mac-rom/ProcessMgr/Eppc.c

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/*
File: Eppc.c
Contains: Routines which implement Event Process-to-Process Communication (EPPC),
aka high-level events.
Written by: Jay Moreland
Copyright: <EFBFBD> 1989-1992 by Apple Computer, Inc., all rights reserved.
Change History (most recent first):
<26> 5/29/92 DCL Included Script.h. GetEnvirons moved for the New Inside Mac.
<25> 11/25/91 DTY Add #include <MemoryMgrPriv.h> to get interface for MoveHLow in
its new home.
<24> 11/21/91 DTY Rolling in the 7<EFBFBD>Up version of findFreeSessionRecord that
allocates the session record low in the System Heap instead of
in the middle of the temporary heap. This is conditionalized for
CubeE only until a decision is made about whether this is really
the way we want to fix the problem.
<23> 3/29/91 JWM CCN,#85997: In GetSpecificHighLevelEvent, it was possible to
exit without restoring eppcBlk->mfMsgBlk to its original value.
This would cause event_common to call flushMsg for a HLE that
was still linked into the app's HLE Queue. As part of flushMsg
the memory would be returned to the free pool. This caused weird
memory roaching problems. The fix is a one line addition in
c_GetSpecificHighLevelEvent during the error path for the second
copyMsg.
<22> 3/26/91 DTY Having been thoroughly chastised by Jay for touching the source
code without him standing next to me, I<EFBFBD>m about to risk his
wrath again to make things the way they were in version <20>.
<21> 3/25/91 DTY JDR, #85618: The Gang of Five relegated this bug to Post 7.0, so
it needed to be rolled out. The other change, JWM-001, was left
in.
<20> 3/25/91 JWM jc,#JWM-001,#85618: <EFBFBD>removing a DisposHandle from inside a loop
where interrupts are disabled. <EFBFBD>removing the restriction on
starting a session when the application is being coerced.
<19> 3/18/91 JWM ewa,#85038, #85039: <EFBFBD>The System crashes when
GetSpecificHighLevelEvent is called twice in a row with no
events pending and there is a partial HLEvent outstanding.
<EFBFBD>GetSpecificHighLevelEvent goes through the HighLevelEventQueue
twice if AcceptHighLevelEvent is called for the last event in
the HighLevelEventQueue from within the filter function.
<18> 2/26/91 JWM DFH,#83798: fix bug where ports are sometimes left open.
<17> 2/21/91 DFH dba,#82504, #82681, #83168, #83182, #83207: HiNewHandle rolled
into ProcessMgrHiNewHandle.
<16> 2/21/91 JWM ewa,#83492,#78885: <EFBFBD>The System crashes when processing a return
receipt over a network for an application which has quit and is
no longer running. Fix is in scanReadBQ. <EFBFBD>QuarkXPress 3.0 <EFBFBD>
Double clicking on the document opens the app, but not the
document. fix is in makePortname. <EFBFBD>Also call PPC post processor
routines (scanReadBQ, scanWriteBQ and scanInformBQ) when
GetSpecificHighLevelEvent is called. This is for AppleEvent
manager.
<15> 2/9/91 JWM DFH,#79583,#81622,#82463: <EFBFBD>Restart and Shutdown don't work in
low memory conditions. Routines getPPCRead, getPPCInformPB,
findFreeSessionRecord, GetMsgEventBuffer, fetchMsgData use to
call ProcessMgrHiNewHandle. ProcessMgrHiNewHandle just searched
the Process Managers heap. The routines now call GMBlk which
follows an unsucessful search of the Process Manager's heap with
a search of the System's heap. In addition,
AppleEventExtensions.c and Puppet.c were modified to use GMBlk
instead of just looking in the Process Manager's heap. GMBlk is
defined in Data.h and implemented in Memory.c. <EFBFBD>Event PPC does
not register the correct port name with the correct name script
for foriegn systems. The PPCPortname has a script code which was
being stuffed with 0 in makePortName. A call is now made to
GetEnvirons to fetch the script code of the system script. This
value is place in the PPCPortName when open the PPCPort on
behalf of the app. <EFBFBD>The maximum number of IDENTICAL Portnames
that can be browsed on the browser is 8. Any number over 8 will
not be recognize as EPPC aware application. A bug was introduced
in 7.0b1 in the routine GetNextPortName. StringByte is defined
as having a 0 based index instead of 1 based index. This caused
the code which runs in an attempt to generate a unique
PPCPortname to generate 8 uniques name instead of the 99 it
should have.
<14> 1/28/91 LN Changed connectionInValid to conectionInvalid to match change in
EPPC.h. Sorry Jay.
<13> 1/10/91 JWM (DFH) <EFBFBD>1 BRC #79831 allow app to post using kCurrentProcess
constant. The change was in a parameter to the first
EPPCBlkFromPSN in GetConnectionType. Before <13>, EPPCBlkFromPSN
was called using the PSN Ptr in the PostHighLevelEvent. The fix
was to use the PSN in the process table. This means when the
caller of PostHighLevelEvent uses pCurrentProcess or
pFrontProcess, GetConnectionType will find the eppcBlk
associated with the target process. (EMT) <EFBFBD>2 To keep the IO
completion routine (KnockKnock) from someday getting hung while
spinning on the ioresult field in the async PPCAccept or
PPCReject parameter block, a new switch was added for command
completion of a PPCAccept and PPCReject. The ppcInformBlk was
modified to include a PPCRejectParams structure
(ppcInformReplyPB). This structure is used for both the async
PPCReject and the async PPCAccept which occur when processing a
completion of a PPCInform. This change is isolated to
KnockKnock. (DFH) <EFBFBD>3 Rework the DisableInterrupts and
EnableInterrupts macros to require fewer instruction for
compiler generated setup.
<12> 12/21/90 LN change constStrxxxParameter to ConstStrxxxParam as per change in
Types.h
<11> 12/21/90 DFH (gb) Added A5 setup in GetNextHighLevelEvent.
<10> 12/20/90 DFH (dba) Convert GetNextHighLevelEvent to a dispatch.
<9> 12/19/90 gbm (dba) Fix pointer arithmetic bugs throughout the file, including
the one that kept us from quitting applications with the 32-bit
Memory Manager.
<8> 12/14/90 JWM change rtrnReciptMsgID to rtrnReceiptMsgID
<7> 12/13/90 JWM Make the checkin comments look right
<6> 12/13/90 JWM DFH <EFBFBD>1 Fix a bug with doDuplicateNameOpen. The termination of the loop
is wrong.
DFH <EFBFBD>2 Added a call to Delete User Identity after a StartSecureSession
call. eppc doesn't need the User Identity. Deleting it frees up
resources inside the PPCToolbox.
DFH <EFBFBD>3 StartSecureSession may cause the Dialog Manager to run. It is
best if our app's A5 is in the machine because user items in
dialog windows behind the authentication dialog(s) may execute.
Some user item procedures assume that A5 points to the application's
global not the Process Manager's globals.
DFH <EFBFBD>4 The PPCToolbox as of 7.0B3 will no longer return errors through
PPCInit. References to ppcInitErr have been removed. In addition
a message was formatted and sent to the Shell if ppcInitErr did not
equal 0 (noErr). This message will be elimated in Startup.c.
DFH <EFBFBD>5 BRC #78779-During PostHighLevelEvent to a remote machine,
if a proper port location is specified, but not a proper port name (i.e.
port name doesn't exist on the target machine), then the authentication
dialog is brought up. This behavior was fixed by making guestAllowed
return destPortErr (-906) if listPortPB.actualCount IS 0. getSessionID
will see the destPortErr and not call StartSecureSession.
DFH <EFBFBD>6 Request from DTS to place TICKS in the when field of the event when
the message arrives. This is now done in KnockKnock when a read completes.
DFH <EFBFBD>7 BRC # 78336<EFBFBD>HighLevel event posted shortly before an application quits
does not get delivered to its target. This <EFBFBD>bug<EFBFBD> needs fixing. It is
due to closing the ppc port of an application during _ExitToShell. This
close causes all outstanding i/o for a port to go to completion. Any
post an application did between his last _WaitNextEvent and _ExitToShell
may not be delivered. This is due to the facts that processing the
i/o completion queues for PPCToolbox calls occurs during WaitNextEvent
if the system decides to call GetNextHLE and that PPCClose causes any
outstanding PPCWrites to end with an error. A goal for eppc has been
to shield the application writer from the async nature of the PPCToolbox
In this spirit, code was changed to keep ppc ports open after
application calls _ExitToShell if the port has PPCWrites which are
still pending. This allow the posts of a terminated application to
complete. Note: the PPCWrite still could error, but no one is
listening.
Changes to affect leaving the ppc port open after application
_ExitToShell involved storing the address of the last PPCWrite in
the session record, not breaking connections with outstanding
PPCWrites during _ExitToShell, closing the port when the last PPCWrite
completed and weaning all code paths in eppc that run after
_ExitToShell from there dependence on the EPPCBlk which goes away
at _ExitToShell.
DFH <EFBFBD>8 An application posting a high level event from the background which
requires the network authenication dialog will receive an error
noUserInteractionAllowed (<EFBFBD>610). This was done to fix the User Interface
No<EFBFBD>No of bringing up the a modal dialog when the application was
not the frontmost. Note: this situation occurs only on the first
post to a remote target. The application writer should use the
notification manager to indicate a need to interact with the user.
When the user brings the application forward, the application writer
should do the post again. After the post is sucessful, the
application can return to the background and post messages to the
remote target without the noUserInteractionAllowed error.
DFH <EFBFBD>9 In eppc:getSessionID there were two error paths which did not release
the session table entry correctly.
<5> 11/26/90 DFH Change trespass() to dbmsg().
<4> 11/6/90 JWM <EFBFBD>1 for the priority 1 bug dealing with an assert error when the
sender quits before the receiver has been delivered all his
messages.
<EFBFBD>2 you can now post messages of minimum unsigned long through
maximum unsigned long, if you have the memory.
<EFBFBD>3 In previous releases, when you didn<EFBFBD>t accept a message fully
an incorrect return message receipt was return to the sender.
This is now fixed and works as documented.
<EFBFBD>4 In previous releases three memory allocations and two memory
releases were necessary for each message received. In this
version each number has been reduced by one.
<EFBFBD>5 In previous releases, if the first PPCRead failed, the
connection would go dormant. In this release if the first
PPCRead fails for reasons other than sessionClosedErr or
noSessionErr, the connection is broken and the target<EFBFBD>s session
table entry is updated to reflect the connection was explicitly
broken. If the reason was sessionClosedErr or noSessionErr, the
target<EFBFBD>s connection table entry is updated to reflect the
connection was broken by the other end. Both these states are
seen from the programmer<EFBFBD>s view as sessionClosedErr if he tries
to post using for him what is a valid connection. He must
repost his message to establish a new connection with his
target.
<EFBFBD>6 In previous releases, if the second PPCRead failed, the
connection was broken and the target<EFBFBD>s session table entry is
updated as in <EFBFBD>4. However in the second read there are two
different classes of errors <EFBFBD> memory errors and PPCToolbox
errors. In this release, memory errors cause the system to
restart the second read at a later time when, hopefully, the
memory configuration has changed. This change keeps the system
from breaking a session because of memory shortage. In the
previous release breaking the connection because of memory
failure caused the PPCWrites on the other end of the connection
to fail. Sometimes there were a lot of writes. For instance in
the Large Data Buffer test.
<2> 10/30/90 csd Update the symbols to match the headers on BBS.
<0> 9/02/89 JM New Today.
