/* * Copyright 1989 Network Computing Devices, Inc., Mountain View, California. * * Permission to use, copy, modify, and distribute this software and its * documentation for any purpose and without fee is hereby granted, provided * that the above copyright notice appear in all copies and that both that * copyright notice and this permission notice appear in supporting * documentation, and that the name of N.C.D. not be used in advertising or * publicity pertaining to distribution of the software without specific, * written prior permission. N.C.D. makes no representations about the * suitability of this software for any purpose. It is provided "as is" * without express or implied warranty. * */ #ifdef HAVE_DIX_CONFIG_H #include #endif #ifdef WIN32 #include #endif #include #if !defined(WIN32) #include #include #include #include #endif #include #include #include #include #include "misc.h" #include #include "osdep.h" #include "input.h" #include "dixstruct.h" #include "opaque.h" #include "site.h" #ifdef STREAMSCONN #include #include #include #endif #ifdef XDMCP #undef REQUEST #ifdef XDMCP_NO_IPV6 #undef IPv6 #endif #include #define X_INCLUDE_NETDB_H #include static const char *defaultDisplayClass = COMPILEDDISPLAYCLASS; static int xdmcpSocket, sessionSocket; static xdmcp_states state; #if defined(IPv6) && defined(AF_INET6) static int xdmcpSocket6; static struct sockaddr_storage req_sockaddr; #else static struct sockaddr_in req_sockaddr; #endif static int req_socklen; static CARD32 SessionID; static CARD32 timeOutTime; static int timeOutRtx; static CARD32 defaultKeepaliveDormancy = XDM_DEF_DORMANCY; static CARD32 keepaliveDormancy = XDM_DEF_DORMANCY; static CARD16 DisplayNumber; static xdmcp_states XDM_INIT_STATE = XDM_OFF; #ifdef HASXDMAUTH static char *xdmAuthCookie; #endif static XdmcpBuffer buffer; #if defined(IPv6) && defined(AF_INET6) static struct addrinfo *mgrAddr; static struct addrinfo *mgrAddrFirst; #define SOCKADDR_TYPE struct sockaddr_storage #define SOCKADDR_FAMILY(s) ((struct sockaddr *)&(s))->sa_family #ifdef BSD44SOCKETS #define SOCKLEN_FIELD(s) ((struct sockaddr *)&(s))->sa_len #define SOCKLEN_TYPE unsigned char #else #define SOCKLEN_TYPE unsigned int #endif #else #define SOCKADDR_TYPE struct sockaddr_in #define SOCKADDR_FAMILY(s) (s).sin_family #ifdef BSD44SOCKETS #define SOCKLEN_FIELD(s) (s).sin_len #define SOCKLEN_TYPE unsigned char #else #define SOCKLEN_TYPE size_t #endif #endif static SOCKADDR_TYPE ManagerAddress; static SOCKADDR_TYPE FromAddress; #ifdef SOCKLEN_FIELD #define ManagerAddressLen SOCKLEN_FIELD(ManagerAddress) #define FromAddressLen SOCKLEN_FIELD(FromAddress) #else static SOCKLEN_TYPE ManagerAddressLen, FromAddressLen; #endif #if defined(IPv6) && defined(AF_INET6) static struct multicastinfo { struct multicastinfo *next; struct addrinfo *ai; int hops; } *mcastlist; #endif static void XdmcpAddHost(const struct sockaddr *from, int fromlen, ARRAY8Ptr AuthenticationName, ARRAY8Ptr hostname, ARRAY8Ptr status); static void XdmcpSelectHost(const struct sockaddr *host_sockaddr, int host_len, ARRAY8Ptr AuthenticationName); static void get_xdmcp_sock(void); static void send_query_msg(void); static void recv_willing_msg(struct sockaddr *from, int fromlen, unsigned length); static void send_request_msg(void); static void recv_accept_msg(unsigned length); static void recv_decline_msg(unsigned length); static void send_manage_msg(void); static void recv_refuse_msg(unsigned length); static void recv_failed_msg(unsigned length); static void send_keepalive_msg(void); static void recv_alive_msg(unsigned length ); static void XdmcpFatal(const char *type, ARRAY8Ptr status); static void XdmcpWarning(const char *str); static void get_manager_by_name(int argc, char **argv, int i); static void get_fromaddr_by_name(int argc, char **argv, int i); #if defined(IPv6) && defined(AF_INET6) static int get_mcast_options(int argc, char **argv, int i); #endif static void receive_packet(int socketfd); static void send_packet(void); static void timeout(void); static void restart(void); static void XdmcpBlockHandler(void *data , struct timeval **wt, void *LastSelectMask); static void XdmcpWakeupHandler(void *data, int i, void *LastSelectMask); /* * Register the Manufacturer display ID */ static ARRAY8 ManufacturerDisplayID; static void XdmcpRegisterManufacturerDisplayID(const char *name, int length) { int i; XdmcpDisposeARRAY8(&ManufacturerDisplayID); if (!XdmcpAllocARRAY8(&ManufacturerDisplayID, length)) return; for (i = 0; i < length; i++) ManufacturerDisplayID.data[i] = (CARD8) name[i]; } static unsigned short xdm_udp_port = XDM_UDP_PORT; static Bool OneSession = FALSE; static const char *xdm_from = NULL; void XdmcpUseMsg(void) { ErrorF("-query host-name contact named host for XDMCP\n"); ErrorF("-broadcast broadcast for