%% %% %CopyrightBegin% %% %% Copyright Ericsson AB 2008-2017. 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. %% %% %CopyrightEnd% %% %% -module(ssh_algorithms_SUITE). -include_lib("common_test/include/ct.hrl"). -include_lib("ssh/src/ssh_transport.hrl"). -include("ssh_test_lib.hrl"). %% Note: This directive should only be used in test suites. -compile(export_all). %%-------------------------------------------------------------------- %% Common Test interface functions ----------------------------------- %%-------------------------------------------------------------------- suite() -> [{ct_hooks,[ts_install_cth]}, {timetrap,{seconds,60}}]. all() -> %% [{group,kex},{group,cipher}... etc [{group,C} || C <- tags()]. groups() -> ErlAlgos = extract_algos(ssh:default_algorithms()), SshcAlgos = extract_algos(ssh_test_lib:default_algorithms(sshc)), SshdAlgos = extract_algos(ssh_test_lib:default_algorithms(sshd)), DoubleAlgos = [{Tag, double(Algs)} || {Tag,Algs} <- ErlAlgos, length(Algs) > 1, lists:member(Tag, two_way_tags())], TagGroupSet = [{Tag, [], group_members_for_tag(Tag,Algs,DoubleAlgos)} || {Tag,Algs} <- ErlAlgos, lists:member(Tag,tags()) ], TypeSSH = ssh_test_lib:ssh_type(), AlgoTcSet = [{Alg, [parallel], specific_test_cases(Tag,Alg,SshcAlgos,SshdAlgos,TypeSSH)} || {Tag,Algs} <- ErlAlgos ++ DoubleAlgos, Alg <- Algs], TagGroupSet ++ AlgoTcSet. tags() -> [kex,cipher,mac,compression,public_key]. two_way_tags() -> [cipher,mac,compression]. %%-------------------------------------------------------------------- init_per_suite(Config) -> ?CHECK_CRYPTO( begin ct:log("~n" "Environment:~n============~n" "os:getenv(\"HOME\") = ~p~n" "init:get_argument(home) = ~p~n~n~n" "OS ssh:~n=======~n~p~n~n~n" "Erl ssh:~n========~n~p~n~n~n" "crypto:info_lib():~n========~n~p~n~n~n" "Installed ssh client:~n=====================~n~p~n~n~n" "Installed ssh server:~n=====================~n~p~n~n~n" "Misc values:~n============~n" " -- Default dh group exchange parameters ({min,def,max}): ~p~n" " -- dh_default_groups: ~p~n" " -- Max num algorithms: ~p~n" ,[os:getenv("HOME"), init:get_argument(home), ssh_test_lib:installed_ssh_version("TIMEOUT"), ssh:default_algorithms(), crypto:info_lib(), ssh_test_lib:default_algorithms(sshc), ssh_test_lib:default_algorithms(sshd), {?DEFAULT_DH_GROUP_MIN,?DEFAULT_DH_GROUP_NBITS,?DEFAULT_DH_GROUP_MAX}, public_key:dh_gex_group_sizes(), ?MAX_NUM_ALGORITHMS ]), ct:log("all() ->~n ~p.~n~ngroups()->~n ~p.~n",[all(),groups()]), ssh:start(), [{std_simple_sftp_size,25000} % Sftp transferred data size | Config] end ). end_per_suite(_Config) -> ssh:stop(). init_per_group(Group, Config) -> case lists:member(Group, tags()) of true -> %% A tag group Tag = Group, ct:comment("==== ~p ====",[Tag]), Config; false -> %% An algorithm group Tag = proplists:get_value(name, hd(proplists:get_value(tc_group_path, Config))), Alg = Group, init_per_group(Tag, Alg, Config) end. init_per_group(public_key=Tag, Alg, Config) -> ct:log("Init tests for public_key ~p",[Alg]), PrefAlgs = {preferred_algorithms,[{Tag,[Alg]}]}, %% Daemon started later in init_per_testcase try setup_pubkey(Alg, [{pref_algs,PrefAlgs}, {tag_alg,{Tag,Alg}} | Config]) catch _:_ -> {skip, io_lib:format("Unsupported: ~p",[Alg])} end; init_per_group(Tag, Alg, Config) -> PA = case split(Alg) of [_] -> [Alg]; [A1,A2] -> [{client2server,[A1]}, {server2client,[A2]}] end, ct:log("Init tests for tag=~p alg=~p",[Tag,PA]), PrefAlgs = {preferred_algorithms,[{Tag,PA}]}, start_std_daemon([PrefAlgs], [{pref_algs,PrefAlgs}, {tag_alg,{Tag,Alg}} | Config]). end_per_group(_Alg, Config) -> case proplists:get_value(srvr_pid,Config) of Pid when is_pid(Pid) -> ssh:stop_daemon(Pid), ct:log("stopped ~p",[proplists:get_value(srvr_addr,Config)]); _ -> ok end. init_per_testcase(TC, Config) -> init_per_testcase(TC, proplists:get_value(tag_alg,Config), Config). init_per_testcase(TC, {public_key,Alg}, Config) -> ExtraOpts = case TC of simple_connect -> [{user_dir, proplists:get_value(priv_dir,Config)}]; _ -> [] end, Opts = pubkey_opts(Config) ++ ExtraOpts, case {ssh_file:user_key(Alg,Opts), ssh_file:host_key(Alg,Opts)} of {{ok,_}, {ok,_}} -> start_pubkey_daemon([proplists:get_value(pref_algs,Config) | ExtraOpts], [{extra_daemon,true}|Config]); {{ok,_}, {error,Err}} -> {skip, io_lib:format("No host key: ~p",[Err])}; {{error,Err}, {ok,_}} -> {skip, io_lib:format("No user key: ~p",[Err])}; _ -> {skip, "Neither host nor user key"} end; init_per_testcase(sshc_simple_exec_os_cmd, _, Config) -> start_pubkey_daemon([proplists:get_value(pref_algs,Config)], [{extra_daemon,true}|Config]); init_per_testcase(_, _, Config) -> Config. end_per_testcase(_TC, Config) -> case proplists:get_value(extra_daemon, Config, false) of true -> case proplists:get_value(srvr_pid,Config) of Pid when is_pid(Pid) -> ssh:stop_daemon(Pid), ct:log("stopped ~p",[proplists:get_value(srvr_addr,Config)]), Config; _ -> Config end; _ -> Config end. %%-------------------------------------------------------------------- %% Test Cases -------------------------------------------------------- %%-------------------------------------------------------------------- %% A simple sftp transfer simple_sftp(Config) -> {Host,Port} = proplists:get_value(srvr_addr, Config), ssh_test_lib:std_simple_sftp(Host, Port, Config). %%-------------------------------------------------------------------- %% A simple exec call simple_exec(Config) -> {Host,Port} = proplists:get_value(srvr_addr, Config), ssh_test_lib:std_simple_exec(Host, Port, Config). %%-------------------------------------------------------------------- %% A simple exec call simple_connect(Config) -> {Host,Port} = proplists:get_value(srvr_addr, Config), Opts = case proplists:get_value(tag_alg, Config) of {public_key,Alg} -> [{pref_public_key_algs,[Alg]}]; _ -> [] end, ConnectionRef = ssh_test_lib:std_connect(Config, Host, Port, Opts), ct:log("~p:~p connected! ~p",[?MODULE,?LINE,ConnectionRef]), ssh:close(ConnectionRef). %%-------------------------------------------------------------------- %% Testing if no group matches simple_exec_groups_no_match_too_small(Config) -> try_exec_simple_group({400,500,600}, Config). simple_exec_groups_no_match_too_large(Config) -> try_exec_simple_group({9200,9500,9700}, Config). try_exec_simple_group(Group, Config) -> try simple_exec_group(Group, Config) of _ -> ct:fail("Exec