*/
#include <Errors.h>
#include <MFPrivate.h>
#include <Memory.h>
#include <MemoryMgrPriv.h>
#include <PPCToolBox.h>
#include <AppleEventsInternal.h>
#include <Errors.h>
#include <Resources.h>
#include <Values.h>
#include <Script.h>
#include "Data.h"
#include "Glue.h"
#include "Zone.h"
#include "Lomem.h"
#include "Patches.h"
#include "AppleEventExtensions.h"
#define IS ==
#define ISNT !=
#define AND &&
#define OR ||
#define ppcOpenCmd 1
#define ppcStartCmd 2
#define ppcInformCmd 3
#define ppcAcceptCmd 4
#define ppcRejectCmd 5
#define ppcWriteCmd 6
#define ppcReadCmd 7
#define ppcEndCmd 8
#define ppcCloseCmd 9
#define IPCListPortsCmd 10
typedef short ConnectionType;
#define eppcConnection (0)
#define systemReceiverConnection (1)
#define systemSenderConnection (2)
#define noEppcConnection (3)
#define badConnection (4)
#define noSessionID (0)
#define systemSessionID (-1)
#define INITIALIZED(eBlk) (eBlk->portID != 0)
#define TarEPPCBlkPtr(pPtr) (&(pPtr->eppcBlk))
#define CanDoEPPC(pPtr) (INITIALIZED(TarEPPCBlkPtr(pPtr)))
/* status bits in the Inform, Read and Write parameter blocks */
#define closeInProgress 0x8000
/* status bits in cTableEntry */
#define informConnection 0x8000
#define startConnection 0x4000
#define sessionClosed 0x2000
#define sessionEnded 0x1000
#define waitingForWrites 0x0800
#define HLEQDoesNotExist 0x0400
#define sizeOfPPCpbHeader (sizeof(LINKTYPE)+sizeof(Handle)+sizeof(EPPCBlkPtr)+2*sizeof(unsigned long))
#define sizeOfPPCWriteBlk (sizeOfPPCpbHeader+sizeof(PPCWritePBRec))
#define sizeOfPPCReadBlk (sizeOfPPCpbHeader+sizeof(PPCReadPBRec))
#define sizeOfPPCInformBlk (sizeOfPPCpbHeader+sizeof(PPCInformPBRec))
#define CheckForFatalError assert
#define SYNCHRONOUS 0
#define ASYNCHRONOUS 1
#define NROFINFORMPBS 3
#define MAXNROFTRIES 99
typedef struct ppcWriteBlk {
LINKTYPE ppcWriteBlkQ;
Handle pbHdl;
EPPCBlkPtr pbID;
unsigned long portID;
unsigned long status;
PPCWritePBRec ppcWritePB;
MFmsgBlk mfMsgBlk;
} ppcWriteBlk, *ppcWritePBPtr;
typedef struct ppcReadBlk {
LINKTYPE ppcReadBlkQ;
Handle pbHdl;
EPPCBlkPtr pbID;
unsigned long portID;
unsigned long status;
PPCReadPBRec ppcReadPB;
MFmsgBlk mfMsgBlk;
} ppcReadBlk, *ppcReadPBPtr;
typedef struct ppcInformBlk {
LINKTYPE ppcInformBlkQ;
Handle pbHdl;
EPPCBlkPtr pbID;
unsigned long portID;
unsigned long status;
PPCInformPBRec ppcInformPB;
PPCRejectPBRec ppcInformReplyPB; // <13>
PPCPortRec portName;
LocationNameRec portLoc;
} ppcInformBlk, *ppcInformPBPtr;
typedef struct cTableEntry {
LINKTYPE sLList; /* queue element */
Handle sHdl; /* handle for element */
unsigned long sportID; /* port id for _ExitToShell fix */
unsigned long sID; /* session id */
short status; /* status word */
PPCReadPBPtr srPB; /* outstanding read */
PPCWritePBPtr swPB; /* outstanding write */
EPPCBlkPtr sEppcBlkPtr;/* eppc control block */
PPCPortRec sPName; /* whose port name - depends on status */
LocationNameRec sLocName; /* whose location - depends on status */
} cTableEntry, *cTableEntryPtr, **cTableEntryHdl;
void KnockKnock(PPCParamBlockPtr ppcPB);
ConnectionType GetConnectionType(ProcessSerialNumberPtr postersPSN, unsigned long receiverID, unsigned long postingOptions, unsigned long *connectionID, ProcessSerialNumberPtr targetsPSN, OSErr *err);
unsigned long validateSessionID(ProcessSerialNumberPtr ownersPSN, unsigned long sessionID, OSErr *err);
Boolean PSNFromName(const PPCPortPtr portName, ProcessSerialNumberPtr pPSN);
Boolean PSNFromSignature(const ResType signature, ProcessSerialNumberPtr pPSN);
Boolean findElement(char *A, char *B);
Boolean byPBID(ppcWritePBPtr A, EPPCBlk *B);
MFmsgBlkPtr GetMsgEventBuffer (u_long lengthInBytes, OSErr *err);
unsigned long getSessionID(ProcessSerialNumberPtr sendersPSN, TargetIDPtr portN, OSErr *err);
EPPCBlkPtr EPPCBlkFromPSN(ProcessSerialNumberPtr psn);
PPCParamBlockPtr getPPCInformPB(EPPCBlkPtr refCon, unsigned short portRefNum, OSErr *err);
PPCParamBlockPtr getPPCReadPB(EPPCBlkPtr refCon, unsigned long sessionID, OSErr *err);
void releasePPCpb(PPCParamBlockPtr pb);
void postMsgToPPC(const MFmsgBlkPtr msgBlk, unsigned long sessionID, OSErr *err);
MFmsgBlkPtr fetchMsgData(EPPCBlkPtr eppcBlkPtr, MFmsgBlkPtr mfMsgBlk, OSErr *err);
void scanInformBQ(void);
void scanWriteBQ(void);
void scanReadBQ(void);
void getSessionRecord(SenderIDPtr senderID, EPPCBlk *recvrEppcB);
HighLevelEventMsgHdl
copyMsg(MFmsgBlkPtr aMsg, OSErr *err);
Boolean guestAllowed(TargetIDPtr portN, OSErr *err);
Boolean comparePortLocation(LocationNamePtr L1, LocationNamePtr L2);
Boolean comparePortNames(PPCPortPtr N1, PPCPortPtr N2);
void closePPCPort(unsigned long portID);
void openPPCPort(EPPCBlkPtr eppcB);
Boolean PortNameAndLocationAreEqual(PPCPortPtr portName, LocationNamePtr locName, TargetIDPtr targetID);
TargetID getTIDfromEppcBlk(EPPCBlkPtr eppcBPtr);
ppcReadPBPtr startPPCRead(EPPCBlkPtr eppcBPtr, unsigned long sessionID, OSErr *err);
ppcReadPBPtr restartPPCRead(ppcReadPBPtr rPB, OSErr *err);
PEntryPtr PEntryFromPSN(ProcessSerialNumberPtr pPSN);
cTableEntryPtr findSessionRecord(unsigned long sessionRefNum);
cTableEntryPtr findFreeSessionRecord(void);
void makePortName(EPPCBlkPtr eppcB);
void doDuplicateNameOpen(EPPCBlkPtr eppcB, PPCOpenPBPtr PPCpb);
void GetNextPortName(EPPCBlkPtr eppcB);
void DeleteBQEntries(unsigned long portID, LINKLIST *theBQ);
void qPPCPb(ppcWritePBPtr wPBPtr, LINKLIST *BQList);
void FlushHLEQueue(EPPCBlkPtr eppcBlk, Boolean sendReturnReceipts, short rtnMsg);
Boolean NameFromPSN(PPCPortPtr portName, ProcessSerialNumberPtr pPSN);
Boolean bySessionID(cTableEntryPtr A, unsigned long *B);
Boolean bysEppcBlkPtr(cTableEntryPtr A, EPPCBlk *B);
Boolean byportID(cTableEntryPtr A, unsigned long *B);
Boolean byportIDforPB(ppcWriteBlk *A, unsigned long *B);
short breakConnections(unsigned long portID);
void endSessionAfterAReadError(cTableEntryPtr sRec, OSErr err);
#pragma parameter DisableInterrupts(__A0)
void DisableInterrupts(unsigned short *oldMask) = {0x40D0, 0x007C, 0x0700};
/* move sr, (a0)
* ori.w 0x0700, sr
*/
#pragma parameter EnableInterrupts(__D0)
void EnableInterrupts(unsigned short oldMask) = {0x46C0};
/* move.w d0,sr
*/
typedef pascal Boolean
(*hleFilter_ptr)(unsigned long *params, Ptr msgBuff, SenderIDPtr senderID);
typedef pascal OSErr
(*StartSecureSession_ptr)(PPCStartPBPtr,
Str32 userName,
Boolean useDefault,
Boolean allowGuest,
Boolean *guestSelected,
ConstStr255Param prompt);
#pragma segment eppc_segment
StringPtr SSSPromptpStr; /* prompt string for StartSecureSession */
StringPtr MacOSPortNamepStr; /* port name of kSystemProcess */
StringPtr MacOSPortTypepStr; /* port type of kSystemProcess */
LINKLIST eppcBQ = {nil,nil,nil,0,0,sizeof(EPPCBlk),nil};
LINKLIST ppcInformBQ = {nil,nil,nil,0,0,sizeof(ppcInformBlk),nil};
LINKLIST ppcReadBQ = {nil,nil,nil,0,0,sizeof(ppcReadBlk),nil};
LINKLIST ppcWriteBQ = {nil,nil,nil,0,0,sizeof(ppcWriteBlk),nil};
LINKLIST connectionQ = {nil,nil,nil,0,0,sizeof(cTableEntry),nil};
/*____________________________________________________________________________________________*/
void
ePPCInit(void)
{
Handle hdl;
/* Ask the PPC Toolbox to initialize.*/
ppcInitErr = PPCInit();
/* Check for acceptable result, then try for our string resource */
if ((hdl = Get1Resource('STR#',-16415)) ISNT nil)
{
MoveHHi(hdl);
HLock(hdl);
SSSPromptpStr = *hdl+(Ptr)2;
MacOSPortNamepStr = (Ptr)SSSPromptpStr + (Ptr)(*(char *)SSSPromptpStr);
MacOSPortNamepStr += (Ptr)1;
MacOSPortTypepStr = (Ptr)MacOSPortNamepStr + (Ptr)(*(char *)MacOSPortNamepStr);
MacOSPortTypepStr += (Ptr)1;
}
}
/*____________________________________________________________________________________________*/
pascal OSErr
c_GetPortNameFromPSN(PPCPortPtr portName, ProcessSerialNumberPtr pPSN)
{
unsigned long olda5;
Boolean foundIt;
olda5 = ProcessMgrA5SimpleSetup();
foundIt = NameFromPSN(portName,pPSN);
A5SimpleRestore(olda5);
return (foundIt) ? noErr : noPortErr;
}
/*____________________________________________________________________________________________*/
pascal OSErr
c_GetPSNFromPortName(PPCPortPtr portName, ProcessSerialNumberPtr psnStorage)
{
unsigned long olda5;
Boolean foundIt;
olda5 = ProcessMgrA5SimpleSetup();
foundIt = PSNFromName(portName, psnStorage);
A5SimpleRestore(olda5);
return (foundIt) ? noErr : procNotFound;
}
/*____________________________________________________________________________________________*/
pascal Boolean
c_GetSpecificHighLevelEvent(ProcPtr aFilter, unsigned long *params, OSErr *err)
{
Boolean answer = false;
HighLevelEventMsgHdl msgCopyHandle;
unsigned long olda5;
MFmsgBlkPtr aMsg, bMsg, outstandingMsg;
Ptr theBuff;
EPPCBlkPtr eppcB;
int priority;
SenderID senderID;
olda5 = ProcessMgrA5SimpleSetup();
scanInformBQ();
scanReadBQ();
scanWriteBQ();
assert(pCurrentProcess ISNT pNullProcess);
assert(EqualPSNConst(kSystemProcess, &pCurrentProcess->p_serialNumber) IS false);
*err = noErr;
eppcB = &pCurrentProcess->eppcBlk; /* It maybe a bad assumption that pCurrentProcess an app */
