%%----------------------------------------------------------------------
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2012-2016. 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%
%%
%%----------------------------------------------------------------------
%% File: ct_netconfc.erl
%%
%% Description:
%% This file contains the Netconf client interface
%%
%% Netconf servers can be configured by adding the following statement
%% to a configuration file:
%%
%% {server_id(),options()}.
%%
%% The server_id() or an associated ct:target_name() shall then be
%% used in calls to open/2 connect/2.
%%
%% If no configuration exists for a server, use open/1 and connect/1.
%%
%% == Logging ==
%%
%% The netconf server uses the `error_logger' for logging of netconf
%% traffic. A special purpose error handler is implemented in
%% `ct_conn_log_h'. To use this error handler, add the `cth_conn_log'
%% hook in your test suite, e.g.
%%
%% suite() ->
%% [{ct_hooks, [{cth_conn_log, [{ct:conn_log_mod(),ct:conn_log_options()}]}]}].
%%
%% For example:
%%
%% suite() ->
%% [{ct_hooks,
%% [{cth_conn_log,[{ct_netconfc,[{log_type,pretty},
%% {hosts,[my_configured_server]}]}]}
%%
%% == Notifications ==
%%
%% The netconf client is also compliant with RFC5277 NETCONF Event
%% Notifications, which defines a mechanism for an asynchronous
%% message notification delivery service for the netconf protocol.
%%
%% Specific functions to support this are create_subscription/6
%% get_event_streams/3. (The functions also exist with other arities.)
%%
%%----------------------------------------------------------------------
-module(ct_netconfc).
-include("ct_netconfc.hrl").
-include("ct_util.hrl").
-include_lib("xmerl/include/xmerl.hrl").
%%----------------------------------------------------------------------
%% External exports
%%----------------------------------------------------------------------
-export([connect/1,
connect/2,
disconnect/1,
session/1,
session/2,
session/3,
open/1,
open/2,
only_open/1,
only_open/2,
hello/1,
hello/2,
hello/3,
close_session/1,
close_session/2,
kill_session/2,
kill_session/3,
send/2,
send/3,
send_rpc/2,
send_rpc/3,
lock/2,
lock/3,
unlock/2,
unlock/3,
get/2,
get/3,
get_config/3,
get_config/4,
edit_config/3,
edit_config/4,
edit_config/5,
delete_config/2,
delete_config/3,
copy_config/3,
copy_config/4,
action/2,
action/3,
create_subscription/1,
create_subscription/2,
create_subscription/3,
create_subscription/4,
create_subscription/5,
create_subscription/6,
get_event_streams/1,
get_event_streams/2,
get_event_streams/3,
get_capabilities/1,
get_capabilities/2,
get_session_id/1,
get_session_id/2]).
%%----------------------------------------------------------------------
%% Exported types
%%----------------------------------------------------------------------
-export_type([client/0,
handle/0,
notification/0]).
%%----------------------------------------------------------------------
%% Internal exports
%%----------------------------------------------------------------------
%% ct_gen_conn callbacks
-export([init/3,
handle_msg/3,
handle_msg/2,
terminate/2,
close/1]).
%% ct_conn_log callback
-export([format_data/2]).
%%----------------------------------------------------------------------
%% Internal defines
%%----------------------------------------------------------------------
-define(APPLICATION,?MODULE).
-define(DEFAULT_STREAM,"NETCONF").
-define(error(ConnName,Report),
error_logger:error_report([{ct_connection,ConnName},
{client,self()},
{module,?MODULE},
{line,?LINE} |
Report])).
-define(is_timeout(T), (is_integer(T) orelse T==infinity)).
-define(is_filter(F),
(?is_simple_xml(F)
orelse (F==[])
orelse (is_list(F) andalso ?is_simple_xml(hd(F))))).
-define(is_simple_xml(Xml),
(is_atom(Xml) orelse (is_tuple(Xml) andalso is_atom(element(1,Xml))))).
-define(is_string(S), (is_list(S) andalso is_integer(hd(S)))).
%%----------------------------------------------------------------------
%% Records
%%----------------------------------------------------------------------
%% Client state
-record(state, {host,
port,
connection, % #connection
capabilities,
session_id,
msg_id = 1,
hello_status,
no_end_tag_buff = <<>>,
buff = <<>>,
pending = [], % [#pending]
event_receiver}).% pid
%% Run-time client options.
-record(options, {ssh = [], % Options for the ssh application
host,
port = ?DEFAULT_PORT,
timeout = ?DEFAULT_TIMEOUT,
name,
type}).
%% Connection reference
-record(connection, {reference, % {CM,Ch}
host,
port,
name,
type}).
%% Pending replies from server
-record(pending, {tref, % timer ref (returned from timer:xxx)
ref, % pending ref
msg_id,
op,
caller}).% pid which sent the request
%%----------------------------------------------------------------------
%% Type declarations
%%----------------------------------------------------------------------
-type client() :: handle() | server_id() | ct:target_name().
-opaque handle() :: pid().
-type options() :: [option()].
-type option() :: {ssh,host()} | {port,inet:port_number()} | {user,string()} |
{password,string()} | {user_dir,string()} |
{timeout,timeout()}.
-type session_options() :: [session_option()].
-type session_option() :: {timeout,timeout()}.
-type host() :: inet:hostname() | inet:ip_address().
-type notification() :: {notification, xml_attributes(), notification_content()}.
-type notification_content() :: [event_time()|simple_xml()].
-type event_time() :: {eventTime,xml_attributes(),[xs_datetime()]}.
-type stream_name() :: string().
-type streams() :: [{stream_name(),[stream_data()]}].
-type stream_data() :: {description,string()} |
{replaySupport,string()} |
{replayLogCreationTime,string()} |
{replayLogAgedTime,string()}.
%% See XML Schema for Event Notifications found in RFC5277 for further
%% detail about the data format for the string values.
-type error_reason() :: term().
-type server_id() :: atom().
-type simple_xml() :: {xml_tag(), xml_attributes(), xml_content()} |
{xml_tag(), xml_content()} |
xml_tag().
-type xml_tag() :: atom().
-type xml_attributes() :: [{xml_attribute_tag(),xml_attribute_value()}].
-type xml_attribute_tag() :: atom().
-type xml_attribute_value() :: string().
-type xml_content() :: [simple_xml() | iolist()].
-type xpath() :: {xpath,string()}.
-type netconf_db() :: running | startup | candidate.
-type xs_datetime() :: string().
%% This date and time identifyer has the same format as the XML type
%% dateTime and compliant to RFC3339. The format is
%% "[-]CCYY-MM-DDThh:mm:ss[.s][Z|(+|-)hh:mm]"
%%----------------------------------------------------------------------
%% External interface functions
%%----------------------------------------------------------------------
%%----------------------------------------------------------------------
%% Open an SSH connection to a Netconf server
%% If the server options are specified in a configuration file, use
%% open/2.
-spec connect(Options) -> Result when
Options :: options(),
Result :: {ok,handle()} | {error,error_reason()}.
connect(Options) ->
do_connect(Options, #options{type=connection},[]).
-spec connect(KeyOrName,ExtraOptions) -> Result when
KeyOrName :: ct:key_or_name(),
ExtraOptions :: options(),
Result :: {ok,handle()} | {error,error_reason()}.
connect(KeyOrName, ExtraOptions) ->
SortedExtra = lists:keysort(1,ExtraOptions),
SortedConfig = lists:keysort(1,ct:get_config(KeyOrName,[])),
AllOpts = lists:ukeymerge(1,SortedConfig,SortedExtra),
do_connect(AllOpts,#options{name=KeyOrName,type=connection},[{name,KeyOrName}]).
do_connect(OptList,InitOptRec,NameOpt) ->
case check_options(OptList,InitOptRec) of
{Host,Port,Options} ->
ct_gen_conn:start({Host,Port},Options,?MODULE,
NameOpt ++ [{reconnect,false},
{use_existing_connection,false},
{forward_messages,false}]);
Error ->
Error
end.
%%----------------------------------------------------------------------
%% Close the given SSH connection.
-spec disconnect(Conn) -> ok | {error,error_reason()} when
Conn :: handle().
disconnect(Conn) ->
case call(Conn,get_ssh_connection) of
{ok,_} ->
ct_gen_conn:stop(Conn);
Error ->
Error
end.
