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# Copyright (C) 2012 Canonical Ltd.
# Copyright (C) 2012 Hewlett-Packard Development Company, L.P.
# Copyright (C) 2012 Yahoo! Inc.
#
# Author: Scott Moser <scott.moser@canonical.com>
# Author: Juerg Haefliger <juerg.haefliger@hp.com>
# Author: Joshua Harlow <harlowja@yahoo-inc.com>
#
# This file is part of cloud-init. See LICENSE file for license information.

import json
import logging
import re
from copy import copy, deepcopy
from ipaddress import IPv4Network

from cloudinit import subp, util
from cloudinit.net.network_state import net_prefix_to_ipv4_mask
from cloudinit.simpletable import SimpleTable

LOG = logging.getLogger(__name__)

# Example netdev format:
# {'eth0': {'hwaddr': '00:16:3e:16:db:54',
#           'ipv4': [{'bcast': '10.85.130.255',
#                     'ip': '10.85.130.116',
#                     'mask': '255.255.255.0',
#                     'scope': 'global'}],
#           'ipv6': [{'ip': 'fd42:baa2:3dd:17a:216:3eff:fe16:db54/64',
#                     'scope6': 'global'},
#                    {'ip': 'fe80::216:3eff:fe16:db54/64', 'scope6': 'link'}],
#           'up': True},
#  'lo': {'hwaddr': '',
#         'ipv4': [{'bcast': '',
#                   'ip': '127.0.0.1',
#                   'mask': '255.0.0.0',
#                   'scope': 'host'}],
#         'ipv6': [{'ip': '::1/128', 'scope6': 'host'}],
#         'up': True}}
DEFAULT_NETDEV_INFO = {"ipv4": [], "ipv6": [], "hwaddr": "", "up": False}


def _netdev_info_iproute_json(ipaddr_json):
    """Get network device dicts from ip route and ip link info.

    ipaddr_json: Output string from 'ip --json addr' command.

    Returns a dict of device info keyed by network device name containing
    device configuration values.

    Raises json.JSONDecodeError if json could not be decoded
    """
    ipaddr_data = json.loads(ipaddr_json)
    devs = {}

    for dev in ipaddr_data:
        flags = dev["flags"] if "flags" in dev else []
        address = dev["address"] if dev.get("link_type") == "ether" else ""
        dev_info = {
            "hwaddr": address,
            "up": bool("UP" in flags and "LOWER_UP" in flags),
            "ipv4": [],
            "ipv6": [],
        }
        for addr in dev.get("addr_info", []):
            if addr.get("family") == "inet":
                mask = (
                    str(IPv4Network(f'0.0.0.0/{addr["prefixlen"]}').netmask)
                    if "prefixlen" in addr
                    else ""
                )
                parsed_addr = {
                    "ip": addr.get("local", ""),
                    "mask": mask,
                    "bcast": addr.get("broadcast", ""),
                    "scope": addr.get("scope", ""),
                }
                dev_info["ipv4"].append(parsed_addr)
            elif addr["family"] == "inet6":
                ip = addr.get("local", "")
                # address here refers to a peer address, and according
                # to "man 8 ip-address":
                # If a peer address is specified, the local address cannot
                # have a prefix length. The network prefix is associated
                # with the peer rather than with the local address.
                if ip and not addr.get("address"):
                    ip = f"{ip}/{addr.get('prefixlen', 64)}"
                parsed_addr = {
                    "ip": ip,
                    "scope6": addr.get("scope", ""),
                }
                dev_info["ipv6"].append(parsed_addr)
        devs[dev["ifname"]] = dev_info
    return devs


@util.deprecate_call(
    deprecated_version="22.1",
    extra_message="Required by old iproute2 versions that don't "
    "support ip json output. Consider upgrading to a more recent version.",
)
def _netdev_info_iproute(ipaddr_out):
    """
    @param ipaddr_out: Output string from 'ip addr show' command.