though no group available") catch error:{badmatch,{error,"Key exchange failed"}} -> ok end. %%-------------------------------------------------------------------- %% Testing all default groups simple_exec_groups() -> [{timetrap,{seconds,180}}]. simple_exec_groups(Config) -> Sizes = interpolate( public_key:dh_gex_group_sizes() ), lists:foreach( fun(Sz) -> ct:log("Try size ~p",[Sz]), ct:comment(Sz), simple_exec_group(Sz, Config), ct:log("Size ~p ok",[Sz]) end, Sizes), ct:comment("~p",[lists:map(fun({_,I,_}) -> I; (I) -> I end,Sizes)]). interpolate([I1,I2|Is]) -> OneThird = (I2-I1) div 3, [I1, {I1, I1 + OneThird, I2}, {I1, I1 + 2*OneThird, I2} | interpolate([I2|Is])]; interpolate(Is) -> Is. %%-------------------------------------------------------------------- %% Use the ssh client of the OS to connect sshc_simple_exec_os_cmd(Config) -> PrivDir = ?config(priv_dir, Config), KnownHosts = filename:join(PrivDir, "known_hosts"), {Host,Port} = ?config(srvr_addr, Config), Parent = self(), Client = spawn( fun() -> Result = ssh_test_lib:open_sshc(Host, Port, [" -C" " -o UserKnownHostsFile=",KnownHosts, " -o StrictHostKeyChecking=no" ], " 1+1."), Parent ! {result, self(), Result, "2"} end), receive {result, Client, RawResult, Expect} -> Lines = string:tokens(RawResult, "\r\n"), case lists:any(fun(Line) -> Line==Expect end, Lines) of true -> ok; false -> ct:log("Bad result: ~p~nExpected: ~p~nMangled result: ~p", [RawResult,Expect,Lines]), {fail, "Bad result (see log in testcase)"} end after ?TIMEOUT -> ct:fail("Did not receive answer (timeout)") end. %%-------------------------------------------------------------------- %% Connect to the ssh server of the OS sshd_simple_exec(Config) -> ClientPubKeyOpts = case proplists:get_value(tag_alg,Config) of {public_key,Alg} -> [{pref_public_key_algs,[Alg]}]; _ -> [] end, ConnectionRef = ssh_test_lib:connect(22, [{silently_accept_hosts, true}, proplists:get_value(pref_algs,Config), {user_interaction, false} | ClientPubKeyOpts]), {ok, ChannelId0} = ssh_connection:session_channel(ConnectionRef, infinity), success = ssh_connection:exec(ConnectionRef, ChannelId0, "echo testing", infinity), Data0 = {ssh_cm, ConnectionRef, {data, ChannelId0, 0, <<"testing\n">>}}, case ssh_test_lib:receive_exec_result(Data0) of expected -> ssh_test_lib:receive_exec_end(ConnectionRef, ChannelId0); {unexpected_msg,{ssh_cm, ConnectionRef, {exit_status, ChannelId0, 0}} = ExitStatus0} -> ct:log("0: Collected data ~p", [ExitStatus0]), ssh_test_lib:receive_exec_result(Data0, ConnectionRef, ChannelId0); Other0 -> ct:fail(Other0) end, {ok, ChannelId1} = ssh_connection:session_channel(ConnectionRef, infinity), success = ssh_connection:exec(ConnectionRef, ChannelId1, "echo testing1", infinity), Data1 = {ssh_cm, ConnectionRef, {data, ChannelId1, 0, <<"testing1\n">>}}, case ssh_test_lib:receive_exec_result(Data1) of expected -> ssh_test_lib:receive_exec_end(ConnectionRef, ChannelId1); {unexpected_msg,{ssh_cm, ConnectionRef, {exit_status, ChannelId1, 0}} = ExitStatus1} -> ct:log("0: Collected data ~p", [ExitStatus1]), ssh_test_lib:receive_exec_result(Data1, ConnectionRef, ChannelId1); Other1 -> ct:fail(Other1) end, ssh:close(ConnectionRef). %%%================================================================ %%% %%% Lib functions %%% %%%---------------------------------------------------------------- %%% %%% For construction of the result of all/0 and groups/0 %%% group_members_for_tag(Tag, Algos, DoubleAlgos) -> [{group,Alg} || Alg <- Algos++proplists:get_value(Tag,DoubleAlgos,[])]. double(Algs) -> [concat(A1,A2) || A1 <- Algs, A2 <- Algs, A1 =/= A2]. concat(A1, A2) -> list_to_atom(lists:concat([A1," + ",A2])). split(Alg) -> ssh_test_lib:to_atoms(string:tokens(atom_to_list(Alg), " + ")). specific_test_cases(Tag, Alg, SshcAlgos, SshdAlgos, TypeSSH) -> case Tag of public_key -> [simple_connect]; _ -> [simple_connect, simple_exec, simple_sftp] end ++ case supports(Tag, Alg, SshcAlgos) of true when TypeSSH == openSSH -> [sshc_simple_exec_os_cmd]; _ -> [] end ++ case supports(Tag, Alg, SshdAlgos) of true -> [sshd_simple_exec]; _ -> [] end ++ case {Tag,Alg} of {kex,_} when Alg == 'diffie-hellman-group-exchange-sha1' ; Alg == 'diffie-hellman-group-exchange-sha256' -> [simple_exec_groups, simple_exec_groups_no_match_too_large, simple_exec_groups_no_match_too_small ]; _ -> [] end. supports(Tag, Alg, Algos) -> lists:all(fun(A) -> lists:member(A, proplists:get_value(Tag, Algos,[])) end, split(Alg)). extract_algos(Spec) -> [{Tag,get_atoms(List)} || {Tag,List} <- Spec]. get_atoms(L) -> lists:usort( [ A || X <- L, A <- case X of {_,L1} when is_list(L1) -> L1; Y when is_atom(Y) -> [Y] end]). %%%---------------------------------------------------------------- %%% %%% Test case related %%% start_std_daemon(Opts, Config) -> ct:log("starting std_daemon",[]), {Pid, Host, Port} = ssh_test_lib:std_daemon(Config, Opts), ct:log("started ~p:~p ~p",[Host,Port,Opts]), [{srvr_pid,Pid},{srvr_addr,{Host,Port}} | Config]. start_pubkey_daemon(Opts0, Config) -> ct:log("starting pubkey_daemon",[]), Opts = pubkey_opts(Config) ++ Opts0, {Pid, Host, Port} = ssh_test_lib:daemon([{failfun, fun ssh_test_lib:failfun/2} | Opts]), ct:log("started ~p:~p ~p",[Host,Port,Opts]), [{srvr_pid,Pid},{srvr_addr,{Host,Port}} | Config]. pubkey_opts(Config) -> SystemDir = filename:join(proplists:get_value(priv_dir,Config), "system"), [{auth_methods,"publickey"}, {system_dir, SystemDir}]. setup_pubkey(Alg, Config) -> DataDir = proplists:get_value(data_dir, Config), UserDir = proplists:get_value(priv_dir, Config), ct:log("Setup keys for ~p",[Alg]), case Alg of 'ssh-dss' -> ssh_test_lib:setup_dsa(DataDir, UserDir); 'ssh-rsa' -> ssh_test_lib:setup_rsa(DataDir, UserDir); 'rsa-sha2-256' -> ssh_test_lib:setup_rsa(DataDir, UserDir); 'rsa-sha2-512' -> ssh_test_lib:setup_rsa(DataDir, UserDir); 'ecdsa-sha2-nistp256' -> ssh_test_lib:setup_ecdsa("256", DataDir, UserDir); 'ecdsa-sha2-nistp384' -> ssh_test_lib:setup_ecdsa("384", DataDir, UserDir); 'ecdsa-sha2-nistp521' -> ssh_test_lib:setup_ecdsa("521", DataDir, UserDir) end, Config. simple_exec_group(I, Config) when is_integer(I) -> simple_exec_group({I,I,I}, Config); simple_exec_group({Min,I,Max}, Config) -> {Host,Port} = proplists:get_value(srvr_addr, Config), ssh_test_lib:std_simple_exec(Host, Port, Config, [{dh_gex_limits,{Min,I,Max}}]).