%%----------------------------------------------------------------------
%% Open a netconf session as a channel on the given SSH connection,
%% and exchange `hello' messages.
-spec session(Conn) -> Result when
Conn :: handle(),
Result :: {ok,handle()} | {error,error_reason()}.
session(Conn) ->
do_session(Conn,[],#options{type=channel},[]).
-spec session(Conn,Options) -> Result when
Conn :: handle(),
Options :: session_options(),
Result :: {ok,handle()} | {error,error_reason()};
(KeyOrName,Conn) -> Result when
KeyOrName :: ct:key_or_name(),
Conn :: handle(),
Result :: {ok,handle()} | {error,error_reason()}.
session(Conn,Options) when is_list(Options) ->
do_session(Conn,Options,#options{type=channel},[]);
session(KeyOrName,Conn) ->
do_session(Conn,[],#options{name=KeyOrName,type=channel},[{name,KeyOrName}]).
-spec session(KeyOrName,Conn,Options) -> Result when
Conn :: handle(),
Options :: session_options(),
KeyOrName :: ct:key_or_name(),
Result :: {ok,handle()} | {error,error_reason()}.
session(KeyOrName,Conn,ExtraOptions) ->
SortedExtra = lists:keysort(1,ExtraOptions),
SortedConfig = lists:keysort(1,ct:get_config(KeyOrName,[])),
AllOpts = lists:ukeymerge(1,SortedConfig,SortedExtra),
do_session(Conn,AllOpts,#options{name=KeyOrName,type=channel},
[{name,KeyOrName}]).
do_session(Conn,OptList,InitOptRec,NameOpt) ->
case call(Conn,get_ssh_connection) of
{ok,SshConn} ->
case check_session_options(OptList,InitOptRec) of
{ok,Options} ->
case ct_gen_conn:start(SshConn,Options,?MODULE,
NameOpt ++
[{reconnect,false},
{use_existing_connection,false},
{forward_messages,true}]) of
{ok,Client} ->
case hello(Client,Options#options.timeout) of
ok ->
{ok,Client};
Error ->
Error
end;
Error ->
Error
end;
Error ->
Error
end;
Error ->
Error
end.
%%----------------------------------------------------------------------
%% Open a netconf session and exchange 'hello' messages.
%% If the server options are specified in a configuration file, use
%% open/2.
-spec open(Options) -> Result when
Options :: options(),
Result :: {ok,handle()} | {error,error_reason()}.
open(Options) ->
open(Options,#options{type=connection_and_channel},[],true).
-spec open(KeyOrName, ExtraOptions) -> Result when
KeyOrName :: ct:key_or_name(),
ExtraOptions :: options(),
Result :: {ok,handle()} | {error,error_reason()}.
open(KeyOrName, ExtraOpts) ->
open(KeyOrName, ExtraOpts, true).
open(KeyOrName, ExtraOpts, Hello) ->
SortedExtra = lists:keysort(1,ExtraOpts),
SortedConfig = lists:keysort(1,ct:get_config(KeyOrName,[])),
AllOpts = lists:ukeymerge(1,SortedConfig,SortedExtra),
open(AllOpts,#options{name=KeyOrName,type=connection_and_channel},
[{name,KeyOrName}],Hello).
open(OptList,InitOptRec,NameOpt,Hello) ->
case check_options(OptList,InitOptRec) of
{Host,Port,Options} ->
case ct_gen_conn:start({Host,Port},Options,?MODULE,
NameOpt ++ [{reconnect,false},
{use_existing_connection,false},
{forward_messages,true}]) of
{ok,Client} when Hello==true ->
case hello(Client,Options#options.timeout) of
ok ->
{ok,Client};
Error ->
Error
end;
Other ->
Other
end;
Error ->
Error
end.
%%----------------------------------------------------------------------
%% As open/1,2, except no 'hello' message is sent.
-spec only_open(Options) -> Result when
Options :: options(),
Result :: {ok,handle()} | {error,error_reason()}.
only_open(Options) ->
open(Options,#options{type=connection_and_channel},[],false).
-spec only_open(KeyOrName,ExtraOptions) -> Result when
KeyOrName :: ct:key_or_name(),
ExtraOptions :: options(),
Result :: {ok,handle()} | {error,error_reason()}.
only_open(KeyOrName, ExtraOpts) ->
open(KeyOrName, ExtraOpts, false).
%%----------------------------------------------------------------------
%% Send a 'hello' message.
-spec hello(Client) -> Result when
Client :: handle(),
Result :: ok | {error,error_reason()}.
hello(Client) ->
hello(Client,[],?DEFAULT_TIMEOUT).
-spec hello(Client,Timeout) -> Result when
Client :: handle(),
Timeout :: timeout(),
Result :: ok | {error,error_reason()}.
hello(Client,Timeout) ->
hello(Client,[],Timeout).
-spec hello(Client,Options,Timeout) -> Result when
Client :: handle(),
Options :: [{capability, [string()]}],
Timeout :: timeout(),
Result :: ok | {error,error_reason()}.
hello(Client,Options,Timeout) ->
call(Client, {hello, Options, Timeout}).
%%----------------------------------------------------------------------
%% Get the session id for the session specified by Client.
-spec get_session_id(Client) -> Result when
Client :: client(),
Result :: pos_integer() | {error,error_reason()}.
get_session_id(Client) ->
get_session_id(Client, ?DEFAULT_TIMEOUT).
-spec get_session_id(Client, Timeout) -> Result when
Client :: client(),
Timeout :: timeout(),
Result :: pos_integer() | {error,error_reason()}.
get_session_id(Client, Timeout) ->
call(Client, get_session_id, Timeout).
%%----------------------------------------------------------------------
%% Get the server side capabilities.
-spec get_capabilities(Client) -> Result when
Client :: client(),
Result :: [string()] | {error,error_reason()}.
get_capabilities(Client) ->
get_capabilities(Client, ?DEFAULT_TIMEOUT).
-spec get_capabilities(Client, Timeout) -> Result when
Client :: client(),
Timeout :: timeout(),
Result :: [string()] | {error,error_reason()}.
get_capabilities(Client, Timeout) ->
call(Client, get_capabilities, Timeout).
%%----------------------------------------------------------------------
%% Send an XML document to the server.
-spec send(Client, SimpleXml) -> Result when
Client :: client(),
SimpleXml :: simple_xml(),
Result :: simple_xml() | {error,error_reason()}.
send(Client, SimpleXml) ->
send(Client, SimpleXml, ?DEFAULT_TIMEOUT).
-spec send(Client, SimpleXml, Timeout) -> Result when
Client :: client(),
SimpleXml :: simple_xml(),
Timeout :: timeout(),
Result :: simple_xml() | {error,error_reason()}.
send(Client, SimpleXml, Timeout) ->
call(Client,{send, Timeout, SimpleXml}).
%%----------------------------------------------------------------------
%% Wrap the given XML document in a valid netconf 'rpc' request and
%% send to the server.
-spec send_rpc(Client, SimpleXml) -> Result when
Client :: client(),
SimpleXml :: simple_xml(),
Result :: [simple_xml()] | {error,error_reason()}.
send_rpc(Client, SimpleXml) ->
send_rpc(Client, SimpleXml, ?DEFAULT_TIMEOUT).
-spec send_rpc(Client, SimpleXml, Timeout) -> Result when
Client :: client(),
SimpleXml :: simple_xml(),
Timeout :: timeout(),
Result :: [simple_xml()] | {error,error_reason()}.
send_rpc(Client, SimpleXml, Timeout) ->
call(Client,{send_rpc, SimpleXml, Timeout}).
%%----------------------------------------------------------------------
%% Send a 'lock' request.
-spec lock(Client, Target) -> Result when
Client :: client(),
Target :: netconf_db(),
Result :: ok | {error,error_reason()}.
lock(Client, Target) ->
lock(Client, Target,?DEFAULT_TIMEOUT).
-spec lock(Client, Target, Timeout) -> Result when
Client :: client(),
Target :: netconf_db(),
Timeout :: timeout(),
Result :: ok | {error,error_reason()}.
lock(Client, Target, Timeout) ->
call(Client,{send_rpc_op,lock,[Target],Timeout}).