    @returns: A dict of device info keyed by network device name containing
              device configuration values.
    @raise: TypeError if ipaddr_out isn't a string.
    """
    devs = {}
    dev_name = None
    for num, line in enumerate(ipaddr_out.splitlines()):
        m = re.match(r"^\d+:\s(?P<dev>[^:]+):\s+<(?P<flags>\S+)>\s+.*", line)
        if m:
            dev_name = m.group("dev").lower().split("@")[0]
            flags = m.group("flags").split(",")
            devs[dev_name] = {
                "ipv4": [],
                "ipv6": [],
                "hwaddr": "",
                "up": bool("UP" in flags and "LOWER_UP" in flags),
            }
        elif "inet6" in line:
            m = re.match(
                r"\s+inet6\s(?P<ip>\S+)"
                r"(\s(peer\s\S+))?"
                r"\sscope\s(?P<scope6>\S+).*",
                line,
            )
            if not m:
                LOG.warning(
                    "Could not parse ip addr show: (line:%d) %s", num, line
                )
                continue
            devs[dev_name]["ipv6"].append(m.groupdict())
        elif "inet" in line:
            m = re.match(
                r"\s+inet\s(?P<cidr4>\S+)"
                r"(\smetric\s(?P<metric>\d+))?"
                r"(\sbrd\s(?P<bcast>\S+))?"
                r"\sscope\s(?P<scope>\S+).*",
                line,
            )
            if not m:
                LOG.warning(
                    "Could not parse ip addr show: (line:%d) %s", num, line
                )
                continue
            match = m.groupdict()
            cidr4 = match.pop("cidr4")
            addr, _, prefix = cidr4.partition("/")
            if not prefix:
                prefix = "32"
            devs[dev_name]["ipv4"].append(
                {
                    "ip": addr,
                    "bcast": match["bcast"] if match["bcast"] else "",
                    "mask": net_prefix_to_ipv4_mask(prefix),
                    "scope": match["scope"],
                }
            )
        elif "link" in line:
            m = re.match(
                r"\s+link/(?P<link_type>\S+)\s(?P<hwaddr>\S+).*", line
            )
            if not m:
                LOG.warning(
                    "Could not parse ip addr show: (line:%d) %s", num, line
                )
                continue
            if m.group("link_type") == "ether":
                devs[dev_name]["hwaddr"] = m.group("hwaddr")
            else:
                devs[dev_name]["hwaddr"] = ""
        else:
            continue
    return devs


def _netdev_info_ifconfig_netbsd(ifconfig_data):
    # fields that need to be returned in devs for each dev
    devs = {}
    for line in ifconfig_data.splitlines():
        if len(line) == 0:
            continue
        if line[0] not in ("\t", " "):
            curdev = line.split()[0]
            # current ifconfig pops a ':' on the end of the device
            if curdev.endswith(":"):
                curdev = curdev[:-1]
            if curdev not in devs:
                devs[curdev] = deepcopy(DEFAULT_NETDEV_INFO)
        toks = line.lower().strip().split()
        if len(toks) > 1:
            if re.search(r"flags=[x\d]+<up.*>", toks[1]):
                devs[curdev]["up"] = True

        for i in range(len(toks)):
            if toks[i] == "inet":  # Create new ipv4 addr entry
                network, net_bits = toks[i + 1].split("/")
                devs[curdev]["ipv4"].append(
                    {"ip": network, "mask": net_prefix_to_ipv4_mask(net_bits)}
                )
            elif toks[i] == "broadcast":
                devs[curdev]["ipv4"][-1]["bcast"] = toks[i + 1]
            elif toks[i] == "address:":
                devs[curdev]["hwaddr"] = toks[i + 1]
            elif toks[i] == "inet6":
                if toks[i + 1] == "addr:":
                    devs[curdev]["ipv6"].append({"ip": toks[i + 2]})
                else:
                    devs[curdev]["ipv6"].append({"ip": toks[i + 1]})
            elif toks[i] == "prefixlen":  # Add prefix to current ipv6 value
                addr6 = devs[curdev]["ipv6"][-1]["ip"] + "/" + toks[i + 1]
                devs[curdev]["ipv6"][-1]["ip"] = addr6
            elif toks[i].startswith("scope:"):
                devs[curdev]["ipv6"][-1]["scope6"] = toks[i].lstrip("scope:")
            elif toks[i] == "scopeid":
                res = re.match(r".*<(\S+)>", toks[i + 1])
                if res:
                    devs[curdev]["ipv6"][-1]["scope6"] = res.group(1)
                else:
                    devs[curdev]["ipv6"][-1]["scope6"] = toks[i + 1]

    return devs


def _netdev_info_ifconfig(ifconfig_data):
    # fields that need to be returned in devs for each dev
    devs = {}
    for line in ifconfig_data.splitlines():
        if len(line) == 0:
            continue
        if line[0] not in ("\t", " "):
            curdev = line.split()[0]
            # current ifconfig pops a ':' on the end of the device
            if curdev.endswith(":"):
                curdev = curdev[:-1]
            if curdev not in devs:
                devs[curdev] = deepcopy(DEFAULT_NETDEV_INFO)
        toks = line.lower().strip().split()
        if toks[0] == "up":
            devs[curdev]["up"] = True
        # If the output of ifconfig doesn't contain the required info in the
        # obvious place, use a regex filter to be sure.
        elif len(toks) > 1:
            if re.search(r"flags=\d+<up,", toks[1]):
                devs[curdev]["up"] = True

