/* * Copyright (c) 2003 Ben Harris * All rights reserved. * * Permission is hereby granted, free of charge, to any person * obtaining a copy of this software and associated documentation * files (the "Software"), to deal in the Software without * restriction, including without limitation the rights to use, * copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following * conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF * CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ /* * mtcpnet.c - MacTCP interface */ #if !TARGET_API_MAC_CARBON #include #include #include #include #include #include #include #include #define DEFINE_PLUG_METHOD_MACROS #include "putty.h" #include "network.h" #include "mac.h" /* * The following structures are documented as being in * , but that isn't shipped with Universal * Interfaces, and it's easier to define them here than to require * people to download yet another SDK. */ static OSErr OpenResolver(char *); static OSErr CloseResolver(void); enum { OPENRESOLVER = 1, CLOSERESOLVER, STRTOADDR, ADDRTOSTR, ENUMCACHE, ADDRTONAME, HXINFO, MXINFO }; #define NUM_ALT_ADDRS 4 typedef struct hostInfo { int rtnCode; char cname[255]; unsigned long addr[NUM_ALT_ADDRS]; }; typedef CALLBACK_API(void, ResultProcPtr)(struct hostInfo *, char *); typedef STACK_UPP_TYPE(ResultProcPtr) ResultUPP; enum { uppResultProcInfo = kPascalStackBased | STACK_ROUTINE_PARAMETER(1, SIZE_CODE(sizeof(struct hostInfo*))) | STACK_ROUTINE_PARAMETER(2, SIZE_CODE(sizeof(char *))) }; #define NewResultUPP(userRoutine) \ (ResultUPP)NewRoutineDescriptor((ProcPtr)(userRoutine), \ uppResultProcInfo, \ GetCurrentArchitecture()) #define DisposeResultUPP(userUPP) DisposeRoutineDescriptor(userUPP) static OSErr StrToAddr(char *, struct hostInfo *, ResultUPP *, char *); typedef CALLBACK_API_C(OSErr, OpenResolverProcPtr)(UInt32, char *); typedef STACK_UPP_TYPE(OpenResolverProcPtr) OpenResolverUPP; enum { uppOpenResolverProcInfo = kCStackBased | RESULT_SIZE(SIZE_CODE(sizeof(OSErr))) | STACK_ROUTINE_PARAMETER(1, SIZE_CODE(sizeof(UInt32))) | STACK_ROUTINE_PARAMETER(2, SIZE_CODE(sizeof(char*))) }; #define InvokeOpenResolverUPP(selector, fileName, userUPP) \ CALL_TWO_PARAMETER_UPP((userUPP), uppOpenResolverProcInfo, \ (selector), (fileName)) typedef CALLBACK_API_C(OSErr, CloseResolverProcPtr)(UInt32); typedef STACK_UPP_TYPE(CloseResolverProcPtr) CloseResolverUPP; enum { uppCloseResolverProcInfo = kCStackBased | RESULT_SIZE(SIZE_CODE(sizeof(OSErr))) | STACK_ROUTINE_PARAMETER(1, SIZE_CODE(sizeof(UInt32))) }; #define InvokeCloseResolverUPP(selector, userUPP) \ CALL_ONE_PARAMETER_UPP((userUPP), uppCloseResolverProcInfo, (selector)) typedef CALLBACK_API_C(OSErr, StrToAddrProcPtr)(UInt32, char *, struct hostInfo *, ResultUPP, char *); typedef STACK_UPP_TYPE(StrToAddrProcPtr) StrToAddrUPP; enum { uppStrToAddrProcInfo = kCStackBased | RESULT_SIZE(SIZE_CODE(sizeof(OSErr))) | STACK_ROUTINE_PARAMETER(1, SIZE_CODE(sizeof(UInt32))) | STACK_ROUTINE_PARAMETER(2, SIZE_CODE(sizeof(char *))) | STACK_ROUTINE_PARAMETER(3, SIZE_CODE(sizeof(struct hostInfo *))) | STACK_ROUTINE_PARAMETER(4, SIZE_CODE(sizeof(ResultUPP))) | STACK_ROUTINE_PARAMETER(5, SIZE_CODE(sizeof(char *))) }; #define InvokeStrToAddrUPP(selector, hostName, hostInfoPtr, ResultProc, \ userDataPtr, userUPP) \ CALL_FIVE_PARAMETER_UPP((userUPP), uppStrToAddrProcInfo, (selector),\ (hostName), (hostInfoPtr), (ResultProc), \ (userDataPtr)) #define StrToAddr(hostName, hostInfoPtr, ResultProc, userDataPtr) \ InvokeStrToAddrUPP(STRTOADDR, hostName, hostInfoPtr, ResultProc, \ userDataPtr, (StrToAddrUPP)*mactcp.dnr_handle) typedef CALLBACK_API_C(OSErr, AddrToStrProcPtr)(UInt32, unsigned long, char *); typedef STACK_UPP_TYPE(AddrToStrProcPtr) AddrToStrUPP; enum { uppAddrToStrProcInfo = kCStackBased | RESULT_SIZE(SIZE_CODE(sizeof(OSErr))) | STACK_ROUTINE_PARAMETER(1, SIZE_CODE(sizeof(UInt32))) | STACK_ROUTINE_PARAMETER(2, SIZE_CODE(sizeof(unsigned long))) | STACK_ROUTINE_PARAMETER(3, SIZE_CODE(sizeof(char *))) }; #define InvokeAddrToStrUPP(selector, addr, addrStr, userUPP) \ CALL_THREE_PARAMETER_UPP((userUPP), uppAddrToStrProcInfo, (selector),\ (addr), (addrStr)) #define AddrToStr(addr, addrStr) \ InvokeAddrToStrUPP(ADDRTOSTR, addr, addrStr, \ (AddrToStrUPP)*mactcp.dnr_handle) /* End of AddressXlation.h bits */ /* TCP connection states, mysteriously missing from */ #define TCPS_CLOSED 0 #define TCPS_LISTEN 2 #define TCPS_SYN_RECEIVED 4 #define TCPS_SYN_SENT 6 #define TCPS_ESTABLISHED 8 #define TCPS_FIN_WAIT_1 10 #define TCPS_FIN_WAIT_2 12 #define TCPS_CLOSE_WAIT 14 #define TCPS_CLOSING 16 #define TCPS_LAST_ACK 18 #define TCPS_TIME_WAIT 20 struct Socket_tag { struct socket_function_table *fn; /* the above variable absolutely *must* be the first in this structure */ StreamPtr s; OSErr err; Plug plug; void *private_ptr; bufchain output_data; int connected; int writable; int frozen; /* this causes readability notifications to be ignored */ int frozen_readable; /* this means we missed at least one readability * notification while we were frozen */ int localhost_only; /* for listening sockets */ char oobdata[1]; int sending_oob; int oobpending; /* is there OOB data available to read? */ int oobinline; int pending_error; /* in case send() returns error */ int listener; struct Socket_tag *next; struct Socket_tag **prev; }; /* * We used to typedef struct Socket_tag *Socket. * * Since we have made the networking abstraction slightly more * abstract, Socket no longer means a tcp socket (it could mean * an ssl socket). So now we must use Actual_Socket when we know * we are talking about a tcp socket. */ typedef struct Socket_tag *Actual_Socket; struct SockAddr_tag { int resolved; struct hostInfo hostinfo; char hostname[512]; }; /* Global variables */ static struct { Handle dnr_handle; int initialised; short refnum; ProcessSerialNumber self; Actual_Socket socklist; } mactcp; static pascal void mactcp_lookupdone(struct hostInfo *hi, char *cookie); static pascal void mactcp_asr(StreamPtr, unsigned short, Ptr, unsigned short, struct ICMPReport *); static Plug mactcp_plug(Socket, Plug); static void mactcp_flush(Socket); static void mactcp_close(Socket); static int mactcp_write(Socket, char const *, int); static int mactcp_write_oob(Socket, char const*, int); static void mactcp_set_private_ptr(Socket, void *); static void *mactcp_get_private_ptr(Socket); static const char *mactcp_socket_error(Socket); static void mactcp_set_frozen(Socket, int); static void mactcp_recv(Actual_Socket s, size_t len); /* * Initialise MacTCP. * This should be called once before any TCP connection is opened. */ OSErr mactcp_init(void) { OSErr err; /* * IM:Devices describes a convoluted way