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|
%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2010-2013. All Rights Reserved.
%%
%% The contents of this file are subject to the Erlang Public License,
%% Version 1.1, (the "License"); you may not use this file except in
%% compliance with the License. You should have received a copy of the
%% Erlang Public License along with this software. If not, it can be
%% retrieved online at http://www.erlang.org/.
%%
%% Software distributed under the License is distributed on an "AS IS"
%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
%% the License for the specific language governing rights and limitations
%% under the License.
%%
%% %CopyrightEnd%
%%
%%
%% This module builds CER and CEA records for use during capabilities
%% exchange. All of a CER/CEA is built from AVP values configured on
%% the service in question but values for Supported-Vendor-Id,
%% Vendor-Specific-Application-Id, Auth-Application-Id and
%% Acct-Application-id are also obtained using an older method that
%% remains only for backwards compatibility. With this method, each
%% dictionary module was required to export a cer/0 that returned a
%% diameter_base_CER record (or corresponding list, although the list
%% is also a later addition). Each returned CER contributes its member
%% values for the aforementioned four AVPs to the resulting CER, with
%% remaining AVP's either unspecified or identical to those configured
%% on the service. Auth-Application-Id and Acct-Application-id were
%% originally treated a little differently, each callback being
%% required to return either no value of the same value as the other
%% callbacks, but this coupled the callback modules unnecessarily. (A
%% union is backwards compatible to boot.)
%%
%% Values obtained from the service and callbacks are all included
%% when building a CER. Older code with only callback can continue to
%% use them, newer code should probably stick to service configuration
%% (since this is more explicit) or mix at their own peril.
%%
%% The cer/0 callback is now undocumented (despite never being fully
%% documented to begin with) and should be considered deprecated even
%% by those poor souls still using it.
%%
-module(diameter_capx).
-export([build_CER/2,
recv_CER/3,
recv_CEA/3,
make_caps/2]).
-include_lib("diameter/include/diameter.hrl").
-include("diameter_internal.hrl").
-define(SUCCESS, 2001). %% DIAMETER_SUCCESS
-define(NOAPP, 5010). %% DIAMETER_NO_COMMON_APPLICATION
-define(NOSECURITY, 5017). %% DIAMETER_NO_COMMON_SECURITY
-define(NO_INBAND_SECURITY, 0).
-define(TLS, 1).
%% ===========================================================================
-type tried(T) :: {ok, T} | {error, {term(), list()}}.
-spec build_CER(#diameter_caps{}, module())
-> tried(CER)
when CER :: tuple().
build_CER(Caps, Dict) ->
try_it([fun bCER/2, Caps, Dict]).
-spec recv_CER(CER, #diameter_service{}, module())
-> tried({[diameter:'Unsigned32'()],
#diameter_caps{},
CEA})
when CER :: tuple(),
CEA :: tuple().
recv_CER(CER, Svc, Dict) ->
try_it([fun rCER/3, CER, Svc, Dict]).
-spec recv_CEA(CEA, #diameter_service{}, module())
-> tried({[diameter:'Unsigned32'()],
[diameter:'Unsigned32'()],
#diameter_caps{}})
when CEA :: tuple().
recv_CEA(CEA, Svc, Dict) ->
try_it([fun rCEA/3, CEA, Svc, Dict]).
make_caps(Caps, Opts) ->
try_it([fun mk_caps/2, Caps, Opts]).
%% ===========================================================================
%% ===========================================================================
try_it([Fun | Args]) ->
try apply(Fun, Args) of
T -> {ok, T}
catch
throw: ?FAILURE(Reason) -> {error, Reason}
end.
%% mk_caps/2
mk_caps(Caps0, Opts) ->
{Caps, _} = lists:foldl(fun set_cap/2,
{Caps0, #diameter_caps{_ = false}},
Opts),
Caps.
-define(SC(K,F),
set_cap({K, Val}, {Caps, #diameter_caps{F = false} = C}) ->
{Caps#diameter_caps{F = cap(K, Val)}, C#diameter_caps{F = true}}).
