Oberon/ETH Oberon/PPPIPCP.Mod
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< Oberon | ETH Oberon
(* ETH Oberon, Copyright 1990-2003 Computer Systems Institute, ETH Zurich, CH-8092 Zurich.
Refer to the license.txt file provided with this distribution. *)
MODULE PPPFSM; (** non-portable *)
(* FSM = Finite State Machine; equivalent to "automaton" in RFC 1548. *)
(* $VCS 2, Edgar.Schwarz@z.zgs.de, 5 Sep 99, 13:46:21 $
$Log$
$ 2, Edgar.Schwarz@z.zgs.de, 5 Sep 99, 13:46:21
log message for echo reply addes
$ 1, Edgar.Schwarz@z.zgs.de, 28 Feb 99, 22:15:39
version for PPP 1.0.0
*)
IMPORT
HDLC := PPPHDLC, Debug := PPPDebug, Tools := PPPTools;
CONST
(** CP (LCP, IPCP, etc.) codes *)
ConfReq* = 1; (* configuration request *)
ConfAck* = 2; (* configuration ack *)
ConfNak* = 3; (* configuration nak *)
ConfRej* = 4; (* configuration reject *)
TermReq = 5; (* termination request *)
TermAck = 6; (* termination ack *)
CodeRej = 7; (* code reject *)
ProtRej = 8; (* protocol reject *)
EchoReq = 9;
EchoReply = 10;
(** Link states *)
Initial* = 0; (* down, hasn't been opened *)
Starting* = 1; (* down, been opened *)
Closed* = 2; (* up, hasn't been opened *)
Stopped* = 3; (* open, waiting for down event *)
Closing* = 4; (* Terminating the connection, not open *)
Stopping* = 5; (* terminating, but open *)
ReqSent* = 6; (* we've sent a config request *)
AckRcvd* = 7; (* we've received a config ack *)
AckSent* = 8; (* we've sent a config ack *)
Opened* = 9; (* connection available *)
(** Flags *)
Passive* = 0; (* don't die if we don't get a response *)
Restart* = 1; (* treat second Open as Down, Up *)
Silent* = 2; (* wait for peer to speak first *)
(** Timeouts *)
DefTimeout* = 30000; (* timeout time in milliseconds *)
DefMaxTermReqs* = 2; (* maximum terminate-request transmissions *)
DefMaxConfReqs* = 10; (* maximum configure-request transmissions *)
DefMaxNakLoops* = 10; (* maximum # of nak loops *)
HeaderLen = 4; (* code(1) + id(1) + len(2) = HeaderLen of a CP-Packet *)
StartPos = HDLC.StartPos + HDLC.HDLCHeaderLen + HeaderLen;
newtransmit = TRUE; retransmit = FALSE;
StrLen* = 33;
TYPE
Params = POINTER TO ParamsDesc;
FSM* = POINTER TO FSMDesc;
FSMDesc* = RECORD
Protocol*: INTEGER; ProtoName*: ARRAY 32 OF CHAR;
State*: SHORTINT;
Flags*: SET;
ID*, reqID*: SHORTINT; (* unsigned char *)
TimeoutTime: LONGINT;
MaxConfReqTransmits*, Retransmits*, MaxTermTransmits*, NakLoops*, MaxNakLoops*: INTEGER;
(* Callback Procedures *)
ResetCI*: PROCEDURE (f: FSM);
CILen*: PROCEDURE (f: FSM): INTEGER;
AddCI*: PROCEDURE (f: FSM; VAR p: ARRAY OF CHAR; pos: INTEGER; VAR len: INTEGER);
AckCI*: PROCEDURE (f: FSM; VAR p: ARRAY OF CHAR; pos, len: INTEGER): BOOLEAN;
