/* * Copyright 2000, International Business Machines Corporation and others. * All Rights Reserved. * * This software has been released under the terms of the IBM Public * License. For details, see the LICENSE file in the top-level source * directory or online at http://www.openafs.org/dl/license10.html */ #ifndef _RX_PROTOTYPES_H #define _RX_PROTOTYPES_H /* rx.c */ #ifndef KERNEL #ifndef AFS_PTHREAD_ENV extern int (*registerProgram) (PROCESS, char *); extern int (*swapNameProgram) (PROCESS, const char *, char *); #endif #endif extern int (*rx_justReceived) (struct rx_packet *, struct sockaddr_in *); extern int (*rx_almostSent) (struct rx_packet *, struct sockaddr_in *); extern void rx_SetEpoch(afs_uint32 epoch); extern int rx_Init(u_int port); extern int rx_InitHost(u_int host, u_int port); #ifdef AFS_NT40_ENV extern void rx_DebugOnOff(int on); extern void rx_StatsOnOff(int on); extern void rx_StartClientThread(void); #endif #ifndef KERNEL extern void rxi_StartServerProcs(int nExistingProcs); #endif extern void rx_StartServer(int donateMe); extern struct rx_connection *rx_NewConnection(afs_uint32 shost, u_short sport, u_short sservice, struct rx_securityClass *securityObject, int serviceSecurityIndex); extern void rx_SetConnDeadTime(struct rx_connection *conn, int seconds); extern void rx_SetConnHardDeadTime(struct rx_connection *conn, int seconds); extern void rx_SetConnIdleDeadTime(struct rx_connection *conn, int seconds); extern void rxi_CleanupConnection(struct rx_connection *conn); extern void rxi_DestroyConnection(struct rx_connection *conn); extern void rx_GetConnection(struct rx_connection *conn); extern void rx_DestroyConnection(struct rx_connection *conn); extern struct rx_call *rx_NewCall(struct rx_connection *conn); extern int rxi_HasActiveCalls(struct rx_connection *aconn); extern int rxi_GetCallNumberVector(struct rx_connection *aconn, afs_int32 * aint32s); extern int rxi_SetCallNumberVector(struct rx_connection *aconn, afs_int32 * aint32s); extern struct rx_service *rx_NewService(u_short port, u_short serviceId, char *serviceName, struct rx_securityClass **securityObjects, int nSecurityObjects, afs_int32(*serviceProc) (struct rx_call * acall)); extern struct rx_service *rx_NewServiceHost(afs_uint32 host, u_short port, u_short serviceId, char *serviceName, struct rx_securityClass **securityObjects, int nSecurityObjects, afs_int32(*serviceProc) (struct rx_call * acall)); extern void rxi_ServerProc(int threadID, struct rx_call *newcall, osi_socket * socketp); extern void rx_WakeupServerProcs(void); extern struct rx_call *rx_GetCall(int tno, struct rx_service *cur_service, osi_socket * socketp); extern void rx_SetArrivalProc(struct rx_call *call, void (*proc) (struct rx_call * call, void * mh, int index), void * handle, int arg); extern afs_int32 rx_EndCall(struct rx_call *call, afs_int32 rc); extern void rx_InterruptCall(struct rx_call *call, afs_int32 error); extern void rx_Finalize(void); extern void rxi_PacketsUnWait(void); extern struct rx_service *rxi_FindService(osi_socket socket, u_short serviceId); extern struct rx_call *rxi_NewCall(struct rx_connection *conn, int channel); extern void rxi_FreeCall(struct rx_call *call, int haveCTLock); extern void *rxi_Alloc(size_t size); extern void rxi_Free(void *addr, size_t size); extern void rxi_SetPeerMtu(struct rx_peer *peer, afs_uint32 host, afs_uint32 port, int mtu); extern struct rx_peer *rxi_FindPeer(afs_uint32 host, u_short port, struct rx_peer *origPeer, int create); extern struct rx_connection *rxi_FindConnection(osi_socket socket, afs_uint32 host, u_short port, u_short serviceId, afs_uint32 cid, afs_uint32 epoch, int type, u_int securityIndex); extern struct rx_packet *rxi_ReceivePacket(struct rx_packet *np, osi_socket socket, afs_uint32 host, u_short port, int *tnop, struct rx_call **newcallp); extern int rxi_IsConnInteresting(struct rx_connection *aconn); extern struct rx_packet *rxi_ReceiveDataPacket(struct rx_call *call, struct rx_packet *np, int istack, osi_socket socket, afs_uint32 host, u_short port, int *tnop, struct rx_call **newcallp); extern struct rx_packet *rxi_ReceiveAckPacket(struct rx_call *call, struct rx_packet *np, int istack); extern struct rx_packet *rxi_ReceiveResponsePacket(struct rx_connection *conn, struct rx_packet *np, int istack); extern struct rx_packet *rxi_ReceiveChallengePacket(struct rx_connection *conn, struct rx_packet *np, int istack); extern void rxi_AttachServerProc(struct rx_call *call, osi_socket socket, int *tnop, struct rx_call **newcallp); extern void rxi_AckAll(struct rxevent *event, struct rx_call *call, char *dummy); extern void rxi_SendDelayedAck(struct rxevent *event, void *call /* struct rx_call *call */, void *dummy); extern void rxi_ClearTransmitQueue(struct rx_call *call, int force); extern void rxi_ClearReceiveQueue(struct rx_call *call); extern struct rx_packet *rxi_SendCallAbort(struct rx_call *call, struct rx_packet *packet, int istack, int force); extern struct rx_packet *rxi_SendConnectionAbort(struct rx_connection *conn, struct rx_packet *packet, int istack, int force); extern void rxi_ConnectionError(struct rx_connection *conn, afs_int32 error); extern void rxi_CallError(struct rx_call *call, afs_int32 error); extern void rxi_ResetCall(struct rx_call *call, int newcall); extern struct rx_packet *rxi_SendAck(struct rx_call *call, struct rx_packet *optionalPacket, int serial, int reason, int istack); extern void rxi_StartUnlocked(struct rxevent *event, void *call, /* struct rx_call */ void *arg1, int istack); extern void rxi_Start(struct rxevent *event, void *call, /* struct rx_call */ void *arg1, int istack); extern void rxi_Send(struct rx_call *call, struct rx_packet *p, int istack); #ifdef RX_ENABLE_LOCKS extern int rxi_CheckCall(struct rx_call *call, int haveCTLock); #else /* RX_ENABLE_LOCKS */ extern int rxi_CheckCall(struct rx_call *call); #endif /* RX_ENABLE_LOCKS */ extern void rxi_KeepAliveEvent(struct rxevent *event, void *call /* struct rx_call *call */, void *dummy); extern void rxi_GrowMTUEvent(struct rxevent *event, void *call /* struct rx_call *call */, void *dummy); extern void rxi_ScheduleKeepAliveEvent(struct rx_call *call); extern void rxi_ScheduleNatKeepAliveEvent(struct rx_connection *conn); extern void rxi_ScheduleGrowMTUEvent(struct rx_call *call, int secs); extern void rxi_KeepAliveOn(struct rx_call *call); extern void rxi_NatKeepAliveOn(struct rx_connection *conn); extern void rxi_GrowMTUOn(struct rx_call *call); extern void rx_SetConnSecondsUntilNatPing(struct rx_connection *conn, afs_int32 seconds); extern void rxi_SendDelayedConnAbort(struct rxevent *event, void *conn, /* struct rx_connection *conn */ void *dummy); extern void rxi_SendDelayedCallAbort(struct rxevent *event, void *call, /* struct rx_call *call */ void *dummy); extern void rxi_ChallengeEvent(struct