if (eppcB->portID IS 0)
*err = noPortErr;
if (aFilter IS NULL)
*err = paramErr;
if (*err ISNT noErr)
{
A5SimpleRestore(olda5);
return(answer);
}
if (eppcB->mfMsgBlk ISNT nil)
{
aMsg = eppcB->mfMsgBlk;
msgCopyHandle = copyMsg(aMsg, err);
if (*err IS noErr) ;
else
{
A5SimpleRestore(olda5);
return(answer);
}
theBuff = *msgCopyHandle;
aMsg->msgStatus |= getSpecificHLE;
senderID.sessionID = (aMsg->sendermfid.sessionID IS systemSessionID) ? systemSessionID : aMsg->targetmfid.sessionID;
getSessionRecord(&senderID, eppcB);
A5SimpleRestore(olda5);
answer = CALL_FNC_PTR(hleFilter_ptr, aFilter, (params, theBuff, &senderID));
olda5 = ProcessMgrA5SimpleSetup();
DisposHandle(msgCopyHandle);
CheckForFatalError(MEMERROR IS noErr);
aMsg->msgStatus &= ~getSpecificHLE;
if (aMsg->msgStatus & msgPartialyAccepted)
{
aMsg->msgStatus &= ~msgPartialyAccepted;
aMsg->MFRefcon = 0;
if (aMsg->msgStatus & msgCompletelyAccepted)
flushMsg(aMsg,msgWasFullyAccepted);
else
flushMsg(aMsg,msgWasPartiallyAccepted);
eppcB->mfMsgBlk = nil;
}
if (answer != false)
{
A5SimpleRestore(olda5);
return(answer);
}
}
outstandingMsg = eppcB->mfMsgBlk;
for (priority=1;priority>=0;--priority) {
qset(&(eppcB->msgQ[priority]));
if (ll_length() IS 0)
aMsg = nil;
else
{
lltail();
llretrieve(&aMsg);
}
while (aMsg ISNT nil)
{
msgCopyHandle = copyMsg(aMsg, err);
if (*err IS noErr) ;
else {
answer = false;
eppcB->mfMsgBlk = outstandingMsg;
A5SimpleRestore(olda5);
return(answer);
}
theBuff = *msgCopyHandle;
eppcB->mfMsgBlk = aMsg;
aMsg->msgStatus |= getSpecificHLE;
senderID.sessionID = (aMsg->sendermfid.sessionID IS systemSessionID) ? systemSessionID : aMsg->targetmfid.sessionID;
getSessionRecord(&senderID, eppcB);
A5SimpleRestore(olda5);
answer = CALL_FNC_PTR(hleFilter_ptr, aFilter, (params, theBuff, &senderID));
olda5 = ProcessMgrA5SimpleSetup();
DisposHandle(msgCopyHandle);
CheckForFatalError(MEMERROR IS noErr);
aMsg->msgStatus &= ~getSpecificHLE;
qset(&(eppcB->msgQ[priority])); /* the user may have called something which
undid our call to qset(), so redo it */
if (aMsg->msgStatus & msgPartialyAccepted) /* was AcceptHighLevelEvent called? */
{
aMsg->msgStatus &= ~msgPartialyAccepted;
aMsg->MFRefcon = 0; /* in case we AcceptHLEvent this one again */
bMsg = aMsg->MFmsgBlkQ.previous;
lldelete();
flushMsg(aMsg,(aMsg->msgStatus & msgCompletelyAccepted) ? msgWasFullyAccepted:msgWasPartiallyAccepted);
qset(&(eppcB->msgQ[priority])); /* flushMsg may have called something which
undid our call to qset(), so redo it */
if (ll_length()) /* now find our next HLE */
if (bMsg ISNT nil)
{
eppcB->msgQ[priority].clp = bMsg;
aMsg = bMsg; /* llprevious() would return head of list */
}
else
{
aMsg = nil;
}
else
aMsg = nil; /* we deleted the last HLE */
}
else
{
if (llprevious())
llretrieve(&aMsg);
else
aMsg = nil;
}
if (answer != false)
break;
}
if (answer != false)
break;
} /* end of 'for loop' for each HLEvent Q attached to this port */
eppcB->mfMsgBlk = outstandingMsg;
A5SimpleRestore(olda5);
return(answer);
}
/*____________________________________________________________________________________________*/
HighLevelEventMsgHdl
copyMsg(MFmsgBlkPtr aMsg, OSErr *err)
{
HighLevelEventMsgHdl aHdl;
Ptr theCopyPtr;
aHdl = ProcessMgrHiNewHandle(sizeof(HighLevelEventMsg)+aMsg->eppcMsgBlk.msgLength, nil);
if ((*err = MEMERROR) != noErr)
return(aHdl);
HLock(aHdl);
theCopyPtr = *aHdl;
BlockMove(&aMsg->eppcMsgBlk,theCopyPtr,sizeof(HighLevelEventMsg));
theCopyPtr += (Ptr)sizeof(HighLevelEventMsg);
BlockMove(aMsg->addrOfMsg,theCopyPtr,aMsg->eppcMsgBlk.msgLength);
return(aHdl);
}
/*____________________________________________________________________________________________*/
pascal OSErr
c_AcceptHighLevelEvent(SenderIDPtr senderID, u_long *msgRefcon, Ptr msgBuff, u_long *msgLen)
{
unsigned long olda5;
short err;
unsigned long xferCount;
MFmsgBlkPtr mfMsgBlk;
/* save away the current caller's state, set major zone */
olda5 = ProcessMgrA5SimpleSetup();
err = noErr;
/* not sure about reference to pCurrentProcess being assumable. Bad things happen
* if it doesn't point to an app.
*/
if (pCurrentProcess->eppcBlk.mfMsgBlk) { /* is there a message for accepting? */
/* mfMsgBlk was set in event_common if we were delivering a pEvent.what = kHighLevelEvent or in
* GetSpecificHighLevelEvent.
*/
mfMsgBlk = (pCurrentProcess->eppcBlk.mfMsgBlk);
mfMsgBlk->msgStatus |= msgPartialyAccepted;
/* Can message fit into the user's buffer? */
if ((mfMsgBlk->eppcMsgBlk.msgLength - mfMsgBlk->MFRefcon) > *msgLen) {
/* message is larger than user's buffer */
xferCount = *msgLen; /* move what we can */
err = bufferIsSmall; /* tell the user his buffer is small */
/* tell the user how much is left to move */
*msgLen = mfMsgBlk->eppcMsgBlk.msgLength - mfMsgBlk->MFRefcon - *msgLen;
}
else {
/* message fits fine */
xferCount = mfMsgBlk->eppcMsgBlk.msgLength - mfMsgBlk->MFRefcon;
*msgLen = xferCount;
}
/* Move message */
if (msgBuff ISNT NULL && xferCount ISNT 0)
BlockMove(mfMsgBlk->addrOfMsg + (Ptr)mfMsgBlk->MFRefcon,msgBuff,xferCount);
*msgRefcon = mfMsgBlk->eppcMsgBlk.userRefcon;
senderID->sessionID = (mfMsgBlk->sendermfid.sessionID IS systemSessionID) ? systemSessionID : mfMsgBlk->targetmfid.sessionID;
getSessionRecord(senderID, &pCurrentProcess->eppcBlk);
/* Check to see if we moved all the message */
mfMsgBlk->MFRefcon += xferCount;
if (mfMsgBlk->MFRefcon >= mfMsgBlk->eppcMsgBlk.msgLength) {
/* message is all moved. Send the return receipt and release the memory */
mfMsgBlk->msgStatus |= msgCompletelyAccepted;
flushMsg(mfMsgBlk,msgWasFullyAccepted);
pCurrentProcess->eppcBlk.mfMsgBlk = nil;
}
}
else
err = noOutstandingHLE; /* Humm<6D> no High Level Event. His mistake or mine? */
/* restore caller's world */
A5SimpleRestore(olda5);
return(err);
}
/*____________________________________________________________________________________________*/
void
getSessionRecord(SenderIDPtr senderID, EPPCBlk *recvrEppcB)
{
cTableEntryPtr sRec;
MemClear(&senderID->location, sizeof(LocationNameRec));
MemClear(&senderID->name, sizeof(PPCPortRec));
MemClear(&senderID->recvrName, sizeof(PPCPortRec));
sRec = findSessionRecord(senderID->sessionID);
if (sRec ISNT nil)
{
senderID->name = sRec->sPName;
if (sRec->sLocName.locationKindSelector IS ppcNBPLocation)
senderID->location = sRec->sLocName;
else
senderID->location.locationKindSelector = ppcNoLocation;
senderID->recvrName = sRec->sEppcBlkPtr->nameOfMsgQ;
}
else
{
if (senderID->sessionID IS systemSessionID)
{
BlockMove(MacOSPortNamepStr, &senderID->name.name, *(char *)MacOSPortNamepStr+1);
senderID->name.portKindSelector = ppcByString;
BlockMove(MacOSPortTypepStr, &senderID->name.u.portTypeStr, *(char *)MacOSPortTypepStr+1);
senderID->recvrName = recvrEppcB->nameOfMsgQ;
}
}
}
/*____________________________________________________________________________________________*/
void
FlushHLEQueue(EPPCBlkPtr eppcBlk, Boolean sendReturnReceipts, short rtnMsg)
{
MFmsgBlkPtr aMsg=eppcBlk->mfMsgBlk;
int priority;
if (aMsg ISNT nil)
if (sendReturnReceipts)
flushMsg(aMsg, rtnMsg);
else
{
RelMsgEventBuffer(aMsg);
}
for (priority=1;priority>=0;priority--)
{
LINKLIST *theMsgQ = &(eppcBlk->msgQ[priority]);
qset(theMsgQ);
llhead();
while(ll_length() ISNT 0)
{
llretrieve(&aMsg);
lldelete();
if (sendReturnReceipts)
{
flushMsg(aMsg, rtnMsg);
qset(theMsgQ); /* flush queue may undo our qset, so redo it. */
}
else
{
RelMsgEventBuffer(aMsg);
}
}
}
}
/*____________________________________________________________________________________________*/
void
flushMsg(MFmsgBlkPtr msgBlk, unsigned short rtnModifiers)
{
if ((msgBlk->eppcMsgBlk.postingOptions & nReturnReceipt) AND ((msgBlk->msgStatus & getSpecificHLE) IS 0))
postReturnReceipt(msgBlk,rtnModifiers);
RelMsgEventBuffer(msgBlk);
}
/*_____________________________________fetchMsgData______________________________________*/
MFmsgBlkPtr
fetchMsgData(EPPCBlkPtr eppcBlkPtr, MFmsgBlkPtr mfMsgBlk, OSErr *err)
{
ppcReadPBPtr readPB;
Handle aHdl;
aHdl = GMBlk(sizeof(ppcReadBlk)+mfMsgBlk->eppcMsgBlk.msgLength, err);
if (*err ISNT noErr)
return nil;
HLock(aHdl);
readPB = *aHdl;
MemClear(readPB,sizeof(ppcReadBlk)+mfMsgBlk->eppcMsgBlk.msgLength);
readPB->pbHdl = aHdl;
readPB->pbID = eppcBlkPtr;
readPB->ppcReadPB.bufferPtr = readPB + 1; // <9>
readPB->ppcReadPB.bufferLength = mfMsgBlk->eppcMsgBlk.msgLength;
readPB->mfMsgBlk = *mfMsgBlk;
readPB->mfMsgBlk.addrOfMsg = readPB->ppcReadPB.bufferPtr;
readPB->mfMsgBlk.pbHandle = aHdl;
readPB->ppcReadPB.csCode = ppcReadCmd;
readPB->ppcReadPB.ioCompletion = nil;
readPB->ppcReadPB.sessRefNum = mfMsgBlk->targetmfid.sessionID;
if (mfMsgBlk->eppcMsgBlk.msgLength IS 0);
else
*err = PPCRead(&readPB->ppcReadPB,SYNCHRONOUS);
return (&readPB->mfMsgBlk);
}
/*____________________________________________________________________________________________*/
void
postReturnReceipt(const MFmsgBlkPtr mfMsgBlk, signed short rtnModifiers)
{
EventRecord theEvent;
u_long receiverID;
u_long msgRefcon;
u_long postingOptions;