NakCI*: PROCEDURE (f: FSM; VAR p: ARRAY OF CHAR; pos, len: INTEGER): BOOLEAN;
RejCI*: PROCEDURE (f: FSM; VAR p: ARRAY OF CHAR; pos, len: INTEGER): BOOLEAN;
ReqCI*: PROCEDURE (f: FSM; VAR p: ARRAY OF CHAR; VAR pos, len: INTEGER; mode: BOOLEAN): SHORTINT;
Up*: PROCEDURE (f: FSM);
Down*: PROCEDURE (f: FSM);
(* Starting*: PROCEDURE (f: FSM); *)
(* Finished*: PROCEDURE (f: FSM); *)
ExtCode*: PROCEDURE (f: FSM; code, id:SHORTINT; VAR inp: ARRAY OF CHAR; pos, len: INTEGER): BOOLEAN;
HDLCConfig*: HDLC.PPPUnit;
params: Params;
END;
ParamsDesc = RECORD (HDLC.ParamsDesc) f:FSM END;
String* = ARRAY StrLen OF CHAR;
VAR
ActTimeout*:LONGINT;
ActMaxConfReqs*:INTEGER;
PROCEDURE ^ Init* (f: FSM);
PROCEDURE ^ LowerUp* (f: FSM);
PROCEDURE ^ LowerDown* (f: FSM);
PROCEDURE ^ Open* (f: FSM);
PROCEDURE ^ Close* (f: FSM);
PROCEDURE ^ Timeout (params: HDLC.Params);
PROCEDURE ^ Input* (f: FSM; VAR p: ARRAY OF CHAR; pos, len: INTEGER);
PROCEDURE ^ ReceiveConfReq* (f: FSM; id: SHORTINT;
VAR p: ARRAY OF CHAR; pos, len: INTEGER);
PROCEDURE ^ ReceiveConfAck* (f: FSM; id: SHORTINT;
VAR p: ARRAY OF CHAR; pos, len: INTEGER);
PROCEDURE ^ ReceiveConfNakRej* (f: FSM; code, id: SHORTINT;
VAR p: ARRAY OF CHAR; pos, len: INTEGER);
PROCEDURE ^ ReceiveTermReq* (f: FSM; id: SHORTINT);
PROCEDURE ^ ReceiveTermAck* (f: FSM);
PROCEDURE ^ ReceiveCodeRej* (f: FSM; VAR p: ARRAY OF CHAR;
pos, len: INTEGER);
PROCEDURE ^ ProtReject* (f: FSM);
PROCEDURE ^ SendConfReq* (f: FSM; retransmit: BOOLEAN);
PROCEDURE ^ SendData* (f: FSM; code, id: SHORTINT;
VAR p: ARRAY OF CHAR; pos, len: INTEGER);
PROCEDURE OutLog* (text1, text2:ARRAY OF CHAR; f:FSM) ;
BEGIN
Debug.String(text1); Debug.Ln;
IF text2 # "" THEN Debug.String(text2); Debug.Ln; END;
Debug.String("protocol: "); Debug.String(f.ProtoName);
Debug.String(" - channel: "); Debug.String(f.HDLCConfig.cname);
Debug.Ln;
END OutLog;
PROCEDURE OutCode* (code: SHORTINT);
BEGIN Debug.String("code: ");
CASE code OF
ConfReq: Debug.String("ConfReq")
| ConfAck: Debug.String("ConfAck")
| ConfNak: Debug.String("ConfNak")
| ConfRej: Debug.String("ConfRej")
| TermReq: Debug.String("TermReq")
| TermAck: Debug.String("TermAck")
| CodeRej: Debug.String("CodeRej")
| ProtRej: Debug.String("ProtocolRej")
| EchoReply: Debug.String("EchoReply")
ELSE Debug.String("*** illegal code ***"); Debug.Int(code, 4);
END;
Debug.Ln
END OutCode;
PROCEDURE GiveState*(state: SHORTINT; VAR s: String);
BEGIN
CASE state OF
Initial: s:="Initial"; | Starting: s:="Starting";
| Closed: s:="Closed"; | Stopped: s:="Stopped";
| Closing: s:="Closing"; | Stopping: s:="Stopping";
| ReqSent: s:="ReqSent"; | AckRcvd: s:="AckRcvd";
| AckSent: s:="AckSent"; | Opened: s:="Opened";