rxevent *event, void *conn, /* struct rx_connection *conn */ void *arg1, int atries); extern void rxi_ChallengeOn(struct rx_connection *conn); extern void rxi_ReapConnections(struct rxevent *unused, void *unused1, void *unused2); extern int rxs_Release(struct rx_securityClass *aobj); #ifndef KERNEL extern void rx_PrintTheseStats(FILE * file, struct rx_statistics *s, int size, afs_int32 freePackets, char version); extern void rx_PrintStats(FILE * file); extern void rx_PrintPeerStats(FILE * file, struct rx_peer *peer); #endif extern afs_int32 rx_GetServerDebug(osi_socket socket, afs_uint32 remoteAddr, afs_uint16 remotePort, struct rx_debugStats *stat, afs_uint32 * supportedValues); extern afs_int32 rx_GetServerStats(osi_socket socket, afs_uint32 remoteAddr, afs_uint16 remotePort, struct rx_statistics *stat, afs_uint32 * supportedValues); extern afs_int32 rx_GetServerVersion(osi_socket socket, afs_uint32 remoteAddr, afs_uint16 remotePort, size_t version_length, char *version); extern afs_int32 rx_GetServerConnections(osi_socket socket, afs_uint32 remoteAddr, afs_uint16 remotePort, afs_int32 * nextConnection, int allConnections, afs_uint32 debugSupportedValues, struct rx_debugConn *conn, afs_uint32 * supportedValues); extern afs_int32 rx_GetServerPeers(osi_socket socket, afs_uint32 remoteAddr, afs_uint16 remotePort, afs_int32 * nextPeer, afs_uint32 debugSupportedValues, struct rx_debugPeer *peer, afs_uint32 * supportedValues); extern afs_int32 rx_GetLocalPeers(afs_uint32 peerHost, afs_uint16 peerPort, struct rx_debugPeer * peerStats); extern void shutdown_rx(void); #ifndef osirx_AssertMine extern void osirx_AssertMine(afs_kmutex_t * lockaddr, char *msg); #endif #ifndef KERNEL extern int rx_KeyCreate(rx_destructor_t rtn); #endif extern void rx_SetSpecific(struct rx_connection *conn, int key, void *ptr); extern void *rx_GetSpecific(struct rx_connection *conn, int key); extern void rx_SetServiceSpecific(struct rx_service *svc, int key, void *ptr); extern void * rx_GetServiceSpecific(struct rx_service *svc, int key); extern void rx_IncrementTimeAndCount(struct rx_peer *peer, afs_uint32 rxInterface, afs_uint32 currentFunc, afs_uint32 totalFunc, struct clock *queueTime, struct clock *execTime, afs_hyper_t * bytesSent, afs_hyper_t * bytesRcvd, int isServer); extern void rx_MarshallProcessRPCStats(afs_uint32 callerVersion, int count, rx_function_entry_v1_t * stats, afs_uint32 ** ptrP); extern int rx_RetrieveProcessRPCStats(afs_uint32 callerVersion, afs_uint32 * myVersion, afs_uint32 * clock_sec, afs_uint32 * clock_usec, size_t * allocSize, afs_uint32 * statCount, afs_uint32 ** stats); extern int rx_RetrievePeerRPCStats(afs_uint32 callerVersion, afs_uint32 * myVersion, afs_uint32 * clock_sec, afs_uint32 * clock_usec, size_t * allocSize, afs_uint32 * statCount, afs_uint32 ** stats); extern void rx_FreeRPCStats(afs_uint32 * stats, size_t allocSize); extern int rx_queryProcessRPCStats(void); extern int rx_queryPeerRPCStats(void); extern void rx_enableProcessRPCStats(void); extern void rx_enablePeerRPCStats(void); extern void rx_disableProcessRPCStats(void); extern void rx_disablePeerRPCStats(void); extern void rx_clearProcessRPCStats(afs_uint32 clearFlag); extern void rx_clearPeerRPCStats(afs_uint32 clearFlag); extern void rx_SetRxStatUserOk(int (*proc) (struct rx_call * call)); extern int rx_RxStatUserOk(struct rx_call *call); extern afs_int32 