/**************************************************************************/ /* */ /* Copyright (c) 2001, 2010 NoMachine, http://www.nomachine.com/. */ /* */ /* NXCOMP, NX protocol compression and NX extensions to this software */ /* are copyright of NoMachine. Redistribution and use of the present */ /* software is allowed according to terms specified in the file LICENSE */ /* which comes in the source distribution. */ /* */ /* Check http://www.nomachine.com/licensing.html for applicability. */ /* */ /* NX and NoMachine are trademarks of Medialogic S.p.A. */ /* */ /* All rights reserved. */ /* */ /**************************************************************************/ #ifndef NX_H #define NX_H #ifdef __cplusplus extern "C" { #endif #include <unistd.h> #include <sys/time.h> #include <sys/types.h> #include <sys/select.h> #include <sys/uio.h> #define NX_FD_ANY -1 #define NX_MODE_ANY -1 #define NX_MODE_CLIENT 1 #define NX_MODE_SERVER 2 #define NX_DISPLAY_ANY NULL #define NX_SIGNAL_ANY -1 #define NX_SIGNAL_ENABLE 1 #define NX_SIGNAL_DISABLE 2 #define NX_SIGNAL_RAISE 3 #define NX_SIGNAL_FORWARD 4 #define NX_POLICY_IMMEDIATE 1 #define NX_POLICY_DEFERRED 2 #define NX_ALERT_REMOTE 0 #define NX_ALERT_LOCAL 1 #define NX_HANDLER_FLUSH 0 #define NX_HANDLER_STATISTICS 1 #define NX_STATISTICS_PARTIAL 0 #define NX_STATISTICS_TOTAL 1 #define NX_CHANNEL_X11 0 #define NX_CHANNEL_CUPS 1 #define NX_CHANNEL_SMB 2 #define NX_CHANNEL_MEDIA 3 #define NX_CHANNEL_HTTP 4 #define NX_CHANNEL_FONT 5 #define NX_CHANNEL_SLAVE 6 #define NX_FILE_SESSION 0 #define NX_FILE_ERRORS 1 #define NX_FILE_OPTIONS 2 #define NX_FILE_STATS 3 /* * The following are the new interfaces to the NX transport. The * NX proxy software is now intended to be run as a library of a * higher level communication manager (nxssh, nxhttp, nxrtp, etc, * not only nxproxy). This is a work-in-progress, so expect these * interfaces to change in future. At the present moment, as an * example, there is no provision for creating and managing mul- * tiple proxy connections. */ /* * Attach a NX transport to the provided descriptor. This should be * done after having created a pair of connected sockets. */ extern int NXTransCreate(int fd, int mode, const char *options); /* * Tell the proxy to use the second descriptor as its own end of * the internal connection to the NX agent. The NX agent will use * the first descriptor. Setting an agent connection will have the * effect of disabling further X client connections and, if it is * possible, will trigger the use of the memory-to-memory transport. */ extern int NXTransAgent(int fd[2]); /* * Prepare the file sets and the timeout for a later execution of * the select(). The masks and the timeout must persist across all * the calls, so if you don't need any of the values, it is requi- * red that you create empty masks and a default timeout. To save * a check at each run, all the functions below assume that valid * pointers are passed. */ extern int NXTransPrepare(int *maxfds, fd_set *readfds, fd_set *writefds, struct timeval *timeout); /* * Call select() to find out the descriptors in the sets having * pending data. */ extern int NXTransSelect(int *result, int *error, int *maxfds, fd_set *readfds, fd_set *writefds, struct timeval *timeout); /* * Perform the required I/O on all the NX descriptors having pen- * ding data. This can include reading and writing to the NX chan- * nels, encoding and decoding the proxy data or managing any of * the other NX resources. */ extern int NXTransExecute(int *result, int *error, int *maxfds, fd_set *readfds, fd_set *writefds, struct timeval *timeout); /* * Run an empty loop, giving to the NX transport a chance to check * its descriptors. */ extern int NXTransContinue(struct timeval *timeout); /* * Perform I/O on the given descriptors. If memory-to-memory trans- * port has been activated and the descriptor is recognized as a * valid agent connection, then the functions will read and write * the data directly to the proxy buffer, otherwise the correspond- * ing network operation will be performed. */ extern int NXTransRead(int fd, char *data, int size); extern int NXTransWrite(int fd, char *data, int size); extern int NXTransReadable(int fd, int *readable); extern int NXTransReadVector(int fd, struct iovec *iovdata, int iovsize); extern int NXTransWriteVector(int fd, struct iovec *iovdata, int iovsize); extern int NXTransClose(int fd); /* * Return true if the NX transport is running. The fd parameter can * be either the local descriptor attached to the NX transport or * NX_FD_ANY. */ extern int NXTransRunning(int fd); /* * Close down the NX transport and free all the allocated