ELSE s:=" *** unknown state ***";
END;
END GiveState;
PROCEDURE OutState* (state: SHORTINT);
VAR s: String;
BEGIN
Debug.String("state: "); GiveState(state, s); Debug.String(s); Debug.Ln
END OutState;
(* Init FSM *)
PROCEDURE Init* (f: FSM);
BEGIN
f.State := Initial; f.Flags := {}; f.ID := 0; (* f.reqID set later *)
f.TimeoutTime := ActTimeout;
f.MaxConfReqTransmits := ActMaxConfReqs;
f.MaxTermTransmits := DefMaxTermReqs;
f.MaxNakLoops := DefMaxNakLoops;
NEW(f.params); f.params.f:=f;
END Init;
(* The lower layer is up *)
PROCEDURE LowerUp* (f: FSM);
BEGIN
IF HDLC.debug THEN OutLog("FSM.LowerUp","",f); OutState(f.State); Debug.Ln; END;
CASE f.State OF
Initial: f.State := Closed
| Starting:
IF Silent IN f.Flags THEN f.State := Stopped
ELSE SendConfReq(f, newtransmit); f.State := ReqSent (* send an initial configure-request *)
END
ELSE
OutLog("FSM.LowerUp","ERROR: in wrong state",f); OutState(f.State); Debug.Ln;
END
END LowerUp;
(* The lower layer is down - cancel all timeouts and inform upper layers *)
PROCEDURE LowerDown* (f: FSM);
BEGIN
IF HDLC.debug THEN OutLog("FSM.LowerDown","",f); OutState(f.State); Debug.Ln; END;
CASE f.State OF
Closed: f.State := Initial
| Stopped: f.State := Starting (* ; f.Starting (f) *)
| Closing: f.State := Initial; HDLC.UNTIMEOUT(f.HDLCConfig, Timeout) (* cancel timeout *)
| Stopping, ReqSent, AckRcvd, AckSent: f.State := Starting; HDLC.UNTIMEOUT(f.HDLCConfig, Timeout) (* cancel timeout *)
| Opened: f.Down(f); f.State := Starting
ELSE
OutLog("FSM.LowerDown", "ERROR: in wrong state", f); OutState(f.State); Debug.Ln
END
END LowerDown;
(* Link is allowed to come up *)
PROCEDURE Open* (f: FSM);
BEGIN
IF HDLC.debug THEN OutLog("FSM.Open","",f); OutState(f.State); Debug.Ln; END;
CASE f.State OF
Initial: f.State := Starting; (* f.Starting(f) *)
| Closed:
IF Silent IN f.Flags THEN f.State := Stopped
ELSE SendConfReq(f, newtransmit); f.State := ReqSent; (* send an initial configure-request *)
END
| Closing: f.State := Stopping; IF Restart IN f.Flags THEN LowerDown(f); LowerUp(f) END
| Stopped, Opened: IF Restart IN f.Flags THEN LowerDown(f); LowerUp(f) END
ELSE
END
END Open;
(* Start closing connection *)
PROCEDURE Close* (f: FSM);
VAR p: ARRAY HDLC.ArrayLength OF CHAR;
BEGIN
IF HDLC.debug THEN OutLog("FSM.Close","",f); OutState(f.State); Debug.Ln; END;
CASE f.State OF
Starting: f.State := Initial
| Stopped: f.State := Closed
| Stopping: f.State := Closing
| ReqSent, AckRcvd, AckSent, Opened:
IF f.State # Opened THEN HDLC.UNTIMEOUT(f.HDLCConfig, Timeout) (* cancel timeout *)
ELSE f.Down(f) (* inform upper layers we're down *)
END;
f.Retransmits := f.MaxTermTransmits; INC(f.ID); f.reqID := f.ID;
