/* Copyright (c) 2001, Stanford University * All rights reserved * * See the file LICENSE.txt for information on redistributing this software. */ #include #include #include #include #include #include #ifdef WINDOWS #define WIN32_LEAN_AND_MEAN #include #else #include #endif #include "cr_mem.h" #include "cr_error.h" #include "cr_string.h" #include "cr_url.h" #include "cr_net.h" #include "cr_netserver.h" #include "cr_pixeldata.h" #include "cr_environment.h" #include "cr_endian.h" #include "cr_bufpool.h" #include "cr_threads.h" #include "net_internals.h" #define CR_MINIMUM_MTU 1024 #define CR_INITIAL_RECV_CREDITS ( 1 << 21 ) /* 2MB */ /* Allow up to four processes per node. . . */ #define CR_QUADRICS_LOWEST_RANK 0 #define CR_QUADRICS_HIGHEST_RANK 3 static struct { int initialized; /* flag */ CRNetReceiveFuncList *recv_list; /* what to do with arriving packets */ CRNetCloseFuncList *close_list; /* what to do when a client goes down */ /* Number of connections using each type of interface: */ int use_tcpip; int use_ib; int use_file; int use_udp; int use_gm; int use_sdp; int use_teac; int use_tcscomm; int use_hgcm; int num_clients; /* total number of clients (unused?) */ #ifdef CHROMIUM_THREADSAFE CRmutex mutex; #endif int my_rank; /* Teac/TSComm only */ } cr_net; /** * Helper routine used by both crNetConnectToServer() and crNetAcceptClient(). * Call the protocol-specific Init() and Connection() functions. * */ static void InitConnection(CRConnection *conn, const char *protocol, unsigned int mtu #if defined(VBOX_WITH_CRHGSMI) && defined(IN_GUEST) , struct VBOXUHGSMI *pHgsmi #endif ) { if (!crStrcmp(protocol, "devnull")) { crDevnullInit(cr_net.recv_list, cr_net.close_list, mtu); crDevnullConnection(conn); } else if (!crStrcmp(protocol, "file")) { cr_net.use_file++; crFileInit(cr_net.recv_list, cr_net.close_list, mtu); crFileConnection(conn); } else if (!crStrcmp(protocol, "swapfile")) { /* file with byte-swapping */ cr_net.use_file++; crFileInit(cr_net.recv_list, cr_net.close_list, mtu); crFileConnection(conn); conn->swap = 1; } else if (!crStrcmp(protocol, "tcpip")) { cr_net.use_tcpip++; crTCPIPInit(cr_net.recv_list, cr_net.close_list, mtu); crTCPIPConnection(conn); } else if (!crStrcmp(protocol, "udptcpip")) { cr_net.use_udp++; crUDPTCPIPInit(cr_net.recv_list, cr_net.close_list, mtu); crUDPTCPIPConnection(conn); } #ifdef VBOX_WITH_HGCM else if (!crStrcmp(protocol, "vboxhgcm")) { cr_net.use_hgcm++; crVBoxHGCMInit(cr_net.recv_list, cr_net.close_list, mtu); crVBoxHGCMConnection(conn #if defined(VBOX_WITH_CRHGSMI) && defined(IN_GUEST) , pHgsmi #endif ); } #endif #ifdef GM_SUPPORT else if (!crStrcmp(protocol, "gm")) { cr_net.use_gm++; crGmInit(cr_net.recv_list, cr_net.close_list, mtu); crGmConnection(conn); } #endif #ifdef TEAC_SUPPORT else if (!crStrcmp(protocol, "quadrics")) { cr_net.use_teac++; crTeacInit(cr_net.recv_list, cr_net.close_list, mtu); crTeacConnection(conn); } #endif #ifdef TCSCOMM_SUPPORT else if (!crStrcmp(protocol, "quadrics-tcscomm")) { cr_net.use_tcscomm++; crTcscommInit(cr_net.recv_list, cr_net.close_list, mtu); crTcscommConnection(conn); } #endif #ifdef SDP_SUPPORT else if (!crStrcmp(protocol, "sdp")) { cr_net.use_sdp++; crSDPInit(cr_net.recv_list, cr_net.close_list, mtu); crSDPConnection(conn); } #endif #ifdef IB_SUPPORT else if (!crStrcmp(protocol, "ib")) { cr_net.use_ib++; crDebug("Calling crIBInit()"); crIBInit(cr_net.recv_list, cr_net.close_list, mtu); crIBConnection(conn); crDebug("Done Calling crIBInit()"); } #endif #ifdef HP_MULTICAST_SUPPORT else if (!crStrcmp(protocol, "hpmc")) { cr_net.use_hpmc++; crHPMCInit(cr_net.recv_list, cr_net.close_list, mtu); crHPMCConnection(conn); } #endif else { crError("Unknown protocol: \"%s\"", protocol); } } /** * Establish a connection with a server. * \param server the server to connect to, in the form * "protocol://servername:port" where the port specifier * is optional and if the protocol is missing it is assumed * to be "tcpip". * \param