        for i in range(len(toks)):
            if toks[i] == "inet":  # Create new ipv4 addr entry
                devs[curdev]["ipv4"].append(
                    {"ip": toks[i + 1].lstrip("addr:")}
                )
            elif toks[i].startswith("bcast:"):
                devs[curdev]["ipv4"][-1]["bcast"] = toks[i].lstrip("bcast:")
            elif toks[i] == "broadcast":
                devs[curdev]["ipv4"][-1]["bcast"] = toks[i + 1]
            elif toks[i].startswith("mask:"):
                devs[curdev]["ipv4"][-1]["mask"] = toks[i].lstrip("mask:")
            elif toks[i] == "netmask":
                devs[curdev]["ipv4"][-1]["mask"] = toks[i + 1]
            elif toks[i] == "hwaddr" or toks[i] == "ether":
                devs[curdev]["hwaddr"] = toks[i + 1]
            elif toks[i] == "inet6":
                if toks[i + 1] == "addr:":
                    devs[curdev]["ipv6"].append({"ip": toks[i + 2]})
                else:
                    devs[curdev]["ipv6"].append({"ip": toks[i + 1]})
            elif toks[i] == "prefixlen":  # Add prefix to current ipv6 value
                addr6 = devs[curdev]["ipv6"][-1]["ip"] + "/" + toks[i + 1]
                devs[curdev]["ipv6"][-1]["ip"] = addr6
            elif toks[i].startswith("scope:"):
                devs[curdev]["ipv6"][-1]["scope6"] = toks[i].lstrip("scope:")
            elif toks[i] == "scopeid":
                res = re.match(r".*<(\S+)>", toks[i + 1])
                if res:
                    devs[curdev]["ipv6"][-1]["scope6"] = res.group(1)
                else:
                    devs[curdev]["ipv6"][-1]["scope6"] = toks[i + 1]

    return devs


def netdev_info(empty=""):
    devs = {}
    if util.is_NetBSD():
        (ifcfg_out, _err) = subp.subp(["ifconfig", "-a"], rcs=[0, 1])
        devs = _netdev_info_ifconfig_netbsd(ifcfg_out)
    elif subp.which("ip"):
        # Try iproute first of all
        try:
            (ipaddr_out, _err) = subp.subp(["ip", "--json", "addr"])
            devs = _netdev_info_iproute_json(ipaddr_out)
        except subp.ProcessExecutionError:
            # Can be removed when "ip --json" is available everywhere
            (ipaddr_out, _err) = subp.subp(["ip", "addr", "show"])
            devs = _netdev_info_iproute(ipaddr_out)
    elif subp.which("ifconfig"):
        # Fall back to net-tools if iproute2 is not present
        (ifcfg_out, _err) = subp.subp(["ifconfig", "-a"], rcs=[0, 1])
        devs = _netdev_info_ifconfig(ifcfg_out)
    else:
        LOG.warning(
            "Could not print networks: missing 'ip' and 'ifconfig' commands"
        )

    if empty == "":
        return devs

    recurse_types = (dict, tuple, list)

    def fill(data, new_val="", empty_vals=("", b"")):
        """Recursively replace 'empty_vals' in data (dict, tuple, list)
        with new_val"""
        if isinstance(data, dict):
            myiter = data.items()
        elif isinstance(data, (tuple, list)):
            myiter = enumerate(data)
        else:
            raise TypeError("Unexpected input to fill")

        for key, val in myiter:
            if val in empty_vals:
                data[key] = new_val
            elif isinstance(val, recurse_types):
                fill(val, new_val)

    fill(devs, new_val=empty)
    return devs


def _netdev_route_info_iproute(iproute_data):
    """
    Get network route dicts from ip route info.

    @param iproute_data: Output string from ip route command.