XDMCP\n"); #if defined(IPv6) && defined(AF_INET6) ErrorF("-multicast [addr [hops]] IPv6 multicast for XDMCP\n"); #endif ErrorF("-indirect host-name contact named host for indirect XDMCP\n"); ErrorF("-port port-num UDP port number to send messages to\n"); ErrorF ("-from local-address specify the local address to connect from\n"); ErrorF("-once Terminate server after one session\n"); ErrorF("-class display-class specify display class to send in manage\n"); #ifdef HASXDMAUTH ErrorF("-cookie xdm-auth-bits specify the magic cookie for XDMCP\n"); #endif ErrorF("-displayID display-id manufacturer display ID for request\n"); } int XdmcpOptions(int argc, char **argv, int i) { if (strcmp(argv[i], "-query") == 0) { get_manager_by_name(argc, argv, i++); XDM_INIT_STATE = XDM_QUERY; AccessUsingXdmcp(); return i + 1; } if (strcmp(argv[i], "-broadcast") == 0) { XDM_INIT_STATE = XDM_BROADCAST; AccessUsingXdmcp(); return i + 1; } #if defined(IPv6) && defined(AF_INET6) if (strcmp(argv[i], "-multicast") == 0) { i = get_mcast_options(argc, argv, ++i); XDM_INIT_STATE = XDM_MULTICAST; AccessUsingXdmcp(); return i + 1; } #endif if (strcmp(argv[i], "-indirect") == 0) { get_manager_by_name(argc, argv, i++); XDM_INIT_STATE = XDM_INDIRECT; AccessUsingXdmcp(); return i + 1; } if (strcmp(argv[i], "-port") == 0) { if (++i == argc) { FatalError("Xserver: missing port number in command line\n"); } xdm_udp_port = (unsigned short) atoi(argv[i]); return i + 1; } if (strcmp(argv[i], "-from") == 0) { get_fromaddr_by_name(argc, argv, ++i); return i + 1; } if (strcmp(argv[i], "-once") == 0) { OneSession = TRUE; return i + 1; } if (strcmp(argv[i], "-class") == 0) { if (++i == argc) { FatalError("Xserver: missing class name in command line\n"); } defaultDisplayClass = argv[i]; return i + 1; } #ifdef HASXDMAUTH if (strcmp(argv[i], "-cookie") == 0) { if (++i == argc) { FatalError("Xserver: missing cookie data in command line\n"); } xdmAuthCookie = argv[i]; return i + 1; } #endif if (strcmp(argv[i], "-displayID") == 0) { if (++i == argc) { FatalError("Xserver: missing displayID in command line\n"); } XdmcpRegisterManufacturerDisplayID(argv[i], strlen(argv[i])); return i + 1; } return i; } /* * This section is a collection of routines for * registering server-specific data with the XDMCP * state machine. */ /* * Save all broadcast addresses away so BroadcastQuery * packets get sent everywhere */ #define MAX_BROADCAST 10 /* This stays sockaddr_in since IPv6 doesn't support broadcast */ static struct sockaddr_in BroadcastAddresses[MAX_BROADCAST]; static int NumBroadcastAddresses; void XdmcpRegisterBroadcastAddress(const struct sockaddr_in *addr) { struct sockaddr_in *bcast; if (NumBroadcastAddresses >= MAX_BROADCAST) return; bcast = &BroadcastAddresses[NumBroadcastAddresses++]; memset(bcast, 0, sizeof(struct sockaddr_in)); #ifdef BSD44SOCKETS bcast->sin_len = addr->sin_len; #endif bcast->sin_family = addr->sin_family; bcast->sin_port = htons(xdm_udp_port); bcast->sin_addr = addr->sin_addr; } /* * Each authentication type is registered here; Validator * will be called to check all access attempts using * the specified authentication type */ static ARRAYofARRAY8 AuthenticationNames, AuthenticationDatas; typedef struct _AuthenticationFuncs { ValidatorFunc Validator; GeneratorFunc Generator; AddAuthorFunc AddAuth; } AuthenticationFuncsRec, *AuthenticationFuncsPtr; static AuthenticationFuncsPtr AuthenticationFuncsList; void XdmcpRegisterAuthentication(const char *name, int namelen, const char *data, int datalen, ValidatorFunc Validator, GeneratorFunc Generator, AddAuthorFunc AddAuth) { int i; ARRAY8 AuthenticationName, AuthenticationData; static AuthenticationFuncsPtr newFuncs; if (!XdmcpAllocARRAY8(&AuthenticationName, namelen)) return; if (!XdmcpAllocARRAY8(&AuthenticationData, datalen)) { XdmcpDisposeARRAY8(&AuthenticationName); return; } for (i = 0; i < namelen; i++) AuthenticationName.data[i] = name[i]; for (i = 0; i < datalen; i++) AuthenticationData.data[i] = data[i]; if (!(XdmcpReallocARRAYofARRAY8(&AuthenticationNames, AuthenticationNames.length + 1) && XdmcpReallocARRAYofARRAY8(&AuthenticationDatas, AuthenticationDatas.length + 1) && (newFuncs = malloc((AuthenticationNames.length + 1) * sizeof(AuthenticationFuncsRec))))) { XdmcpDisposeARRAY8(&AuthenticationName); XdmcpDisposeARRAY8(&AuthenticationData); return; } for (i = 0; i < AuthenticationNames.length - 1; i++) newFuncs[i] = AuthenticationFuncsList[i]; newFuncs[AuthenticationNames.length - 1].Validator = Validator; newFuncs[AuthenticationNames.length - 1].Generator = Generator; newFuncs[AuthenticationNames.length - 1].AddAuth = AddAuth; free(AuthenticationFuncsList); AuthenticationFuncsList = newFuncs; AuthenticationNames.data[AuthenticationNames.length - 1] = AuthenticationName; AuthenticationDatas.data[AuthenticationDatas.length - 1] = AuthenticationData; } /* * Select the authentication type to be used; this is * set by the manager of the host to be connected to. */ static ARRAY8 noAuthenticationName = { (CARD16) 0, (CARD8Ptr) 0 }; static ARRAY8 noAuthenticationData = { (CARD16) 0, (CARD8Ptr) 0 }; static ARRAY8Ptr AuthenticationName = &noAuthenticationName; static ARRAY8Ptr AuthenticationData = &noAuthenticationData; static AuthenticationFuncsPtr AuthenticationFuncs; static void XdmcpSetAuthentication(const ARRAY8Ptr name) { int i; for (i = 0; i < AuthenticationNames.length; i++) if (XdmcpARRAY8Equal(&AuthenticationNames.data[i], name)) { AuthenticationName = &AuthenticationNames.data[i]; AuthenticationData = &AuthenticationDatas.data[i]; AuthenticationFuncs = &AuthenticationFuncsList[i]; break; } } /* * Register the host address for the display */ static ARRAY16 ConnectionTypes; static ARRAYofARRAY8 ConnectionAddresses; static long xdmcpGeneration; void XdmcpRegisterConnection(int type, const char *address, int addrlen) { int i; CARD8 *newAddress; if (xdmcpGeneration != serverGeneration) { XdmcpDisposeARRAY16(&ConnectionTypes); XdmcpDisposeARRAYofARRAY8(&ConnectionAddresses); xdmcpGeneration = serverGeneration; } if (xdm_from != NULL) { /* Only register the requested address */ const void *regAddr = address; const void *fromAddr = NULL; int regAddrlen = addrlen; if (addrlen == sizeof(struct in_addr)) { if (SOCKADDR_FAMILY(FromAddress) == AF_INET) { fromAddr = &((struct sockaddr_in *) &FromAddress)->sin_addr; } #if defined(IPv6) && defined(AF_INET6) else if ((SOCKADDR_FAMILY(FromAddress) == AF_INET6) && IN6_IS_ADDR_V4MAPPED(& ((struct sockaddr_in6 *) &FromAddress)->sin6_addr)) { fromAddr = &((struct sockaddr_in6 *) &FromAddress)->sin6_addr. s6_addr[12]; } #endif } #if defined(IPv6) && defined(AF_INET6) else if (addrlen == sizeof(struct in6_addr)) { if (SOCKADDR_FAMILY(FromAddress) == AF_INET6) { fromAddr = &((struct sockaddr_in6 *) &FromAddress)->sin6_addr; } else if ((SOCKADDR_FAMILY(FromAddress) == AF_INET) && IN6_IS_ADDR_V4MAPPED((const struct in6_addr *) address)) { fromAddr = &((struct sockaddr_in *) &FromAddress)->sin_addr; regAddr = &((struct sockaddr_in6 *) &address)->sin6_addr.s6_addr[12]; regAddrlen = sizeof(struct in_addr); } } #endif if (!fromAddr || memcmp(regAddr, fromAddr, regAddrlen) != 0) { return; } } if (ConnectionAddresses.length + 1 == 256) return; newAddress = malloc(addrlen * sizeof(CARD8)); if (!newAddress) return; if (!XdmcpReallocARRAY16(&ConnectionTypes, ConnectionTypes.length + 1)) { free(newAddress); return; } if (!XdmcpReallocARRAYofARRAY8(&ConnectionAddresses, ConnectionAddresses.length + 1)) { free(newAddress); return; } ConnectionTypes.data[ConnectionTypes.length - 1] = (CARD16) type; for (i = 0; i < addrlen; i++) newAddress[i] = address[i]; ConnectionAddresses.data[ConnectionAddresses.length - 1].data = newAddress; ConnectionAddresses.data[ConnectionAddresses.length - 1].length = addrlen; } /* * Register an Authorization Name. XDMCP advertises this list * to the manager. */ static ARRAYofARRAY8 AuthorizationNames; void XdmcpRegisterAuthorizations(void) { XdmcpDisposeARRAYofARRAY8(&AuthorizationNames); RegisterAuthorizations(); } void XdmcpRegisterAuthorization(const char *name, int namelen) { ARRAY8 authName; int i; authName.data = malloc(namelen * sizeof(CARD8)); if (!authName.data) return; if (!XdmcpReallocARRAYofARRAY8 (&AuthorizationNames, AuthorizationNames.length + 1)) { free(authName.data); return; } for (i = 0; i < namelen; i++) authName.data[i] = (CARD8) name[i]; authName.length = namelen; AuthorizationNames.data[AuthorizationNames.length - 1] = authName; } /* * Register the DisplayClass string */ static ARRAY8 DisplayClass; static void XdmcpRegisterDisplayClass(const char *name, int length) { int i; XdmcpDisposeARRAY8(&DisplayClass); if (!XdmcpAllocARRAY8(&DisplayClass, length)) return; for (i = 0; i < length; i++) DisplayClass.data[i] = (CARD8) name[i]; } /* * initialize XDMCP; create the socket, compute the display * number, set up the state machine */ void XdmcpInit(void) { state = XDM_INIT_STATE; #ifdef HASXDMAUTH if (xdmAuthCookie) XdmAuthenticationInit(xdmAuthCookie, strlen(xdmAuthCookie)); #endif if (state != XDM_OFF) { XdmcpRegisterAuthorizations(); XdmcpRegisterDisplayClass(defaultDisplayClass, strlen(defaultDisplayClass)); AccessUsingXdmcp(); RegisterBlockAndWakeupHandlers(XdmcpBlockHandler, XdmcpWakeupHandler, (void *) 0); timeOutRtx = 0; DisplayNumber = (CARD16) atoi(display); get_xdmcp_sock(); send_packet(); } } void XdmcpReset(void) { state = XDM_INIT_STATE; if (state != XDM_OFF) { RegisterBlockAndWakeupHandlers(XdmcpBlockHandler, XdmcpWakeupHandler, (void *) 0); timeOutRtx = 0; send_packet(); } } /* * Called whenever a new connection is created; notices the * first connection and saves it to terminate the session * when it is closed */ void XdmcpOpenDisplay(int sock) { if (state != XDM_AWAIT_MANAGE_RESPONSE) return; state = XDM_RUN_SESSION; sessionSocket = sock; } void XdmcpCloseDisplay(int sock) { if ((state != XDM_RUN_SESSION && state != XDM_AWAIT_ALIVE_RESPONSE) || sessionSocket != sock) return; state = XDM_INIT_STATE; if (OneSession) dispatchException |= DE_TERMINATE; else dispatchException |= DE_RESET; isItTimeToYield = TRUE; } /* * called before going to sleep, this routine * may modify the timeout value about to be sent * to select; in this way XDMCP can do appropriate things * dynamically while starting up */ /*ARGSUSED*/ static void XdmcpBlockHandler(void *data, /* unused */ struct timeval **wt, void *pReadmask) { fd_set *last_select_mask = (fd_set *) pReadmask; CARD32 millisToGo; if (state == XDM_OFF) return; FD_SET(xdmcpSocket, last_select_mask); #if defined(IPv6) && defined(AF_INET6) if (xdmcpSocket6 >= 0) FD_SET(xdmcpSocket6, last_select_mask); #endif if (timeOutTime == 0) return; millisToGo = timeOutTime - GetTimeInMillis(); if ((int) millisToGo < 0) millisToGo = 0; AdjustWaitForDelay(wt, millisToGo); } /* * called after select returns; this routine will * recognise when XDMCP packets await and * process them appropriately */ /*ARGSUSED*/ static void XdmcpWakeupHandler(void *data, /* unused */ int i, void *pReadmask) { fd_set *last_select_mask = (fd_set *) pReadmask; fd_set devicesReadable; if (state == XDM_OFF) return; if (i > 0) { if (FD_ISSET(xdmcpSocket, last_select_mask)) { receive_packet(xdmcpSocket); FD_CLR(xdmcpSocket, last_select_mask); } #if defined(IPv6) && defined(AF_INET6) if (xdmcpSocket6 >= 0 && FD_ISSET(xdmcpSocket6, last_select_mask)) { receive_packet(xdmcpSocket6); FD_CLR(xdmcpSocket6, last_select_mask); } #endif XFD_ANDSET(&devicesReadable, last_select_mask, &EnabledDevices); if (XFD_ANYSET(&devicesReadable)) { if (state == XDM_AWAIT_USER_INPUT) restart(); else if (state == XDM_RUN_SESSION) keepaliveDormancy = defaultKeepaliveDormancy; } if (XFD_ANYSET(&AllClients) && state == XDM_RUN_SESSION) timeOutTime = GetTimeInMillis() + keepaliveDormancy * 1000; } else if (timeOutTime && (int) (GetTimeInMillis() - timeOutTime) >= 0) { if (state == XDM_RUN_SESSION) { state = XDM_KEEPALIVE; send_packet(); } else timeout(); } } /* * This routine should be called from the routine that drives the * user's host menu when the user selects a host */ static void XdmcpSelectHost(const struct sockaddr *host_sockaddr, int host_len, ARRAY8Ptr auth_name) { state = XDM_START_CONNECTION; memmove(&req_sockaddr, host_sockaddr, host_len); req_socklen = host_len; XdmcpSetAuthentication(auth_name); send_packet(); } /* * !!! this routine should be replaced by a routine that adds * the host to the user's host menu. the current version just * selects the first host to respond with willing message. */ /*ARGSUSED*/ static void XdmcpAddHost(const struct sockaddr *from, int fromlen, ARRAY8Ptr auth_name, ARRAY8Ptr hostname, ARRAY8Ptr status) { XdmcpSelectHost(from, fromlen, auth_name); } /* * A message is queued on the socket; read it and * do the appropriate thing */ static ARRAY8 UnwillingMessage = { (CARD8) 14, (CARD8 *) "Host unwilling" }; static void receive_packet(int socketfd) { #if defined(IPv6) && defined(AF_INET6) struct sockaddr_storage from; #else struct sockaddr_in from; #endif int fromlen = sizeof(from); XdmcpHeader header; /* read message off socket */ if (!XdmcpFill(socketfd, &buffer, (XdmcpNetaddr) &from, &fromlen)) return; /* reset retransmission backoff */ timeOutRtx = 0; if (!XdmcpReadHeader(&buffer, &header)) return; if (header.version != XDM_PROTOCOL_VERSION) return; switch (header.opcode) { case WILLING: recv_willing_msg((struct sockaddr *) &from, fromlen, header.length); break; case UNWILLING: XdmcpFatal("Manager unwilling", &UnwillingMessage); break; case ACCEPT: recv_accept_msg(header.length); break; case DECLINE: recv_decline_msg(header.length); break; case REFUSE: recv_refuse_msg(header.length); break; case FAILED: recv_failed_msg(header.length); break; case ALIVE: recv_alive_msg(header.length); break; } } /* * send the appropriate message given the current state */ static void send_packet(void) { int rtx; switch (state) { case XDM_QUERY: case XDM_BROADCAST: case XDM_INDIRECT: #if defined(IPv6) && defined(AF_INET6) case XDM_MULTICAST: #endif send_query_msg(); break; case XDM_START_CONNECTION: send_request_msg(); break; case XDM_MANAGE: send_manage_msg(); break; case XDM_KEEPALIVE: send_keepalive_msg(); break; default: break; } rtx = (XDM_MIN_RTX << timeOutRtx); if (rtx > XDM_MAX_RTX) rtx = XDM_MAX_RTX; timeOutTime = GetTimeInMillis() + rtx * 1000; } /* * The session is declared dead for some reason; too many * timeouts, or Keepalive failure. */ static