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-module(pf_route_macos).
-include("pf_route.hrl").
-include("pf_route_macos.hrl").
-export([default_table/0, current_table/0, tables/0]).
-export([list/1]).
-export([monitor/1]).
-export([parse_pf_route_packet/1]).
%% MacOS has no tables.
default_table() ->
?TABLE.
current_table() ->
?TABLE.
tables() ->
{ok, [?TABLE]}.
list(?TABLE) ->
Netstat = os:cmd("netstat -rn"),
List = string:split(string:trim(Netstat), [$\n], all),
do_list(List, []);
list(Table) ->
{error, {no_table, Table}}.
monitor(?TABLE) ->
spawn_link(fun () ->
pf_route_pf_route_socket:open(?PF_ROUTE, ?SOCK_RAW, ?AF_UNSPEC, fun (_) -> noop end, fun parse_pf_route_packet/1)
end);
monitor(Table) ->
{error, {no_table, Table}}.
parse_pf_route_packet(<<?RTM_VERSION:?U_CHAR, ?RTM_ADD:?U_CHAR, Binary/binary>>) -> parse_rt_msghdr(Binary, add);
parse_pf_route_packet(<<?RTM_VERSION:?U_CHAR, ?RTM_DELETE:?U_CHAR, Binary/binary>>) -> parse_rt_msghdr(Binary, delete);
parse_pf_route_packet(<<?RTM_VERSION:?U_CHAR, ?RTM_CHANGE:?U_CHAR, Binary/binary>>) -> parse_rt_msghdr(Binary, change);
parse_pf_route_packet(<<?RTM_VERSION:?U_CHAR, ?RTM_GET:?U_CHAR, Binary/binary>>) -> parse_rt_msghdr(Binary, get);
parse_pf_route_packet(<<?RTM_VERSION:?U_CHAR, ?RTM_REDIRECT:?U_CHAR, Binary/binary>>) -> parse_rt_msghdr(Binary, redirect);
parse_pf_route_packet(<<?RTM_VERSION:?U_CHAR, ?RTM_MISS:?U_CHAR, Binary/binary>>) -> parse_rt_msghdr(Binary, miss);
parse_pf_route_packet(<<?RTM_VERSION:?U_CHAR, ?RTM_RESOLVE:?U_CHAR, Binary/binary>>) -> parse_rt_msghdr(Binary, resolve);
parse_pf_route_packet(<<?RTM_VERSION:?U_CHAR, ?RTM_NEWADDR:?U_CHAR, Binary/binary>>) -> parse_ifa_msghdr(Binary, added);
parse_pf_route_packet(<<?RTM_VERSION:?U_CHAR, ?RTM_DELADDR:?U_CHAR, Binary/binary>>) -> parse_ifa_msghdr(Binary, deleted);
parse_pf_route_packet(<<?RTM_VERSION:?U_CHAR, ?RTM_IFINFO:?U_CHAR, Binary/binary>>) -> parse_if_msghdr(Binary, ifinfo);
parse_pf_route_packet(<<?RTM_VERSION:?U_CHAR, ?RTM_NEWMADDR:?U_CHAR, Binary/binary>>) -> parse_ifma_msghdr(Binary, added);
parse_pf_route_packet(<<?RTM_VERSION:?U_CHAR, ?RTM_DELMADDR:?U_CHAR, Binary/binary>>) -> parse_ifma_msghdr(Binary, deleted);
parse_pf_route_packet(<<?RTM_VERSION:?U_CHAR, ?RTM_IFINFO2:?U_CHAR, Binary/binary>>) -> parse_if_msghdr2(Binary, ifinfo2);
parse_pf_route_packet(<<?RTM_VERSION:?U_CHAR, ?RTM_NEWMADDR2:?U_CHAR, Binary/binary>>) -> parse_ifma_msghdr2(Binary, added);
parse_pf_route_packet(<<?RTM_VERSION:?U_CHAR, ?RTM_GET2:?U_CHAR, Binary/binary>>) -> parse_rt_msghdr2(Binary, get);
parse_pf_route_packet(Binary) -> {error, {invalid_packet, Binary}}.