default_port the port to connect to, if port not specified in the * server URL string. * \param mtu desired maximum transmission unit size (in bytes) * \param broker either 1 or 0 to indicate if connection is brokered through * the mothership */ CRConnection * crNetConnectToServer( const char *server, unsigned short default_port, int mtu, int broker #if defined(VBOX_WITH_CRHGSMI) && defined(IN_GUEST) , struct VBOXUHGSMI *pHgsmi #endif ) { char hostname[4096], protocol[4096]; unsigned short port; CRConnection *conn; crDebug( "In crNetConnectToServer( \"%s\", port=%d, mtu=%d, broker=%d )", server, default_port, mtu, broker ); CRASSERT( cr_net.initialized ); if (mtu < CR_MINIMUM_MTU) { crError( "You tried to connect to server \"%s\" with an mtu of %d, " "but the minimum MTU is %d", server, mtu, CR_MINIMUM_MTU ); } /* Tear the URL apart into relevant portions. */ if ( !crParseURL( server, protocol, hostname, &port, default_port ) ) { crError( "Malformed URL: \"%s\"", server ); } /* If the host name is "localhost" replace it with the _real_ name * of the localhost. If we don't do this, there seems to be * confusion in the mothership as to whether or not "localhost" and * "foo.bar.com" are the same machine. */ if (crStrcmp(hostname, "localhost") == 0) { int rv = crGetHostname(hostname, 4096); CRASSERT(rv == 0); (void) rv; } /* XXX why is this here??? I think it could be moved into the * crTeacConnection() function with no problem. I.e. change the * connection's port, teac_rank and tcscomm_rank there. (BrianP) */ if ( !crStrcmp( protocol, "quadrics" ) || !crStrcmp( protocol, "quadrics-tcscomm" ) ) { /* For Quadrics protocols, treat "port" as "rank" */ if ( port > CR_QUADRICS_HIGHEST_RANK ) { crWarning( "Invalid crserver rank, %d, defaulting to %d\n", port, CR_QUADRICS_LOWEST_RANK ); port = CR_QUADRICS_LOWEST_RANK; } } crDebug( "Connecting to %s on port %d, with protocol %s", hostname, port, protocol ); #ifdef SDP_SUPPORT /* This makes me ill, but we need to "fix" the hostname for sdp. MCH */ if (!crStrcmp(protocol, "sdp")) { char* temp; temp = strtok(hostname, "."); crStrcat(temp, crGetSDPHostnameSuffix()); crStrcpy(hostname, temp); crDebug("SDP rename hostname: %s", hostname); } #endif conn = (CRConnection *) crCalloc( sizeof(*conn) ); if (!conn) return NULL; /* init the non-zero fields */ conn->type = CR_NO_CONNECTION; /* we don't know yet */ conn->recv_credits = CR_INITIAL_RECV_CREDITS; conn->hostname = crStrdup( hostname ); conn->port = port; conn->mtu = mtu; conn->buffer_size = mtu; conn->broker = broker; conn->endianness = crDetermineEndianness(); /* XXX why are these here??? Move them into the crTeacConnection() * and crTcscommConnection() functions. */ conn->teac_id = -1; conn->teac_rank = port; conn->tcscomm_id = -1; conn->tcscomm_rank = port; crInitMessageList(&conn->messageList); /* now, just dispatch to the appropriate protocol's initialization functions. */ InitConnection(conn, protocol, mtu #if defined(VBOX_WITH_CRHGSMI) && defined(IN_GUEST) , pHgsmi #endif ); if (!crNetConnect( conn )) { crDebug("crNetConnectToServer() failed, freeing the connection"); #ifdef CHROMIUM_THREADSAFE crFreeMutex( &conn->messageList.lock ); #endif conn->Disconnect(conn); crFree( conn ); return NULL; } crDebug( "Done connecting to %s (swapping=%d)", server, conn->swap ); return conn; } /** * Send a message to the receiver that another connection is needed. * We send a CR_MESSAGE_NEWCLIENT packet, then call crNetServerConnect. */ void crNetNewClient( CRNetServer *ns #if defined(VBOX_WITH_CRHGSMI) && defined(IN_GUEST) , struct VBOXUHGSMI *pHgsmi #endif ) { /* unsigned int len = sizeof(CRMessageNewClient); CRMessageNewClient msg; CRASSERT( conn ); if (conn->swap) msg.header.type = (CRMessageType) SWAP32(CR_MESSAGE_NEWCLIENT); else msg.header.type = CR_MESSAGE_NEWCLIENT; crNetSend( conn, NULL, &msg, len ); */ crNetServerConnect( ns #if defined(VBOX_WITH_CRHGSMI) && defined(IN_GUEST) , pHgsmi #endif ); } /** * Accept a