?SC('Origin-Host', origin_host);
?SC('Origin-Realm', origin_realm);
?SC('Host-IP-Address', host_ip_address);
?SC('Vendor-Id', vendor_id);
?SC('Product-Name', product_name);
?SC('Origin-State-Id', origin_state_id);
?SC('Supported-Vendor-Id', supported_vendor_id);
?SC('Auth-Application-Id', auth_application_id);
?SC('Inband-Security-Id', inband_security_id);
?SC('Acct-Application-Id', acct_application_id);
?SC('Vendor-Specific-Application-Id', vendor_specific_application_id);
?SC('Firmware-Revision', firmware_revision);
set_cap({Key, _}, _) ->
?THROW({duplicate, Key}).
cap(K, V)
when K == 'Origin-Host';
K == 'Origin-Realm';
K == 'Vendor-Id';
K == 'Product-Name' ->
V;
cap('Host-IP-Address', Vs)
when is_list(Vs) ->
lists:map(fun ipaddr/1, Vs);
cap(K, V)
when K == 'Firmware-Revision';
K == 'Origin-State-Id' ->
[V];
cap(_, Vs)
when is_list(Vs) ->
Vs;
cap(K, V) ->
?THROW({invalid, {K,V}}).
ipaddr(A) ->
try
diameter_lib:ipaddr(A)
catch
error: {invalid_address, _} = T ->
?THROW(T)
end.
%% bCER/2
%%
%% Build a CER record to send to a remote peer.
%% Use the fact that diameter_caps is expected to have the same field
%% names as CER.
bCER(#diameter_caps{} = Rec, Dict) ->
RecName = Dict:msg2rec('CER'),
Values = lists:zip(Dict:'#info-'(RecName, fields),
tl(tuple_to_list(Rec))),
Dict:'#new-'(RecName, [{K, map(K, V, Dict)} || {K,V} <- Values]).
%% map/3
%%
%% Deal with differerences in common dictionary AVP's to make changes
%% transparent in service/transport config. In particular, one
%% annoying difference between RFC 3588 and RFC 6733.
%%
%% RFC 6773 changes the definition of Vendor-Specific-Application-Id,
%% giving Vendor-Id arity 1 instead of 3588's 1*. This causes woe
%% since the corresponding dictionaries expect different values for a
%% 'Vendor-Id': a list for 3588, an integer for 6733.
map('Vendor-Specific-Application-Id' = T, L, Dict) ->
RecName = Dict:name2rec(T),
Rec = Dict:'#new-'(RecName, []),
Def = Dict:'#get-'('Vendor-Id', Rec),
[vsa(V, Def) || V <- L];
map(_, V, _) ->
V.
vsa({_, N, _, _} = Rec, [])
when is_integer(N) ->
setelement(2, Rec, [N]);
vsa({_, [N], _, _} = Rec, undefined)
when is_integer(N) ->
setelement(2, Rec, N);
vsa([_|_] = L, Def) ->
[vid(T, Def) || T <- L];
vsa(T, _) ->
T.
vid({'Vendor-Id' = K, N}, [])
when is_integer(N) ->
{K, [N]};
vid({'Vendor-Id' = K, [N]}, undefined) ->
{K, N};
vid(T, _) ->
T.
%% rCER/3
%%
%% Build a CEA record to send to a remote peer in response to an
%% incoming CER. RFC 3588 gives no guidance on what should be sent
%% here: should we advertise applications that the peer hasn't sent in
%% its CER (aside from the relay application) or not? If we send
%% applications that the peer hasn't advertised then the peer may have
%% to be aware of the possibility. If we don't then we just look like
%% a server that supports a subset (possibly) of what the client
%% advertised, so this feels like the path of least incompatibility.