if (mfMsgBlk->targetmfid.sessionID IS systemSessionID)
{
receiverID = &mfMsgBlk->sendermfid.localPSN;
postingOptions = receiverIDisPSN;
}
else
{
receiverID = mfMsgBlk->targetmfid.sessionID;
postingOptions = receiverIDisSessionID;
}
msgRefcon = mfMsgBlk->eppcMsgBlk.userRefcon;
theEvent.message = HighLevelEventMsgClass;
LONG_TO_PT(rtrnReceiptMsgID,&theEvent.where);
theEvent.modifiers = rtnModifiers;
PostHighLevelEvent(&theEvent, receiverID, msgRefcon, nil, 0, postingOptions);
}
/*____________________________________________________________________________________________*/
pascal short
c_PostHighLevelEvent(EventRecord *theEvent, u_long receiverID, u_long msgRefcon, Ptr msgBuff, u_long msgLen, u_long postingOptions)
{
ProcessSerialNumber SendersPSN;
unsigned long olda5, connectionID;
short err, anotherErr;
ConnectionType connectionType;
MFmsgBlkPtr msgBlk;
ProcessSerialNumber aPSN;
olda5 = ProcessMgrA5SimpleSetup();
err = noErr;
/* Make sure msgLen is reasonable */
if (msgBuff == nil)
msgLen = 0;
else if (msgLen > 0x0000ffffL)
{
A5SimpleRestore(olda5);
return(ddpLenErr);
}
(void) GetSystemClientProcess(&SendersPSN);
connectionType = GetConnectionType(&SendersPSN, receiverID, postingOptions, &connectionID, &aPSN, &err);
if (connectionType == badConnection)
{
A5SimpleRestore(olda5);
return(err);
}
/* badConnection has been weeded out. Try and get memory for message and necessary control info */
if ((msgBlk = GetMsgEventBuffer(msgLen, &anotherErr)) IS nil)
{
A5SimpleRestore(olda5);
return(anotherErr);
}
/* Set up the event record we'll give to the target */
msgBlk->eppcMsgBlk.theMsgEvent = *theEvent;
msgBlk->eppcMsgBlk.theMsgEvent.what = kHighLevelEvent;
msgBlk->eppcMsgBlk.theMsgEvent.when = TICKS;
/* Set up the message and refcon */
if (msgLen != 0)
BlockMove(msgBuff, msgBlk->addrOfMsg, msgLen);
msgBlk->eppcMsgBlk.userRefcon = msgRefcon;
msgBlk->MFRefcon = 0;
msgBlk->eppcMsgBlk.postingOptions = postingOptions;
/* Set up routing information */
msgBlk->sendermfid.localPSN = SendersPSN;
msgBlk->targetmfid.localPSN = aPSN;
msgBlk->sendermfid.sessionID = connectionID;
msgBlk->targetmfid.sessionID = noSessionID;
/* msgBlk is complete. Put it where it belongs based on connectionType. */
if (connectionType == eppcConnection)
{
postMsgToPPC(msgBlk, connectionID, &anotherErr);
if ((postingOptions & receiverIDMask) == receiverIDisTargetID)
((TargetIDPtr)receiverID)->sessionID = (anotherErr == noErr) ? connectionID : noSessionID;
err = anotherErr;
}
else if (connectionType == systemSenderConnection)
{
msgBlk->msgStatus |= localOnly;
postMsg(msgBlk);
}
else if (connectionType == systemReceiverConnection)
{
HandleSystemMessage(msgBlk, &err);
}
else if (connectionType == noEppcConnection)
TranslateAppleEvent(msgBlk, &err);
A5SimpleRestore(olda5);
return(err);
}
/*____________________________________________________________________________________________*/
void
CreateMsgQ(PEntryPtr pProc)
{
EPPCBlk eppcB;
short i;
MemClear(&eppcB,sizeof(EPPCBlk));
eppcB.pTablePtr = pProc;
qset(&eppcB.msgQ[0]);
qitemsize(sizeof(MFmsgBlk)); /* actually represents the header size only */
qset(&eppcB.msgQ[1]);
qitemsize(sizeof(MFmsgBlk)); /* actually represents the header size only */
/* Build eppcB port name from resource or p_taskmode */
makePortName(&eppcB);
openPPCPort(&eppcB);
if (eppcB.createErr IS noErr)
/* carve out a parameter block for a async PPCInform call and start the Informs*/
for (i=0;i<NROFINFORMPBS;i++)
{
eppcB.iPBs[i] = (PPCInformPBPtr)getPPCInformPB(&pProc->eppcBlk, eppcB.portID, &eppcB.createErr);
if (eppcB.createErr ISNT noErr)
break;
eppcB.createErr = PPCInform(eppcB.iPBs[i],ASYNCHRONOUS);
if (eppcB.createErr ISNT noErr)
break;
} /* end of for loop */
if (eppcB.createErr ISNT noErr)
closePPCPort(eppcB.portID);
pProc->eppcBlk = eppcB;
if (eppcB.createErr IS noErr)
{
qset(&eppcBQ);
q_push(&pProc->eppcBlk);
}
}
/*____________________________________________________________________________________________*/
void
makePortName(EPPCBlkPtr eppcB)
{
Ptr namePtr = nil;
short lenOfPortName;
Handle hdl;
if ((eppcB->pTablePtr->p_taskmode & modeHighLevelEventAware) AND ((hdl = (Handle)Get1Resource('eppc',0)) ISNT nil))
{
namePtr = *hdl;
eppcB->optionFlags = *(unsigned long *)namePtr;
if (eppcB->pTablePtr->p_taskmode & modeLocalAndRemoteHLEvents)
eppcB->optionFlags |= registerOnNetwork;
namePtr += (Ptr)sizeof(unsigned long);
eppcB->reserved1 = *(unsigned long *)namePtr;
namePtr += (Ptr)sizeof(unsigned long);
eppcB->nameOfMsgQ.nameScript = *(short *)namePtr;
namePtr += (Ptr)sizeof(short);
lenOfPortName = *(char *)namePtr;
namePtr += (Ptr)sizeof(char);
eppcB->nameOfMsgQ.name[0] = lenOfPortName;
BlockMove(namePtr,&eppcB->nameOfMsgQ.name[1],lenOfPortName);
eppcB->nameOfMsgQ.portKindSelector = ppcByString;
eppcB->nameOfMsgQ.u.portTypeStr[0] = 8;
BlockMove((Ptr)&eppcB->pTablePtr->p_signature,(Ptr)&eppcB->nameOfMsgQ.u.portTypeStr[1],4);
BlockMove("ep01",(Ptr)&eppcB->nameOfMsgQ.u.portTypeStr[5],4);
ReleaseResource(hdl);
return;
}
if (eppcB->pTablePtr->p_taskmode & modeHighLevelEventAware)
{
if (eppcB->pTablePtr->p_taskmode & modeLocalAndRemoteHLEvents)
eppcB->optionFlags |= registerOnNetwork;
eppcB->reserved1 = 0;
eppcB->nameOfMsgQ.nameScript = (short)GetEnvirons(smSysScript);
BlockMove(CURAPNAME, &eppcB->nameOfMsgQ.name, *((unsigned char *)CURAPNAME) + 1);
eppcB->nameOfMsgQ.portKindSelector = ppcByString;
eppcB->nameOfMsgQ.u.portTypeStr[0] = 8;
BlockMove((Ptr)&eppcB->pTablePtr->p_signature,(Ptr)&eppcB->nameOfMsgQ.u.portTypeStr[1],4);
BlockMove("ep01",(Ptr)&eppcB->nameOfMsgQ.u.portTypeStr[5],4);
return;
}
eppcB->createErr = -1;
}
/*____________________________________________________________________________________________*/
void
openPPCPort(EPPCBlkPtr eppcB) {
PPCOpenPBRec PPCpb;
if (eppcB->createErr ISNT noErr)
return;
MemClear(&PPCpb,sizeof(PPCOpenPBRec));
PPCpb.csCode = ppcOpenCmd;
PPCpb.ioCompletion = NULL;
PPCpb.serviceType = ppcServiceRealTime;
if (eppcB->optionFlags & registerOnNetwork)
PPCpb.networkVisible = true;
PPCpb.portName = &eppcB->nameOfMsgQ;
PPCpb.locationName = NULL;
eppcB->createErr = PPCOpen(&PPCpb, SYNCHRONOUS);
/* If error was name duplication, try adjusting the name until it works */
if (eppcB->createErr IS portNameExistsErr)
doDuplicateNameOpen(eppcB, &PPCpb);
/* Check result of PPCOpen or doDuplicateNameOpen */
if (eppcB->createErr IS noErr)
eppcB->portID = PPCpb.portRefNum;
}
/*____________________________________________________________________________________________*/
void
doDuplicateNameOpen(register EPPCBlkPtr eppcB, register PPCOpenPBPtr PPCpb)
{
register short nrOfTries;
nrOfTries = MAXNROFTRIES;
do {
GetNextPortName(eppcB);
eppcB->createErr = PPCOpen(PPCpb, SYNCHRONOUS);
} while ((eppcB->createErr IS portNameExistsErr) AND (--nrOfTries > 0));
}
/*____________________________________________________________________________________________*/
void
GetNextPortName(EPPCBlkPtr eppcB)
{
char lsd, msd;
lsd = StringByte(eppcB->nameOfMsgQ.u.portTypeStr, 7);
msd = StringByte(eppcB->nameOfMsgQ.u.portTypeStr, 6);
if (lsd IS '9')
{
lsd = '0';
if (msd IS '9')
msd = '0';
else
msd++;
}
else
lsd++;
StringByte(eppcB->nameOfMsgQ.u.portTypeStr, 7) = lsd;
StringByte(eppcB->nameOfMsgQ.u.portTypeStr, 6) = msd;
}
/*_________________________________________closePPCPort___________________________________*/
void
closePPCPort(unsigned long portID)
{
PPCClosePBRec closePB;
if (portID ISNT 0) {
closePB.csCode = ppcCloseCmd;
closePB.ioCompletion = nil;
closePB.portRefNum = portID;
PPCClose(&closePB, SYNCHRONOUS);
}
DeleteBQEntries(portID, &ppcReadBQ);
DeleteBQEntries(portID, &ppcWriteBQ);
DeleteBQEntries(portID, &ppcInformBQ);
return;
}
/*_____________________________________________DestroyMsgQ____________________________________*/
void
DestroyMsgQ(EPPCBlk *eppcBlk)
{
unsigned short oldMask = 0;
short i;
register PPCParamBlockPtr *pIPB;
if (INITIALIZED(eppcBlk) == false)
return;
/* tell KnockKnock to reject informs */
pIPB = &eppcBlk->iPBs[0];
DisableInterrupts(&oldMask);
for (i=NROFINFORMPBS; i > 0; i--)
{
ppcInformPBPtr thePB = (Ptr)*pIPB - sizeOfPPCpbHeader; // <9>
thePB->status |= closeInProgress;
pIPB++;
}
EnableInterrupts(oldMask);
/* take care of outstanding messages */
FlushHLEQueue(eppcBlk, false, 0);
if (breakConnections(eppcBlk->portID) IS 0)
closePPCPort(eppcBlk->portID);
/* remove the eppc block from the chain because its memory is going away*/
qset(&eppcBQ);
llsetMatch((ProcPtr)findElement);
llhead();
if (llcheck(eppcBlk))
lldelete();
else
assert(0);
}
/*_______________________________________breakConnections_________________________________*/
short
breakConnections(unsigned long portID)
{
OSErr ppcEndErr;
PPCEndPBRec endPB;
cTableEntryPtr sRec;
short nrOfSessionsLeftOpen = 0;
qset(&connectionQ);
if (ll_length() ISNT 0)
{
llsetMatch((ProcPtr)byportID);
llhead();
while (llcheck(&portID))
{
llretrieve(&sRec);
sRec->status |= HLEQDoesNotExist;
if (sRec->swPB IS nil)
{