of finding a spare unit * number to open a driver on before calling OpenDriver. Happily, * the MacTCP INIT ensures that .IPP is already open (and hence * has a valid unit number already) so we don't need to go through * all that. (MacTCP Programmer's Guide p6) */ err = OpenDriver("\p.IPP", &mactcp.refnum); if (err != noErr) return err; err = OpenResolver(NULL); if (err != noErr) return err; mactcp.initialised = TRUE; return noErr; } void mactcp_cleanup(void) { Actual_Socket s, next; /* * Eventually, PuTTY should close down each session as it exits, * so there should be no sockets left when we get here. Still, * better safe than sorry. * * XXX What about in-flight aync I/O (when we support that)? */ for (s = mactcp.socklist; s != NULL; s = next) { next = s->next; /* s is about to vanish */ mactcp_close(&s->fn); } /* * When we get async DNS, we have to wait for any outstanding * requests to complete here before exiting. */ CloseResolver(); mactcp.initialised = FALSE; } static ResultUPP mactcp_lookupdone_upp; SockAddr mactcp_namelookup(char const *host, char **canonicalname) { SockAddr ret = snew(struct SockAddr_tag); OSErr err; volatile int done = FALSE; char *realhost; int realhostlen; /* Clear the structure. */ memset(ret, 0, sizeof(struct SockAddr_tag)); if (mactcp_lookupdone_upp == NULL) mactcp_lookupdone_upp = NewResultUPP(&mactcp_lookupdone); /* Casting away const -- hope StrToAddr is sensible */ err = StrToAddr((char *)host, &ret->hostinfo, mactcp_lookupdone_upp, (char *)&done); /* * PuTTY expects DNS lookups to be synchronous (see bug * "async-dns"), so we pretend they are. */ if (err == cacheFault) while (!done) continue; ret->resolved = TRUE; if (ret->hostinfo.rtnCode == noErr) { realhost = ret->hostinfo.cname; /* MacTCP puts trailing dots on canonical names. */ realhostlen = strlen(realhost); if (realhost[realhostlen - 1] == '.') realhost[realhostlen - 1] = '\0'; } else realhost = ""; *canonicalname = snewn(1 + strlen(realhost), char); strcpy(*canonicalname, realhost); return ret; } static pascal void mactcp_lookupdone(struct hostInfo *hi, char *cookie) { volatile int *donep = (int *)cookie; *donep = TRUE; } SockAddr mactcp_nonamelookup(char const *host) { SockAddr ret = snew(struct SockAddr_tag); ret->resolved = FALSE; ret->hostinfo.rtnCode = noErr; ret->hostname[0] = '\0'; strncat(ret->hostname, host, lenof(ret->hostname) - 1); return ret; } void mactcp_getaddr(SockAddr addr, char *buf, int buflen) { char mybuf[16]; OSErr err; if (addr->resolved) { /* XXX only return first address */ err = AddrToStr(addr->hostinfo.addr[0], mybuf); buf[0] = '\0'; if (err != noErr) strncat(buf, mybuf, buflen - 1); } else { buf[0] = '\0'; strncat(buf, addr->hostname, buflen - 1); } } /* I think "local" here really means "loopback" */ int mactcp_hostname_is_local(char *name) { return !strcmp(name, "localhost"); } int mactcp_address_is_local(SockAddr addr) { int i; if (addr->resolved) for (i = 0; i < NUM_ALT_ADDRS; i++) if (addr->hostinfo.addr[i] & 0xff000000 == 0x7f000000) return TRUE; return FALSE; } int mactcp_addrtype(SockAddr addr) { if (addr->resolved) return ADDRTYPE_IPV4; return ADDRTYPE_NAME; } void mactcp_addrcopy(SockAddr addr, char *buf) { /* XXX only return first address */ memcpy(buf, &addr->hostinfo.addr[0], 4); } void mactcp_addr_free(SockAddr addr) { sfree(addr); } static Plug