rx_SetSecurityConfiguration(struct rx_service *service, rx_securityConfigVariables type, void *value); void rxi_DebugInit(void); void rxi_DebugPrint(char *format, ...) AFS_ATTRIBUTE_FORMAT(__printf__, 1, 2); /* rx_clock.c */ #if !defined(clock_Init) extern void clock_Init(void); #endif #if !defined(clock_UnInit) extern int clock_UnInit(void); #endif #if !defined(clock_UpdateTime) extern void clock_UpdateTime(void); #endif #if defined(UKERNEL) && !defined(osi_GetTime) extern int osi_GetTime(struct timeval *tv); #endif /* rx_clock_nt.c */ /* rx_conncache.c */ extern void rxi_DeleteCachedConnections(void); extern struct rx_connection *rx_GetCachedConnection(unsigned int remoteAddr, unsigned short port, unsigned short service, struct rx_securityClass *securityObject, int securityIndex); extern void rx_ReleaseCachedConnection(struct rx_connection *conn); /* rxdebug.c */ /* rx_event.c */ extern int rxevent_nFree; extern int rxevent_nPosted; #if 0 extern struct rxevent *rxevent_Post(struct clock *when, void (*func) (struct rxevent * event, struct rx_connection * conn, struct rx_call * acall), void *arg, void *arg1); /* this func seems to be called with tons of different style routines, need to look at another time. */ #else extern struct rxevent *rxevent_Post(struct clock *when, void (*func) (struct rxevent *, void *, void *), void *arg, void *arg1); extern struct rxevent *rxevent_Post2(struct clock *when, void (*func) (struct rxevent *, void *, void *, int), void *arg, void *arg1, int arg2); extern struct rxevent *rxevent_PostNow(struct clock *when, struct clock *now, void (*func) (struct rxevent *, void *, void *), void *arg, void *arg1); extern struct rxevent *rxevent_PostNow2(struct clock *when, struct clock *now, void (*func) (struct rxevent *, void *, void *, int), void *arg, void *arg1, int arg2); #endif extern void shutdown_rxevent(void); extern struct rxepoch *rxepoch_Allocate(struct clock *when); extern void rxevent_Init(int nEvents, void (*scheduler) (void)); extern void rxevent_Cancel_1(struct rxevent *ev, struct rx_call *call, int type); extern int rxevent_RaiseEvents(struct clock *next); /* rx_getaddr.c */ extern void rxi_setaddr(afs_uint32 x); extern afs_uint32 rxi_getaddr(void); extern int rx_getAllAddr(afs_uint32 * buffer, int maxSize); extern int rx_getAllAddrMaskMtu(afs_uint32 addrBuffer[], afs_uint32 maskBuffer[], afs_uint32 mtuBuffer[], int maxSize); /* rx_globals.c */ extern int rx_GetMaxReceiveWindow(void); extern int rx_GetMaxSendWindow(void); extern void rx_SetMaxReceiveWindow(int packets); extern void rx_SetMaxSendWindow(int packets); extern int rx_GetMinPeerTimeout(void); extern void rx_SetMinPeerTimeout(int msecs); #ifdef KERNEL /* rx_kcommon.c */ struct socket; extern int (*rxk_PacketArrivalProc) (struct rx_packet * ahandle, struct sockaddr_in * afrom, struct socket *arock, afs_int32 asize); extern int (*rxk_GetPacketProc) (struct rx_packet **ahandle, int asize); extern afs_int32 afs_termState; extern int rxk_initDone; extern int rxk_DelPort(u_short aport); extern void rxk_shutdownPorts(void); extern osi_socket rxi_GetUDPSocket(u_short port); extern osi_socket rxi_GetHostUDPSocket(u_int host, u_short port); # if defined(AFS_LINUX26_ENV) # define osi_Panic(msg...) do { printk(KERN_CRIT "openafs: " msg); BUG(); } while (0) # undef osi_Assert # define osi_Assert(expr) \ do { if (!