resources. * The fd parameter can be either the local descriptor or NX_FD_ANY. * This must be explicitly called by the agent before the proxy can * start the tear down procedure. */ extern int NXTransDestroy(int fd); /* * Tell to the proxy how to handle the standard POSIX signals. For * example, given the SIGINT signal, the caller can specify any of * the following actions: * * NX_SIGNAL_ENABLE: A signal handler will have to be installed by * the library, so that it can be intercepted by * the proxy. * * NX_SIGNAL_DISABLE: The signal will be handled by the caller and, * eventually, forwarded to the proxy by calling * NXTransSignal() explicitly. * * NX_SIGNAL_RAISE: The signal must be handled now, as if it had * been delivered by the operating system. This * function can be called by the agent with the * purpose of propagating a signal to the proxy. * * NX_SIGNAL_FORWARD: A signal handler will have to be installed by * the library but the library will have to call * the original signal handler when the signal * is received. * * As a rule of thumb, agents should let the proxy handle SIGUSR1 * and SIGUSR2, used for producing the NX protocol statistics, and * SIGHUP, used for disconnecting the NX transport. * * The following signals are blocked by default upon creation of the * NX transport: * * SIGCHLD These signals should be always put under the control * SIGUSR1 of the proxy. If agents are intercepting them, agents * SIGUSR2 should later call NXTransSignal(..., NX_SIGNAL_RAISE) * SIGHUP to forward the signal to the proxy. As an alternative * they can specify a NX_SIGNAL_FORWARD action, so they, * in turn, can be notified about the signal. This can * be especially useful for SIGCHLD. * * SIGINT These signals should be intercepted by agents. Agents * SIGTERM should ensure that NXTransDestroy() is called before * exiting, to give the proxy a chance to shut down the * NX transport. * * SIGPIPE This signal is blocked by the proxy, but not used to * implement any functionality. It can be handled by the * NX agent without affecting the proxy. * * SIGALRM This is now used by the proxy and agents should not * redefine it. Agents can use the signal to implement * their own timers but should not interleave calls to * the NX transport and should restore the old handler * when the timeout is raised. * * SIGVTALRM These signals are not used but may be used in future * SIGWINCH versions of the library. * SIGIO * SIGTSTP * SIGTTIN * SIGTTOU * * By calling NXTransSignal(..., NX_SIGNAL_DISABLE) nxcomp will res- * tore the signal handler that was saved at the time the proxy hand- * ler was installed. This means that you should call the function * just after the XOpenDisplay() or any other function used to init- * ialize the NX transport. */ extern int NXTransSignal(int signal, int action); /* * Return a value between 0 and 9 indicating the congestion level * based on the tokens still available. A value of 9 means that * the link is congested and no further data can be sent. */ extern int NXTransCongestion(int fd); /* * Let the application to be notified by the proxy when an event oc- * curs. The parameter, as set at the time the handler is installed, * is passed each time to the callback function. The parameter is * presumably the display pointer, given that at the present moment * the NX transport doesn't have access to the display structure and * so wouldn't be able to determine the display to pass to the call- * back function. * * NX_HANDLER_FLUSH: The handler function is called when some * more data has been written to the proxy * link. * * The data is the number of bytes written. * * NX_HANDLER_STATISTICS: This handler is called to let the agent * include arbitrary data in the transport * statistics. The parameter, in this case, * is a pointer to a pointer to a null term- * inated string. The pointer is set at the * time the handler is registered. The point- * ed string will have to be filled by the * agent with its statistics data. * * The data can be NX_STATISTICS_PARTIAL or NX_STATISTICS_TOTAL. The * agent can refer to the value by using the NXStatisticsPartial and * NXStatisticsTotal constants defined in NXvars.h. * * Note that these interfaces are used by Xlib and nxcompext. Agents * should never call these interfaces directly, but use the nxcompext * wrapper. */ extern int NXTransHandler(int fd, int type, void (*handler)(void *parameter, int reason), void *parameter); /* * Set the policy to be used by the NX transport to write data to the * proxy link: * * NX_POLICY_IMMEDIATE: When set to immediate, the proxy will try to * write the data just after having encoded it. * * NX_POLICY_DEFERRED: When policy is set