if (!(sRec->status & (sessionClosed+sessionEnded)))
{
endPB.csCode = ppcEndCmd;
endPB.ioCompletion = nil;
endPB.sessRefNum = sRec->sID;
ppcEndErr = PPCEnd(&endPB,SYNCHRONOUS);
if (ppcEndErr IS noErr OR ppcEndErr IS noSessionErr) ;
else
assert(0);
}
lldelete();
DisposHandle(sRec->sHdl);
}
else
{
nrOfSessionsLeftOpen++;
sRec->status |= waitingForWrites;
if (!llnext())
break;
}
}
}
return(nrOfSessionsLeftOpen);
}
#if 0
/*____________________________________________DeleteBQEntries_________________________________*/
void
DeleteBQEntries(unsigned long portID, LINKLIST *theBQ)
{
ppcWritePBPtr pb;
unsigned short oldMask;
qset(theBQ);
DisableInterrupts(&oldMask);
if (ll_length() ISNT 0)
{
llsetMatch((ProcPtr)byportIDforPB);
llhead();
while (llcheck(&portID))
{
llretrieve(&pb);
lldelete();
DisposHandle(pb->pbHdl);
}
}
EnableInterrupts(oldMask);
}
#else
/*____________________________________________DeleteBQEntries_________________________________*/
void
DeleteBQEntries(unsigned long portID, LINKLIST *theBQ)
{
ppcWritePBPtr pb;
ppcWritePBPtr nextPB;
unsigned short oldMask;
LINKLIST aListToDisposeOf;
MemClear(&aListToDisposeOf, sizeof(LINKLIST));
qset(theBQ);
DisableInterrupts(&oldMask);
++theBQ->listInUse;
if (ll_length() ISNT 0)
{
llhead();
llretrieve(&pb);
while (pb ISNT nil)
{
if (llnext())
llretrieve(&nextPB);
else
nextPB = nil;
if (pb->portID IS portID)
{
theBQ->clp = pb;
lldelete();
qset(&aListToDisposeOf);
q_push(pb);
qset(theBQ);
}
if (nextPB ISNT nil)
theBQ->clp = nextPB;
pb = nextPB;
}
}
--theBQ->listInUse;
EnableInterrupts(oldMask);
qset(&aListToDisposeOf);
while (ll_length() ISNT 0)
{
q_pop(&pb);
DisposHandle(pb->pbHdl);
}
}
#endif
/*__________________________________GetMsgEventBuffer__________________________________________*/
MFmsgBlkPtr
GetMsgEventBuffer(u_long lengthInBytes, OSErr *err)
{
ppcWritePBPtr msgBlk = nil;
Handle aHdl = nil;
aHdl = GMBlk(sizeof(ppcWriteBlk)+lengthInBytes, err);
if (*err ISNT noErr)
return(nil);
HLock(aHdl);
msgBlk = *aHdl;
MemClear(msgBlk,sizeof(ppcWriteBlk)+lengthInBytes);
msgBlk->pbHdl = aHdl;
msgBlk->mfMsgBlk.pbHandle = aHdl;
msgBlk->mfMsgBlk.eppcMsgBlk.version = 3;
msgBlk->mfMsgBlk.eppcMsgBlk.HighLevelEventMsgHeaderLength = sizeof(HighLevelEventMsg);
msgBlk->mfMsgBlk.eppcMsgBlk.msgLength = lengthInBytes;
msgBlk->mfMsgBlk.addrOfMsg = (lengthInBytes IS 0) ? NULL : msgBlk + 1; // <9>
return(&msgBlk->mfMsgBlk);
}
/*_____________________________________RelMsgEventBuffer________________________________________*/
void
RelMsgEventBuffer (MFmsgBlkPtr mfMsgBlk)
{
if (mfMsgBlk->msgStatus & getSpecificHLE)
return;
DisposHandle(mfMsgBlk->pbHandle);
CheckForFatalError(MEMERROR IS noErr);
}
/*____________________________________________________________________________________________*/
void
postMsg(const MFmsgBlkPtr msgBlk)
{
PEntryPtr pTargetProc;
EPPCBlkPtr teppcBlk;
pTargetProc = PEntryFromPSN(&msgBlk->targetmfid.localPSN);
CheckForFatalError(pTargetProc != nil);
teppcBlk = TarEPPCBlkPtr(pTargetProc);
if (msgBlk->eppcMsgBlk.postingOptions & nAttnMsg)
qset(&(teppcBlk->msgQ[1]));
else
qset(&(teppcBlk->msgQ[0]));
q_push(msgBlk);
/* Wake him up, if necessary */
CancelSleep(pTargetProc);
}
/*____________________________________postMsgToPPC___________________________________________*/
void
postMsgToPPC(const MFmsgBlkPtr msgBlk, unsigned long sessionID, OSErr *err)
{
ppcWritePBPtr writePB;
unsigned long *along;
cTableEntryPtr sRec;
writePB = (ppcWritePBPtr) ((Ptr)msgBlk - sizeOfPPCWriteBlk); // <9>
writePB->ppcWritePB.csCode = ppcWriteCmd;
writePB->ppcWritePB.ioCompletion = KnockKnock;
writePB->ppcWritePB.sessRefNum = sessionID;
writePB->ppcWritePB.blockCreator = msgBlk->eppcMsgBlk.theMsgEvent.message;
along = &(msgBlk->eppcMsgBlk.theMsgEvent.where);
writePB->ppcWritePB.blockType = *along;
writePB->ppcWritePB.bufferLength = sizeof(HighLevelEventMsg)+msgBlk->eppcMsgBlk.msgLength;
writePB->ppcWritePB.bufferPtr = &msgBlk->eppcMsgBlk;
writePB->pbID = EPPCBlkFromPSN(&msgBlk->sendermfid.localPSN);
/* The following code was added to keep track of the last PPCWrite. */
/* A new field was created in the connection table entry record (session */
/* record) - swPB. Into this field we store the address of the ppcWritePBPtr*/
/* The swPB is used in ScanWriteBQ. This is part of the fix for lost post */
/* during _ExitToShell */
sRec = findSessionRecord(sessionID);
sRec->swPB = writePB;
writePB->portID = sRec->sportID;
*err = PPCWrite(&writePB->ppcWritePB,ASYNCHRONOUS);
}
/*_____________________________GetNextHighLevelEvent____________________________________________*/
pascal Boolean
c_GetNextHighLevelEvent(short eventmask, EventRecord *pReturnEvent, Boolean pullevent)
{
MFmsgBlkPtr aMsg, bMsg;
short priority;
unsigned long olda5;
Boolean retVal;
olda5 = ProcessMgrA5SimpleSetup();
retVal = false;
scanInformBQ();
scanReadBQ();
scanWriteBQ();
assert(pCurrentProcess ISNT pNullProcess);
assert(EqualPSNConst(kSystemProcess, &pCurrentProcess->p_serialNumber) IS false);
for (priority=1;priority>=0;priority--)
{
if (pCurrentProcess->eppcBlk.msgQ[priority].listlength ISNT 0 AND (eventmask & networkMask))
{
qset(&pCurrentProcess->eppcBlk.msgQ[priority]);
lltail();
llretrieve(&aMsg);
*pReturnEvent = aMsg->eppcMsgBlk.theMsgEvent;
if (pullevent)
{
q_pop(&bMsg);
CheckForFatalError(bMsg IS aMsg);
pCurrentProcess->eppcBlk.mfMsgBlk = (Handle)bMsg;
}
retVal = true;
break;
}
}
A5SimpleRestore(olda5);
return(retVal);
}
/*________________________________________scanInformBQ__________________________________________*/
void
scanInformBQ(void)
{
ppcInformPBPtr iPB;
PPCEndPBRec ppcEndPB;
OSErr err;
unsigned short oldMask = 0;
cTableEntryPtr sRec;
for (;;)
{
DisableInterrupts(&oldMask);
++ppcInformBQ.listInUse;
if (ppcInformBQ.listlength IS 0)
{
--ppcInformBQ.listInUse;
EnableInterrupts(oldMask);
break;
}
qset(&ppcInformBQ);
q_pop(&iPB);
--ppcInformBQ.listInUse;
EnableInterrupts(oldMask);
if (iPB->ppcInformPB.ioResult ISNT noErr)
{
releasePPCpb(&iPB->ppcInformPB);
continue;
}
if (iPB->ppcInformReplyPB.csCode IS ppcRejectCmd);
else
if ((sRec = findFreeSessionRecord()) ISNT nil)
{
sRec->status |= informConnection;
if (iPB->status & closeInProgress)
sRec->status |= HLEQDoesNotExist;
sRec->sID = iPB->ppcInformPB.sessRefNum;
sRec->sPName = *(iPB->ppcInformPB.portName);
if (iPB->ppcInformPB.requestType IS ppcRemoteOrigin)
sRec->sLocName = *(iPB->ppcInformPB.locationName);
else
sRec->sLocName.locationKindSelector = ppcNoLocation;
sRec->sEppcBlkPtr = iPB->pbID; /* pbID may no longer be valid */
sRec->sportID = iPB->portID;
sRec->srPB = startPPCRead(iPB->pbID, iPB->ppcInformPB.sessRefNum, &err);
if (err ISNT noErr)
DisposHandle(sRec->sHdl);
else
{
qset(&connectionQ);
q_push(sRec);
}
}
else
{
MemClear(&ppcEndPB,sizeof(PPCEndPBRec));
ppcEndPB.sessRefNum = iPB->ppcInformPB.sessRefNum;
ppcEndPB.csCode = ppcEndCmd;
ppcEndPB.ioCompletion = nil;
PPCEnd(&ppcEndPB,SYNCHRONOUS);
}
iPB->ppcInformPB.sessRefNum = 0;
MemClear(iPB->ppcInformPB.locationName, sizeof(LocationNameRec));
MemClear(iPB->ppcInformPB.portName, sizeof(PPCPortRec));
err = PPCInform(&iPB->ppcInformPB,ASYNCHRONOUS);
}
}
/*____________________________________scanWriteBQ_______________________________________________*/
void
scanWriteBQ(void)
{
ppcWritePBPtr wPB = nil;
ppcWritePBPtr lastwPB = nil;
unsigned short oldMask = 0;
cTableEntryPtr sRec;
PPCEndPBRec ppcEndPB;
for (;;)
{
DisableInterrupts(&oldMask);
++ppcWriteBQ.listInUse;
if (ppcWriteBQ.listlength IS 0)
{
--ppcWriteBQ.listInUse;
EnableInterrupts(oldMask);
break;
};
qset(&ppcWriteBQ);
q_pop(&wPB);
--ppcWriteBQ.listInUse;
EnableInterrupts(oldMask);
sRec = findSessionRecord(wPB->ppcWritePB.sessRefNum);
if (sRec IS nil)
{
releasePPCpb(&wPB->ppcWritePB);
continue;
}
if (wPB->ppcWritePB.ioResult IS noErr);
else
{
/* closing the port or ending a session causes writes to go to completion */
if (wPB->ppcWritePB.ioResult IS noSessionErr OR wPB->ppcWritePB.ioResult IS sessClosedErr)
sRec->status |= sessionClosed;
else
{
if (sRec->status & waitingForWrites);
else
{
MemClear(&ppcEndPB,sizeof(PPCEndPBRec));
ppcEndPB.sessRefNum = wPB->ppcWritePB.sessRefNum;
ppcEndPB.csCode = ppcEndCmd;
ppcEndPB.ioCompletion = nil;
PPCEnd(&ppcEndPB,SYNCHRONOUS);
sRec->status |= sessionEnded;
}
}
}
releasePPCpb(&wPB->ppcWritePB);
lastwPB = sRec->swPB;
if (lastwPB IS wPB)
{
sRec->swPB = nil;
if (sRec->status & waitingForWrites)
{
unsigned long portID = sRec->sportID;
sRec->status &= ~waitingForWrites;
if (breakConnections(portID) IS 0)
closePPCPort(portID);
}
}
}
}
/*_____________________________________scanReadBQ____________________________________________*/
void
scanReadBQ(void)
{
ppcReadPBPtr rPB;
OSErr err;
unsigned short oldMask = 0;
cTableEntryPtr sRec;
MFmsgBlkPtr aMFmsg;
/* Loop until the queue is empty. The queue is added to by KnockKnock, the
io completion for PPCToolbox calls. The loop is terminated when the queue
length goes to 0. Notice the calls to DisableInterrupts around the queue
manipulation logic.