(expr)) osi_Panic("assertion failed: %s, file: %s, line: %d\n", #expr, __FILE__, __LINE__); } while (0) # elif defined(AFS_AIX_ENV) extern void osi_Panic(char *fmt, void *a1, void *a2, void *a3); # else extern void osi_Panic(char *fmt, ...) AFS_ATTRIBUTE_FORMAT(__printf__, 1, 2) AFS_NORETURN; #endif extern int osi_utoa(char *buf, size_t len, unsigned long val); extern void rxi_InitPeerParams(struct rx_peer *pp); extern void shutdown_rxkernel(void); # ifdef AFS_USERSPACE_IP_ADDR extern int rxi_GetcbiInfo(void); extern afs_int32 rxi_Findcbi(afs_uint32 addr); # else extern int rxi_GetIFInfo(void); # endif # ifndef UKERNEL extern int rxk_FreeSocket(struct socket *asocket); extern osi_socket *rxk_NewSocket(short aport); # endif extern int rxk_ReadPacket(osi_socket so, struct rx_packet *p, int *host, int *port); # ifdef UKERNEL extern void *rx_ServerProc(void *); # endif # ifndef AFS_LINUX26_ENV extern void osi_AssertFailK(const char *expr, const char *file, int line) AFS_NORETURN; # endif extern void rxk_ListenerProc(void); extern void rxk_Listener(void); # ifndef UKERNEL extern void afs_rxevent_daemon(void); # endif extern rx_ifnet_t rxi_FindIfnet(afs_uint32 addr, afs_uint32 * maskp); extern void osi_StopListener(void); /* ARCH/rx_kmutex.c */ # if defined(AFS_LINUX20_ENV) extern void afs_mutex_init(afs_kmutex_t * l); extern void afs_mutex_enter(afs_kmutex_t * l); extern int afs_mutex_tryenter(afs_kmutex_t * l); extern void afs_mutex_exit(afs_kmutex_t * l); extern int afs_cv_wait(afs_kcondvar_t * cv, afs_kmutex_t * l, int sigok); extern void afs_cv_timedwait(afs_kcondvar_t * cv, afs_kmutex_t * l, int waittime); # endif /* ARCH/rx_knet.c */ # if !defined(AFS_SGI_ENV) extern int osi_NetSend(osi_socket asocket, struct sockaddr_in *addr, struct iovec *dvec, int nvecs, afs_int32 asize, int istack); # endif extern int osi_NetReceive(osi_socket so, struct sockaddr_in *addr, struct iovec *dvec, int nvecs, int *lengthp); # if defined(AFS_SUN510_ENV) extern void osi_StartNetIfPoller(void); extern void osi_NetIfPoller(void); extern void osi_StopNetIfPoller(void); extern struct afs_ifinfo afsifinfo[ADDRSPERSITE]; # endif extern void osi_StopListener(void); extern int rxi_FindIfMTU(afs_uint32 addr); # if defined(UKERNEL) extern void rxi_ListenerProc(osi_socket usockp, int *tnop, struct rx_call **newcallp); # endif # ifndef RXK_LISTENER_ENV extern void rxk_init(); # endif /* UKERNEL/rx_knet.c */ # ifdef UKERNEL extern void afs_rxevent_daemon(void); # endif #endif /* rx_lwp.c */ extern void rxi_Sleep(void *addr); extern void rxi_Delay(int seconds); extern void rxi_InitializeThreadSupport(void); extern void rxi_Wakeup(void *addr); extern void rxi_StopListener(void); #ifndef KERNEL extern void rxi_ReScheduleEvents(void); #endif extern void rxi_InitializeThreadSupport(void); extern void rxi_StartServerProc(void *(*proc) (void *), int stacksize); extern void rxi_StartListener(void); extern void *rx_ServerProc(void *); extern int rxi_Listen(osi_socket sock); extern int rxi_Recvmsg(osi_socket socket, struct msghdr *msg_p, int flags); extern int rxi_Sendmsg(osi_socket socket, struct msghdr *msg_p, int flags); /* rx_misc.c */ #ifndef osi_alloc extern char *osi_alloc(afs_int32 x); #endif #ifndef osi_free extern int osi_free(char *x, afs_int32 size); #endif extern int hton_syserr_conv(afs_int32 code); extern int ntoh_syserr_conv(int code); /* rx_multi.c */ extern struct multi_handle *multi_Init(struct rx_connection **conns, int nConns); extern int