%%----------------------------------------------------------------------
%% Send a 'unlock' request.
-spec unlock(Client, Target) -> Result when
Client :: client(),
Target :: netconf_db(),
Result :: ok | {error,error_reason()}.
unlock(Client, Target) ->
unlock(Client, Target,?DEFAULT_TIMEOUT).
-spec unlock(Client, Target, Timeout) -> Result when
Client :: client(),
Target :: netconf_db(),
Timeout :: timeout(),
Result :: ok | {error,error_reason()}.
unlock(Client, Target, Timeout) ->
call(Client, {send_rpc_op, unlock, [Target], Timeout}).
%%----------------------------------------------------------------------
%% Send a 'get' request.
-spec get(Client, Filter) -> Result when
Client :: client(),
Filter :: simple_xml() | xpath(),
Result :: {ok,[simple_xml()]} | {error,error_reason()}.
get(Client, Filter) ->
get(Client, Filter, ?DEFAULT_TIMEOUT).
-spec get(Client, Filter, Timeout) -> Result when
Client :: client(),
Filter :: simple_xml() | xpath(),
Timeout :: timeout(),
Result :: {ok,[simple_xml()]} | {error,error_reason()}.
get(Client, Filter, Timeout) ->
call(Client,{send_rpc_op, get, [Filter], Timeout}).
%%----------------------------------------------------------------------
%% Send a 'get-config' request.
-spec get_config(Client, Source, Filter) -> Result when
Client :: client(),
Source :: netconf_db(),
Filter :: simple_xml() | xpath(),
Result :: {ok,[simple_xml()]} | {error,error_reason()}.
get_config(Client, Source, Filter) ->
get_config(Client, Source, Filter, ?DEFAULT_TIMEOUT).
-spec get_config(Client, Source, Filter, Timeout) -> Result when
Client :: client(),
Source :: netconf_db(),
Filter :: simple_xml() | xpath(),
Timeout :: timeout(),
Result :: {ok,[simple_xml()]} | {error,error_reason()}.
get_config(Client, Source, Filter, Timeout) ->
call(Client, {send_rpc_op, get_config, [Source, Filter], Timeout}).
%%----------------------------------------------------------------------
%% Send a 'edit-config' request.
-spec edit_config(Client, Target, Config) -> Result when
Client :: client(),
Target :: netconf_db(),
Config :: simple_xml(),
Result :: ok | {error,error_reason()}.
edit_config(Client, Target, Config) ->
edit_config(Client, Target, Config, ?DEFAULT_TIMEOUT).
-spec edit_config(Client, Target, Config, OptParams) -> Result when
Client :: client(),
Target :: netconf_db(),
Config :: simple_xml(),
OptParams :: [simple_xml()],
Result :: ok | {error,error_reason()};
(Client, Target, Config, Timeout) -> Result when
Client :: client(),
Target :: netconf_db(),
Config :: simple_xml(),
Timeout :: timeout(),
Result :: ok | {error,error_reason()}.
edit_config(Client, Target, Config, Timeout) when ?is_timeout(Timeout) ->
edit_config(Client, Target, Config, [], Timeout);
edit_config(Client, Target, Config, OptParams) when is_list(OptParams) ->
edit_config(Client, Target, Config, OptParams, ?DEFAULT_TIMEOUT).
-spec edit_config(Client, Target, Config, OptParams, Timeout) -> Result when
Client :: client(),
Target :: netconf_db(),
Config :: simple_xml(),
OptParams :: [simple_xml()],
Timeout :: timeout(),
Result :: ok | {error,error_reason()}.
edit_config(Client, Target, Config, OptParams, Timeout) ->
call(Client, {send_rpc_op, edit_config, [Target,Config,OptParams], Timeout}).
%%----------------------------------------------------------------------
%% Send a 'delete-config' request.
-spec delete_config(Client, Target) -> Result when
Client :: client(),
Target :: startup | candidate,
Result :: ok | {error,error_reason()}.
delete_config(Client, Target) ->
delete_config(Client, Target, ?DEFAULT_TIMEOUT).
-spec delete_config(Client, Target, Timeout) -> Result when
Client :: client(),
Target :: startup | candidate,
Timeout :: timeout(),
Result :: ok | {error,error_reason()}.
delete_config(Client, Target, Timeout) when Target == startup;
Target == candidate ->
call(Client,{send_rpc_op, delete_config, [Target], Timeout}).
%%----------------------------------------------------------------------
%% Send a 'copy-config' request.
-spec copy_config(Client, Target, Source) -> Result when
Client :: client(),
Target :: netconf_db(),
Source :: netconf_db(),
Result :: ok | {error,error_reason()}.
copy_config(Client, Source, Target) ->
copy_config(Client, Source, Target, ?DEFAULT_TIMEOUT).
-spec copy_config(Client, Target, Source, Timeout) -> Result when
Client :: client(),
Target :: netconf_db(),
Source :: netconf_db(),
Timeout :: timeout(),
Result :: ok | {error,error_reason()}.
copy_config(Client, Target, Source, Timeout) ->
call(Client,{send_rpc_op, copy_config, [Target, Source], Timeout}).
%%----------------------------------------------------------------------
%% Execute an action.
-spec action(Client, Action) -> Result when
Client :: client(),
Action :: simple_xml(),
Result :: ok | {ok,[simple_xml()]} | {error,error_reason()}.
action(Client,Action) ->
action(Client,Action,?DEFAULT_TIMEOUT).
-spec action(Client, Action, Timeout) -> Result when
Client :: client(),
Action :: simple_xml(),
Timeout :: timeout(),
Result :: ok | {ok,[simple_xml()]} | {error,error_reason()}.
action(Client,Action,Timeout) ->
call(Client,{send_rpc_op, action, [Action], Timeout}).
%%----------------------------------------------------------------------
%% Send a 'create-subscription' request
%% See RFC5277, NETCONF Event Notifications
-spec create_subscription(Client) -> Result when
Client :: client(),
Result :: ok | {error,error_reason()}.
create_subscription(Client) ->
create_subscription(Client,?DEFAULT_STREAM,?DEFAULT_TIMEOUT).
-spec create_subscription(Client, Stream | Filter | Timeout) -> Result when
Client :: client(),
Stream :: stream_name(),
Filter :: simple_xml() | [simple_xml()],
Timeout :: timeout(),
Result :: ok | {error,error_reason()}.
create_subscription(Client,Timeout)
when ?is_timeout(Timeout) ->
create_subscription(Client,?DEFAULT_STREAM,Timeout);
create_subscription(Client,Stream)
when ?is_string(Stream) ->
create_subscription(Client,Stream,?DEFAULT_TIMEOUT);
create_subscription(Client,Filter)
when ?is_filter(Filter) ->
create_subscription(Client,?DEFAULT_STREAM,Filter,
?DEFAULT_TIMEOUT).
create_subscription(Client,Stream,Timeout)
when ?is_string(Stream) andalso
?is_timeout(Timeout) ->
call(Client,{send_rpc_op,{create_subscription,self()},
[Stream,undefined,undefined,undefined],
Timeout});
create_subscription(Client,StartTime,StopTime)
when ?is_string(StartTime) andalso
?is_string(StopTime) ->
create_subscription(Client,?DEFAULT_STREAM,StartTime,StopTime,
?DEFAULT_TIMEOUT);
create_subscription(Client,Filter,Timeout)
when ?is_filter(Filter) andalso
?is_timeout(Timeout) ->
create_subscription(Client,?DEFAULT_STREAM,Filter,Timeout);
create_subscription(Client,Stream,Filter)
when ?is_string(Stream) andalso
?is_filter(Filter) ->
create_subscription(Client,Stream,Filter,?DEFAULT_TIMEOUT).
create_subscription(Client,StartTime,StopTime,Timeout)
when ?is_string(StartTime) andalso
?is_string(StopTime) andalso
?is_timeout(Timeout) ->
create_subscription(Client,?DEFAULT_STREAM,StartTime,StopTime,Timeout);
create_subscription(Client,Stream,StartTime,StopTime)
when ?is_string(Stream) andalso
?is_string(StartTime) andalso
?is_string(StopTime) ->
create_subscription(Client,Stream,StartTime,StopTime,?DEFAULT_TIMEOUT);
create_subscription(Client,Filter,StartTime,StopTime)
when ?is_filter(Filter) andalso
?is_string(StartTime) andalso
?is_string(StopTime) ->
create_subscription(Client,?DEFAULT_STREAM,Filter,
StartTime,StopTime,?DEFAULT_TIMEOUT);
create_subscription(Client,Stream,Filter,Timeout)
when ?is_string(Stream) andalso
?is_filter(Filter) andalso
?is_timeout(Timeout) ->
call(Client,{send_rpc_op,{create_subscription,self()},
[Stream,Filter,undefined,undefined],
Timeout}).