%% rt_msghdr struct followed by rt_metrics and a list of sockaddr
parse_rt_msghdr(<<% struct rt_msghdr (len, version, type removed)
Index:?UINT32,
Flags:?INT,
Addrs:?INT,
Pid:?INT,
Seq:?INT,
Errno:?INT,
Use:?INT,
Inits:?UINT32,
% struct rt_metrics
Locks:?UINT32,
Mtu:?UINT32,
Hopcount:?UINT32,
Expire:?INT,
Recv:?UINT32,
Send:?UINT32,
Ssthresh:?UINT32,
Rtt:?UINT32,
Rttvar:?UINT32,
Pksent:?UINT32,
State:?UINT32,
Filler1:?UINT32,
Filler2:?UINT32,
Filler3:?UINT32,
% List of sockaddrs
BinaryAddrs/binary
>>, Type) ->
Rt0 = #macos_rt{type = Type, ifp_index = Index, flags = pf_route_util:read_bitmask(?RTF, Flags), addrs = pf_route_util:read_bitmask(?RTA, Addrs),
pid = Pid, seq = Seq, errno = Errno, use = Use, metrics_init = pf_route_util:read_bitmask(?RTV, Inits),
metrics_lock = pf_route_util:read_bitmask(?RTV, Locks), mtu = Mtu, hopcount = Hopcount, expire = Expire, recvpipe = Recv,
sendpipe = Send, ssthresh = Ssthresh, rtt = Rtt, rttvar = Rttvar, pksent = Pksent, state = State,
filler = {Filler1, Filler2, Filler3}},
logger:warning("pf_route_macos:monitor Rt = ~p~nBinary: ~p", [Rt0, BinaryAddrs]),
Rt = get_rt_addrs(BinaryAddrs, Rt0#macos_rt.addrs, Rt0, fun set_rt_addr/3),
logger:warning("pf_route_macos:monitor Rt = ~p", [Rt]),
{ok, Rt}.
parse_rt_msghdr2(<<% struct rt_msghdr2 (len, version, type removed)
Index:?UINT32,
Flags:?INT,
Addrs:?INT,
RefCount:?INT,
ParentFlags:?INT,
_Reserved:?INT,
Use:?INT,
Inits:?UINT32,
% struct rt_metrics
Locks:?UINT32,
Mtu:?UINT32,
Hopcount:?UINT32,
Expire:?INT,
Recv:?UINT32,
Send:?UINT32,
Ssthresh:?UINT32,
Rtt:?UINT32,
Rttvar:?UINT32,
Pksent:?UINT32,
State:?UINT32,
Filler1:?UINT32,
Filler2:?UINT32,
Filler3:?UINT32,
% List of sockaddrs
BinaryAddrs/binary
>>, Type) ->
Rt0 = #macos_rt{type = Type, ifp_index = Index, flags = pf_route_util:read_bitmask(?RTF, Flags), addrs = pf_route_util:read_bitmask(?RTA, Addrs),
refcount = RefCount, parent_flags = pf_route_util:read_bitmask(?RTF, ParentFlags), use = Use,
metrics_init = pf_route_util:read_bitmask(?RTV, Inits), metrics_lock = pf_route_util:read_bitmask(?RTV, Locks), mtu = Mtu,
hopcount = Hopcount, expire = Expire, recvpipe = Recv,sendpipe = Send, ssthresh = Ssthresh, rtt = Rtt, rttvar = Rttvar,
pksent = Pksent, state = State, filler = {Filler1, Filler2, Filler3}},
Rt = get_rt_addrs(BinaryAddrs, Rt0#macos_rt.addrs, Rt0, fun set_rt_addr/3),
{ok, Rt}.