    @returns: A dict containing ipv4 and ipv6 route entries as lists. Each
              item in the list is a route dictionary representing destination,
              gateway, flags, genmask and interface information.
    """

    routes = {}
    routes["ipv4"] = []
    routes["ipv6"] = []
    entries = iproute_data.splitlines()
    default_route_entry = {
        "destination": "",
        "flags": "",
        "gateway": "",
        "genmask": "",
        "iface": "",
        "metric": "",
    }
    for line in entries:
        entry = copy(default_route_entry)
        if not line:
            continue
        toks = line.split()
        flags = ["U"]
        if toks[0] == "default":
            entry["destination"] = "0.0.0.0"
            entry["genmask"] = "0.0.0.0"
        else:
            if "/" in toks[0]:
                (addr, cidr) = toks[0].split("/")
            else:
                addr = toks[0]
                cidr = "32"
                flags.append("H")
                entry["genmask"] = net_prefix_to_ipv4_mask(cidr)
            entry["destination"] = addr
            entry["genmask"] = net_prefix_to_ipv4_mask(cidr)
            entry["gateway"] = "0.0.0.0"
        for i in range(len(toks)):
            if toks[i] == "via":
                entry["gateway"] = toks[i + 1]
                flags.insert(1, "G")
            if toks[i] == "dev":
                entry["iface"] = toks[i + 1]
            if toks[i] == "metric":
                entry["metric"] = toks[i + 1]
        entry["flags"] = "".join(flags)
        routes["ipv4"].append(entry)
    try:
        (iproute_data6, _err6) = subp.subp(
            ["ip", "--oneline", "-6", "route", "list", "table", "all"],
            rcs=[0, 1],
        )
    except subp.ProcessExecutionError:
        pass
    else:
        entries6 = iproute_data6.splitlines()
        for line in entries6:
            entry = {}
            if not line:
                continue
            toks = line.split()
            if toks[0] == "default":
                entry["destination"] = "::/0"
                entry["flags"] = "UG"
            else:
                entry["destination"] = toks[0]
                entry["gateway"] = "::"
                entry["flags"] = "U"
            for i in range(len(toks)):
                if toks[i] == "via":
                    entry["gateway"] = toks[i + 1]
                    entry["flags"] = "UG"
                if toks[i] == "dev":
                    entry["iface"] = toks[i + 1]
                if toks[i] == "metric":
                    entry["metric"] = toks[i + 1]
                if toks[i] == "expires":
                    entry["flags"] = entry["flags"] + "e"
            routes["ipv6"].append(entry)
    return routes


def _netdev_route_info_netstat(route_data):
    routes = {}
    routes["ipv4"] = []
    routes["ipv6"] = []

    entries = route_data.splitlines()
    for line in entries:
        if not line:
            continue
        toks = line.split()
        # FreeBSD shows 6 items in the routing table:
        #  Destination  Gateway    Flags Refs    Use  Netif Expire
        #  default      10.65.0.1  UGS      0  34920 vtnet0
        #
        # Linux netstat shows 2 more:
        #  Destination  Gateway    Genmask  Flags Metric Ref    Use Iface
        #  0.0.0.0      10.65.0.1  0.0.0.0  UG    0      0        0 eth0
        if (
            len(toks) < 6
            or toks[0] == "Kernel"
            or toks[0] == "Destination"
            or toks[0] == "Internet"
            or toks[0] == "Internet6"
            or toks[0] == "Routing"
        ):
            continue
        if len(toks) < 8:
            toks.append("-")
            toks.append("-")
            toks[7] = toks[5]
            toks[5] = "-"
        entry = {
            "destination": toks[0],
            "gateway": toks[1],
            "genmask": toks[2],
            "flags": toks[3],
            "metric": toks[4],
            "ref": toks[5],
            "use": toks[6],
            "iface": toks[7],
        }
        routes["ipv4"].append(entry)

    try:
        (route_data6, _err6) = subp.subp(
            ["netstat", "-A", "inet6", "--route", "--numeric"], rcs=[0, 1]
        )
    except subp.ProcessExecutionError:
        pass
    else:
        entries6 = route_data6.splitlines()
        for line in entries6:
            if not line:
                continue
            toks = line.split()
            if (
                len(toks) < 7
                or toks[0] == "Kernel"
                or toks[0] == "Destination"
                or toks[0] == "Internet"
                or toks[0] == "Proto"
                or toks[0] == "Active"
            ):
                continue
            entry = {
                "destination": toks[0],
                "gateway": toks[1],
                "flags": toks[2],
                "metric": toks[3],
                "ref": toks[4],
                "use": toks[5],
                "iface": toks[6],
            }
            # skip lo interface on ipv6
            if entry["iface"] == "lo":
                continue
            # strip /128 from address if it's included
            if entry["destination"].endswith("/128"):
                entry["destination"] = re.sub(
                    r"\/128$", "", entry["destination"]
                )
            routes["ipv6"].append(entry)
    return routes