*/
for (;;)
{
DisableInterrupts(&oldMask);
++ppcReadBQ.listInUse;
if (ppcReadBQ.listlength IS 0)
{
--ppcReadBQ.listInUse;
EnableInterrupts(oldMask);
break; /* the queue is empty. exit the for loop. */
}
qset(&ppcReadBQ);
q_pop(&rPB);
--ppcReadBQ.listInUse;
EnableInterrupts(oldMask);
sRec = findSessionRecord(rPB->ppcReadPB.sessRefNum);
if (sRec IS nil)
{
releasePPCpb(&rPB->ppcReadPB); /* could not find a session record match */
continue; /* for this completed read. This should */
} /* mean that DestroyMsgQ ended the */
/* session (i.e. the target has called */
/* _ExitToShell */
if (rPB->ppcReadPB.ioResult IS noErr);
else
{
endSessionAfterAReadError(sRec, rPB->ppcReadPB.ioResult);
continue;
}
/* set up to get the data portion of this High Level Event, if any. */
rPB->mfMsgBlk.targetmfid.sessionID = rPB->ppcReadPB.sessRefNum;
/* The next assignment determines the local target of the message. Note: you
cannot assume that the target is still alive (i.e. rPB->pbID->pTablePtr is
valid). If HLEQDoesNotExist is set, then the app called _ExitToShell and
we need to set localPSN accordingly.
*/
if (sRec->status & HLEQDoesNotExist)
{
SetPSN(kNoProcess, &rPB->mfMsgBlk.targetmfid.localPSN);
}
else
rPB->mfMsgBlk.targetmfid.localPSN = rPB->pbID->pTablePtr->p_serialNumber;
rPB->mfMsgBlk.addrOfMsg = nil;
aMFmsg = fetchMsgData(rPB->pbID, &rPB->mfMsgBlk, &err);
if (err IS noErr);
else /* There was an error during fetchMsgData */
{
if (aMFmsg IS nil) /* Was it a memory error? */
{
rPB->mfMsgBlk.msgStatus |= msgMemoryRestart;
qset(&ppcReadBQ);
DisableInterrupts(&oldMask);
++ppcReadBQ.listInUse;
if (ppcReadBQ.listlength IS 0)
q_push(rPB);
else
{
lltail();
lladd(rPB);
}
--ppcReadBQ.listInUse;
EnableInterrupts(oldMask);
break;
}
else /* it was not a memory error */
{
endSessionAfterAReadError(sRec, err);
if (aMFmsg)
RelMsgEventBuffer(aMFmsg);
continue;
}
}
if (sRec->status & HLEQDoesNotExist)
RelMsgEventBuffer(aMFmsg);
else
{
/* Put the HLE on the appropriate list */
if (rPB->mfMsgBlk.eppcMsgBlk.postingOptions & nAttnMsg)
qset(&(rPB->pbID->msgQ[1]));
else
qset(&(rPB->pbID->msgQ[0]));
q_push(aMFmsg);
/* Wake him up, if necessary */
CancelSleep(rPB->pbID->pTablePtr);
}
/* start the outstanding read on this session */
sRec->srPB = restartPPCRead(rPB, &err);
}
}
/*__________________________________endSessionAfterAReadError________________________________________*/
void
endSessionAfterAReadError(cTableEntryPtr sRec, OSErr err)
{
PPCEndPBRec ppcEndPB;
if (err IS noSessionErr OR err IS sessClosedErr)
sRec->status |= sessionClosed;
else
{
if (sRec->status & waitingForWrites);
else
{
MemClear(&ppcEndPB,sizeof(PPCEndPBRec));
ppcEndPB.sessRefNum = sRec->sID;
ppcEndPB.csCode = ppcEndCmd;
ppcEndPB.ioCompletion = nil;
PPCEnd(&ppcEndPB,SYNCHRONOUS);
sRec->status |= sessionEnded;
}
}
releasePPCpb(sRec->srPB);
sRec->srPB = nil;
}
/*____________________________________________________________________________________________*/
/* GetConnectionType. Returns the type of connection we can have from the sender to the receiver.
* It takes as input a SendersPSN, a receiverID, postion options.
* It returns, in addition to type of connection, connectionID, PSN of the target, and err.
* Results: eppcConnection means the connection is routed thru the PPCToolbox.
* noEppcConnection means that the receiver was located, but it cannot understand EPPC.
* systemReceiverConnection means the message was addressed to "the system"
* systemSenderConnection means the message was from the "the system"
* badConnection means that there is no possibility of connection.
* If the result is eppcConnection, the target is in connectionID. Otherwise, it is in targetsPSN.
* If the result is badConnection or noEppcConnection, the appropriate error code is returned
* in err. This error should be returned in the noEppcConnection case if the event can not
* be translated.
* Note: <EFBFBD> SendersPSN can be kSystemProcess, kNoProcess, or somebodies PSN.
* <EFBFBD> SendersPSN equal to kNoProcess is an error, I thought; I coded.
* <EFBFBD> SendersPSN equal to kSystemProcess means someone called us with SystemMode
* turned on.
* <EFBFBD> receiverID is the target identification. How receiverID is interpeted is determined
* by postingOptions. There are four options as of 7.0aA7.
* <EFBFBD> connectionID is the target identification. On output how connectionID is interpeted is
* determined by type of connection. There are five types as of 7.0aA7.
* <EFBFBD> targetsPSN is the target process serial number. On output how targetsPSN is
* interpeted is determined by type of connection. There are five options as of 7.0aA7.
* <EFBFBD> err is error. Means something.
*/
ConnectionType
GetConnectionType(ProcessSerialNumberPtr SendersPSN, unsigned long receiverID, unsigned long postingOptions, unsigned long *connectionID, ProcessSerialNumberPtr targetsPSN, OSErr *err)
{
PEntryPtr pReceiverProc;
EPPCBlkPtr eppcBPtr;
TargetID tID;
ProcessSerialNumber PSNFromSign;
ConnectionType retVal;
cTableEntryPtr sRec;
/* Assume the worst */
retVal = badConnection;
/* Sender must be able to do EPPC if a return receipt was requested
* NOTE: nReturnReceipt check is first because kSystemProcess may send
* an event when pCurrentProcess is nil.
