtep_logical_switch"
                     % br) == "true":
            # Remove the remote side of any logical switch
            ovs_ports = ovs_vsctl("list-ports %s" % br).split()
            for port in ovs_ports:
                port_type = ovs_vsctl("get Interface %s type"
                                      % port).strip('"')
                if port_type != "patch":
                    continue

                peer = ovs_vsctl("get Interface %s options:peer"
                                 % port).strip('"')
                if (peer):
                    ovs_vsctl("del-port %s" % peer)

            ovs_vsctl("del-br %s" % br)


def main():
    parser = argparse.ArgumentParser()
    parser.add_argument("ps_name", metavar="PS-NAME",
                        help="Name of physical switch.")
    parser.add_argument("--root-prefix", metavar="DIR",
                        help="Use DIR as alternate root directory"
                        " (for testing).")
    parser.add_argument("--version", action="version",
                        version="%s %s" % (ovs.util.PROGRAM_NAME, VERSION))

    ovs.vlog.add_args(parser)
    ovs.daemon.add_args(parser)
    args = parser.parse_args()
    ovs.vlog.handle_args(args)
    ovs.daemon.handle_args(args)

    global root_prefix
    if args.root_prefix:
        root_prefix = args.root_prefix

    ps_name = args.ps_name

    ovs.daemon.daemonize()

    ovs.unixctl.command_register("exit", "", 0, 0, unixctl_exit, None)
    error, unixctl = ovs.unixctl.server.UnixctlServer.create(None,
                                                             version=VERSION)
    if error:
        ovs.util.ovs_fatal(error, "could not create unixctl server", vlog)

    setup(ps_name)

    while True:
        unixctl.run()
        if exiting:
            break

        handle_physical(ps_name)

        for ls_name, ls in Lswitches.items():
            ls.run()

        poller = ovs.poller.Poller()
        unixctl.wait(poller)
        poller.timer_wait(1000)
        poller.block()

    unixctl.close()

if __name__ == '__main__':
    try:
        main()
    except SystemExit:
        # Let system.exit() calls complete normally
        raise
    except:
        vlog.exception("traceback")
        sys.exit(ovs.daemon.RESTART_EXIT_CODE)