mactcp_plug(Socket sock, Plug p) { Actual_Socket s = (Actual_Socket) sock; Plug ret = s->plug; if (p) s->plug = p; return ret; } static void mactcp_flush(Socket s) { fatalbox("mactcp_flush"); } Socket mactcp_register(void *sock, Plug plug) { fatalbox("mactcp_register"); } static TCPNotifyUPP mactcp_asr_upp; Socket mactcp_new(SockAddr addr, int port, int privport, int oobinline, int nodelay, int keepalive, Plug plug) { static struct socket_function_table fn_table = { mactcp_plug, mactcp_close, mactcp_write, mactcp_write_oob, mactcp_flush, mactcp_set_private_ptr, mactcp_get_private_ptr, mactcp_set_frozen, mactcp_socket_error }; TCPiopb pb; UDPiopb upb; Actual_Socket ret; ip_addr dstaddr; size_t buflen; /* * Create Socket structure. */ ret = snew(struct Socket_tag); ret->s = 0; ret->fn = &fn_table; ret->err = noErr; ret->plug = plug; bufchain_init(&ret->output_data); ret->connected = 0; /* to start with */ ret->writable = 0; /* to start with */ ret->sending_oob = 0; ret->frozen = 0; ret->frozen_readable = 0; ret->localhost_only = 0; /* unused, but best init anyway */ ret->pending_error = 0; ret->oobinline = oobinline; ret->oobpending = FALSE; ret->listener = 0; dstaddr = addr->hostinfo.addr[0]; /* XXX should try all of them */ /* * Create a TCP stream. * * MacTCP requires us to provide it with some buffer memory. Page * 31 of the Programmer's Guide says it should be a minimum of * 4*MTU+1024. Page 36 says a minimum of 4096 bytes. Assume * they're both correct. */ assert(addr->resolved); upb.ioCRefNum = mactcp.refnum; upb.csCode = UDPMaxMTUSize; upb.csParam.mtu.remoteHost = dstaddr; upb.csParam.mtu.userDataPtr = NULL; ret->err = PBControlSync((ParmBlkPtr)&upb); if (ret->err != noErr) return (Socket)ret; buflen = upb.csParam.mtu.mtuSize * 4 + 1024; if (buflen < 4096) buflen = 4096; if (mactcp_asr_upp == NULL) mactcp_asr_upp = NewTCPNotifyUPP(&mactcp_asr); GetCurrentProcess(&mactcp.self); pb.ioCRefNum = mactcp.refnum; pb.csCode = TCPCreate; pb.csParam.create.rcvBuff = snewn(buflen, char); pb.csParam.create.rcvBuffLen = buflen; pb.csParam.create.notifyProc = mactcp_asr_upp; pb.csParam.create.userDataPtr = (Ptr)ret; ret->err = PBControlSync((ParmBlkPtr)&pb); if (ret->err != noErr) return (Socket)ret; ret->s = pb.tcpStream; /* * Open the connection. */ pb.ioCRefNum = mactcp.refnum; pb.csCode = TCPActiveOpen; pb.tcpStream = ret->s; pb.csParam.open.validityFlags = 0; pb.csParam.open.remoteHost = dstaddr; pb.csParam.open.remotePort = port; pb.csParam.open.localPort = privport ? 1023 : 0; pb.csParam.open.dontFrag = FALSE; pb.csParam.open.timeToLive = 0; pb.csParam.open.security = 0; pb.csParam.open.optionCnt = 0; pb.csParam.open.userDataPtr = (Ptr)ret; while (1) { ret->err = PBControlSync((ParmBlkPtr)&pb); if (!privport || ret->err != duplicateSocket) break; pb.csParam.open.localPort--; if (pb.csParam.open.localPort == 0) break; } if (ret->err != noErr) return (Socket)ret; ret->connected = TRUE; ret->writable = TRUE; /* Add this to the list of all sockets */ ret->next = mactcp.socklist; ret->prev = &mactcp.socklist; if (ret->next != NULL) ret->next->prev = &ret->next; mactcp.socklist = ret; sk_addr_free(addr); /* don't need this anymore */ return (Socket)ret; } Socket mactcp_newlistener(char *srcaddr, int port, Plug plug, int local_host_only) { fatalbox("mactcp_newlistener"); } static void