def route_info():
    routes = {}
    if subp.which("ip"):
        # Try iproute first of all
        (iproute_out, _err) = subp.subp(["ip", "-o", "route", "list"])
        routes = _netdev_route_info_iproute(iproute_out)
    elif subp.which("netstat"):
        # Fall back to net-tools if iproute2 is not present
        (route_out, _err) = subp.subp(
            ["netstat", "--route", "--numeric", "--extend"], rcs=[0, 1]
        )
        routes = _netdev_route_info_netstat(route_out)
    else:
        LOG.warning(
            "Could not print routes: missing 'ip' and 'netstat' commands"
        )
    return routes


def netdev_pformat():
    lines = []
    empty = "."
    try:
        netdev = netdev_info(empty=empty)
    except Exception as e:
        lines.append(
            util.center(
                "Net device info failed ({error})".format(error=str(e)),
                "!",
                80,
            )
        )
    else:
        if not netdev:
            return "\n"
        fields = ["Device", "Up", "Address", "Mask", "Scope", "Hw-Address"]
        tbl = SimpleTable(fields)
        for (dev, data) in sorted(netdev.items()):
            for addr in data.get("ipv4"):
                tbl.add_row(
                    (
                        dev,
                        data["up"],
                        addr["ip"],
                        addr["mask"],
                        addr.get("scope", empty),
                        data["hwaddr"],
                    )
                )
            for addr in data.get("ipv6"):
                tbl.add_row(
                    (
                        dev,
                        data["up"],
                        addr["ip"],
                        empty,
                        addr.get("scope6", empty),
                        data["hwaddr"],
                    )
                )
            if len(data.get("ipv6")) + len(data.get("ipv4")) == 0:
                tbl.add_row(
                    (dev, data["up"], empty, empty, empty, data["hwaddr"])
                )
        netdev_s = tbl.get_string()
        max_len = len(max(netdev_s.splitlines(), key=len))
        header = util.center("Net device info", "+", max_len)
        lines.extend([header, netdev_s])
    return "\n".join(lines) + "\n"


def route_pformat():
    lines = []
    try:
        routes = route_info()
    except Exception as e:
        lines.append(
            util.center(
                "Route info failed ({error})".format(error=str(e)), "!", 80
            )
        )
        util.logexc(LOG, "Route info failed: %s" % e)
    else:
        if routes.get("ipv4"):
            fields_v4 = [
                "Route",
                "Destination",
                "Gateway",
                "Genmask",
                "Interface",
                "Flags",
            ]
            tbl_v4 = SimpleTable(fields_v4)
            for (n, r) in enumerate(routes.get("ipv4")):
                route_id = str(n)
                try:
                    tbl_v4.add_row(
                        [
                            route_id,
                            r["destination"],
                            r.get("gateway", "0.0.0.0"),
                            r["genmask"],
                            r["iface"],
                            r["flags"],
                        ]
                    )
                except KeyError as e:
                    util.logexc(LOG, "Route info formatting error: %s" % e)
            route_s = tbl_v4.get_string()
            max_len = len(max(route_s.splitlines(), key=len))
            header = util.center("Route IPv4 info", "+", max_len)
            lines.extend([header, route_s])
        if routes.get("ipv6"):
            fields_v6 = [
                "Route",
                "Destination",
                "Gateway",
                "Interface",
                "Flags",
            ]
            tbl_v6 = SimpleTable(fields_v6)
            for (n, r) in enumerate(routes.get("ipv6")):
                route_id = str(n)
                if r["iface"] == "lo":
                    continue
                try:
                    tbl_v6.add_row(
                        [
                            route_id,
                            r["destination"],
                            r.get("gateway", "::"),
                            r["iface"],
                            r["flags"],
                        ]
                    )
                except KeyError as e:
                    util.logexc(LOG, "Route info formatting error: %s" % e)
            route_s = tbl_v6.get_string()
            max_len = len(max(route_s.splitlines(), key=len))
            header = util.center("Route IPv6 info", "+", max_len)
            lines.extend([header, route_s])
    return "\n".join(lines) + "\n"


def debug_info(prefix="ci-info: "):
    lines = []
    netdev_lines = netdev_pformat().splitlines()
    if prefix:
        for line in netdev_lines:
            lines.append("%s%s" % (prefix, line))
    else:
        lines.extend(netdev_lines)
    route_lines = route_pformat().splitlines()
    if prefix:
        for line in route_lines:
            lines.append("%s%s" % (prefix, line))
    else:
        lines.extend(route_lines)
    return "\n".join(lines)

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