SendData(f, TermReq, f.reqID, p, StartPos, 4);
HDLC.TIMEOUT(f.HDLCConfig, Timeout, f.params, f.TimeoutTime);
DEC(f.Retransmits);
f.State := Closing
ELSE
END
END Close;
(* Timeout expired *)
PROCEDURE Timeout (params: HDLC.Params);
VAR f: FSM;
BEGIN
f := params(Params).f;
IF HDLC.debug THEN OutLog("FSM.TimeOut","TimeOut-Handler called",f); OutState(f.State); Debug.Ln; END;
CASE f.State OF
Closing, Stopping:
IF f.Retransmits <= 0 THEN (* we've waited for an ack long enough, peer probably heard us *)
IF f.State = Closing THEN f.State := Closed ELSE f.State := Stopped END;
(* f.Finished(f) *)
ELSE (* send terminate-request *)
INC(f.ID); f.reqID := f.ID;
SendData(f, TermReq, f.reqID, f.HDLCConfig.data2, StartPos, 0);
HDLC.TIMEOUT(f.HDLCConfig, Timeout, params, f.TimeoutTime);
DEC(f.Retransmits)
END
| ReqSent, AckRcvd, AckSent:
IF f.Retransmits <= 0 THEN OutLog("LOG: FSM.Timeout", "Stop: sended all TimeOuts, no answer", f); Debug.Ln;
f.State := Stopped;
(* IF ~(Passive IN f.Flags) THEN f.Finished(f) END *)
ELSE (* retransmit the configure-request *)
SendConfReq(f, retransmit);
IF f.State = AckRcvd THEN f.State := ReqSent END
END
ELSE
IF HDLC.debug THEN
OutLog("FSM.Timeout", "ERROR:in wrong state", f);
OutState(f.State); Debug.Ln;
END
END
END Timeout;
(* Input packet *)
PROCEDURE Input* (f: FSM; VAR p: ARRAY OF CHAR; pos, len: INTEGER);
VAR code, id: SHORTINT; size: INTEGER;
BEGIN
(* parse header (code, id and length). if packet too short, drop it. *)
IF HDLC.debug THEN
(* pe: "FSM.ReceiveData" was followed by redundant report "new Input". *)
OutLog("FSM.ReceiveData","",f); OutState(f.State); Debug.Ln;
Tools.OutPacket(p, pos, len); Debug.Ln;
END;
IF len < HeaderLen THEN
IF HDLC.debug THEN
OutLog("FSM.ReceiveData", "ERROR: Received short header", f);
END;
RETURN
END;
code := SHORT(ORD(p[pos]));
id := SHORT(ORD(p[pos + 1]));
size := Tools.GetInt(p, pos + 2);
IF size < HeaderLen THEN
IF HDLC.debug THEN
OutLog("FSM.ReceiveData", "ERROR: Received illegal length", f);
END;
RETURN
END;
IF size < len THEN
IF HDLC.debug THEN
OutLog("FSM.ReceiveData", "ERROR: Received short packet", f);
END;
RETURN
END;
DEC(size, HeaderLen); INC(pos, HeaderLen);
IF (f.State = Initial) OR (f.State = Starting) THEN
IF HDLC.debug THEN
OutLog("FSM.ReceiveData", "ERROR: Received packet in wrong state", f);
OutState(f.State); Debug.Ln;
END;
RETURN
END;
(* action depends on code *)
CASE code OF
ConfReq: ReceiveConfReq(f, id, p, pos, size)
| ConfAck: ReceiveConfAck(f, id, p, pos, size)
| ConfNak, ConfRej: ReceiveConfNakRej(f, code, id, p, pos, size)
| TermReq: ReceiveTermReq(f, id)
| TermAck: ReceiveTermAck(f)
| CodeRej: ReceiveCodeRej(f, p, pos, size)
ELSE
IF ~f.ExtCode(f, code, id, p, pos, size) THEN