multi_Select(struct multi_handle *mh); extern void multi_Ready(struct rx_call *call, void *mh, int index); extern void multi_Finalize(struct multi_handle *mh); extern void multi_Finalize_Ignore(struct multi_handle *mh); /* rx_null.c */ extern struct rx_securityClass *rxnull_NewServerSecurityObject(void); extern struct rx_securityClass *rxnull_NewClientSecurityObject(void); /* rx_packet.c */ extern afs_int32 rx_SlowGetInt32(struct rx_packet *packet, size_t offset); extern afs_int32 rx_SlowPutInt32(struct rx_packet *packet, size_t offset, afs_int32 data); extern afs_int32 rx_SlowReadPacket(struct rx_packet *packet, unsigned int offset, int resid, char *out); extern afs_int32 rx_SlowWritePacket(struct rx_packet *packet, int offset, int resid, char *in); extern int rxi_RoundUpPacket(struct rx_packet *p, unsigned int nb); extern int rxi_AllocDataBuf(struct rx_packet *p, int nb, int cla_ss); extern void rxi_MorePackets(int apackets); extern void rxi_MorePacketsNoLock(int apackets); #if defined(AFS_PTHREAD_ENV) extern void rxi_MorePacketsTSFPQ(int apackets, int flush_global, int num_keep_local); /* more flexible packet alloc function */ extern void rxi_AdjustLocalPacketsTSFPQ(int num_keep_local, int allow_overcommit); /* adjust thread-local queue length, for places where we know how many packets we will need a priori */ extern void rxi_FlushLocalPacketsTSFPQ(void); /* flush all thread-local packets to global queue */ #endif extern void rxi_FreeAllPackets(void); extern void rx_CheckPackets(void); extern void rxi_FreePacketNoLock(struct rx_packet *p); extern int rxi_FreeDataBufsNoLock(struct rx_packet *p, afs_uint32 first); extern void rxi_RestoreDataBufs(struct rx_packet *p); extern int rxi_TrimDataBufs(struct rx_packet *p, int first); extern void rxi_FreePacket(struct rx_packet *p); extern struct rx_packet *rxi_AllocPacketNoLock(int cla_ss); extern struct rx_packet *rxi_AllocPacket(int cla_ss); extern int rxi_AllocPackets(int cla_ss, int num_pkts, struct rx_queue *q); extern int rxi_FreePackets(int num_pkts, struct rx_queue *q); extern struct rx_packet *rxi_AllocSendPacket(struct rx_call *call, int want); extern int rxi_ReadPacket(osi_socket socket, struct rx_packet *p, afs_uint32 * host, u_short * port); extern struct rx_packet *rxi_SplitJumboPacket(struct rx_packet *p, afs_uint32 host, short port, int first); #ifndef KERNEL extern int osi_NetSend(osi_socket socket, void *addr, struct iovec *dvec, int nvecs, int length, int istack); #endif extern struct rx_packet *rxi_ReceiveDebugPacket(struct rx_packet *ap, osi_socket asocket, afs_uint32 ahost, short aport, int istack); extern struct rx_packet *rxi_ReceiveVersionPacket(struct rx_packet *ap, osi_socket asocket, afs_uint32 ahost, short aport, int istack); extern void rxi_SendPacket(struct rx_call *call, struct rx_connection *conn, struct rx_packet *p, int istack); extern void rxi_SendPacketList(struct rx_call *call, struct rx_connection *conn, struct rx_packet **list, int len, int istack); extern struct rx_packet *rxi_SendSpecial(struct rx_call *call, struct rx_connection *conn, struct rx_packet *optionalPacket, int type, char *data, int nbytes, int istack); extern void rxi_EncodePacketHeader(struct rx_packet *p); extern void rxi_DecodePacketHeader(struct rx_packet *p); extern void rxi_PrepareSendPacket(struct rx_call *call, struct rx_packet *p, int last); extern int rxi_AdjustIfMTU(int mtu); extern int rxi_AdjustMaxMTU(int