*/
if ( ((postingOptions & nReturnReceipt) != 0) && (CanDoEPPC(pCurrentProcess) == false) )
{
*err = connectionInvalid;
*connectionID = noSessionID;
SetPSN(kNoProcess, targetsPSN);
return(retVal);
}
/* Determine specific connection type. */
if ((postingOptions &= receiverIDMask) IS receiverIDisPSN)
{
pReceiverProc = PEntryFromPSN((ProcessSerialNumberPtr) receiverID);
if (pReceiverProc != nil)
{
eppcBPtr = EPPCBlkFromPSN(&pReceiverProc->p_serialNumber); // <13>
if (eppcBPtr ISNT nil) { /* yes, target has eppcBlk */
/* Now consider the sender's identity */
if (EqualPSNConst(kSystemProcess, SendersPSN) == false)
{
tID = getTIDfromEppcBlk(eppcBPtr);
if ((*connectionID = getSessionID(SendersPSN,&tID, err)) != 0)
{
*targetsPSN = *((ProcessSerialNumberPtr) receiverID);
retVal = eppcConnection;
}
else /* we couldn't get a sessionID */
{
SetPSN(kNoProcess, targetsPSN);
retVal = badConnection;
}
}
else
{ /* SendersPSN was kSystemProcess and target has eppcBlk */
*err = noErr;
*connectionID = systemSessionID;
*targetsPSN = *((ProcessSerialNumberPtr) receiverID);
retVal = systemSenderConnection;
}
}
else /* target had no eppcBlk. */
{
*err = destPortErr;
*connectionID = noSessionID;
*targetsPSN = *((ProcessSerialNumberPtr) receiverID);
retVal = noEppcConnection;
}
}
else /* we didn't find a process table for the target. See if it is a special case */
if ( EqualPSNConst(kSystemProcess, (ProcessSerialNumberPtr)(receiverID)) )
{
*err = noErr;
*connectionID = systemSessionID;
*targetsPSN = *((ProcessSerialNumberPtr) receiverID);
retVal = systemReceiverConnection;
}
else /* not a special case. Oh well<6C> not connection */
{
*err = procNotFound;
*connectionID = noSessionID;
SetPSN(kNoProcess, targetsPSN);
retVal = badConnection;
}
}
if (postingOptions IS receiverIDisTargetID)
{
if ((*connectionID = getSessionID(SendersPSN,(TargetIDPtr)receiverID, err)) != 0)
{
retVal = eppcConnection;
}
}
if (postingOptions IS receiverIDisSignature)
{
if (PSNFromSignature((ResType)receiverID, &PSNFromSign))
{
eppcBPtr = EPPCBlkFromPSN(&PSNFromSign);
if (eppcBPtr ISNT nil) {
if (EqualPSNConst(kSystemProcess, SendersPSN) == false)
{
tID = getTIDfromEppcBlk(eppcBPtr);
if ((*connectionID = getSessionID(SendersPSN,&tID, err)) != 0)
{
*targetsPSN = PSNFromSign;
retVal = eppcConnection;
}
else
{
SetPSN(kNoProcess, targetsPSN);
retVal = badConnection;
}
}
else /* SendersPSN was kSystemProcess and target has eppcBlk */
{
*err = noErr;
*connectionID = systemSessionID;
*targetsPSN = PSNFromSign;
retVal = systemSenderConnection;
}
}
else /* target had no eppcBlk. */
{
*err = destPortErr;
*connectionID = noSessionID;
*targetsPSN = PSNFromSign;
retVal = noEppcConnection;
}
}
else /* couldn't find a PSN from the signature. check special case */
{
if ( NULLPROC_SIGNATURE IS (ResType)receiverID )
{
*err = noErr;
*connectionID = systemSessionID;
SetPSN(kSystemProcess, targetsPSN);
retVal = systemReceiverConnection;
}
else /* not a special case. Oh well<6C> not connection */
{
*err = connectionInvalid;
*connectionID = noSessionID;
SetPSN(kNoProcess, targetsPSN);
retVal = badConnection;
}
}
} /* end of receiverIDisSignature */
if (postingOptions IS receiverIDisSessionID)
{
sRec = findSessionRecord(receiverID);
if (sRec ISNT nil)
{
if (EqualPSNConst(kSystemProcess, SendersPSN) == false)
{
if ((*connectionID = validateSessionID(SendersPSN, receiverID, err)) != 0)
{
SetPSN(kNoProcess, targetsPSN);
retVal = eppcConnection;
}
else
{
SetPSN(kNoProcess, targetsPSN);
retVal = badConnection;
}
}
else
{
*err = noErr;
*connectionID = systemSessionID;
*targetsPSN = sRec->sEppcBlkPtr->pTablePtr->p_serialNumber;
retVal = systemSenderConnection;
}
}
else /* no connection. check for special cases */
{
if (receiverID IS systemSessionID)
{
*err = noErr;
*connectionID = systemSessionID;
SetPSN(kSystemProcess, targetsPSN);
retVal = systemReceiverConnection;
}
else /* not a special case. Oh well<6C> not connection */
{
*err = connectionInvalid;
*connectionID = noSessionID;
SetPSN(kNoProcess, targetsPSN);
retVal = badConnection;
}
}
} /* end of receiverIDisSessionID */
return (retVal);
}
/*____________________________________________________________________________________________*/
unsigned long
validateSessionID(ProcessSerialNumberPtr ownersPSN, unsigned long sessionID, OSErr *err)
{
cTableEntryPtr sRec;
sRec = findSessionRecord(sessionID);
if (sRec ISNT nil)
if ( EqualPSN(ownersPSN, &sRec->sEppcBlkPtr->pTablePtr->p_serialNumber))
{
if (sRec->status & (sessionClosed+sessionEnded))
{
qset(&connectionQ);
llhead();
llsetMatch((ProcPtr)findElement);
if (llcheck(sRec))
{
lldelete();
DisposHandle(sRec->sHdl);
}
*err = sessClosedErr;
return(0);
}
*err = noErr;
return(sessionID);
}
*err = connectionInvalid;
return(0);
}
/*____________________________________________________________________________________________*/
Boolean
comparePortNames(PPCPortPtr N1, PPCPortPtr N2)
{
short i;
if (N1->nameScript ISNT N2->nameScript)
return(true);
if (N1->name[0] ISNT N2->name[0])
return(true);
if (N1->name[0]) {
for(i=1;i<=(N1->name[0]);++i)
if (N1->name[i] ISNT N2->name[i])
return(true);
}
if (N1->portKindSelector ISNT N2->portKindSelector)
return(true);
if (N1->portKindSelector IS ppcByString) {
if (N1->u.portTypeStr[0] ISNT N2->u.portTypeStr[0])
return(true);
if (N1->u.portTypeStr[0]) {
for(i=1;i<=(N1->u.portTypeStr[0]);++i)
if (N1->u.portTypeStr[i] ISNT N2->u.portTypeStr[i])
return(true);
}
}
else {
if (N1->u.port.creator ISNT N2->u.port.creator)
return(true);
if (N1->u.port.type ISNT N2->u.port.type)
return(true);
}
return(false);
}
/*____________________________________________________________________________________________*/
Boolean
comparePortLocation(LocationNamePtr L1, LocationNamePtr L2)
{
short i;
if (L1->locationKindSelector ISNT L2->locationKindSelector)
return(true);
if (L1->locationKindSelector IS ppcNoLocation)
return(false);
if (L1->u.nbpEntity.objStr[0] ISNT L2->u.nbpEntity.objStr[0])
return(true);
if (L1->u.nbpEntity.objStr[0]) {
for(i=1;i<=(L1->u.nbpEntity.objStr[0]);++i)
if (L1->u.nbpEntity.objStr[i] ISNT L2->u.nbpEntity.objStr[i])
return(true);
}
if (L1->u.nbpEntity.typeStr[0] ISNT L2->u.nbpEntity.typeStr[0])
return(true);
if (L1->u.nbpEntity.typeStr[0]) {
for(i=1;i<=(L1->u.nbpEntity.typeStr[0]);++i)
if (L1->u.nbpEntity.typeStr[i] ISNT L2->u.nbpEntity.typeStr[i])
return(true);
}
if (L1->u.nbpEntity.zoneStr[0] ISNT L2->u.nbpEntity.zoneStr[0])
return(true);
if (L1->u.nbpEntity.zoneStr[0]) {
for(i=1;i<=(L1->u.nbpEntity.zoneStr[0]);++i)
if (L1->u.nbpEntity.zoneStr[i] ISNT L2->u.nbpEntity.zoneStr[i])
return(true);
}
return(false);
}
/*____________________________________________________________________________________________*/
Boolean
PortNameAndLocationAreEqual(PPCPortPtr portName, LocationNamePtr locName, TargetIDPtr targetID)
{
Boolean different;
if ((different = comparePortNames(portName, &targetID->name)) == false)
if (locName IS nil)
return (targetID->location.locationKindSelector IS ppcNoLocation);
else
different = comparePortLocation(locName, &targetID->location);
return(!different);
}
/*____________________________________________________________________________________________*/
TargetID
getTIDfromEppcBlk(EPPCBlkPtr eppcBPtr)
{
TargetID tID;
MemClear(&tID,sizeof(TargetID));
tID.name = eppcBPtr->nameOfMsgQ;
tID.location.locationKindSelector = ppcNoLocation;
return(tID);
}
/*____________________________________________________________________________________________*/
cTableEntryPtr
findSessionRecord(unsigned long sessionRefNum)
{
cTableEntryPtr sRec = nil;
if (sessionRefNum IS 0 OR sessionRefNum IS -1)
return(sRec);
qset(&connectionQ);
if (ll_length() ISNT 0)
{
llsetMatch((ProcPtr)bySessionID);
llhead();
if (llcheck((char *)&sessionRefNum))
llretrieve((char *)&sRec);
}
return(sRec);
}
/*____________________________________________________________________________________________*/
#if !CubeE // <24> Keep the old version around for
cTableEntryPtr // <24> Non CubeE builds for now.
findFreeSessionRecord(void)
{
Handle aHdl;
OSErr err;
aHdl = GMBlk(sizeof(cTableEntry), &err);
if (err ISNT noErr)
return(nil);
HLock(aHdl);
MemClear(*aHdl,sizeof(cTableEntry));
((cTableEntryPtr)(*aHdl))->sHdl = aHdl;
return(*aHdl);
}
#endif
#if CubeE // <24> The <20>fixed<65> version from 7-Up
cTableEntryPtr
findFreeSessionRecord(void)
{
Handle aHdl;
aHdl = NewHandleSysClear(sizeof(cTableEntry)); // <24> Allocate the block in the System heap
if (!aHdl)
return(nil);
MoveHLow(aHdl); // <24> Move it low in the System heap
HLock(aHdl); // <24> before locking it.
((cTableEntryPtr)(*aHdl))->sHdl = aHdl;
return(*aHdl);
}
#endif
/*____________________________________getSessionID_____________________________________________*/
unsigned long
getSessionID(ProcessSerialNumberPtr sendersPSN, TargetIDPtr portN, OSErr *err)
{
PPCStartPBRec pbS;
cTableEntryPtr sRec;
TargetID senderTID;
Boolean portMatchfound = false;
Boolean enableGuestButton;
Str255 userName;
Boolean guestSelected;
EPPCBlkPtr postersEppcBlk;
Ptr funcPtr=StartSecureSession;
unsigned long myA5;
*err = noErr;
if ((postersEppcBlk = EPPCBlkFromPSN(sendersPSN)) IS nil)
{
*err = noPortErr;
return(0);
}
if (postersEppcBlk->createErr)
{
*err = postersEppcBlk->createErr;
return(0);
}
/* see if connection already exists */
senderTID = getTIDfromEppcBlk(postersEppcBlk);
qset(&connectionQ);
llhead();
if (ll_length() ISNT 0)
llretrieve(&sRec);
else
sRec = nil;
while (sRec)
{
if (sRec->sID)
{
if (sRec->sEppcBlkPtr IS postersEppcBlk)
if (PortNameAndLocationAreEqual(&sRec->sPName, &sRec->sLocName, portN))
{
portMatchfound = true;
break;
}
else
if (PortNameAndLocationAreEqual(&sRec->sEppcBlkPtr->nameOfMsgQ, nil, portN))
if (PortNameAndLocationAreEqual(&sRec->sPName, &sRec->sLocName, &senderTID))
{
portMatchfound = true;
break;
}
}
if (llnext())
llretrieve(&sRec);
else
sRec = nil;
}
if (portMatchfound)
if (sRec->status & (sessionClosed+sessionEnded))
{
*err = sessClosedErr;
lldelete();
DisposHandle(sRec->sHdl);
return(0);
}
else
return(sRec->sID);
/* connection didn't exist. See if we have a free one to give out. */
if ((sRec = findFreeSessionRecord()) IS nil)
{
*err = sessTableErr; /* session table has no free entries */
return (0);
}
MemClear(&pbS,sizeof(PPCStartPBRec));
pbS.csCode = ppcStartCmd;
pbS.portRefNum = postersEppcBlk->portID;
pbS.ioCompletion = nil;
pbS.serviceType = ppcServiceRealTime;
if (portN->location.locationKindSelector IS ppcNBPLocation)
pbS.locationName = &portN->location;
else
pbS.locationName = nil;
pbS.portName = &portN->name;
/* The following if statement causes noUserInteractionAllowed to be returned if we are */
/* establishing a remote connection and the application is not frontmost or is being */
/* coerced. */
/* For 7.0B6 the check for the application being coerced was removed. A background app */
/* may want to come to the foreground and post a HLE which requires a session to be */
/* established. The app may still be in the coerced state, yet pFrontProcess IS */
/* pCurrentProcess and the app is in the frontmost layer of windows. At this point */
/* it should be OK for authentication to occur. Hopefully.
/* This does not deal with the app filling in the NBP name of his local machine. */
#if 0
if ((pbS.locationName ISNT nil) AND ((pFrontProcess ISNT pCurrentProcess) OR (coercionState ISNT CS_DONE)))
#else
if ((pbS.locationName ISNT nil) AND (pFrontProcess ISNT pCurrentProcess))
#endif
{
DisposHandle(sRec->sHdl);
*err = noUserInteractionAllowed;
return(0);
}
enableGuestButton = guestAllowed(portN, err);
if (*err ISNT noErr)
{
DisposHandle(sRec->sHdl);
return (0);
}
MemClear(&userName,sizeof(Str255));
/* StartSecureSession may cause the Dialog Manager to run. It is best if our
app's A5 is in the machine because user items in dialog windows behind the
authentication dialog(s) may execute. Some user item procedure assume that
A5 points to the application's global not the Process Manager's globals.