INC(f.ID); SendData(f, CodeRej, f.ID, p, pos - HeaderLen, size + HeaderLen)
END
END
END Input;
(* Receive Configure-Request *)
PROCEDURE ReceiveConfReq* (f: FSM; id: SHORTINT;
VAR p: ARRAY OF CHAR; pos, len: INTEGER);
VAR code: SHORTINT; RejectIfDisagree: BOOLEAN;
BEGIN
IF HDLC.debug THEN
OutLog("FSM.ReceiveConfigureRequest", "", f);
Debug.String("id: "); Debug.Int(id, 4); Debug.Ln; Debug.Ln
END;
CASE f.State OF
Closed: SendData(f, TermAck, id, p, StartPos, 0);
RETURN (* go away, we're closed *)
| Closing, Stopping: RETURN
| Opened: f.Down(f); SendConfReq(f, newtransmit)
(* go down and restart negotiation, inform upper layers,
send initial configure-request *)
| Stopped: SendConfReq(f, newtransmit); f.State := ReqSent;
(* send initial configure-request *)
ELSE
END;
(* pass the requested configuration options to protocol-specific code for checking *)
RejectIfDisagree := f.NakLoops >= f.MaxNakLoops;
code := f.ReqCI(f, p, pos, len, RejectIfDisagree);
(* send the Ack, Nak or Rej to the peer *)
SendData(f, code, id, p, pos, len);
IF code = ConfAck THEN
IF f.State = AckRcvd THEN
HDLC.UNTIMEOUT(f.HDLCConfig, Timeout);
f.State := Opened;
f.Up(f)
ELSE f.State := AckSent; f.NakLoops := 0
END
ELSE (* we sent ConfAck or ConfRej *)
IF f.State # AckRcvd THEN f.State := ReqSent END;
IF code = ConfNak THEN INC(f.NakLoops) END;
END
END ReceiveConfReq;
(* Receive Configure-Ack *)
PROCEDURE ReceiveConfAck* (f: FSM; id: SHORTINT; VAR p: ARRAY OF CHAR; pos, len: INTEGER);
BEGIN
IF HDLC.debug THEN OutLog("FSM.ReceiveConfAck", "", f); Debug.String("id: "); Debug.Int(id, 4); Debug.Ln; Debug.Ln END;
IF (id=f.reqID) & f.AckCI(f, p, pos, len) THEN
f.reqID := -1;
CASE f.State OF
Closed, Stopped: SendData(f, TermAck, id, p, StartPos, 0)
| ReqSent: f.State := AckRcvd; f.Retransmits := f.MaxConfReqTransmits
| AckRcvd: SendConfReq(f, newtransmit); f.State := ReqSent (* huh?, an extra Ack? oh well... *)
| AckSent: HDLC.UNTIMEOUT(f.HDLCConfig, Timeout); (* cancel timeout *)
f.State := Opened; f.Retransmits := f.MaxConfReqTransmits;
f.Up(f)
| Opened: (* go down and restart negotiation *)
f.Down(f);
SendConfReq(f, newtransmit); f.State := ReqSent
ELSE
END
END
END ReceiveConfAck;
(* Receive Configure-Nak or Configure-Reject *)
PROCEDURE ReceiveConfNakRej* (f: FSM; code, id: SHORTINT;
VAR p: ARRAY OF CHAR; pos, len: INTEGER);
BEGIN
IF HDLC.debug THEN OutLog("FSM.ReceiveConfigureNak/Reject", "", f);
Debug.String("id = "); Debug.Int(id, 4);
Debug.String(", reqID = "); Debug.Int(f.reqID, 4);
Debug.Ln; Debug.Ln
END;
IF id # f.reqID THEN RETURN END; (* expected ID? nope -> toss... *)
IF ((code = ConfNak) & ~f.NakCI(f, p, pos, len))