-spec create_subscription(Client, Stream, StartTime, StopTime, Timeout) ->
Result when
Client :: client(),
Stream :: stream_name(),
StartTime :: xs_datetime(),
StopTime :: xs_datetime(),
Timeout :: timeout(),
Result :: ok | {error,error_reason()};
(Client, Stream, Filter,StartTime, StopTime) ->
Result when
Client :: client(),
Stream :: stream_name(),
Filter :: simple_xml() | [simple_xml()],
StartTime :: xs_datetime(),
StopTime :: xs_datetime(),
Result :: ok | {error,error_reason()}.
create_subscription(Client,Stream,StartTime,StopTime,Timeout)
when ?is_string(Stream) andalso
?is_string(StartTime) andalso
?is_string(StopTime) andalso
?is_timeout(Timeout) ->
call(Client,{send_rpc_op,{create_subscription,self()},
[Stream,undefined,StartTime,StopTime],
Timeout});
create_subscription(Client,Stream,Filter,StartTime,StopTime)
when ?is_string(Stream) andalso
?is_filter(Filter) andalso
?is_string(StartTime) andalso
?is_string(StopTime) ->
create_subscription(Client,Stream,Filter,StartTime,StopTime,?DEFAULT_TIMEOUT).
-spec create_subscription(Client, Stream, Filter,StartTime, StopTime, Timeout) ->
Result when
Client :: client(),
Stream :: stream_name(),
Filter :: simple_xml() | [simple_xml()],
StartTime :: xs_datetime(),
StopTime :: xs_datetime(),
Timeout :: timeout(),
Result :: ok | {error,error_reason()}.
create_subscription(Client,Stream,Filter,StartTime,StopTime,Timeout) ->
call(Client,{send_rpc_op,{create_subscription, self()},
[Stream,Filter,StartTime,StopTime],
Timeout}).
%%----------------------------------------------------------------------
%% Send a request to get the given event streams
%% See RFC5277, NETCONF Event Notifications
-spec get_event_streams(Client)
-> Result when
Client :: client(),
Result :: {ok,streams()} | {error,error_reason()}.
get_event_streams(Client) ->
get_event_streams(Client,[],?DEFAULT_TIMEOUT).
-spec get_event_streams(Client, Timeout)
-> Result when
Client :: client(),
Timeout :: timeout(),
Result :: {ok,streams()} | {error,error_reason()};
(Client, Streams) -> Result when
Client :: client(),
Streams :: [stream_name()],
Result :: {ok,streams()} | {error,error_reason()}.
get_event_streams(Client,Timeout) when is_integer(Timeout); Timeout==infinity ->
get_event_streams(Client,[],Timeout);
get_event_streams(Client,Streams) when is_list(Streams) ->
get_event_streams(Client,Streams,?DEFAULT_TIMEOUT).
-spec get_event_streams(Client, Streams, Timeout)
-> Result when
Client :: client(),
Streams :: [stream_name()],
Timeout :: timeout(),
Result :: {ok,streams()} | {error,error_reason()}.
get_event_streams(Client,Streams,Timeout) ->
call(Client,{get_event_streams,Streams,Timeout}).
%%----------------------------------------------------------------------
%% Send a 'close-session' request
-spec close_session(Client) -> Result when
Client :: client(),
Result :: ok | {error,error_reason()}.
close_session(Client) ->
close_session(Client, ?DEFAULT_TIMEOUT).
-spec close_session(Client, Timeout) -> Result when
Client :: client(),
Timeout :: timeout(),
Result :: ok | {error,error_reason()}.
close_session(Client, Timeout) ->
call(Client,{send_rpc_op, close_session, [], Timeout}, true).
%%----------------------------------------------------------------------
%% Send a 'kill-session' request
-spec kill_session(Client, SessionId) -> Result when
Client :: client(),
SessionId :: pos_integer(),
Result :: ok | {error,error_reason()}.
kill_session(Client, SessionId) ->
kill_session(Client, SessionId, ?DEFAULT_TIMEOUT).
-spec kill_session(Client, SessionId, Timeout) -> Result when
Client :: client(),
SessionId :: pos_integer(),
Timeout :: timeout(),
Result :: ok | {error,error_reason()}.
kill_session(Client, SessionId, Timeout) ->
call(Client,{send_rpc_op, kill_session, [SessionId], Timeout}).
%%----------------------------------------------------------------------
%% Callback functions
%%----------------------------------------------------------------------
init(_KeyOrName,{CM,{Host,Port}},Options) ->
case ssh_channel(#connection{reference=CM,host=Host,port=Port},Options) of
{ok,Connection} ->
{ok, CM, #state{connection = Connection}};
{error,Reason}->
{error,Reason}
end;
init(_KeyOrName,{_Host,_Port},Options) when Options#options.type==connection ->
case ssh_connect(Options) of
{ok, Connection} ->
ConnPid = Connection#connection.reference,
{ok, ConnPid, #state{connection = Connection}};
Error ->
Error
end;
init(_KeyOrName,{_Host,_Port},Options) ->
case ssh_open(Options) of
{ok, Connection} ->
{ConnPid,_} = Connection#connection.reference,
{ok, ConnPid, #state{connection = Connection}};
{error,Reason}->
{error,Reason}
end.
terminate(_, #state{connection=Connection}) ->
ssh_close(Connection),
ok.
handle_msg({hello, Options, Timeout}, From,
#state{connection=Connection,hello_status=HelloStatus} = State) ->
case do_send(Connection, client_hello(Options)) of
ok ->
case HelloStatus of
undefined ->
{Ref,TRef} = set_request_timer(Timeout),
{noreply, State#state{hello_status=#pending{tref=TRef,
ref=Ref,
caller=From}}};
received ->
{reply, ok, State#state{hello_status=done}};
{error,Reason} ->
{stop, {error,Reason}, State}
end;
Error ->
{stop, Error, State}
end;
handle_msg(get_ssh_connection, _From, #state{connection=Connection}=State) ->
Reply =
case Connection#connection.reference of
{_,_} -> {error,not_an_ssh_connection};
CM -> {ok,{CM,{Connection#connection.host,
Connection#connection.port}}}
end,
{reply, Reply, State};
handle_msg(_, _From, #state{session_id=undefined} = State) ->
%% Hello is not yet excanged - this shall never happen
{reply,{error,waiting_for_hello},State};
handle_msg(get_capabilities, _From, #state{capabilities = Caps} = State) ->
{reply, Caps, State};
handle_msg(get_session_id, _From, #state{session_id = Id} = State) ->
{reply, Id, State};
handle_msg({send, Timeout, SimpleXml}, From,
#state{connection=Connection,pending=Pending} = State) ->
case do_send(Connection, SimpleXml) of
ok ->
{Ref,TRef} = set_request_timer(Timeout),
{noreply, State#state{pending=[#pending{tref=TRef,
ref=Ref,
caller=From} | Pending]}};
Error ->
{reply, Error, State}
end;
handle_msg({send_rpc, SimpleXml, Timeout}, From, State) ->
do_send_rpc(undefined, SimpleXml, Timeout, From, State);
handle_msg({send_rpc_op, Op, Data, Timeout}, From, State) ->
SimpleXml = encode_rpc_operation(Op,Data),
do_send_rpc(Op, SimpleXml, Timeout, From, State);
handle_msg({get_event_streams=Op,Streams,Timeout}, From, State) ->
Filter = {netconf,?NETMOD_NOTIF_NAMESPACE_ATTR,
[{streams,[{stream,[{name,[Name]}]} || Name <- Streams]}]},
SimpleXml = encode_rpc_operation(get,[Filter]),
do_send_rpc(Op, SimpleXml, Timeout, From, State).
handle_msg({ssh_cm, CM, {data, Ch, _Type, Data}}, State) ->
ssh_connection:adjust_window(CM,Ch,size(Data)),
handle_data(Data, State);
handle_msg({ssh_cm, _CM, _SshCloseMsg}, State) ->
%% _SshCloseMsg can probably be one of
%% {eof,Ch}
%% {exit_status,Ch,Status}
%% {exit_signal,Ch,ExitSignal,ErrorMsg,LanguageString}
%% {signal,Ch,Signal}
%% This might e.g. happen if the server terminates the connection,
%% as in kill-session (or if ssh:close is called from somewhere
%% unexpected).