*/
myA5 = CurrentA5SimpleSetup();
*err = CALL_FNC_PTR(StartSecureSession_ptr, funcPtr, (&pbS, &userName, false, enableGuestButton, &guestSelected, nil));
A5SimpleRestore(myA5);
/*
*err = StartSecureSession (&pbS, &userName, false, enableGuestButton, &guestSelected, nil);
*/
if (*err ISNT noErr)
{
DisposHandle(sRec->sHdl);
return (0);
}
/* delete user identity. eppc doesn't use it. deleting it frees PPCToolbox resources. */
DeleteUserIdentity (pbS.userRefNum);
/* fill in the connection entry */
sRec->status |= startConnection;
sRec->sID = pbS.sessRefNum;
sRec->sEppcBlkPtr = postersEppcBlk;
sRec->sportID = postersEppcBlk->portID;
sRec->sPName = portN->name;
if (portN->location.locationKindSelector IS ppcNBPLocation)
sRec->sLocName = portN->location;
else
sRec->sLocName.locationKindSelector = ppcNoLocation;
sRec->srPB = startPPCRead(postersEppcBlk, sRec->sID, err);
if (sRec->srPB IS nil)
{
DisposHandle(sRec->sHdl);
return(0);
}
else
{
qset(&connectionQ);
q_push(sRec);
}
return(sRec->sID);
}
/*_________________________________restartPPCRead_____________________________________________*/
PPCReadPBPtr
restartPPCRead(ppcReadPBPtr rPB, OSErr *err)
{
MemClear(&rPB->mfMsgBlk,sizeof(MFmsgBlk));
rPB->mfMsgBlk.pbHandle = rPB->pbHdl;
*err = PPCRead(&rPB->ppcReadPB,ASYNCHRONOUS);
return(&rPB->ppcReadPB);
}
/*___________________________________startPPCRead_____________________________________________*/
PPCReadPBPtr
startPPCRead(EPPCBlkPtr eppcBPtr, unsigned long sessionID, OSErr *err)
{
PPCReadPBPtr rPB;
rPB = getPPCReadPB(eppcBPtr, sessionID, err);
if (*err IS noErr)
*err = PPCRead(rPB,ASYNCHRONOUS);
return(rPB);
}
/*____________________________________________________________________________________________*/
Boolean
guestAllowed(TargetIDPtr portN, OSErr *err)
{
PortInfoRec infoBuff;
IPCListPortsPBRec listPortPB;
*err = noErr;
if (portN->location.locationKindSelector IS ppcNoLocation)
return(false);
MemClear(&listPortPB,sizeof(IPCListPortsPBRec));
listPortPB.csCode = IPCListPortsCmd;
listPortPB.requestCount = 1;
listPortPB.portName = &portN->name;
listPortPB.locationName = &portN->location;
listPortPB.bufferPtr = &infoBuff;
*err = IPCListPorts(&listPortPB,SYNCHRONOUS);
if (*err ISNT noErr)
return(false);
if (listPortPB.actualCount IS 1)
return (!infoBuff.authRequired);
else
{
*err = destPortErr;
return(false);
}
}
/*____________________________________________________________________________________________*/
Boolean
findElement(char *A, char *B)
{
return((*(LINKTYPE *)A).item IS (*(LINKTYPE *)B).item);
}
/*____________________________________________________________________________________________*/
Boolean
byPSN(EPPCBlkPtr A, ProcessSerialNumberPtr B)
{
return(EqualPSN(&(A->pTablePtr->p_serialNumber),B));
}
/*____________________________________________________________________________________________*/
Boolean
byPortName(EPPCBlkPtr A, PPCPortPtr B)
{
return(!comparePortNames(&A->nameOfMsgQ,B));
}
/*____________________________________________________________________________________________*/
Boolean
bySignature(EPPCBlkPtr A, ResType *B)
{
return(A->pTablePtr->p_signature IS *B);
}
/*____________________________________________________________________________________________*/
Boolean
byPBID(ppcWritePBPtr A, EPPCBlk *B)
{
return(A->pbID IS B);
}
/*____________________________________________________________________________________________*/
Boolean
bySessionID(cTableEntryPtr A, unsigned long *B)
{
return(A->sID IS *B);
}
/*____________________________________________________________________________________________*/
Boolean
bysEppcBlkPtr(cTableEntryPtr A, EPPCBlk *B)
{
return(A->sEppcBlkPtr IS B);
}
/*____________________________________________________________________________________________*/
Boolean
byportIDforPB(ppcWriteBlk *A, unsigned long *B)
{
return(A->portID IS *B);
}
/*____________________________________________________________________________________________*/
Boolean
byportID(cTableEntryPtr A, unsigned long *B)
{
return(A->sportID IS *B);
}
/*____________________________________________________________________________________________*/
Boolean
PSNFromName(PPCPortPtr portName, ProcessSerialNumberPtr pPSN)
{
EPPCBlkPtr eppcB = nil;
Boolean retVal;
qset(&eppcBQ);
if (ll_length() ISNT 0)
{
llsetMatch((ProcPtr)byPortName);
llhead();
if (llcheck(portName))
llretrieve((char *)&eppcB);
}
/* Set output parameter and function value */
if (retVal = (eppcB != nil))
*pPSN = eppcB->pTablePtr->p_serialNumber;
else
SetPSN(kNoProcess, pPSN);
return(retVal);
}
/*____________________________________________________________________________________________*/
Boolean
NameFromPSN(PPCPortPtr portName, ProcessSerialNumberPtr pPSN)
{
EPPCBlkPtr eppcB = nil;
Boolean retVal;
qset(&eppcBQ);
if (ll_length() ISNT 0)
{
llsetMatch((ProcPtr)byPSN);
llhead();
if (llcheck(pPSN))
llretrieve((char *)&eppcB);
}
/* Set output parameter and function value */
if (retVal = (eppcB != nil))
*portName = eppcB->nameOfMsgQ;
return(retVal);
}
/*____________________________________________________________________________________________*/
Boolean
PSNFromSignature(ResType qid, ProcessSerialNumberPtr pPSN)
{
EPPCBlkPtr eppcB = nil;
Boolean retVal;
qset(&eppcBQ);
if (ll_length() ISNT 0)
{
llsetMatch((ProcPtr)bySignature);
llhead();
if (llcheck((char *)&qid))
llretrieve((char *)&eppcB);
}
/* Set output parameter and function value */
if (retVal = (eppcB != nil))
*pPSN = eppcB->pTablePtr->p_serialNumber;
else
SetPSN(kNoProcess, pPSN);
return(retVal);
}
/*____________________________________________________________________________________________*/
EPPCBlkPtr
EPPCBlkFromPSN(ProcessSerialNumberPtr pPSN)
{
qset(&eppcBQ);
if (ll_length() IS 0)
return(nil);
llsetMatch((ProcPtr)byPSN);
llhead();
if (llcheck((char *)pPSN))
return(eppcBQ.clp);
else
return(nil);
}
/*____________________________________________________________________________________________*/
void
releasePPCpb(PPCParamBlockPtr pb)
{
if (pb IS nil)
return;
(Ptr)pb -= sizeOfPPCpbHeader;
DisposHandle(((ppcReadPBPtr)pb)->pbHdl);
CheckForFatalError(MEMERROR IS noErr);
}
/*____________________________________________________________________________________________*/
PPCInformPBPtr
getPPCInformPB(EPPCBlkPtr refCon, unsigned short portID, OSErr *err)
{
Handle aHdl;
ppcInformPBPtr ppcInformBlkPtr;
/* carve out a parameter block for a async PPC call */
aHdl = GMBlk(sizeof(ppcInformBlk), err);
if (*err ISNT noErr)
return(nil);
HLock(aHdl);
ppcInformBlkPtr = *aHdl;
MemClear(ppcInformBlkPtr,sizeof(ppcInformBlk));
ppcInformBlkPtr->pbID = refCon;
ppcInformBlkPtr->portID = portID;
ppcInformBlkPtr->pbHdl = aHdl;
ppcInformBlkPtr->ppcInformPB.portName = &ppcInformBlkPtr->portName;
ppcInformBlkPtr->ppcInformPB.locationName = &ppcInformBlkPtr->portLoc;
ppcInformBlkPtr->ppcInformPB.csCode = ppcInformCmd;
ppcInformBlkPtr->ppcInformPB.ioCompletion = KnockKnock;
ppcInformBlkPtr->ppcInformPB.portRefNum = portID;
ppcInformBlkPtr->ppcInformPB.autoAccept = false;
return(&ppcInformBlkPtr->ppcInformPB);
}
/*____________________________________________________________________________________________*/
PPCReadPBPtr
getPPCReadPB(EPPCBlkPtr refCon, unsigned long sessionID, OSErr *err)
{
Handle aHdl;
ppcReadPBPtr ppcReadBlkPtr;
/* carve out a parameter block for a async PPC call */
aHdl = GMBlk(sizeof(ppcReadBlk), err);
if (*err ISNT noErr)
return(nil);
HLock(aHdl);
ppcReadBlkPtr = *aHdl;
MemClear(ppcReadBlkPtr,sizeof(ppcReadBlk));
ppcReadBlkPtr->pbID = refCon;
ppcReadBlkPtr->portID = refCon->portID;
ppcReadBlkPtr->pbHdl = aHdl;
ppcReadBlkPtr->ppcReadPB.bufferPtr = &ppcReadBlkPtr->mfMsgBlk.eppcMsgBlk;
ppcReadBlkPtr->ppcReadPB.bufferLength = sizeof(HighLevelEventMsg);
ppcReadBlkPtr->ppcReadPB.csCode = ppcReadCmd;
ppcReadBlkPtr->ppcReadPB.ioCompletion = KnockKnock;
ppcReadBlkPtr->ppcReadPB.sessRefNum = sessionID;
return(&ppcReadBlkPtr->ppcReadPB);
}
/*____________________________________________________________________________________________*/
extern LINKLIST *list;
/*____________________________________________________________________________________________*/
void
qPPCPb(ppcWritePBPtr wPBPtr, LINKLIST *BQList)
{
LINKLIST *oldList = list;
assert(!BQList->listInUse);
qset(BQList);
q_push(wPBPtr);
list = oldList;
}
/*____________________________________________________________________________________________*/
void
KnockKnock( PPCParamBlockPtr ppcPb )
{
ppcWritePBPtr wPBPtr;
ppcInformPBPtr iPBPtr;
wPBPtr = (ppcWritePBPtr)((Ptr)ppcPb - (Ptr)sizeOfPPCpbHeader);
switch(ppcPb->startParam.csCode) {
case ppcInformCmd:
/* closing the port causes all async calls to go to completion */
if (ppcPb->informParam.ioResult ISNT noErr)
{
qPPCPb(wPBPtr, &ppcInformBQ);
break;
}
iPBPtr = (ppcInformPBPtr)wPBPtr;
iPBPtr->ppcInformReplyPB.ioCompletion = KnockKnock;
iPBPtr->ppcInformReplyPB.sessRefNum = ppcPb->informParam.sessRefNum; // <13>
/* if close is in progress on the port reject the incoming session */
if (wPBPtr->status & closeInProgress)
PPCReject(&iPBPtr->ppcInformReplyPB,ASYNCHRONOUS);
else
PPCAccept(&iPBPtr->ppcInformReplyPB,ASYNCHRONOUS);
break;
case ppcWriteCmd:
qPPCPb(wPBPtr, &ppcWriteBQ);
break;
case ppcReadCmd:
wPBPtr->mfMsgBlk.eppcMsgBlk.theMsgEvent.when = TICKS;
qPPCPb(wPBPtr, &ppcReadBQ);
break;
case ppcAcceptCmd:
case ppcRejectCmd:
iPBPtr = (ppcInformPBPtr)((Ptr)wPBPtr - (Ptr)sizeof(PPCInformPBRec));
qPPCPb(iPBPtr, &ppcInformBQ);
break;
case ppcOpenCmd:
case ppcStartCmd:
case ppcEndCmd:
case ppcCloseCmd:
case IPCListPortsCmd:
default:
dbmsg("Eppc completion routine called for unknown command.");
break;
}
}