OR ((code=ConfRej) & ~f.RejCI(f, p, pos, len)) THEN
(* Nak/Reject is bad - ignore it *)
IF HDLC.debug THEN
OutLog("FSM.ReceiveConfNakRej", "ERROR: Received bad Nak/Rej", f);
Debug.String("id: "); Debug.Int(f.ID, 4); Debug.Ln;
OutCode(code); Debug.Ln;
RETURN
END
END;
f.reqID := -1;
CASE f.State OF
Closed, Stopped: SendData(f, TermAck, id, p, StartPos, 0)
| ReqSent, AckSent: HDLC.UNTIMEOUT(f.HDLCConfig, Timeout);
SendConfReq(f, newtransmit)
(* They didn't agree to what we wanted - try another request *)
(*(*pe*) SendConfReq(f, retransmit) *)
| AckRcvd: SendConfReq(f, newtransmit); f.State := ReqSent (* got a Nak/Reject when we had already had an Ack?? oh well... *)
| Opened: (* go down and restart negotiation *)
f.Down(f);
SendConfReq(f, newtransmit); f.State := ReqSent
ELSE
END
END ReceiveConfNakRej;
(* Receive Terminate-Request *)
PROCEDURE ReceiveTermReq* (f: FSM; id: SHORTINT);
VAR p: ARRAY HDLC.ArrayLength OF CHAR;
BEGIN
IF HDLC.debug THEN OutLog("FSM.ReceiveTermReq", "", f); Debug.String("id: "); Debug.Int(id, 4); Debug.Ln; Debug.Ln END;
CASE f.State OF
AckRcvd, AckSent: f.State := ReqSent
| Opened:
OutLog("FSM.ReceiveTermReq", "Terminated at peer's request", f);
f.Down(f);
f.Retransmits := 0; f.State := Stopping;
HDLC.TIMEOUT(f.HDLCConfig, Timeout, f.params, f.TimeoutTime)
ELSE
END;
SendData(f, TermAck, id, p, StartPos, 0)
END ReceiveTermReq;
(* Receive Terminate-Ack *)
PROCEDURE ReceiveTermAck* (f: FSM);
BEGIN
IF HDLC.debug THEN OutLog("FSM.ReceiveTermAck", "", f); Debug.Ln; END;
CASE f.State OF
Closing: f.State := Closed (* ; IF f.Finished # NIL THEN f.Finished(f) END *)
| Stopping: f.State := Stopped (* ; IF f.Finished # NIL THEN f.Finished(f) END *)
| AckRcvd: f.State := ReqSent
| Opened: f.Down(f); SendConfReq(f, newtransmit)
ELSE
END
END ReceiveTermAck;
(* Receive a Code-Reject *)
PROCEDURE ReceiveCodeRej* (f: FSM; VAR p: ARRAY OF CHAR; pos, len: INTEGER);
VAR code, id: SHORTINT;
BEGIN
IF len < HeaderLen THEN
IF HDLC.debug THEN OutLog("FSM.ReceiveCodeRej", "ERROR: too short", f); Debug.Ln; END; RETURN
END;
code := SHORT(ORD(p[pos])); id := SHORT(ORD(p[pos + 1])); (* syslog *)
IF HDLC.debug THEN
OutLog("FSM.ReceiveCodeRej", "Received Code-Reject", f);
OutCode(code); Debug.String("id: "); Debug.Int(id, 4); Debug.Ln; Debug.Ln;
END;
IF f.State = AckRcvd THEN f.State := ReqSent END
END ReceiveCodeRej;
(* Peer doesn't speak this protocol - Treat this as a catastrophic error (RXJ-)*)
PROCEDURE ProtReject* (f: FSM);
VAR p: ARRAY HDLC.ArrayLength OF CHAR;
BEGIN
IF HDLC.debug THEN OutLog("FSM.ProtReject", "", f); Debug.Ln; END;
CASE f.State OF
Closing: HDLC.UNTIMEOUT(f.HDLCConfig, Timeout); f.State := Closed; (* IF f.Finished # NIL THEN f.Finished(f) END *)