void XdmcpDeadSession(const char *reason) { ErrorF("XDM: %s, declaring session dead\n", reason); state = XDM_INIT_STATE; isItTimeToYield = TRUE; dispatchException |= DE_RESET; timeOutTime = 0; timeOutRtx = 0; send_packet(); } /* * Timeout waiting for an XDMCP response. */ static void timeout(void) { timeOutRtx++; if (state == XDM_AWAIT_ALIVE_RESPONSE && timeOutRtx >= XDM_KA_RTX_LIMIT) { XdmcpDeadSession("too many keepalive retransmissions"); return; } else if (timeOutRtx >= XDM_RTX_LIMIT) { /* Quit if "-once" specified, otherwise reset and try again. */ if (OneSession) { dispatchException |= DE_TERMINATE; ErrorF("XDM: too many retransmissions\n"); } else { XdmcpDeadSession("too many retransmissions"); } return; } #if defined(IPv6) && defined(AF_INET6) if (state == XDM_COLLECT_QUERY || state == XDM_COLLECT_INDIRECT_QUERY) { /* Try next address */ for (mgrAddr = mgrAddr->ai_next;; mgrAddr = mgrAddr->ai_next) { if (mgrAddr == NULL) { mgrAddr = mgrAddrFirst; } if (mgrAddr->ai_family == AF_INET || mgrAddr->ai_family == AF_INET6) break; } #ifndef SIN6_LEN ManagerAddressLen = mgrAddr->ai_addrlen; #endif memcpy(&ManagerAddress, mgrAddr->ai_addr, mgrAddr->ai_addrlen); } #endif switch (state) { case XDM_COLLECT_QUERY: state = XDM_QUERY; break; case XDM_COLLECT_BROADCAST_QUERY: state = XDM_BROADCAST; break; #if defined(IPv6) && defined(AF_INET6) case XDM_COLLECT_MULTICAST_QUERY: state = XDM_MULTICAST; break; #endif case XDM_COLLECT_INDIRECT_QUERY: state = XDM_INDIRECT; break; case XDM_AWAIT_REQUEST_RESPONSE: state = XDM_START_CONNECTION; break; case XDM_AWAIT_MANAGE_RESPONSE: state = XDM_MANAGE; break; case XDM_AWAIT_ALIVE_RESPONSE: state = XDM_KEEPALIVE; break; default: break; } send_packet(); } static void restart(void) { state = XDM_INIT_STATE; timeOutRtx = 0; send_packet(); } static int XdmcpCheckAuthentication(ARRAY8Ptr Name, ARRAY8Ptr Data, int packet_type) { return (XdmcpARRAY8Equal(Name, AuthenticationName) && (AuthenticationName->length == 0 || (*AuthenticationFuncs->Validator) (AuthenticationData, Data, packet_type))); } static int XdmcpAddAuthorization(ARRAY8Ptr name, ARRAY8Ptr data) { AddAuthorFunc AddAuth; if (AuthenticationFuncs && AuthenticationFuncs->AddAuth) AddAuth = AuthenticationFuncs->AddAuth; else AddAuth = AddAuthorization; return (*AddAuth) ((unsigned short) name->length, (char *) name->data, (unsigned short) data->length, (char *) data->data); } /* * from here to the end of this file are routines private * to the state machine. */ static void get_xdmcp_sock(void) { #ifdef STREAMSCONN struct netconfig *nconf; if ((xdmcpSocket = t_open("/dev/udp", O_RDWR, 0)) < 0) { XdmcpWarning("t_open() of /dev/udp failed"); return; } if (t_bind(xdmcpSocket, NULL, NULL) < 0) { XdmcpWarning("UDP socket creation failed"); t_error("t_bind(xdmcpSocket) failed"); t_close(xdmcpSocket); return; } /* * This part of the code looks contrived. It will actually fit in nicely * when the CLTS part of Xtrans is implemented. */ if ((nconf = getnetconfigent("udp")) == NULL) { XdmcpWarning("UDP socket creation failed: getnetconfigent()"); t_unbind(xdmcpSocket); t_close(xdmcpSocket); return; } if (netdir_options(nconf, ND_SET_BROADCAST, xdmcpSocket, NULL)) { XdmcpWarning("UDP set broadcast option failed: netdir_options()"); freenetconfigent(nconf); t_unbind(xdmcpSocket); t_close(xdmcpSocket); return; } freenetconfigent(nconf); #else int soopts = 1; #if defined(IPv6) && defined(AF_INET6) if ((xdmcpSocket6 = socket(AF_INET6, SOCK_DGRAM, 0)) < 0) XdmcpWarning("INET6 UDP socket creation failed"); #endif if ((xdmcpSocket = socket(AF_INET, SOCK_DGRAM, 0)) < 0) XdmcpWarning("UDP socket creation failed"); #ifdef SO_BROADCAST else if (setsockopt(xdmcpSocket, SOL_SOCKET, SO_BROADCAST, (char *) &soopts, sizeof(soopts)) < 0) XdmcpWarning("UDP set broadcast socket-option failed"); #endif /* SO_BROADCAST */ if (xdmcpSocket >= 0 && xdm_from != NULL) { if (bind(xdmcpSocket, (struct sockaddr *) &FromAddress, FromAddressLen) < 0) { FatalError("Xserver: failed to bind to -from address: %s\n", xdm_from); } } #endif /* STREAMSCONN */ } static void send_query_msg(void) { XdmcpHeader header; Bool broadcast = FALSE; #if defined(IPv6) && defined(AF_INET6) Bool multicast = FALSE; #endif int i; int socketfd = xdmcpSocket; header.version = XDM_PROTOCOL_VERSION; switch (state) { case XDM_QUERY: header.opcode = (CARD16) QUERY; state = XDM_COLLECT_QUERY; break; case XDM_BROADCAST: header.opcode = (CARD16) BROADCAST_QUERY; state = XDM_COLLECT_BROADCAST_QUERY; broadcast = TRUE; break; #if defined(IPv6) && defined(AF_INET6) case XDM_MULTICAST: header.opcode = (CARD16) BROADCAST_QUERY; state = XDM_COLLECT_MULTICAST_QUERY; multicast = TRUE; break; #endif case XDM_INDIRECT: header.opcode = (CARD16) INDIRECT_QUERY; state = XDM_COLLECT_INDIRECT_QUERY; break; default: break; } header.length = 1; for (i = 0; i < AuthenticationNames.length; i++) header.length += 2 + AuthenticationNames.data[i].length; XdmcpWriteHeader(&buffer, &header); XdmcpWriteARRAYofARRAY8(&buffer, &AuthenticationNames); if (broadcast) { for (i = 0; i < NumBroadcastAddresses; i++) XdmcpFlush(xdmcpSocket, &buffer, (XdmcpNetaddr) &BroadcastAddresses[i], sizeof(struct sockaddr_in)); } #if defined(IPv6) && defined(AF_INET6) else if (multicast) { struct multicastinfo *mcl; struct addrinfo *ai; for (mcl = mcastlist; mcl != NULL; mcl = mcl->next) { for (ai = mcl->ai; ai != NULL; ai = ai->ai_next) { if (ai->ai_family == AF_INET) { unsigned char hopflag = (unsigned char) mcl->hops; socketfd = xdmcpSocket; setsockopt(socketfd, IPPROTO_IP, IP_MULTICAST_TTL, &hopflag, sizeof(hopflag)); } else if (ai->ai_family == AF_INET6) { int hopflag6 = mcl->hops; socketfd = xdmcpSocket6; setsockopt(socketfd, IPPROTO_IPV6, IPV6_MULTICAST_HOPS, &hopflag6, sizeof(hopflag6)); } else { continue; } XdmcpFlush(socketfd, &buffer, (XdmcpNetaddr) ai->ai_addr, ai->ai_addrlen); break; } } } #endif else { #if defined(IPv6) && defined(AF_INET6) if (SOCKADDR_FAMILY(ManagerAddress) == AF_INET6) socketfd = xdmcpSocket6; #endif XdmcpFlush(socketfd, &buffer, (XdmcpNetaddr) &ManagerAddress, ManagerAddressLen); } } static void recv_willing_msg(struct sockaddr *from, int fromlen, unsigned length) { ARRAY8 authenticationName; ARRAY8 hostname; ARRAY8 status; authenticationName.data = 0; hostname.data = 0; status.data = 0; if (XdmcpReadARRAY8(&buffer, &authenticationName) && XdmcpReadARRAY8(&buffer, &hostname) && XdmcpReadARRAY8(&buffer, &status)) { if (length == 6 + authenticationName.length + hostname.length + status.length) { switch (state) { case XDM_COLLECT_QUERY: XdmcpSelectHost(from, fromlen, &authenticationName); break; case XDM_COLLECT_BROADCAST_QUERY: #if defined(IPv6) && defined(AF_INET6) case XDM_COLLECT_MULTICAST_QUERY: #endif case XDM_COLLECT_INDIRECT_QUERY: XdmcpAddHost(from, fromlen, &authenticationName, &hostname, &status); break; default: break; } } } XdmcpDisposeARRAY8(&authenticationName); XdmcpDisposeARRAY8(&hostname); XdmcpDisposeARRAY8(&status); } static void send_request_msg(void) { XdmcpHeader header; int length; int i; CARD16 XdmcpConnectionType; ARRAY8 authenticationData; int socketfd = xdmcpSocket; switch (SOCKADDR_FAMILY(ManagerAddress)) { case AF_INET: XdmcpConnectionType = FamilyInternet; break; #if defined(IPv6) && defined(AF_INET6) case AF_INET6: XdmcpConnectionType = FamilyInternet6; break; #endif default: XdmcpConnectionType = 0xffff; break; } header.version = XDM_PROTOCOL_VERSION; header.opcode = (CARD16) REQUEST; length = 2; /* display number */ length += 1 + 2 * ConnectionTypes.length; /* connection types */ length += 1; /* connection addresses */ for (i = 0; i < ConnectionAddresses.length; i++) length += 2 + ConnectionAddresses.data[i].length; authenticationData.length = 0; authenticationData.data = 0; if (AuthenticationFuncs) { (*AuthenticationFuncs->Generator) (AuthenticationData, &authenticationData, REQUEST); } length += 2 + AuthenticationName->length; /* authentication name */ length += 2 + authenticationData.length; /* authentication data */ length += 1; /* authorization names */ for (i = 0; i < AuthorizationNames.length; i++) length += 2 + AuthorizationNames.data[i].length; length += 2 + ManufacturerDisplayID.length; /* display ID */ header.length = length; if (!XdmcpWriteHeader(&buffer, &header)) { XdmcpDisposeARRAY8(&authenticationData); return; } XdmcpWriteCARD16(&buffer, DisplayNumber); XdmcpWriteCARD8(&buffer, ConnectionTypes.length); /* The connection array is send reordered, so that connections of */ /* the same address type as the XDMCP manager connection are send */ /* first. This works around a bug in xdm. mario@klebsch.de */ for (i = 0; i < (int) ConnectionTypes.length; i++) if (ConnectionTypes.data[i] == XdmcpConnectionType) XdmcpWriteCARD16(&buffer, ConnectionTypes.data[i]); for (i = 0; i < (int) ConnectionTypes.length; i++) if (ConnectionTypes.data[i] != XdmcpConnectionType) XdmcpWriteCARD16(&buffer, ConnectionTypes.data[i]); XdmcpWriteCARD8(&buffer, ConnectionAddresses.length); for (i = 0; i < (int) ConnectionAddresses.length; i++) if ((i < ConnectionTypes.length) && (ConnectionTypes.data[i] == XdmcpConnectionType)) XdmcpWriteARRAY8(&buffer, &ConnectionAddresses.data[i]); for (i = 0; i < (int) ConnectionAddresses.length; i++) if ((i >= ConnectionTypes.length) || (ConnectionTypes.data[i] != XdmcpConnectionType)) XdmcpWriteARRAY8(&buffer, &ConnectionAddresses.data[i]); XdmcpWriteARRAY8(&buffer, AuthenticationName); XdmcpWriteARRAY8(&buffer, &authenticationData); XdmcpDisposeARRAY8(&authenticationData); XdmcpWriteARRAYofARRAY8(&buffer, &AuthorizationNames); XdmcpWriteARRAY8(&buffer, &ManufacturerDisplayID); #if