%% macOS quirk: only 4 zero bytes for netmask.
get_rt_addrs(<<0:?UINT32, Binary/binary>>, [netmask | Rest], Rt, F) ->
get_rt_addrs(Binary, Rest, F(netmask, #pf_route_inet4{address = {0, 0, 0, 0}}, Rt), F);
%% macOS quirk: netmask len is off by one in family AF_INET
get_rt_addrs(<<Len:?U_CHAR, ?AF_INET:?U_CHAR, Content/binary>>, [netmask | Rest], Rt, F) ->
<<BinaryAddr:(Len - 1)/binary, Binary/binary>> = Content,
get_rt_addrs(Binary, Rest, F(netmask, parse_sockaddr(BinaryAddr, ?AF_INET), Rt), F);
%% macOS quirk: netmask len is off by one, family is 255
get_rt_addrs(<<Len:?U_CHAR, 255:?U_CHAR, Content/binary>>, [netmask | Rest], Rt, F) ->
<<BinaryAddr:(Len - 1)/binary, Binary/binary>> = Content,
get_rt_addrs(Binary, Rest, F(netmask, parse_sockaddr(BinaryAddr, 255), Rt), F);
get_rt_addrs(<<Len:?U_CHAR, Family:?U_CHAR, Content/binary>>, [Type | Rest], Rt, F) ->
<<BinaryAddr:(Len - 2)/binary, Binary/binary>> = Content,
get_rt_addrs(Binary, Rest, F(Type, parse_sockaddr(BinaryAddr, Family), Rt), F);
get_rt_addrs(_, [], Rt, _) ->
Rt.
set_rt_addr(destination, Value, Rt) -> Rt#macos_rt{destination = Value};
set_rt_addr(gateway, Value, Rt) -> Rt#macos_rt{gateway = Value};
set_rt_addr(netmask, Value, Rt) -> Rt#macos_rt{netmask = Value};
set_rt_addr(clonemask, Value, Rt) -> Rt#macos_rt{clonemask = Value};
set_rt_addr(ifp, Value, Rt) -> Rt#macos_rt{ifp = Value};
set_rt_addr(ifa, Value, Rt) -> Rt#macos_rt{ifa = Value};
set_rt_addr(author, Value, Rt) -> Rt#macos_rt{author = Value};
set_rt_addr(brd, Value, Rt) -> Rt#macos_rt{brd = Value}.
%% sockaddr_in, without the zeros (? only in netmasks)
parse_sockaddr(<<_Port:?U_SHORT, A, B, C, D>>, ?AF_INET) ->
#pf_route_inet4{address = {A, B, C, D}};
%% sockaddr_in full ; _Zero is `sin_zero`.
parse_sockaddr(<<_Port:?U_SHORT, A, B, C, D, _Zero:?UINT64>>, ?AF_INET) ->
#pf_route_inet4{address = {A, B, C, D}};
%% sockaddr_in6
parse_sockaddr(<<_Port:?U_SHORT, FlowInfo:?UINT32, A:?U_SHORT, B:?U_SHORT, C:?U_SHORT, D:?U_SHORT,
E:?U_SHORT, F:?U_SHORT, G:?U_SHORT, H:?U_SHORT, ScopeId:?UINT32>>, ?AF_INET6) ->
#pf_route_inet6{address = {A, B, C, D, E, F, G, H}, flow = FlowInfo, scope = ScopeId};
parse_sockaddr(<<Index:?U_SHORT, Type:?U_CHAR, NameLen:?U_CHAR, AddrLen:?U_CHAR, SelLen:?U_CHAR, Data/binary>>, ?AF_LINK) ->
<<Name:NameLen/binary, Address:AddrLen/binary, Selector:SelLen/binary, _/binary>> = Data,
#macos_link{index = Index, type = Type, name = Name, address = binary_to_list(Address), selector = Selector};
%% ???????? netmask in a RTM_GET message. see pf_route_macos_SUITE:pckt_rt_get.
parse_sockaddr(<<255, 255, A, B, C, D>>, 255) ->
#pf_route_inet4{address = {A, B, C, D}};
parse_sockaddr(Data, Family) ->
#pf_route_sockaddr{family = Family, data = Data}.
parse_ifa_msghdr(<<Addrs:?INT, Flags:?INT, Index:?U_SHORT, Metric:?INT, _, _, BinaryAddrs/binary>>, Type) ->
Ifa0 = #macos_ifa{addrs = pf_route_util:read_bitmask(?RTA, Addrs), type = Type, flags = pf_route_util:read_bitmask(?IFF, Flags),
index = Index, metric = Metric},
logger:error("macos_parse_ifa_msghdr: ~p~nBinary: ~p", [Ifa0, BinaryAddrs]),
Ifa = get_rt_addrs(BinaryAddrs, Ifa0#macos_ifa.addrs, Ifa0, fun set_ifa_addr/3),
logger:error("macos_parse_ifa_msghdr: ~p", [Ifa]),
{ok, Ifa}.