%%! Log this??
%%! Currently the log will say that the client closed the
%%! connection - due to terminate/2
{stop, State};
handle_msg({Ref,timeout},
#state{hello_status=#pending{ref=Ref,caller=Caller}} = State) ->
ct_gen_conn:return(Caller,{error,{hello_session_failed,timeout}}),
{stop,State#state{hello_status={error,timeout}}};
handle_msg({Ref,timeout},#state{pending=Pending} = State) ->
{value,#pending{op=Op,caller=Caller},Pending1} =
lists:keytake(Ref,#pending.ref,Pending),
ct_gen_conn:return(Caller,{error,timeout}),
R = case Op of
close_session -> stop;
_ -> noreply
end,
%% Halfhearted try to get in correct state, this matches
%% the implementation before this patch
{R,State#state{pending=Pending1, no_end_tag_buff= <<>>, buff= <<>>}}.
%% Called by ct_util_server to close registered connections before terminate.
close(Client) ->
case get_handle(Client) of
{ok,Pid} ->
case ct_gen_conn:stop(Pid) of
{error,{process_down,Pid,noproc}} ->
{error,already_closed};
Result ->
Result
end;
Error ->
Error
end.
%%----------------------------------------------------------------------
%% Internal functions
%%----------------------------------------------------------------------
call(Client, Msg) ->
call(Client, Msg, infinity, false).
call(Client, Msg, Timeout) when is_integer(Timeout); Timeout==infinity ->
call(Client, Msg, Timeout, false);
call(Client, Msg, WaitStop) when is_boolean(WaitStop) ->
call(Client, Msg, infinity, WaitStop).
call(Client, Msg, Timeout, WaitStop) ->
case get_handle(Client) of
{ok,Pid} ->
case ct_gen_conn:call(Pid,Msg,Timeout) of
{error,{process_down,Pid,noproc}} ->
{error,no_such_client};
{error,{process_down,Pid,normal}} when WaitStop ->
%% This will happen when server closes connection
%% before client received rpc-reply on
%% close-session.
ok;
{error,{process_down,Pid,normal}} ->
{error,closed};
{error,{process_down,Pid,Reason}} ->
{error,{closed,Reason}};
Other when WaitStop ->
MRef = erlang:monitor(process,Pid),
receive
{'DOWN',MRef,process,Pid,Normal} when Normal==normal;
Normal==noproc ->
Other;
{'DOWN',MRef,process,Pid,Reason} ->
{error,{{closed,Reason},Other}}
after Timeout ->
erlang:demonitor(MRef, [flush]),
{error,{timeout,Other}}
end;
Other ->
Other
end;
Error ->
Error
end.
get_handle(Client) when is_pid(Client) ->
{ok,Client};
get_handle(Client) ->
case ct_util:get_connection(Client, ?MODULE) of
{ok,{Pid,_}} ->
{ok,Pid};
{error,no_registered_connection} ->
{error,{no_connection_found,Client}};
Error ->
Error
end.
check_options(OptList,Options) ->
check_options(OptList,undefined,undefined,Options).
check_options([], undefined, _Port, _Options) ->
{error, no_host_address};
check_options([], _Host, undefined, _Options) ->
{error, no_port};
check_options([], Host, Port, Options) ->
{Host,Port,Options};
check_options([{ssh, Host}|T], _, Port, Options) ->
check_options(T, Host, Port, Options#options{host=Host});
check_options([{port,Port}|T], Host, _, Options) ->
check_options(T, Host, Port, Options#options{port=Port});
check_options([{timeout, Timeout}|T], Host, Port, Options)
when is_integer(Timeout); Timeout==infinity ->
check_options(T, Host, Port, Options#options{timeout = Timeout});
check_options([{timeout, _} = Opt|_T], _Host, _Port, _Options) ->
{error, {invalid_option, Opt}};
check_options([Opt|T], Host, Port, #options{ssh=SshOpts}=Options) ->
%% Option verified by ssh
check_options(T, Host, Port, Options#options{ssh=[Opt|SshOpts]}).
check_session_options([],Options) ->
{ok,Options};
check_session_options([{timeout, Timeout}|T], Options)
when is_integer(Timeout); Timeout==infinity ->
check_session_options(T, Options#options{timeout = Timeout});
check_session_options([Opt|_T], _Options) ->
{error, {invalid_option, Opt}}.
%%%-----------------------------------------------------------------
set_request_timer(infinity) ->
{undefined,undefined};
set_request_timer(T) ->
Ref = make_ref(),
{ok,TRef} = timer:send_after(T,{Ref,timeout}),
{Ref,TRef}.
%%%-----------------------------------------------------------------
cancel_request_timer(undefined,undefined) ->
ok;
cancel_request_timer(Ref,TRef) ->
_ = timer:cancel(TRef),
receive {Ref,timeout} -> ok
after 0 -> ok
end.
%%%-----------------------------------------------------------------
client_hello(Options) when is_list(Options) ->
UserCaps = [{capability, UserCap} ||
{capability, UserCap} <- Options,
is_list(hd(UserCap))],
{hello, ?NETCONF_NAMESPACE_ATTR,
[{capabilities,
[{capability,[?NETCONF_BASE_CAP++?NETCONF_BASE_CAP_VSN]}|
UserCaps]}]}.
%%%-----------------------------------------------------------------
encode_rpc_operation(Lock,[Target]) when Lock==lock; Lock==unlock ->
{Lock,[{target,[Target]}]};
encode_rpc_operation(get,[Filter]) ->
{get,filter(Filter)};
encode_rpc_operation(get_config,[Source,Filter]) ->
{'get-config',[{source,[Source]}] ++ filter(Filter)};
encode_rpc_operation(edit_config,[Target,Config,OptParams]) ->
{'edit-config',[{target,[Target]}] ++ OptParams ++ [{config,[Config]}]};
encode_rpc_operation(delete_config,[Target]) ->
{'delete-config',[{target,[Target]}]};
encode_rpc_operation(copy_config,[Target,Source]) ->
{'copy-config',[{target,[Target]},{source,[Source]}]};
encode_rpc_operation(action,[Action]) ->
{action,?ACTION_NAMESPACE_ATTR,[{data,[Action]}]};
encode_rpc_operation(kill_session,[SessionId]) ->
{'kill-session',[{'session-id',[integer_to_list(SessionId)]}]};
encode_rpc_operation(close_session,[]) ->
'close-session';
encode_rpc_operation({create_subscription,_},
[Stream,Filter,StartTime,StopTime]) ->
{'create-subscription',?NETCONF_NOTIF_NAMESPACE_ATTR,
[{stream,[Stream]}] ++
filter(Filter) ++
maybe_element(startTime,StartTime) ++
maybe_element(stopTime,StopTime)}.
filter(undefined) ->
[];
filter({xpath,Filter}) when ?is_string(Filter) ->
[{filter,[{type,"xpath"},{select, Filter}],[]}];
filter(Filter) when is_list(Filter) ->
[{filter,[{type,"subtree"}],Filter}];
filter(Filter) ->
filter([Filter]).
maybe_element(_,undefined) ->
[];
maybe_element(Tag,Value) ->
[{Tag,[Value]}].