mactcp_close(Socket sock) { Actual_Socket s = (Actual_Socket)sock; TCPiopb pb; /* * TCPClose is equivalent to shutdown(fd, SHUT_WR), and hence * leaves the Rx side open, while TCPAbort seems rather vicious, * throwing away Tx data that haven't been ACKed yet. We do both * in succession. */ pb.ioCRefNum = mactcp.refnum; pb.csCode = TCPClose; pb.tcpStream = s->s; pb.csParam.close.validityFlags = 0; pb.csParam.close.userDataPtr = (Ptr)s; s->err = PBControlSync((ParmBlkPtr)&pb); /* Not much we can do about an error anyway. */ pb.ioCRefNum = mactcp.refnum; pb.csCode = TCPAbort; pb.tcpStream = s->s; pb.csParam.abort.userDataPtr = (Ptr)s; s->err = PBControlSync((ParmBlkPtr)&pb); /* Even less we can do about an error here. */ pb.ioCRefNum = mactcp.refnum; pb.csCode = TCPRelease; pb.tcpStream = s->s; pb.csParam.create.userDataPtr = (Ptr)s; s->err = PBControlSync((ParmBlkPtr)&pb); if (s->err == noErr) sfree(pb.csParam.create.rcvBuff); /* Unhitch from list of sockets */ *s->prev = s->next; if (s->next != NULL) s->next->prev = s->prev; sfree(s); } static int mactcp_write(Socket sock, char const *buf, int len) { Actual_Socket s = (Actual_Socket) sock; wdsEntry wds[2]; TCPiopb pb; /* * Casting away const from buf should be safe -- MacTCP won't * write to it. */ wds[0].length = len; wds[0].ptr = (char *)buf; wds[1].length = 0; pb.ioCRefNum = mactcp.refnum; pb.csCode = TCPSend; pb.tcpStream = s->s; pb.csParam.send.validityFlags = 0; pb.csParam.send.pushFlag = TRUE; /* XXX we want it to return. */ pb.csParam.send.urgentFlag = 0; pb.csParam.send.wdsPtr = (Ptr)wds; pb.csParam.send.userDataPtr = (Ptr)s; s->err = PBControlSync((ParmBlkPtr)&pb); return 0; } static int mactcp_write_oob(Socket sock, char const *buf, int len) { fatalbox("mactcp_write_oob"); } static pascal void mactcp_asr(StreamPtr str, unsigned short event, Ptr cookie, unsigned short termin_reason, struct ICMPReport *icmp) { WakeUpProcess(&mactcp.self); } /* * Called from our event loop if there's work to do. */ void mactcp_poll(void) { Actual_Socket s, next; TCPiopb pb; for (s = mactcp.socklist; s != NULL; s = next) { next = s->next; do { pb.ioCRefNum = mactcp.refnum; pb.csCode = TCPStatus; pb.tcpStream = s->s; pb.csParam.status.userDataPtr = (Ptr)s; s->err = PBControlSync((ParmBlkPtr)&pb); if (s->err != noErr) goto next_socket; if (pb.csParam.status.amtUnreadData == 0) break; mactcp_recv(s, pb.csParam.status.amtUnreadData); } while (TRUE); switch (pb.csParam.status.connectionState) { case TCPS_CLOSE_WAIT: /* Remote end has sent us a FIN */ plug_closing(s->plug, NULL, 0, 0); } next_socket: ; } } static void mactcp_recv(Actual_Socket s, size_t len) { rdsEntry rds[2]; TCPiopb pb; if (s->frozen) return; while (len > 0) { pb.ioCRefNum = mactcp.refnum; pb.csCode = TCPNoCopyRcv; pb.tcpStream = s->s; pb.csParam.receive.commandTimeoutValue = 0; pb.csParam.receive.rdsPtr = (Ptr)rds; pb.csParam.receive.rdsLength = lenof(rds) - 1; pb.csParam.receive.userDataPtr = (Ptr)s; s->err = PBControlSync((ParmBlkPtr)&pb); if (s->err != noErr) return; plug_receive(s->plug, 0, rds[0].ptr, rds[0].length); len -= rds[0].length; pb.csCode = TCPRcvBfrReturn; s->err = PBControlSync((ParmBlkPtr)&pb); if (s->err != noErr) return; } } /* * Each socket abstraction contains a `void *' private field in * which the client can keep state. */ static void mactcp_set_private_ptr(Socket