to deferred, data will be * accumulated in a buffer and written to the * remote proxy when NXTransFlush() is called by * the agent. */ extern int NXTransPolicy(int fd, int type); /* * Query the number of bytes that have been accumulated for a deferred * flush. */ extern int NXTransFlushable(int fd); /* * Tell to the NX transport to write all the accumulated data to the * remote proxy. */ extern int NXTransFlush(int fd); /* * Create a new channel of the given type. It returns 1 on success, * 0 if the NX transport is not running, or -1 in the case of error. * On success, the descriptor provided by the caller can be later * used for the subsequent I/O. The type parameter not only tells to * the proxy the remote port where the channel has to be connected, * but also gives a hint about the type of data that will be carried * by the channel, so that the proxy can try to optimize the traffic * on the proxy link. * * NX_CHANNEL_X: The channel will carry X traffic and it * will be connected to the remote X display. * * NX_CHANNEL_CUPS: The channel will carry CUPS/IPP protocol. * * NX_CHANNEL_SMB: The channel will carry SMB/CIFS protocol. * * NX_CHANNEL_MEDIA: The channel will transport audio or other * multimedia data. * * NX_CHANNEL_HTTP: The channel will carry HTTP protocol. * * NX_CHANNEL_FONT: The channel will forward a X font server * connection. * * Only a proxy running at the NX server/X client side will be able * to create a X, CUPS, SMB, MEDIA and HTTP channel. A proxy running * at the NX client/X server side can create font server connections. * The channel creation will also fail if the remote end has not been * set up to forward the connection. * * To create a new channel the agent will have to set up a socketpair * and pass to the proxy one of the socket descriptors. * * Example: * * #include <sys/types.h> * #include <sys/socket.h> * * int fds[2]; * * if (socketpair(PF_LOCAL, SOCK_STREAM, 0, fds) < 0) * { * ... * } * else * { * // * // Use fds[0] locally and let the * // proxy use fds[1]. * // * * if (NXTransChannel(NX_FD_ANY, fds[1], NX_CHANNEL_X) <= 0) * { * ... * } * * // * // The agent can now use fds[0] in * // read(), write() and select() * // system calls. * // * * ... * } * * Note that all the I/O on the descriptor should be non-blocking, to * give a chance to the NX transport to run in the background and handle * the data that will be fed to the agent's side of the socketpair. This * will happen automatically, as long as the agent uses the XSelect() * version of the select() function (as it is normal whenever performing * Xlib I/O). In all the other cases, like presumably in the agent's main * loop, the agent will have to loop through NXTransPrepare(), NXTrans- * Select() and NXTransExecute() functions explicitly, adding to the sets * the descriptors that are awaited by the agent. Please check the imple- * mentation of _XSelect() in nx-X11/lib/X11/XlibInt.c for an example. */ extern int NXTransChannel(int fd, int channelfd, int type); /* * Return the name of the files used by the proxy for the current session. * * The type parameter can be: * * NX_FILE_SESSION: Usually the file 'session' in the user's session * directory. * * NX_FILE_ERRORS: The file used for the diagnostic output. Usually * the file 'errors' in the session directory. * * NX_FILE_OPTIONS: The file containing the NX options, if any. * * NX_FILE_STATS: The file used for the statistics output. * * The returned string is allocated in static memory. The caller should * copy the string upon returning from the function, without freeing the * pointer. */ extern const char *NXTransFile(int type); /* * Return the time in milliseconds elapsed since the last call to this * same function. */ extern long NXTransTime(void); /* * Other interfaces to the internal transport functions. */ extern int NXTransProxy(int fd, int mode, const char *display); extern int NXTransClient(const char *display); extern int NXTransDialog(const char *caption, const char *message, const char *window, const char *type, int local, const char *display); extern int NXTransAlert(int code, int local); extern int NXTransWatchdog(int timeout); extern int NXTransKeeper(int caches, int images, const char *root); extern void NXTransExit(int code) __attribute__((noreturn)); extern int NXTransParseCommandLine(int argc, const char **argv); extern int NXTransParseEnvironment(const char *env, int force); extern void NXTransCleanup(void) __attribute__((noreturn)); extern const char* NXVersion(); extern int NXMajorVersion(); extern int NXMinorVersion(); extern int NXPatchVersion(); extern int NXMaintenancePatchVersion(); #ifdef __cplusplus } #endif #endif /* NX_H */