mtu, int peerMaxMTU); extern int rxi_AdjustDgramPackets(int frags, int mtu); #ifdef AFS_GLOBAL_RXLOCK_KERNEL extern void rxi_WaitforTQBusy(struct rx_call *call); #endif /* rxperf.c */ /* rx_pthread.c */ extern int rx_NewThreadId(void); extern void rxi_Delay(int sec); extern void rxi_InitializeThreadSupport(void); extern void rxi_StartServerProc(void *(*proc) (void *), int stacksize); #ifndef rxi_ReScheduleEvents extern void rxi_ReScheduleEvents(void); #endif extern void *rx_ServerProc(void *); extern void rxi_StartListener(void); extern int rxi_Listen(osi_socket sock); extern int rxi_Recvmsg(osi_socket socket, struct msghdr *msg_p, int flags); extern int rxi_Sendmsg(osi_socket socket, struct msghdr *msg_p, int flags); /* rx_rdwr.c */ extern int rxi_ReadProc(struct rx_call *call, char *buf, int nbytes); extern int rx_ReadProc(struct rx_call *call, char *buf, int nbytes); extern int rx_ReadProc32(struct rx_call *call, afs_int32 * value); extern int rxi_FillReadVec(struct rx_call *call, afs_uint32 serial); extern int rxi_ReadvProc(struct rx_call *call, struct iovec *iov, int *nio, int maxio, int nbytes); extern int rx_ReadvProc(struct rx_call *call, struct iovec *iov, int *nio, int maxio, int nbytes); extern int rxi_WriteProc(struct rx_call *call, char *buf, int nbytes); extern int rx_WriteProc(struct rx_call *call, char *buf, int nbytes); extern int rx_WriteProc32(struct rx_call *call, afs_int32 * value); extern int rxi_WritevAlloc(struct rx_call *call, struct iovec *iov, int *nio, int maxio, int nbytes); extern int rx_WritevAlloc(struct rx_call *call, struct iovec *iov, int *nio, int maxio, int nbytes); extern int rxi_WritevProc(struct rx_call *call, struct iovec *iov, int nio, int nbytes); extern int rx_WritevProc(struct rx_call *call, struct iovec *iov, int nio, int nbytes); extern void rxi_FlushWrite(struct rx_call *call); extern void rx_FlushWrite(struct rx_call *call); /* rx_stats.c */ extern struct rx_statistics * rx_GetStatistics(void); extern void rx_FreeStatistics(struct rx_statistics **); /* rx_trace.c */ /* rx_user.c */ #ifdef AFS_PTHREAD_ENV extern afs_kmutex_t rx_if_init_mutex; extern afs_kmutex_t rx_if_mutex; #endif extern osi_socket rxi_GetUDPSocket(u_short port); extern void osi_AssertFailU(const char *expr, const char *file, int line) AFS_NORETURN; extern void rxi_InitPeerParams(struct rx_peer *pp); extern int rxi_HandleSocketError(int socket); #if defined(AFS_AIX32_ENV) && !defined(KERNEL) #ifndef osi_Alloc extern void *osi_Alloc(afs_int32 x); #endif #ifndef osi_Free extern void osi_Free(void *x, afs_int32 size); #endif #endif /* defined(AFS_AIX32_ENV) && !defined(KERNEL) */ #ifndef KERNEL extern void osi_Panic(char *fmt, ...) AFS_NORETURN; #endif extern void rx_GetIFInfo(void); extern void rx_SetNoJumbo(void); extern void rx_SetMaxMTU(int mtu); /* rx_xmit_nt.c */ /* MISC PROTOTYPES - MOVE TO APPROPRIATE LOCATION LATER */ /* EXTERNAL PROTOTYPES - include here cause it causes too many issues to include the afs_prototypes.h file - just make sure they match */ #ifndef afs_osi_Alloc extern void *afs_osi_Alloc(size_t x); #endif #ifndef afs_osi_Free extern void afs_osi_Free(void *x, size_t asize); #endif #ifndef afs_osi_Wakeup extern int afs_osi_Wakeup(void *event); #endif #ifndef afs_osi_Sleep extern void afs_osi_Sleep(void *event); #endif extern unsigned int afs_random(void); extern void osi_linux_rxkreg(void); #endif /* _RX_PROTOTYPES_H */