defined(IPv6) && defined(AF_INET6) if (SOCKADDR_FAMILY(req_sockaddr) == AF_INET6) socketfd = xdmcpSocket6; #endif if (XdmcpFlush(socketfd, &buffer, (XdmcpNetaddr) &req_sockaddr, req_socklen)) state = XDM_AWAIT_REQUEST_RESPONSE; } static void recv_accept_msg(unsigned length) { CARD32 AcceptSessionID; ARRAY8 AcceptAuthenticationName, AcceptAuthenticationData; ARRAY8 AcceptAuthorizationName, AcceptAuthorizationData; if (state != XDM_AWAIT_REQUEST_RESPONSE) return; AcceptAuthenticationName.data = 0; AcceptAuthenticationData.data = 0; AcceptAuthorizationName.data = 0; AcceptAuthorizationData.data = 0; if (XdmcpReadCARD32(&buffer, &AcceptSessionID) && XdmcpReadARRAY8(&buffer, &AcceptAuthenticationName) && XdmcpReadARRAY8(&buffer, &AcceptAuthenticationData) && XdmcpReadARRAY8(&buffer, &AcceptAuthorizationName) && XdmcpReadARRAY8(&buffer, &AcceptAuthorizationData)) { if (length == 12 + AcceptAuthenticationName.length + AcceptAuthenticationData.length + AcceptAuthorizationName.length + AcceptAuthorizationData.length) { if (!XdmcpCheckAuthentication(&AcceptAuthenticationName, &AcceptAuthenticationData, ACCEPT)) { XdmcpFatal("Authentication Failure", &AcceptAuthenticationName); } /* permit access control manipulations from this host */ AugmentSelf(&req_sockaddr, req_socklen); /* if the authorization specified in the packet fails * to be acceptable, enable the local addresses */ if (!XdmcpAddAuthorization(&AcceptAuthorizationName, &AcceptAuthorizationData)) { AddLocalHosts(); } SessionID = AcceptSessionID; state = XDM_MANAGE; send_packet(); } } XdmcpDisposeARRAY8(&AcceptAuthenticationName); XdmcpDisposeARRAY8(&AcceptAuthenticationData); XdmcpDisposeARRAY8(&AcceptAuthorizationName); XdmcpDisposeARRAY8(&AcceptAuthorizationData); } static void recv_decline_msg(unsigned length) { ARRAY8 status, DeclineAuthenticationName, DeclineAuthenticationData; status.data = 0; DeclineAuthenticationName.data = 0; DeclineAuthenticationData.data = 0; if (XdmcpReadARRAY8(&buffer, &status) && XdmcpReadARRAY8(&buffer, &DeclineAuthenticationName) && XdmcpReadARRAY8(&buffer, &DeclineAuthenticationData)) { if (length == 6 + status.length + DeclineAuthenticationName.length + DeclineAuthenticationData.length && XdmcpCheckAuthentication(&DeclineAuthenticationName, &DeclineAuthenticationData, DECLINE)) { XdmcpFatal("Session declined", &status); } } XdmcpDisposeARRAY8(&status); XdmcpDisposeARRAY8(&DeclineAuthenticationName); XdmcpDisposeARRAY8(&DeclineAuthenticationData); } static void send_manage_msg(void) { XdmcpHeader header; int socketfd = xdmcpSocket; header.version = XDM_PROTOCOL_VERSION; header.opcode = (CARD16) MANAGE; header.length = 8 + DisplayClass.length; if (!XdmcpWriteHeader(&buffer, &header)) return; XdmcpWriteCARD32(&buffer, SessionID); XdmcpWriteCARD16(&buffer, DisplayNumber); XdmcpWriteARRAY8(&buffer, &DisplayClass); state = XDM_AWAIT_MANAGE_RESPONSE; #if defined(IPv6) && defined(AF_INET6) if (SOCKADDR_FAMILY(req_sockaddr) == AF_INET6) socketfd = xdmcpSocket6; #endif XdmcpFlush(socketfd, &buffer, (XdmcpNetaddr) &req_sockaddr, req_socklen); } static void recv_refuse_msg(unsigned length) { CARD32 RefusedSessionID; if (state != XDM_AWAIT_MANAGE_RESPONSE) return; if (length != 4) return; if (XdmcpReadCARD32(&buffer, &RefusedSessionID)) { if (RefusedSessionID == SessionID) { state = XDM_START_CONNECTION; send_packet(); } } } static void recv_failed_msg(unsigned length) { CARD32 FailedSessionID; ARRAY8 status; if (state != XDM_AWAIT_MANAGE_RESPONSE) return; status.data = 0; if (XdmcpReadCARD32(&buffer, &FailedSessionID) && XdmcpReadARRAY8(&buffer, &status)) { if (length == 6 + status.length && SessionID == FailedSessionID) { XdmcpFatal("Session failed", &status); } } XdmcpDisposeARRAY8(&status); } static void send_keepalive_msg(void) { XdmcpHeader header; int socketfd = xdmcpSocket; header.version = XDM_PROTOCOL_VERSION; header.opcode = (CARD16) KEEPALIVE; header.length = 6; XdmcpWriteHeader(&buffer, &header); XdmcpWriteCARD16(&buffer, DisplayNumber); XdmcpWriteCARD32(&buffer, SessionID); state = XDM_AWAIT_ALIVE_RESPONSE; #if defined(IPv6) && defined(AF_INET6) if (SOCKADDR_FAMILY(req_sockaddr) == AF_INET6) socketfd = xdmcpSocket6; #endif XdmcpFlush(socketfd, &buffer, (XdmcpNetaddr) &req_sockaddr, req_socklen); } static void recv_alive_msg(unsigned length) { CARD8 SessionRunning; CARD32 AliveSessionID; if (state != XDM_AWAIT_ALIVE_RESPONSE) return; if (length != 5) return; if (XdmcpReadCARD8(&buffer, &SessionRunning) && XdmcpReadCARD32(&buffer, &AliveSessionID)) { if (SessionRunning && AliveSessionID == SessionID) { /* backoff dormancy period */ state = XDM_RUN_SESSION; if ((GetTimeInMillis() - LastEventTime(XIAllDevices).milliseconds) > keepaliveDormancy * 1000) { keepaliveDormancy <<= 1; if (keepaliveDormancy > XDM_MAX_DORMANCY) keepaliveDormancy = XDM_MAX_DORMANCY; } timeOutTime = GetTimeInMillis() + keepaliveDormancy * 1000; } else { XdmcpDeadSession("Alive response indicates session dead"); } } } static void XdmcpFatal(const char *type, ARRAY8Ptr status) { FatalError("XDMCP fatal error: %s %*.