%% However, the current draft standard (draft-ietf-dime-rfc3588bis-26,
%% expires 24 July 2011) says this in section 5.3, Capabilities
%% Exchange:
%%
%% The receiver of the Capabilities-Exchange-Request (CER) MUST
%% determine common applications by computing the intersection of its
%% own set of supported Application Id against all of the application
%% identifier AVPs (Auth-Application-Id, Acct-Application-Id and Vendor-
%% Specific-Application-Id) present in the CER. The value of the
%% Vendor-Id AVP in the Vendor-Specific-Application-Id MUST NOT be used
%% during computation. The sender of the Capabilities-Exchange-Answer
%% (CEA) SHOULD include all of its supported applications as a hint to
%% the receiver regarding all of its application capabilities.
%%
%% Both RFC and the draft also say this:
%%
%% The receiver only issues commands to its peers that have advertised
%% support for the Diameter application that defines the command. A
%% Diameter node MUST cache the supported applications in order to
%% ensure that unrecognized commands and/or AVPs are not unnecessarily
%% sent to a peer.
%%
%% That is, each side sends all of its capabilities and is responsible for
%% not sending commands that the peer doesn't support.
%% 6.10. Inband-Security-Id AVP
%%
%% NO_INBAND_SECURITY 0
%% This peer does not support TLS. This is the default value, if the
%% AVP is omitted.
%%
%% TLS 1
%% This node supports TLS security, as defined by [TLS].
rCER(CER, #diameter_service{capabilities = LCaps} = Svc, Dict) ->
CEA = cea_from_cer(bCER(LCaps, Dict), Dict),
RCaps = capx_to_caps(CER, Dict),
SApps = common_applications(LCaps, RCaps, Svc),
{SApps,
RCaps,
build_CEA(SApps,
LCaps,
RCaps,
Dict,
Dict:'#set-'({'Result-Code', ?SUCCESS}, CEA))}.
build_CEA([], _, _, Dict, CEA) ->
Dict:'#set-'({'Result-Code', ?NOAPP}, CEA);
build_CEA(_, LCaps, RCaps, Dict, CEA) ->
case common_security(LCaps, RCaps) of
[] ->
Dict:'#set-'({'Result-Code', ?NOSECURITY}, CEA);
[_] = IS ->
Dict:'#set-'({'Inband-Security-Id', inband_security(IS)}, CEA)
end.
%% Only set Inband-Security-Id if different from the default, since
%% RFC 6733 recommends against the AVP:
%%
%% 6.10. Inband-Security-Id AVP
%%
%% The Inband-Security-Id AVP (AVP Code 299) is of type Unsigned32 and
%% is used in order to advertise support of the security portion of the
%% application. The use of this AVP in CER and CEA messages is NOT
%% RECOMMENDED. Instead, discovery of a Diameter entity's security
%% capabilities can be done either through static configuration or via
%% Diameter Peer Discovery as described in Section 5.2.
inband_security([?NO_INBAND_SECURITY]) ->
[];
inband_security([_] = IS) ->
IS.
%% common_security/2
common_security(#diameter_caps{inband_security_id = LS},
#diameter_caps{inband_security_id = RS}) ->
cs(LS, RS).
%% Unspecified is equivalent to NO_INBAND_SECURITY.
cs([], RS) ->
cs([?NO_INBAND_SECURITY], RS);
cs(LS, []) ->
cs(LS, [?NO_INBAND_SECURITY]);
%% Agree on TLS if both parties support it. When sending CEA, this is
%% to ensure the peer is clear that we will be expecting a TLS
%% handshake since there is no ssl:maybe_accept that would allow the
%% peer to choose between TLS or not upon reception of our CEA. When
%% receiving CEA it deals with a server that isn't explicit about its choice.
%% TODO: Make the choice configurable.
cs(LS, RS) ->
Is = ordsets:to_list(ordsets:intersection(ordsets:from_list(LS),
ordsets:from_list(RS))),
case lists:member(?TLS, Is) of
true ->
[?TLS];
false when [] == Is ->
Is;
false ->
[hd(Is)] %% probably NO_INBAND_SECURITY
end.