%%%-----------------------------------------------------------------
%%% Send XML data to server
do_send_rpc(PendingOp,SimpleXml,Timeout,Caller,
#state{connection=Connection,msg_id=MsgId,pending=Pending} = State) ->
case do_send_rpc(Connection, MsgId, SimpleXml) of
ok ->
{Ref,TRef} = set_request_timer(Timeout),
{noreply, State#state{msg_id=MsgId+1,
pending=[#pending{tref=TRef,
ref=Ref,
msg_id=MsgId,
op=PendingOp,
caller=Caller} | Pending]}};
Error ->
{reply, Error, State#state{msg_id=MsgId+1}}
end.
do_send_rpc(Connection, MsgId, SimpleXml) ->
do_send(Connection,
{rpc,
[{'message-id',MsgId} | ?NETCONF_NAMESPACE_ATTR],
[SimpleXml]}).
do_send(Connection, SimpleXml) ->
Xml=to_xml_doc(SimpleXml),
ssh_send(Connection, Xml).
to_xml_doc(Simple) ->
Prolog = "<?xml version=\"1.0\" encoding=\"UTF-8\"?>",
Xml = unicode:characters_to_binary(
xmerl:export_simple([Simple],
xmerl_xml,
[#xmlAttribute{name=prolog,
value=Prolog}])),
<<Xml/binary,?END_TAG/binary>>.
%%%-----------------------------------------------------------------
%%% Parse and handle received XML data
%%% Two buffers are used:
%%% * 'no_end_tag_buff' contains data that is checked and does not
%%% contain any (part of an) end tag.
%%% * 'buff' contains all other saved data - it may or may not
%%% include (a part of) an end tag.
%%% The reason for this is to avoid running binary:split/3 multiple
%%% times on the same data when it does not contain an end tag. This
%%% can be a considerable optimation in the case when a lot of data is
%%% received (e.g. when fetching all data from a node) and the data is
%%% sent in multiple ssh packages.
handle_data(NewData,#state{connection=Connection} = State0) ->
log(Connection,recv,NewData),
NoEndTag0 = State0#state.no_end_tag_buff,
Buff0 = State0#state.buff,
Data = <<Buff0/binary, NewData/binary>>,
case binary:split(Data,?END_TAG,[]) of
[_NoEndTagFound] ->
NoEndTagSize = case byte_size(Data) of
Sz when Sz<5 -> 0;
Sz -> Sz-5
end,
<<NoEndTag1:NoEndTagSize/binary,Buff/binary>> = Data,
NoEndTag = <<NoEndTag0/binary,NoEndTag1/binary>>,
{noreply, State0#state{no_end_tag_buff=NoEndTag, buff=Buff}};
[FirstMsg0,Buff1] ->
FirstMsg = remove_initial_nl(<<NoEndTag0/binary,FirstMsg0/binary>>),
SaxArgs = [{event_fun,fun sax_event/3}, {event_state,[]}],
case xmerl_sax_parser:stream(FirstMsg, SaxArgs) of
{ok, Simple, _Thrash} ->
case decode(Simple, State0#state{no_end_tag_buff= <<>>,
buff=Buff1}) of
{noreply, #state{buff=Buff} = State} when Buff =/= <<>> ->
%% Recurse if we have more data in buffer
handle_data(<<>>, State);
Other ->
Other
end;
{fatal_error,_Loc,Reason,_EndTags,_EventState} ->
?error(Connection#connection.name,
[{parse_error,Reason},
{buffer, Buff0},
{new_data,NewData}]),
handle_error(Reason, State0#state{no_end_tag_buff= <<>>,
buff= <<>>})
end
end.
%% xml does not accept a leading nl and some netconf server add a nl after
%% each ?END_TAG, ignore them
remove_initial_nl(<<"\n", Data/binary>>) ->
remove_initial_nl(Data);
remove_initial_nl(Data) ->
Data.
handle_error(Reason, State) ->
Pending1 = case State#state.pending of
[] -> [];
Pending ->
%% Assuming the first request gets the
%% first answer
P=#pending{tref=TRef,ref=Ref,caller=Caller} =
lists:last(Pending),
cancel_request_timer(Ref,TRef),
Reason1 = {failed_to_parse_received_data,Reason},
ct_gen_conn:return(Caller,{error,Reason1}),
lists:delete(P,Pending)
end,
{noreply, State#state{pending=Pending1}}.
%% Event function for the sax parser. It builds a simple XML structure.
%% Care is taken to keep namespace attributes and prefixes as in the original XML.
sax_event(Event,_Loc,State) ->
sax_event(Event,State).
sax_event({startPrefixMapping, Prefix, Uri},Acc) ->
%% startPrefixMapping will always come immediately before the
%% startElement where the namespace is defined.
[{xmlns,{Prefix,Uri}}|Acc];
sax_event({startElement,_Uri,_Name,QN,Attrs},Acc) ->
%% Pick out any namespace attributes inserted due to a
%% startPrefixMapping event.The rest of Acc will then be only
%% elements.
{NsAttrs,NewAcc} = split_attrs_and_elements(Acc,[]),
Tag = qn_to_tag(QN),
[{Tag,NsAttrs ++ parse_attrs(Attrs),[]}|NewAcc];
sax_event({endElement,_Uri,_Name,_QN},[{Name,Attrs,Cont},{Parent,PA,PC}|Acc]) ->
[{Parent,PA,[{Name,Attrs,lists:reverse(Cont)}|PC]}|Acc];
sax_event(endDocument,[{Tag,Attrs,Cont}]) ->
{Tag,Attrs,lists:reverse(Cont)};
sax_event({characters,String},[{Name,Attrs,Cont}|Acc]) ->
[{Name,Attrs,[String|Cont]}|Acc];
sax_event(_Event,State) ->
State.
split_attrs_and_elements([{xmlns,{Prefix,Uri}}|Rest],Attrs) ->
split_attrs_and_elements(Rest,[{xmlnstag(Prefix),Uri}|Attrs]);
split_attrs_and_elements(Elements,Attrs) ->
{Attrs,Elements}.
xmlnstag([]) ->
xmlns;
xmlnstag(Prefix) ->
list_to_atom("xmlns:"++Prefix).
qn_to_tag({[],Name}) ->
list_to_atom(Name);
qn_to_tag({Prefix,Name}) ->
list_to_atom(Prefix ++ ":" ++ Name).
parse_attrs([{_Uri, [], Name, Value}|Attrs]) ->
[{list_to_atom(Name),Value}|parse_attrs(Attrs)];
parse_attrs([{_Uri, Prefix, Name, Value}|Attrs]) ->
[{list_to_atom(Prefix ++ ":" ++ Name),Value}|parse_attrs(Attrs)];
parse_attrs([]) ->
[].
%%%-----------------------------------------------------------------
%%% Decoding of parsed XML data
decode({Tag,Attrs,_}=E, #state{connection=Connection,pending=Pending}=State) ->
ConnName = Connection#connection.name,
case get_local_name_atom(Tag) of
'rpc-reply' ->
case get_msg_id(Attrs) of
undefined ->
case Pending of
[#pending{msg_id=MsgId}] ->
?error(ConnName,[{warning,rpc_reply_missing_msg_id},
{assuming,MsgId}]),
decode_rpc_reply(MsgId,E,State);
_ ->
?error(ConnName,[{error,rpc_reply_missing_msg_id}]),
{noreply,State}
end;
MsgId ->
decode_rpc_reply(MsgId,E,State)
end;
hello ->
case State#state.hello_status of
undefined ->
case decode_hello(E) of
{ok,SessionId,Capabilities} ->
{noreply,State#state{session_id = SessionId,
capabilities = Capabilities,
hello_status = received}};
{error,Reason} ->
{noreply,State#state{hello_status = {error,Reason}}}
end;
#pending{tref=TRef,ref=Ref,caller=Caller} ->
cancel_request_timer(Ref,TRef),
case decode_hello(E) of
{ok,SessionId,Capabilities} ->
ct_gen_conn:return(Caller,ok),
{noreply,State#state{session_id = SessionId,
capabilities = Capabilities,
hello_status = done}};
{error,Reason} ->
ct_gen_conn:return(Caller,{error,Reason}),
{stop,State#state{hello_status={error,Reason}}}
end;
Other ->
?error(ConnName,[{got_unexpected_hello,E},
{hello_status,Other}]),
{noreply,State}
end;
notification ->
EventReceiver = State#state.event_receiver,
EventReceiver ! E,
{noreply,State};
Other ->
%% Result of send/2, when not sending an rpc request - or
%% if netconf server sends noise. Can handle this only if
%% there is just one pending that matches (i.e. has
%% undefined msg_id and op)
case [P || P = #pending{msg_id=undefined,op=undefined} <- Pending] of
[#pending{tref=TRef,ref=Ref,caller=Caller}] ->
cancel_request_timer(Ref,TRef),
ct_gen_conn:return(Caller,E),
{noreply,State#state{pending=[]}};
_ ->
?error(ConnName,[{got_unexpected_msg,Other},
{expecting,Pending}]),
{noreply,State}
end
end.