set_ifa_addr(netmask, Value, Ifa) -> Ifa#macos_ifa{netmask = Value};
set_ifa_addr(ifp, Value, Ifa) -> Ifa#macos_ifa{ifp = Value};
set_ifa_addr(ifa, Value, Ifa) -> Ifa#macos_ifa{ifa = Value}.
parse_ifma_msghdr(<<Addrs:?INT, Flags:?INT, Index:?U_SHORT, BinaryAddrs/binary>>, Type) ->
Ifma0 = #macos_ifma{addrs = pf_route_util:read_bitmask(?RTA, Addrs), type = Type, flags = pf_route_util:read_bitmask(?IFF, Flags),
index = Index},
logger:error("macos_parse_ifma_msghdr: ~p~nBinary: ~p", [Ifma0, BinaryAddrs]),
Ifma = get_rt_addrs(BinaryAddrs, Ifma0#macos_ifma.addrs, Ifma0, fun set_ifma_addr/3),
logger:error("macos_parse_ifma_msghdr: ~p", [Ifma]),
{ok, Ifma}.
parse_ifma_msghdr2(<<Addrs:?INT, Flags:?INT, Index:?U_SHORT, RefCount:?INT, BinaryAddrs/binary>>, Type) ->
Ifma0 = #macos_ifma{addrs = pf_route_util:read_bitmask(?RTA, Addrs), type = Type, flags = pf_route_util:read_bitmask(?IFF, Flags),
index = Index, refcount = RefCount},
logger:error("macos_parse_ifma_msghdr: ~p~nBinary: ~p", [Ifma0, BinaryAddrs]),
Ifma = get_rt_addrs(BinaryAddrs, Ifma0#macos_ifma.addrs, Ifma0, fun set_ifma_addr/3),
logger:error("macos_parse_ifma_msghdr: ~p", [Ifma]),
{ok, Ifma}.
set_ifma_addr(netmask, Value, Ifma) -> Ifma#macos_ifma{netmask = Value};
set_ifma_addr(ifp, Value, Ifma) -> Ifma#macos_ifma{ifp = Value};
set_ifma_addr(ifa, Value, Ifma) -> Ifma#macos_ifma{ifa = Value}.
parse_if_msghdr(<<Addrs:?INT, Flags:?INT, Index:?U_SHORT,
Type:?U_CHAR, TypeLen:?U_CHAR, Physical:?U_CHAR, AddrLen:?U_CHAR, HdrLen:?U_CHAR,
Recvquota:?U_CHAR, Xmitquota:?U_CHAR, _:?U_CHAR, Mtu:?UINT32, Metric:?UINT32, Baudrate:?UINT32,
IPackets:?UINT32, IErrors:?UINT32, OPackets:?UINT32, OErrors:?UINT32, IBytes:?UINT32, OBytes:?UINT32,
IMcasts:?UINT32, OMcasts:?UINT32, IQdrops:?UINT32, Noproto:?UINT32, Recvtiming:?UINT32, Xmittiming:?UINT32, BinaryAddrs/binary>>, ifinfo) ->
If0 = #macos_if{type = Type, index = Index, flags = pf_route_util:read_bitmask(?IFF, Flags), addrs = pf_route_util:read_bitmask(?RTA, Addrs),
typelen = TypeLen, physical = Physical, addrlen = AddrLen, hdrlen = HdrLen, recvquota = Recvquota,
xmitquota = Xmitquota, mtu = Mtu, metric = Metric, baudrate = Baudrate, ipackets = IPackets,
ierrors = IErrors, opackets = OPackets, oerrors = OErrors, ibytes = IBytes, obytes = OBytes,
imcasts = IMcasts, omcasts = OMcasts, iqdrops = IQdrops, noproto = Noproto,
recvtiming = Recvtiming, xmittiming = Xmittiming},
logger:warning("macos:parse_if_msghdr: ~p~nBinary: ~p", [If0, BinaryAddrs]),
{ok, If0}.