*s\n", type, status->length, status->length, status->data); } static void XdmcpWarning(const char *str) { ErrorF("XDMCP warning: %s\n", str); } static void get_addr_by_name(const char *argtype, const char *namestr, int port, int socktype, SOCKADDR_TYPE * addr, SOCKLEN_TYPE * addrlen #if defined(IPv6) && defined(AF_INET6) , struct addrinfo **aip, struct addrinfo **aifirstp #endif ) { #if defined(IPv6) && defined(AF_INET6) struct addrinfo *ai; struct addrinfo hints; char portstr[6]; char *pport = portstr; int gaierr; memset(&hints, 0, sizeof(hints)); hints.ai_socktype = socktype; if (port == 0) { pport = NULL; } else if (port > 0 && port < 65535) { snprintf(portstr, sizeof(portstr), "%d", port); } else { FatalError("Xserver: port out of range: %d\n", port); } if (*aifirstp != NULL) { freeaddrinfo(*aifirstp); *aifirstp = NULL; } if ((gaierr = getaddrinfo(namestr, pport, &hints, aifirstp)) == 0) { for (ai = *aifirstp; ai != NULL; ai = ai->ai_next) { if (ai->ai_family == AF_INET || ai->ai_family == AF_INET6) break; } if ((ai == NULL) || (ai->ai_addrlen > sizeof(SOCKADDR_TYPE))) { FatalError("Xserver: %s host %s not on supported network type\n", argtype, namestr); } else { *aip = ai; *addrlen = ai->ai_addrlen; memcpy(addr, ai->ai_addr, ai->ai_addrlen); } } else { FatalError("Xserver: %s: %s %s\n", gai_strerror(gaierr), argtype, namestr); } #else struct hostent *hep; #ifdef XTHREADS_NEEDS_BYNAMEPARAMS _Xgethostbynameparams hparams; #endif #if defined(WIN32) && defined(TCPCONN) _XSERVTransWSAStartup(); #endif if (!(hep = _XGethostbyname(namestr, hparams))) { FatalError("Xserver: %s unknown host: %s\n", argtype, namestr); } if (hep->h_length == sizeof(struct in_addr)) { memmove(&addr->sin_addr, hep->h_addr, hep->h_length); *addrlen = sizeof(struct sockaddr_in); addr->sin_family = AF_INET; addr->sin_port = htons(port); } else { FatalError("Xserver: %s host on strange network %s\n", argtype, namestr); } #endif } static void get_manager_by_name(int argc, char **argv, int i) { if ((i + 1) == argc) { FatalError("Xserver: missing %s host name in command line\n", argv[i]); } get_addr_by_name(argv[i], argv[i + 1], xdm_udp_port, SOCK_DGRAM, &ManagerAddress, &ManagerAddressLen #if defined(IPv6) && defined(AF_INET6) , &mgrAddr, &mgrAddrFirst #endif ); } static void get_fromaddr_by_name(int argc, char **argv, int i) { #if defined(IPv6) && defined(AF_INET6) struct addrinfo *ai = NULL; struct addrinfo *aifirst = NULL; #endif if (i == argc) { FatalError("Xserver: missing -from host name in command line\n"); } get_addr_by_name("-from", argv[i], 0, 0, &FromAddress, &FromAddressLen #if defined(IPv6) && defined(AF_INET6) , &ai, &aifirst #endif ); #if defined(IPv6) && defined(AF_INET6) if (aifirst != NULL) freeaddrinfo(aifirst); #endif xdm_from = argv[i]; } #if defined(IPv6) && defined(AF_INET6) static int get_mcast_options(int argc, char **argv, int i) { const char *address = XDM_DEFAULT_MCAST_ADDR6; int hopcount = 1; struct addrinfo hints; char portstr[6]; int gaierr; struct addrinfo *ai, *firstai; if ((i < argc) && (argv[i][0] != '-') && (argv[i][0] != '+')) { address = argv[i++]; if ((i < argc) && (argv[i][0] != '-') && (argv[i][0] != '+')) { hopcount = strtol(argv[i++], NULL, 10); if ((hopcount < 1) || (hopcount > 255)) { FatalError("Xserver: multicast hop count out of range: %d\n", hopcount); } } } if (xdm_udp_port > 0 && xdm_udp_port < 65535) { snprintf(portstr, sizeof(portstr), "%d", xdm_udp_port); } else { FatalError("Xserver: port out of range: %d\n", xdm_udp_port); } memset(&hints, 0, sizeof(hints)); hints.ai_socktype = SOCK_DGRAM; if ((gaierr = getaddrinfo(address, portstr, &hints, &firstai)) == 0) { for (ai = firstai; ai != NULL; ai = ai->ai_next) { if (((ai->ai_family == AF_INET) && IN_MULTICAST(((struct sockaddr_in *) ai->ai_addr) ->sin_addr.s_addr)) || ((ai->ai_family == AF_INET6) && IN6_IS_ADDR_MULTICAST(&((struct sockaddr_in6 *) ai->ai_addr) ->sin6_addr))) break; } if (ai == NULL) { FatalError("Xserver: address not supported multicast type %s\n", address); } else { struct multicastinfo *mcastinfo, *mcl; mcastinfo = malloc(sizeof(struct multicastinfo)); mcastinfo->next = NULL; mcastinfo->ai = firstai; mcastinfo->hops = hopcount; if (mcastlist == NULL) { mcastlist = mcastinfo; } else { for (mcl = mcastlist; mcl->next != NULL; mcl = mcl->next) { /* Do nothing - just find end of list */ } mcl->next = mcastinfo; } } } else { FatalError("Xserver: %s: %s\n", gai_strerror(gaierr), address); } return i; } #endif #else static int xdmcp_non_empty; /* avoid complaint by ranlib */ #endif /* XDMCP */