get_msg_id(Attrs) ->
case lists:keyfind('message-id',1,Attrs) of
{_,Str} ->
list_to_integer(Str);
false ->
undefined
end.
decode_rpc_reply(MsgId,{_,Attrs,Content0}=E,#state{pending=Pending} = State) ->
case lists:keytake(MsgId,#pending.msg_id,Pending) of
{value, #pending{tref=TRef,ref=Ref,op=Op,caller=Caller}, Pending1} ->
cancel_request_timer(Ref,TRef),
Content = forward_xmlns_attr(Attrs,Content0),
{CallerReply,{ServerReply,State2}} =
do_decode_rpc_reply(Op,Content,State#state{pending=Pending1}),
ct_gen_conn:return(Caller,CallerReply),
{ServerReply,State2};
false ->
%% Result of send/2, when receiving a correct
%% rpc-reply. Can handle this only if there is just one
%% pending that matches (i.e. has undefined msg_id and op)
case [P || P = #pending{msg_id=undefined,op=undefined} <- Pending] of
[#pending{tref=TRef,
ref=Ref,
msg_id=undefined,
op=undefined,
caller=Caller}] ->
cancel_request_timer(Ref,TRef),
ct_gen_conn:return(Caller,E),
{noreply,State#state{pending=[]}};
_ ->
ConnName = (State#state.connection)#connection.name,
?error(ConnName,[{got_unexpected_msg_id,MsgId},
{expecting,Pending}]),
{noreply,State}
end
end.
do_decode_rpc_reply(Op,Result,State)
when Op==lock; Op==unlock; Op==edit_config; Op==delete_config;
Op==copy_config; Op==kill_session ->
{decode_ok(Result),{noreply,State}};
do_decode_rpc_reply(Op,Result,State)
when Op==get; Op==get_config; Op==action ->
{decode_data(Result),{noreply,State}};
do_decode_rpc_reply(close_session,Result,State) ->
case decode_ok(Result) of
ok -> {ok,{stop,State}};
Other -> {Other,{noreply,State}}
end;
do_decode_rpc_reply({create_subscription,Caller},Result,State) ->
case decode_ok(Result) of
ok ->
{ok,{noreply,State#state{event_receiver=Caller}}};
Other ->
{Other,{noreply,State}}
end;
do_decode_rpc_reply(get_event_streams,Result,State) ->
{decode_streams(decode_data(Result)),{noreply,State}};
do_decode_rpc_reply(undefined,Result,State) ->
{Result,{noreply,State}}.
decode_ok([{Tag,Attrs,Content}]) ->
case get_local_name_atom(Tag) of
ok ->
ok;
'rpc-error' ->
{error,forward_xmlns_attr(Attrs,Content)};
_Other ->
{error,{unexpected_rpc_reply,[{Tag,Attrs,Content}]}}
end;
decode_ok(Other) ->
{error,{unexpected_rpc_reply,Other}}.
decode_data([{Tag,Attrs,Content}]) ->
case get_local_name_atom(Tag) of
ok ->
%% when action has return type void
ok;
data ->
%% Since content of data has nothing from the netconf
%% namespace, we remove the parent's xmlns attribute here
%% - just to make the result cleaner
{ok,forward_xmlns_attr(remove_xmlnsattr_for_tag(Tag,Attrs),Content)};
'rpc-error' ->
{error,forward_xmlns_attr(Attrs,Content)};
_Other ->
{error,{unexpected_rpc_reply,[{Tag,Attrs,Content}]}}
end;
decode_data(Other) ->
{error,{unexpected_rpc_reply,Other}}.
get_qualified_name(Tag) ->
case string:tokens(atom_to_list(Tag),":") of
[TagStr] -> {[],TagStr};
[PrefixStr,TagStr] -> {PrefixStr,TagStr}
end.
get_local_name_atom(Tag) ->
{_,TagStr} = get_qualified_name(Tag),
list_to_atom(TagStr).
%% Remove the xmlns attr that points to the tag. I.e. if the tag has a
%% prefix, remove {'xmlns:prefix',_}, else remove default {xmlns,_}.
remove_xmlnsattr_for_tag(Tag,Attrs) ->
{Prefix,_TagStr} = get_qualified_name(Tag),
XmlnsTag = xmlnstag(Prefix),
case lists:keytake(XmlnsTag,1,Attrs) of
{value,_,NoNsAttrs} ->
NoNsAttrs;
false ->
Attrs
end.
%% Take all xmlns attributes from the parent's attribute list and
%% forward into all childrens' attribute lists. But do not overwrite
%% any.
forward_xmlns_attr(ParentAttrs,Children) ->
do_forward_xmlns_attr(get_all_xmlns_attrs(ParentAttrs,[]),Children).
do_forward_xmlns_attr(XmlnsAttrs,[{ChT,ChA,ChC}|Children]) ->
ChA1 = add_xmlns_attrs(XmlnsAttrs,ChA),
[{ChT,ChA1,ChC} | do_forward_xmlns_attr(XmlnsAttrs,Children)];
do_forward_xmlns_attr(_XmlnsAttrs,[]) ->
[].
add_xmlns_attrs([{Key,_}=A|XmlnsAttrs],ChA) ->
case lists:keymember(Key,1,ChA) of
true ->
add_xmlns_attrs(XmlnsAttrs,ChA);
false ->
add_xmlns_attrs(XmlnsAttrs,[A|ChA])
end;
add_xmlns_attrs([],ChA) ->
ChA.
get_all_xmlns_attrs([{xmlns,_}=Default|Attrs],XmlnsAttrs) ->
get_all_xmlns_attrs(Attrs,[Default|XmlnsAttrs]);
get_all_xmlns_attrs([{Key,_}=Attr|Attrs],XmlnsAttrs) ->
case atom_to_list(Key) of
"xmlns:"++_Prefix ->
get_all_xmlns_attrs(Attrs,[Attr|XmlnsAttrs]);
_ ->
get_all_xmlns_attrs(Attrs,XmlnsAttrs)
end;
get_all_xmlns_attrs([],XmlnsAttrs) ->
XmlnsAttrs.
%% Decode server hello to pick out session id and capabilities
decode_hello({hello,_Attrs,Hello}) ->
case lists:keyfind('session-id',1,Hello) of
{'session-id',_,[SessionId]} ->
case lists:keyfind(capabilities,1,Hello) of
{capabilities,_,Capabilities} ->
case decode_caps(Capabilities,[],false) of
{ok,Caps} ->
{ok,list_to_integer(SessionId),Caps};
Error ->
Error
end;
false ->
{error,{incorrect_hello,capabilities_not_found}}
end;
false ->
{error,{incorrect_hello,no_session_id_found}}
end.
decode_caps([{capability,[],[?NETCONF_BASE_CAP++Vsn=Cap]} |Caps], Acc, _) ->
case Vsn of
?NETCONF_BASE_CAP_VSN ->
decode_caps(Caps, [Cap|Acc], true);
_ ->
{error,{incompatible_base_capability_vsn,Vsn}}
end;
decode_caps([{capability,[],[Cap]}|Caps],Acc,Base) ->
decode_caps(Caps,[Cap|Acc],Base);
decode_caps([H|_T],_,_) ->
{error,{unexpected_capability_element,H}};
decode_caps([],_,false) ->
{error,{incorrect_hello,no_base_capability_found}};
decode_caps([],Acc,true) ->
{ok,lists:reverse(Acc)}.
%% Return a list of {Name,Data}, where data is a {Tag,Value} list for each stream
decode_streams({error,Reason}) ->
{error,Reason};
decode_streams({ok,[{netconf,_,Streams}]}) ->
{ok,decode_streams(Streams)};
decode_streams([{streams,_,Streams}]) ->
decode_streams(Streams);
decode_streams([{stream,_,Stream} | Streams]) ->
{name,_,[Name]} = lists:keyfind(name,1,Stream),
[{Name,[{Tag,Value} || {Tag,_,[Value]} <- Stream, Tag /= name]}
| decode_streams(Streams)];
decode_streams([]) ->
[].