parse_if_msghdr2(<<Addrs:?INT, Flags:?INT, Index:?U_SHORT,
Type:?U_CHAR, TypeLen:?U_CHAR, Physical:?U_CHAR, AddrLen:?U_CHAR, HdrLen:?U_CHAR,
Recvquota:?U_CHAR, Xmitquota:?U_CHAR, _:?U_CHAR, Mtu:?UINT32, Metric:?UINT32, Baudrate:?UINT64,
IPackets:?UINT64, IErrors:?UINT64, OPackets:?UINT64, OErrors:?UINT64, IBytes:?UINT64, OBytes:?UINT64,
IMcasts:?UINT64, OMcasts:?UINT64, IQdrops:?UINT64, Noproto:?UINT64, Recvtiming:?UINT32, Xmittiming:?UINT32, BinaryAddrs/binary>>, ifinfo2) ->
If0 = #macos_if{type = Type, index = Index, flags = pf_route_util:read_bitmask(?IFF, Flags), addrs = pf_route_util:read_bitmask(?RTA, Addrs),
typelen = TypeLen, physical = Physical, addrlen = AddrLen, hdrlen = HdrLen, recvquota = Recvquota,
xmitquota = Xmitquota, mtu = Mtu, metric = Metric, baudrate = Baudrate, ipackets = IPackets,
ierrors = IErrors, opackets = OPackets, oerrors = OErrors, ibytes = IBytes, obytes = OBytes,
imcasts = IMcasts, omcasts = OMcasts, iqdrops = IQdrops, noproto = Noproto,
recvtiming = Recvtiming, xmittiming = Xmittiming},
logger:warning("macos:parse_if_msghdr: 2 ~p~nBinary: ~p", [If0, BinaryAddrs]),
{ok, If0}.
do_list([], Acc) ->
Acc;
do_list([[] | Rest], Acc) ->
do_list(Rest, Acc);
%% Header "Routing Tables"
do_list([[$R, $o, $u, $t, $i, $n, $g | _] | Rest], Acc) ->
do_list(Rest, Acc);
%% Header "Internet"/"Internet6"
do_list([[$I, $n, $t, $e, $r, $n, $e, $t | _] | Rest], Acc) ->
do_list(Rest, Acc);
%% Header fields
do_list([[$D, $e, $s, $t, $i, $n, $a, $t, $i, $o, $n | _] | Rest], Acc) ->
do_list(Rest, Acc);
%% Data line
do_list([Line | Rest], Acc) ->
[Destination, Gateway, Flags, Netif | Expire] = string:lexemes(Line, [$\s, $\t]),
{DestIp, Scope, Netmask} = case Destination of
"default" -> {default, undefined, undefined};
IPStr -> pf_route_util:parse_ip_address_with_netmask(IPStr)
end,
GW = case Gateway of
[$l, $i, $n, $k, $# | Num] ->
{link, list_to_integer(Num)};
GWStr ->
case inet:parse_address(GWStr) of
{ok, GwIP} -> GwIP;
{error, einval} -> {mac, GWStr}
end
end,
Route = #{destination => DestIp, netmask => Netmask, scope => Scope, gateway => GW, flags => [flag(F) || F <- Flags], interface => Netif, expire => Expire},
do_list(Rest, [Route | Acc]).
flag($1) -> proto1;
flag($2) -> proto2;
flag($3) -> proto3;
flag($B) -> blackhole;
flag($b) -> broadcast;
flag($C) -> cloning;
flag($c) -> prcloning;
flag($D) -> dynamic;
flag($G) -> gateway;
flag($H) -> host;
flag($I) -> ifscope;
flag($i) -> ifref;
flag($L) -> llinfo;
flag($M) -> modified;
flag($m) -> multicast;
flag($R) -> reject;
flag($r) -> router;
flag($S) -> static;
flag($U) -> up;
flag($W) -> wascloned;
flag($X) -> xresolve;
flag($Y) -> proxy;
flag($g) -> global.
|