connection from a client. * \param protocol the protocol to use (such as "tcpip" or "gm") * \param hostname optional hostname of the expected client (may be NULL) * \param port number of the port to accept on * \param mtu maximum transmission unit * \param broker either 1 or 0 to indicate if connection is brokered through * the mothership * \return new CRConnection object, or NULL */ CRConnection * crNetAcceptClient( const char *protocol, const char *hostname, unsigned short port, unsigned int mtu, int broker ) { CRConnection *conn; CRASSERT( cr_net.initialized ); conn = (CRConnection *) crCalloc( sizeof( *conn ) ); if (!conn) return NULL; /* init the non-zero fields */ conn->type = CR_NO_CONNECTION; /* we don't know yet */ conn->recv_credits = CR_INITIAL_RECV_CREDITS; conn->port = port; conn->mtu = mtu; conn->buffer_size = mtu; conn->broker = broker; conn->endianness = crDetermineEndianness(); conn->teac_id = -1; conn->teac_rank = -1; conn->tcscomm_id = -1; conn->tcscomm_rank = -1; crInitMessageList(&conn->messageList); /* now, just dispatch to the appropriate protocol's initialization functions. */ crDebug("In crNetAcceptClient( protocol=\"%s\" port=%d mtu=%d )", protocol, (int) port, (int) mtu); /* special case */ if ( !crStrncmp( protocol, "file", crStrlen( "file" ) ) || !crStrncmp( protocol, "swapfile", crStrlen( "swapfile" ) ) ) { char filename[4096]; char protocol_only[4096]; cr_net.use_file++; if (!crParseURL(protocol, protocol_only, filename, NULL, 0)) { crError( "Malformed URL: \"%s\"", protocol ); } conn->hostname = crStrdup( filename ); /* call the protocol-specific init routines */ /* ktd (add) */ InitConnection(conn, protocol_only, mtu #if defined(VBOX_WITH_CRHGSMI) && defined(IN_GUEST) , NULL #endif ); /* ktd (add) */ } else { /* call the protocol-specific init routines */ InitConnection(conn, protocol, mtu #if defined(VBOX_WITH_CRHGSMI) && defined(IN_GUEST) , NULL #endif ); } crNetAccept( conn, hostname, port ); return conn; } /** * Close and free given connection. */ void crNetFreeConnection(CRConnection *conn) { conn->Disconnect(conn); crFree( conn->hostname ); #ifdef CHROMIUM_THREADSAFE crFreeMutex( &conn->messageList.lock ); #endif crFree(conn); } /** * Start the ball rolling. give functions to handle incoming traffic * (usually placing blocks on a queue), and a handler for dropped * connections. */ void crNetInit( CRNetReceiveFunc recvFunc, CRNetCloseFunc closeFunc ) { CRNetReceiveFuncList *rfl; CRNetCloseFuncList *cfl; if ( cr_net.initialized ) { /*crDebug( "Networking already initialized!" );*/ } else { #ifdef WINDOWS /** @todo do we actually need that WSA stuff with VBox at all? */ WORD wVersionRequested = MAKEWORD(2, 0); WSADATA wsaData; int err; err = WSAStartup(wVersionRequested, &wsaData); if (err != 0) crError("Couldn't initialize sockets on WINDOWS"); #endif cr_net.use_gm = 0; cr_net.use_udp = 0; cr_net.use_tcpip = 0; cr_net.use_sdp = 0; cr_net.use_tcscomm = 0; cr_net.use_teac = 0; cr_net.use_file = 0; cr_net.use_hgcm = 0; cr_net.num_clients = 0; #ifdef CHROMIUM_THREADSAFE crInitMutex(&cr_net.mutex); #endif cr_net.initialized = 1; cr_net.recv_list = NULL; cr_net.close_list = NULL; } if (recvFunc != NULL) { /* check if function is already in the list */ for (rfl = cr_net.recv_list ; rfl ; rfl = rfl->next ) { if (rfl->recv == recvFunc) { /* we've already seen this function -- do nothing */ break; } } /* not in list, so insert at the head */ if (!rfl) { rfl = (CRNetReceiveFuncList *) crAlloc( sizeof (*rfl )); rfl->recv = recvFunc; rfl->next = cr_net.recv_list; cr_net.recv_list = rfl; } } if (closeFunc != NULL) { /* check if function is already in the list */ for (cfl = cr_net.close_list ; cfl ; cfl = cfl->next ) { if (cfl->close == closeFunc) { /* we've already seen this function -- do nothing */ break; } } /* not in list, so insert at the head */ if (!cfl) { cfl = (CRNetCloseFuncList *) crAlloc( sizeof (*cfl )); cfl->close = closeFunc; cfl->next = cr_net.close_list; cr_net.close_list = cfl; } } } /* Free up stuff */ void crNetTearDown(void) { CRNetReceiveFuncList *rfl; CRNetCloseFuncList *cfl; void *tmp; if (!cr_net.initialized) return; #ifdef CHROMIUM_THREADSAFE crLockMutex(&cr_net.mutex); #endif /* Note, other protocols used by chromium should free up stuff too, * but VBox doesn't use them, so no other checks. */ if (cr_net.use_hgcm) crVBoxHGCMTearDown(); for (rfl = cr_net.recv_list ; rfl ; rfl = (CRNetReceiveFuncList *) tmp ) { tmp = rfl->next; crFree(rfl); } for (cfl = cr_net.close_list ; cfl ; cfl = (CRNetCloseFuncList *) tmp ) { tmp = cfl->next; crFree(cfl); } cr_net.initialized = 0; #ifdef CHROMIUM_THREADSAFE crUnlockMutex(&cr_net.mutex); crFreeMutex(&cr_net.mutex); #endif } CRConnection** crNetDump( int* num ) { CRConnection **c; c = crTCPIPDump( num ); if ( c ) return c; c = crDevnullDump( num ); if ( c ) return c; c = crFileDump( num ); if ( c ) return c; #ifdef VBOX_WITH_HGCM c = crVBoxHGCMDump( num ); if ( c ) return c; #endif #ifdef GM_SUPPORT c = crGmDump( num ); if ( c ) return c; #endif #ifdef IB_SUPPORT c = crIBDump( num ); if ( c ) return c; #endif #ifdef SDP_SUPPORT c = crSDPDump( num ); if ( c ) return c; #endif *num = 0; return NULL; } /* * Allocate a network data buffer. The size will be the mtu size specified * earlier to crNetConnectToServer() or crNetAcceptClient(). * * Buffers that will eventually be transmitted on a connection * *must* be allocated using this interface. This way, we can * automatically pin memory and tag blocks, and we can also use * our own buffer pool management. */ void *crNetAlloc( CRConnection *conn ) { CRASSERT( conn ); return conn->Alloc( conn ); } /** * This returns a buffer (which was obtained from crNetAlloc()) back * to the network layer so that it may be reused. */ void crNetFree( CRConnection *conn, void *buf ) { conn->Free( conn, buf ); } void crInitMessageList(CRMessageList *list) { list->head = list->tail = NULL; list->numMessages = 0; #ifdef CHROMIUM_THREADSAFE crInitMutex(&list->lock); crInitCondition(&list->nonEmpty); #endif } /** * Add a message node to the end of the message list. * \param list the message list * \param msg points to start of message buffer * \param len length of message, in bytes * \param conn connection associated with message (may be NULL) */ void crEnqueueMessage(CRMessageList *list, CRMessage *msg, unsigned int len, CRConnection *conn) { CRMessageListNode *node; #ifdef CHROMIUM_THREADSAFE crLockMutex(&list->lock); #endif node = (CRMessageListNode *) crAlloc(sizeof(CRMessageListNode)); node->mesg = msg; node->len = len; node->conn = conn; node->next = NULL; /* insert at tail */ if (list->tail) list->tail->next = node; else list->head = node; list->tail = node; list->numMessages++; #ifdef CHROMIUM_THREADSAFE crSignalCondition(&list->nonEmpty); crUnlockMutex(&list->lock); #endif } /** * Remove first message node from message list and return it. * Don't block. * \return 1 if message was dequeued, 0 otherwise. */ static int crDequeueMessageNoBlock(CRMessageList *list, CRMessage **msg, unsigned int *len, CRConnection **conn) { int retval; #ifdef CHROMIUM_THREADSAFE crLockMutex(&list->lock); #endif if (list->head) { CRMessageListNode *node = list->head; /* unlink the node */ list->head = node->next; if (!list->head) { /* empty list */ list->tail = NULL; } *msg = node->mesg; *len = node->len; if (conn) *conn = node->conn; list->numMessages--; crFree(node); retval = 1; } else { *msg = NULL; *len = 0; retval = 0; } #ifdef CHROMIUM_THREADSAFE crUnlockMutex(&list->lock); #endif return retval; } /** * Remove message from tail of list. Block until non-empty if needed. * \param list the message list * \param msg returns start of message * \param len returns message length, in bytes * \param conn returns connection associated with message (may be NULL) */ void crDequeueMessage(CRMessageList *list, CRMessage **msg, unsigned int *len, CRConnection **conn) { CRMessageListNode *node; #ifdef CHROMIUM_THREADSAFE