%% The only two values defined by RFC 3588 are NO_INBAND_SECURITY and
%% TLS but don't enforce this. In theory this allows some other
%% security mechanism we don't have to know about, although in
%% practice something there may be a need for more synchronization
%% than notification by way of an event subscription offers.
%% cea_from_cer/2
%% CER is a subset of CEA, the latter adding Result-Code and a few
%% more AVP's.
cea_from_cer(CER, Dict) ->
RecName = Dict:msg2rec('CEA'),
[_ | Values] = Dict:'#get-'(CER),
Dict:'#set-'(Values, Dict:'#new-'(RecName)).
%% rCEA/3
rCEA(CEA, #diameter_service{capabilities = LCaps} = Svc, Dict) ->
RCaps = capx_to_caps(CEA, Dict),
SApps = common_applications(LCaps, RCaps, Svc),
IS = common_security(LCaps, RCaps),
{SApps, IS, RCaps}.
%% capx_to_caps/2
capx_to_caps(CEX, Dict) ->
[OH, OR, IP, VId, PN, OSI, SV, Auth, IS, Acct, VSA, FR, X]
= Dict:'#get-'(['Origin-Host',
'Origin-Realm',
'Host-IP-Address',
'Vendor-Id',
'Product-Name',
'Origin-State-Id',
'Supported-Vendor-Id',
'Auth-Application-Id',
'Inband-Security-Id',
'Acct-Application-Id',
'Vendor-Specific-Application-Id',
'Firmware-Revision',
'AVP'],
CEX),
#diameter_caps{origin_host = OH,
origin_realm = OR,
vendor_id = VId,
product_name = PN,
origin_state_id = OSI,
host_ip_address = IP,
supported_vendor_id = SV,
auth_application_id = Auth,
inband_security_id = IS,
acct_application_id = Acct,
vendor_specific_application_id = VSA,
firmware_revision = FR,
avp = X}.
%% ---------------------------------------------------------------------------
%% ---------------------------------------------------------------------------
%% common_applications/3
%%
%% Identify the (local) applications to be supported on the connection
%% in question.
common_applications(LCaps, RCaps, #diameter_service{applications = Apps}) ->
LA = app_union(LCaps),
RA = app_union(RCaps),
lists:foldl(fun(I,A) -> ca(I, Apps, RA, A) end, [], LA).
ca(Id, Apps, RA, Acc) ->
Relay = lists:member(?APP_ID_RELAY, RA),
#diameter_app{alias = Alias} = find_app(Id, Apps),
tcons(Relay %% peer is a relay
orelse ?APP_ID_RELAY == Id %% we're a relay
orelse lists:member(Id, RA), %% app is supported by the peer
Id,
Alias,
Acc).
%% 5.3 of the RFC states that a peer advertising itself as a relay must
%% be interpreted as having common applications.
%% Extract the list of all application identifiers from Auth-Application-Id,
%% Acct-Application-Id and Vendor-Specific-Application-Id.
app_union(#diameter_caps{auth_application_id = U,
acct_application_id = C,
vendor_specific_application_id = V}) ->
set_list(U ++ C ++ lists:flatmap(fun vsa_apps/1, V)).
vsa_apps(Vals)
when is_list(Vals) ->
lists:flatmap(fun({'Vendor-Id', _}) -> []; ({_, Ids}) -> Ids end, Vals);
vsa_apps(Rec)
when is_tuple(Rec) ->
[_Name, _VendorId | Idss] = tuple_to_list(Rec),
lists:append(Idss).
%% It's a configuration error for a locally advertised application not
%% to be represented in Apps. Don't just match on lists:keyfind/3 in
%% order to generate a more helpful error.
find_app(Id, Apps) ->
case lists:keyfind(Id, #diameter_app.id, Apps) of
#diameter_app{} = A ->
A;
false ->
?THROW({app_not_configured, Id})
end.
set_list(L) ->
sets:to_list(sets:from_list(L)).
tcons(true, K, V, Acc) ->
[{K,V} | Acc];
tcons(false, _, _, Acc) ->
Acc.
|