%%%-----------------------------------------------------------------
%%% Logging
log(Connection,Action) ->
log(Connection,Action,<<>>).
log(#connection{reference=Ref,host=Host,port=Port,name=Name},Action,Data) ->
Address =
case Ref of
{_,Ch} -> {Host,Port,Ch};
_ -> {Host,Port}
end,
error_logger:info_report(#conn_log{client=self(),
address=Address,
name=Name,
action=Action,
module=?MODULE},
Data).
%% Log callback - called from the error handler process
format_data(How,Data) ->
%% Assuming that the data is encoded as UTF-8. If it is not, then
%% the printout might be wrong, but the format function will not
%% crash!
%% FIXME: should probably read encoding from the data and do
%% unicode:characters_to_binary(Data,InEncoding,utf8) when calling
%% log/3 instead of assuming utf8 in as done here!
do_format_data(How,unicode:characters_to_binary(Data)).
do_format_data(raw,Data) ->
io_lib:format("~n~ts~n",[hide_password(Data)]);
do_format_data(pretty,Data) ->
maybe_io_lib_format(indent(Data));
do_format_data(html,Data) ->
maybe_io_lib_format(html_format(Data)).
maybe_io_lib_format(<<>>) ->
[];
maybe_io_lib_format(String) ->
io_lib:format("~n~ts~n",[String]).
%%%-----------------------------------------------------------------
%%% Hide password elements from XML data
hide_password(Bin) ->
re:replace(Bin,<<"(<password[^>]*>)[^<]*(</password>)">>,<<"\\1*****\\2">>,
[global,{return,binary},unicode]).
%%%-----------------------------------------------------------------
%%% HTML formatting
html_format(Bin) ->
binary:replace(indent(Bin),<<"<">>,<<"<">>,[global]).
%%%-----------------------------------------------------------------
%%% Indentation of XML code
indent(Bin) ->
String = normalize(hide_password(Bin)),
IndentedString =
case erase(part_of_line) of
undefined ->
indent1(String,[]);
Part ->
indent1(lists:reverse(Part)++String,erase(indent))
end,
unicode:characters_to_binary(IndentedString).
%% Normalizes the XML document by removing all space and newline
%% between two XML tags.
%% Returns a list, no matter if the input was a list or a binary.
normalize(Bin) ->
re:replace(Bin,<<">[ \r\n\t]+<">>,<<"><">>,[global,{return,list},unicode]).
indent1("<?"++Rest1,Indent1) ->
%% Prolog
{Line,Rest2,Indent2} = indent_line(Rest1,Indent1,[$?,$<]),
Line++indent1(Rest2,Indent2);
indent1("</"++Rest1,Indent1) ->
%% Stop tag
case indent_line1(Rest1,Indent1,[$/,$<]) of
{[],[],_} ->
[];
{Line,Rest2,Indent2} ->
"\n"++Line++indent1(Rest2,Indent2)
end;
indent1("<"++Rest1,Indent1) ->
%% Start- or empty tag
put(tag,get_tag(Rest1)),
case indent_line(Rest1,Indent1,[$<]) of
{[],[],_} ->
[];
{Line,Rest2,Indent2} ->
"\n"++Line++indent1(Rest2,Indent2)
end;
indent1([H|T],Indent) ->
[H|indent1(T,Indent)];
indent1([],_Indent) ->
[].
indent_line("?>"++Rest,Indent,Line) ->
%% Prolog
{lists:reverse(Line)++"?>",Rest,Indent};
indent_line("/></"++Rest,Indent,Line) ->
%% Empty tag, and stop of parent tag -> one step out in indentation
{Indent++lists:reverse(Line)++"/>","</"++Rest,Indent--" "};
indent_line("/>"++Rest,Indent,Line) ->
%% Empty tag, then probably next tag -> keep indentation
{Indent++lists:reverse(Line)++"/>",Rest,Indent};
indent_line("></"++Rest,Indent,Line) ->
LastTag = erase(tag),
case get_tag(Rest) of
LastTag ->
%% Start and stop tag, but no content
indent_line1(Rest,Indent,[$/,$<,$>|Line]);
_ ->
%% Stop tag completed, and then stop tag of parent -> one step out
{Indent++lists:reverse(Line)++">","</"++Rest,Indent--" "}
end;
indent_line("><"++Rest,Indent,Line) ->
%% Stop tag completed, and new tag comming -> keep indentation
{Indent++lists:reverse(Line)++">","<"++Rest," "++Indent};
indent_line("</"++Rest,Indent,Line) ->
%% Stop tag starting -> search for end of this tag
indent_line1(Rest,Indent,[$/,$<|Line]);
indent_line([H|T],Indent,Line) ->
indent_line(T,Indent,[H|Line]);
indent_line([],Indent,Line) ->
%% The line is not complete - will be continued later
put(part_of_line,Line),
put(indent,Indent),
{[],[],Indent}.
indent_line1("></"++Rest,Indent,Line) ->
%% Stop tag completed, and then stop tag of parent -> one step out
{Indent++lists:reverse(Line)++">","</"++Rest,Indent--" "};
indent_line1(">"++Rest,Indent,Line) ->
%% Stop tag completed -> keep indentation
{Indent++lists:reverse(Line)++">",Rest,Indent};
indent_line1([H|T],Indent,Line) ->
indent_line1(T,Indent,[H|Line]);
indent_line1([],Indent,Line) ->
%% The line is not complete - will be continued later
put(part_of_line,Line),
put(indent,Indent),
{[],[],Indent}.
get_tag("/>"++_) ->
[];
get_tag(">"++_) ->
[];
get_tag([H|T]) ->
[H|get_tag(T)];
get_tag([]) ->
%% The line is not complete - will be continued later.
[].
%%%-----------------------------------------------------------------
%%% SSH stuff
ssh_connect(#options{host=Host,timeout=Timeout,port=Port,
ssh=SshOpts,name=Name,type=Type}) ->
case ssh:connect(Host, Port,
[{user_interaction,false},
{silently_accept_hosts, true}|SshOpts],
Timeout) of
{ok,CM} ->
Connection = #connection{reference = CM,
host = Host,
port = Port,
name = Name,
type = Type},
log(Connection,connect),
{ok,Connection};
{error,Reason} ->
{error,{ssh,could_not_connect_to_server,Reason}}
end.
ssh_channel(#connection{reference=CM}=Connection0,
#options{timeout=Timeout,name=Name,type=Type}) ->
case ssh_connection:session_channel(CM, Timeout) of
{ok,Ch} ->
case ssh_connection:subsystem(CM, Ch, "netconf", Timeout) of
success ->
Connection = Connection0#connection{reference = {CM,Ch},
name = Name,
type = Type},
log(Connection,open),
{ok, Connection};
failure ->
ssh_connection:close(CM,Ch),
{error,{ssh,could_not_execute_netconf_subsystem}};
{error,timeout} ->
ssh_connection:close(CM,Ch),
{error,{ssh,could_not_execute_netconf_subsystem,timeout}}
end;
{error, Reason} ->
{error,{ssh,could_not_open_channel,Reason}}
end.
ssh_open(Options) ->
case ssh_connect(Options) of
{ok,Connection} ->
case ssh_channel(Connection,Options) of
{ok,_} = Ok ->
Ok;
Error ->
ssh_close(Connection),
Error
end;
Error ->
Error
end.
ssh_send(#connection{reference = {CM,Ch}}=Connection, Data) ->
case ssh_connection:send(CM, Ch, Data) of
ok ->
log(Connection,send,Data),
ok;
{error,Reason} ->
{error,{ssh,failed_to_send_data,Reason}}
end.
ssh_close(Connection=#connection{reference = {CM,Ch}, type = Type}) ->
_ = ssh_connection:close(CM,Ch),
log(Connection,close),
case Type of
connection_and_channel ->
ssh_close(Connection#connection{reference = CM});
_ ->
ok
end,
ok;
ssh_close(Connection=#connection{reference = CM}) ->
_ = ssh:close(CM),
log(Connection,disconnect),
ok.
%%----------------------------------------------------------------------
%% END OF MODULE
%%----------------------------------------------------------------------