crLockMutex(&list->lock); #endif #ifdef CHROMIUM_THREADSAFE while (!list->head) { crWaitCondition(&list->nonEmpty, &list->lock); } #else CRASSERT(list->head); #endif node = list->head; /* unlink the node */ list->head = node->next; if (!list->head) { /* empty list */ list->tail = NULL; } *msg = node->mesg; CRASSERT((*msg)->header.type); *len = node->len; if (conn) *conn = node->conn; list->numMessages--; crFree(node); #ifdef CHROMIUM_THREADSAFE crUnlockMutex(&list->lock); #endif } /** * Send a set of commands on a connection. Pretty straightforward, just * error checking, byte counting, and a dispatch to the protocol's * "send" implementation. * The payload will be prefixed by a 4-byte length field. * * \param conn the network connection * \param bufp if non-null the buffer was provided by the network layer * and will be returned to the 'free' pool after it's sent. * \param start points to first byte to send, which must point to a CRMessage * object! * \param len number of bytes to send */ void crNetSend(CRConnection *conn, void **bufp, const void *start, unsigned int len) { CRMessage *msg = (CRMessage *) start; CRASSERT( conn ); CRASSERT( len > 0 ); if ( bufp ) { /* The region from [start .. start + len - 1] must lie inside the * buffer pointed to by *bufp. */ CRASSERT( start >= *bufp ); CRASSERT( (unsigned char *) start + len <= (unsigned char *) *bufp + conn->buffer_size ); } #ifdef DEBUG if ( conn->send_credits > CR_INITIAL_RECV_CREDITS ) { crError( "crNetSend: send_credits=%u, looks like there is a leak (max=%u)", conn->send_credits, CR_INITIAL_RECV_CREDITS ); } #endif conn->total_bytes_sent += len; msg->header.conn_id = conn->id; conn->Send( conn, bufp, start, len ); } /** * Like crNetSend(), but the network layer is free to discard the data * if something goes wrong. In particular, the UDP layer might discard * the data in the event of transmission errors. */ void crNetBarf( CRConnection *conn, void **bufp, const void *start, unsigned int len ) { CRMessage *msg = (CRMessage *) start; CRASSERT( conn ); CRASSERT( len > 0 ); CRASSERT( conn->Barf ); if ( bufp ) { CRASSERT( start >= *bufp ); CRASSERT( (unsigned char *) start + len <= (unsigned char *) *bufp + conn->buffer_size ); } #ifdef DEBUG if ( conn->send_credits > CR_INITIAL_RECV_CREDITS ) { crError( "crNetBarf: send_credits=%u, looks like there is a " "leak (max=%u)", conn->send_credits, CR_INITIAL_RECV_CREDITS ); } #endif conn->total_bytes_sent += len; msg->header.conn_id = conn->id; conn->Barf( conn, bufp, start, len ); } /** * Send a block of bytes across the connection without any sort of * header/length information. * \param conn the network connection * \param buf points to first byte to send * \param len number of bytes to send */ void crNetSendExact( CRConnection *conn, const void *buf, unsigned int len ) { CRASSERT(conn->SendExact); conn->SendExact( conn, buf, len ); } /** * Connect to a server, as specified by the 'name' and 'buffer_size' fields * of the CRNetServer parameter. * When done, the CrNetServer's conn field will be initialized. */ void crNetServerConnect( CRNetServer *ns #if defined(VBOX_WITH_CRHGSMI) && defined(IN_GUEST) , struct VBOXUHGSMI *pHgsmi #endif ) { ns->conn = crNetConnectToServer( ns->name, DEFAULT_SERVER_PORT, ns->buffer_size, 0 #if defined(VBOX_WITH_CRHGSMI) && defined(IN_GUEST) , pHgsmi #endif ); } /** * Actually set up the specified connection. * Apparently, this is only called from the crNetConnectToServer function. */ int crNetConnect( CRConnection *conn ) { return conn->Connect( conn ); } /** * Tear down a network connection (close the socket, etc). */ void crNetDisconnect( CRConnection *conn ) { conn->Disconnect( conn ); crFree( conn->hostname ); #ifdef CHROMIUM_THREADSAFE crFreeMutex( &conn->messageList.lock ); #endif crFree( conn ); } /** * Actually set up the specified connection. * Apparently, this is only called from the crNetConnectToServer function. */ void crNetAccept( CRConnection *conn, const char *hostname, unsigned short port ) { conn->Accept( conn, hostname, port ); } /** * Do a blocking receive on a particular connection. This only * really works for TCPIP, but it's really only used (right now) by * the mothership client library. * Read exactly the number of bytes specified (no headers/prefixes). */ void crNetSingleRecv( CRConnection *conn, void *buf, unsigned int len ) { if (conn->type != CR_TCPIP) { crError( "Can't do a crNetSingleReceive on anything other than TCPIP." ); } conn->Recv( conn, buf, len ); } /** * Receive a chunk of a CR_MESSAGE_MULTI_BODY/TAIL transmission. * \param conn the network connection * \param msg the incoming multi-part message * \param len number of bytes in the message */ static void crNetRecvMulti( CRConnection *conn, CRMessageMulti *msg, unsigned int len ) { CRMultiBuffer *multi = &(conn->multi); unsigned char *src, *dst; CRASSERT( len > sizeof(*msg) ); len -= sizeof(*msg); /* Check if there's enough room in the multi-buffer to append 'len' bytes */ if ( len + multi->len > multi->max ) { if ( multi->max == 0 ) { multi->len = conn->sizeof_buffer_header; multi->max = 8192; /* arbitrary initial size */ } /* grow the buffer by 2x until it's big enough */ while ( len + multi->len > multi->max ) { multi->max <<= 1; } crRealloc( &multi->buf, multi->max ); } dst = (unsigned char *) multi->buf + multi->len; src = (unsigned char *) msg + sizeof(*msg); crMemcpy( dst, src, len ); multi->len += len; if (msg->header.type == CR_MESSAGE_MULTI_TAIL) { /* OK, we've collected the last chunk of the multi-part message */ conn->HandleNewMessage( conn, (CRMessage *) (((char *) multi->buf) + conn->sizeof_buffer_header), multi->len - conn->sizeof_buffer_header ); /* clean this up before calling the user */ multi->buf = NULL; multi->len = 0; multi->max = 0; } /* Don't do this too early! */ conn->InstantReclaim( conn, (CRMessage *) msg ); } /** * Increment the connection's send_credits by msg->credits. */ static void crNetRecvFlowControl( CRConnection *conn, CRMessageFlowControl *msg, unsigned int len ) { CRASSERT( len == sizeof(CRMessageFlowControl) ); conn->send_credits += (conn->swap ? SWAP32(msg->credits) : msg->credits); conn->InstantReclaim( conn, (CRMessage *) msg ); } #ifdef IN_GUEST /** * Called by the main receive function when we get a CR_MESSAGE_WRITEBACK * message. Writeback is used to implement glGet*() functions. */ static void crNetRecvWriteback( CRMessageWriteback *wb ) { int *writeback; crMemcpy( &writeback, &(wb->writeback_ptr), sizeof( writeback ) ); (*writeback)--; } /** * Called by the main receive function when we get a CR_MESSAGE_READBACK * message. Used to implement glGet*() functions. */ static void crNetRecvReadback( CRMessageReadback *rb, unsigned int len ) { /* minus the header, the destination pointer, * *and* the implicit writeback pointer at the head. */ int payload_len = len - sizeof( *rb ); int *writeback; void *dest_ptr; crMemcpy( &writeback, &(rb->writeback_ptr), sizeof( writeback ) ); crMemcpy( &dest_ptr, &(rb->readback_ptr), sizeof( dest_ptr ) ); (*writeback)--; crMemcpy( dest_ptr, ((char *)rb) + sizeof(*rb), payload_len ); } #endif /** * This is used by the SPUs that do packing (such as Pack, Tilesort and * Replicate) to process ReadPixels messages. We can't call this directly * from the message loop below because the SPU's have other housekeeping * to do for ReadPixels (such as decrementing counters). */ void crNetRecvReadPixels( const CRMessageReadPixels *rp, unsigned int len ) { int payload_len = len - sizeof( *rp ); char *dest_ptr; const char *src_ptr = (const char *) rp + sizeof(*rp); /* set dest_ptr value */ crMemcpy( &(dest_ptr), &(rp->pixels), sizeof(dest_ptr)); /* store pixel data in app's memory */ if (rp->alignment == 1 && rp->skipRows == 0 && rp->skipPixels == 0 && (rp->rowLength == 0 || rp->rowLength == rp->width)) { /* no special packing is needed */ crMemcpy( dest_ptr, src_ptr, payload_len ); } else { /* need special