| Closed: f.State := Closed; (* IF f.Finished # NIL THEN f.Finished(f) END *)
| Stopping, ReqSent, AckRcvd, AckSent: HDLC.UNTIMEOUT(f.HDLCConfig, Timeout); f.State := Stopped (* ; IF f.Finished # NIL THEN f.Finished(f) END *)
| Stopped: f.State := Stopped (* IF f.Finished # NIL THEN f.Finished(f) END *)
| Opened: f.Down(f);
(* init restart counter, send terminate-request *)
f.Retransmits := f.MaxTermTransmits;
INC(f.ID); f.reqID := f.ID;
SendData(f, TermReq, f.reqID, p, StartPos, 0);
HDLC.TIMEOUT(f.HDLCConfig, Timeout, f.params, f.TimeoutTime);
DEC(f.Retransmits);
f.State := Stopping
ELSE
IF HDLC.debug THEN OutLog("FSM.ProtReject", "ERROR: in wrong state", f); OutState(f.State); Debug.Ln END
END
END ProtReject;
(* Send a Configure-Request *)
PROCEDURE SendConfReq* (f: FSM; retransmit: BOOLEAN);
VAR pos: INTEGER; CILen: INTEGER; p: ARRAY HDLC.ArrayLength OF CHAR;
BEGIN
IF (f.State # ReqSent) & (f.State # AckRcvd) & (f.State # AckSent) THEN
(* not currently negotiating - reset options *)
f.ResetCI(f);
f.NakLoops := 0
END;
IF retransmit THEN
(* new request - reset transmission counter, use new ID *)
f.Retransmits := f.MaxConfReqTransmits;
INC(f.ID); f.reqID := f.ID
END;
IF HDLC.debug THEN OutLog("FSM.SendConfReq", "", f); Debug.String("id: "); Debug.Int(f.reqID, 4);
Debug.String(" "); OutState(f.State); Debug.Ln END;
(* make up a request packet *)
pos := StartPos;
IF f.CILen(f) < f.HDLCConfig.MTU - HeaderLen THEN
f.AddCI(f, p, pos, CILen)
ELSE
OutLog("FSM.SendConfReq", "ERROR: Configure Request too big", f);
RETURN
END;
(* send the request to our peer *)
SendData(f, ConfReq, f.reqID, p, pos, CILen);
(* start the retransmit timer *)
DEC(f.Retransmits);
HDLC.TIMEOUT(f.HDLCConfig, Timeout, f.params, f.TimeoutTime);
END SendConfReq;
(* SendData - Create a packet with code, id and data,
data is in p[pos .. pos+len] *)
PROCEDURE SendData* (f: FSM; code, id: SHORTINT;
VAR p: ARRAY OF CHAR; pos, len: INTEGER);
VAR minpos, maxlen: INTEGER;
BEGIN
maxlen:=f.HDLCConfig.MTU - HeaderLen;
IF len > maxlen THEN len := maxlen; END;
(* adjust length (of information + padding) to be smaller than MTU *)
minpos:=HDLC.HDLCHeaderLen+HeaderLen;
IF pos<minpos THEN
Tools.CopyString(p, pos, minpos, len); pos:=minpos;
END;
DEC(pos, HeaderLen); INC(len, HeaderLen);
p[pos]:=CHR(code); p[pos+1]:=CHR(id); Tools.PutInt(len, p, pos+2);
IF HDLC.debug THEN
OutLog("FSM.SendData", "", f); OutCode(code); OutState(f.State);
Debug.String("id: "); Debug.Int(id, 4); Debug.Ln;
Tools.OutPacket(p, pos, len); Debug.Ln;
END;
HDLC.SendPacket(f.HDLCConfig, f.Protocol, p, pos, len);
END SendData;
BEGIN
ActTimeout:=DefTimeout;
ActMaxConfReqs:=DefMaxConfReqs
END PPPFSM.