sock, void *ptr) { Actual_Socket s = (Actual_Socket) sock; s->private_ptr = ptr; } static void *mactcp_get_private_ptr(Socket sock) { Actual_Socket s = (Actual_Socket) sock; return s->private_ptr; } /* * Special error values are returned from mactcp_namelookup and * mactcp_new if there's a problem. These functions extract an error * message, or return NULL if there's no problem. */ char *mactcp_addr_error(SockAddr addr) { static char buf[64]; switch (addr->hostinfo.rtnCode) { case noErr: return NULL; case nameSyntaxErr: return "Name syntax error"; case noNameServer: return "No name server found"; case authNameErr: return "Domain name does not exist"; case noAnsErr: return "No answer from domain name server"; case dnrErr: return "Domain name server returned an error"; case outOfMemory: return "Out of memory"; default: sprintf(buf, "Unknown DNR error %d", addr->hostinfo.rtnCode); return buf; } } static const char *mactcp_socket_error(Socket sock) { static char buf[64]; Actual_Socket s = (Actual_Socket) sock; switch (s->err) { case noErr: return NULL; case insufficientResources: return "Insufficient resources to open TCP stream"; case duplicateSocket: return "Duplicate socket"; case openFailed: return "Connection failed while opening"; default: sprintf(buf, "Unknown MacTCP error %d", s->err); return buf; } } static void mactcp_set_frozen(Socket sock, int is_frozen) { Actual_Socket s = (Actual_Socket) sock; if (s->frozen == is_frozen) return; s->frozen = is_frozen; } /* * Bits below here would usually be in dnr.c, shipped with the MacTCP * SDK, but its convenient not to require that, and since we assume * System 7 we can actually simplify things a lot. */ static OSErr OpenResolver(char *hosts_file) { short vrefnum; long dirid; HParamBlockRec pb; Str255 filename; OSErr err; int fd; Handle dnr_handle; if (mactcp.dnr_handle != NULL) return noErr; err = FindFolder(kOnSystemDisk, kControlPanelFolderType, FALSE, &vrefnum, &dirid); if (err != noErr) return err; /* * Might be better to use PBCatSearch here, but it's not always * available. */ pb.fileParam.ioCompletion = NULL; pb.fileParam.ioNamePtr = filename; pb.fileParam.ioVRefNum = vrefnum; pb.fileParam.ioFDirIndex = 1; pb.fileParam.ioDirID = dirid; fd = -1; while (PBHGetFInfoSync(&pb) == noErr) { if (pb.fileParam.ioFlFndrInfo.fdType == 'cdev' && pb.fileParam.ioFlFndrInfo.fdCreator == 'ztcp') { fd = HOpenResFile(vrefnum, dirid, filename, fsRdPerm); if (fd == -1) continue; dnr_handle = Get1IndResource('dnrp', 1); if (dnr_handle != NULL) break; CloseResFile(fd); fd = -1; } pb.fileParam.ioDirID = dirid; pb.fileParam.ioFDirIndex++; } if (fd == -1) return fnfErr; DetachResource(dnr_handle); CloseResFile(fd); MoveHHi(dnr_handle); HLock(dnr_handle); err = InvokeOpenResolverUPP(OPENRESOLVER, hosts_file, (OpenResolverUPP)*dnr_handle); if (err != noErr) { HUnlock(dnr_handle); DisposeHandle(dnr_handle); return err; } mactcp.dnr_handle = dnr_handle; return noErr; } OSErr CloseResolver(void) { Handle dnr_handle = mactcp.dnr_handle; OSErr err; if (mactcp.dnr_handle == NULL) return notOpenErr; err = InvokeCloseResolverUPP(CLOSERESOLVER, (CloseResolverUPP)*mactcp.dnr_handle); if (err != noErr) return err; mactcp.dnr_handle = NULL; HUnlock(dnr_handle); DisposeHandle(dnr_handle); return noErr; } #endif /* * Local Variables: * c-file-style: "simon" * End: */