packing */ CRPixelPackState packing; packing.skipRows = rp->skipRows; packing.skipPixels = rp->skipPixels; packing.alignment = rp->alignment; packing.rowLength = rp->rowLength; packing.imageHeight = 0; packing.skipImages = 0; packing.swapBytes = GL_FALSE; packing.psLSBFirst = GL_FALSE; crPixelCopy2D( rp->width, rp->height, dest_ptr, rp->format, rp->type, &packing, src_ptr, rp->format, rp->type, /*unpacking*/NULL); } } /** * If an incoming message is not consumed by any of the connection's * receive callbacks, this function will get called. * * XXX Make this function static??? */ void crNetDefaultRecv( CRConnection *conn, CRMessage *msg, unsigned int len ) { CRMessage *pRealMsg; pRealMsg = (msg->header.type!=CR_MESSAGE_REDIR_PTR) ? msg : (CRMessage*) msg->redirptr.pMessage; switch (pRealMsg->header.type) { case CR_MESSAGE_GATHER: break; case CR_MESSAGE_MULTI_BODY: case CR_MESSAGE_MULTI_TAIL: crNetRecvMulti( conn, &(pRealMsg->multi), len ); return; case CR_MESSAGE_FLOW_CONTROL: crNetRecvFlowControl( conn, &(pRealMsg->flowControl), len ); return; case CR_MESSAGE_OPCODES: case CR_MESSAGE_OOB: { /*CRMessageOpcodes *ops = (CRMessageOpcodes *) msg; *unsigned char *data_ptr = (unsigned char *) ops + sizeof( *ops) + ((ops->numOpcodes + 3 ) & ~0x03); *crDebugOpcodes( stdout, data_ptr-1, ops->numOpcodes ); */ } break; case CR_MESSAGE_READ_PIXELS: WARN(( "Can't handle read pixels" )); return; case CR_MESSAGE_WRITEBACK: #ifdef IN_GUEST crNetRecvWriteback( &(pRealMsg->writeback) ); #else WARN(("CR_MESSAGE_WRITEBACK not expected\n")); #endif return; case CR_MESSAGE_READBACK: #ifdef IN_GUEST crNetRecvReadback( &(pRealMsg->readback), len ); #else WARN(("CR_MESSAGE_READBACK not expected\n")); #endif return; case CR_MESSAGE_CRUT: /* nothing */ break; default: /* We can end up here if anything strange happens in * the GM layer. In particular, if the user tries to * send unpinned memory over GM it gets sent as all * 0xAA instead. This can happen when a program exits * ungracefully, so the GM is still DMAing memory as * it is disappearing out from under it. We can also * end up here if somebody adds a message type, and * doesn't put it in the above case block. That has * an obvious fix. */ { char string[128]; crBytesToString( string, sizeof(string), msg, len ); WARN(("crNetDefaultRecv: received a bad message: type=%d buf=[%s]\n" "Did you add a new message type and forget to tell " "crNetDefaultRecv() about it?\n", msg->header.type, string )); } } /* If we make it this far, it's not a special message, so append it to * the end of the connection's list of received messages. */ crEnqueueMessage(&conn->messageList, msg, len, conn); } /** * Default handler for receiving data. Called via crNetRecv(). * Typically, the various implementations of the network layer call this. * \param msg this is the address of the message (of bytes) the * first part of which is a CRMessage union. */ void crNetDispatchMessage( CRNetReceiveFuncList *rfl, CRConnection *conn, CRMessage *msg, unsigned int len ) { for ( ; rfl ; rfl = rfl->next) { if (rfl->recv( conn, msg, len )) { /* Message was consumed by somebody (maybe a SPU). * All done. */ return; } } /* Append the message to the connection's message list. It'll be * consumed later (by crNetPeekMessage or crNetGetMessage and * then freed with a call to crNetFree()). At this point, the buffer * *must* have been allocated with crNetAlloc! */ crNetDefaultRecv( conn, msg, len ); } /** * Return number of messages queued up on the given connection. */ int crNetNumMessages(CRConnection *conn) { return conn->messageList.numMessages; } /** * Get the next message in the connection's message list. These are * message that have already been received. We do not try to read more * bytes from the network connection. * * The crNetFree() function should be called when finished with the message! * * \param conn the network connection * \param message returns a pointer to the next message * \return length of message (header + payload, in bytes) */ unsigned int crNetPeekMessage( CRConnection *conn, CRMessage **message ) { unsigned int len; CRConnection *dummyConn = NULL; if (crDequeueMessageNoBlock(&conn->messageList, message, &len, &dummyConn)) return len; else return 0; } /** * Get the next message from the given network connection. If there isn't * one already in the linked list of received messages, call crNetRecv() * until we get something. * * \param message returns pointer to the message * \return total length of message (header + payload, in bytes) */ unsigned int crNetGetMessage( CRConnection *conn, CRMessage **message ) { /* Keep getting work to do */ for (;;) { int len = crNetPeekMessage( conn, message ); if (len) return len; crNetRecv( #if defined(VBOX_WITH_CRHGSMI) && defined(IN_GUEST) conn #endif ); } #if !defined(WINDOWS) && !defined(IRIX) && !defined(IRIX64) /* silence compiler */ return 0; #endif } /** * Read a \n-terminated string from a connection. Replace the \n with \0. * Useful for reading from the mothership. * \note This is an extremely inefficient way to read a string! * * \param conn the network connection * \param buf buffer in which to place results */ void crNetReadline( CRConnection *conn, void *buf ) { char *temp, c; if (!conn || conn->type == CR_NO_CONNECTION) return; if (conn->type != CR_TCPIP) { crError( "Can't do a crNetReadline on anything other than TCPIP (%d).",conn->type ); } temp = (char*)buf; for (;;) { conn->Recv( conn, &c, 1 ); if (c == '\n') { *temp = '\0'; return; } *(temp++) = c; } } #ifdef IN_GUEST uint32_t crNetHostCapsGet(void) { #ifdef VBOX_WITH_HGCM if ( cr_net.use_hgcm ) return crVBoxHGCMHostCapsGet(); #endif WARN(("HostCaps supportted for HGCM only!")); return 0; } #endif /** * The big boy -- call this function to see (non-blocking) if there is * any pending work. If there is, the networking layer's "work received" * handler will be called, so this function only returns a flag. Work * is assumed to be placed on queues for processing by the handler. */ int crNetRecv( #if defined(VBOX_WITH_CRHGSMI) && defined(IN_GUEST) CRConnection *conn #else void #endif ) { int found_work = 0; if ( cr_net.use_tcpip ) found_work += crTCPIPRecv(); #ifdef VBOX_WITH_HGCM if ( cr_net.use_hgcm ) found_work += crVBoxHGCMRecv( #if defined(VBOX_WITH_CRHGSMI) && defined(IN_GUEST) conn #endif ); #endif #ifdef SDP_SUPPORT if ( cr_net.use_sdp ) found_work += crSDPRecv(); #endif #ifdef IB_SUPPORT if ( cr_net.use_ib ) found_work += crIBRecv(); #endif if ( cr_net.use_udp ) found_work += crUDPTCPIPRecv(); if ( cr_net.use_file ) found_work += crFileRecv(); #ifdef GM_SUPPORT if ( cr_net.use_gm ) found_work += crGmRecv(); #endif #ifdef TEAC_SUPPORT if ( cr_net.use_teac ) found_work += crTeacRecv(); #endif #ifdef TCSCOMM_SUPPORT if ( cr_net.use_tcscomm ) found_work += crTcscommRecv(); #endif return found_work; } /** * Teac/TSComm only */ void crNetSetRank( int my_rank ) { cr_net.my_rank = my_rank; #ifdef TEAC_SUPPORT crTeacSetRank( cr_net.my_rank ); #endif #ifdef TCSCOMM_SUPPORT crTcscommSetRank( cr_net.my_rank ); #endif } /** * Teac/TSComm only */ void crNetSetContextRange( int low_context, int high_context ) { #if !defined(TEAC_SUPPORT) && !defined(TCSCOMM_SUPPORT) (void)low_context; (void)high_context; #endif #ifdef TEAC_SUPPORT crTeacSetContextRange( low_context, high_context ); #endif #ifdef TCSCOMM_SUPPORT crTcscommSetContextRange( low_context, high_context ); #endif } /** * Teac/TSComm only */ void crNetSetNodeRange( const char *low_node, const char *high_node ) { #if !defined(TEAC_SUPPORT) && !defined(TCSCOMM_SUPPORT) (void)low_node; (void)high_node; #endif #ifdef TEAC_SUPPORT crTeacSetNodeRange( low_node, high_node ); #endif #ifdef TCSCOMM_SUPPORT crTcscommSetNodeRange( low_node, high_node ); #endif } /** * Teac/TSComm only */ void crNetSetKey( const unsigned char* key, const int keyLength ) { #ifdef TEAC_SUPPORT crTeacSetKey( key, keyLength ); #else (void)key; (void)keyLength; #endif }