/*************************************************************************** * nsock.h -- public interface definitions for the nsock parallel socket * * event library * * * ***********************IMPORTANT NSOCK LICENSE TERMS*********************** * * * The nsock parallel socket event library is (C) 1999-2013 Insecure.Com * * LLC This library is free software; you may redistribute and/or * * modify it under the terms of the GNU General Public License as * * published by the Free Software Foundation; Version 2. This guarantees * * your right to use, modify, and redistribute this software under certain * * conditions. If this license is unacceptable to you, Insecure.Com LLC * * may be willing to sell alternative licenses (contact * * sales@insecure.com ). * * * * As a special exception to the GPL terms, Insecure.Com LLC grants * * permission to link the code of this program with any version of the * * OpenSSL library which is distributed under a license identical to that * * listed in the included docs/licenses/OpenSSL.txt file, and distribute * * linked combinations including the two. You must obey the GNU GPL in all * * respects for all of the code used other than OpenSSL. If you modify * * this file, you may extend this exception to your version of the file, * * but you are not obligated to do so. * * * * If you received these files with a written license agreement stating * * terms other than the (GPL) terms above, then that alternative license * * agreement takes precedence over this comment. * * * * Source is provided to this software because we believe users have a * * right to know exactly what a program is going to do before they run it. * * This also allows you to audit the software for security holes. * * * * Source code also allows you to port Nmap to new platforms, fix bugs, * * and add new features. You are highly encouraged to send your changes * * to the dev@nmap.org mailing list for possible incorporation into the * * main distribution. By sending these changes to Fyodor or one of the * * Insecure.Org development mailing lists, or checking them into the Nmap * * source code repository, it is understood (unless you specify otherwise) * * that you are offering the Nmap Project (Insecure.Com LLC) the * * unlimited, non-exclusive right to reuse, modify, and relicense the * * code. Nmap will always be available Open Source, but this is important * * because the inability to relicense code has caused devastating problems * * for other Free Software projects (such as KDE and NASM). We also * * occasionally relicense the code to third parties as discussed above. * * If you wish to specify special license conditions of your * * contributions, just say so when you send them. * * * * This program is distributed in the hope that it will be useful, but * * WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * * General Public License v2.0 for more details * * (http://www.gnu.org/licenses/gpl-2.0.html). * * * ***************************************************************************/ /* $Id$ */ #ifndef NSOCK_H #define NSOCK_H /* Keep assert() defined for security reasons */ #undef NDEBUG #ifndef WIN32 #include "nsock_config.h" #else #include "nsock_winconfig.h" #endif #include #include #ifndef WIN32 #include #include #include #include #else #include /* for struct timeval... */ #endif #if HAVE_SYS_UN_H #include #ifndef SUN_LEN #include #define SUN_LEN(ptr) ((sizeof(*(ptr)) - sizeof((ptr)->sun_path)) \ + strlen((ptr)->sun_path)) #endif #endif /* HAVE_SYS_UN_H */ #ifdef __cplusplus extern "C" { #endif /* The read calls will generally return after reading at least this * much data so that the caller can process it and so that the * connection spewing data doesn't monopolize resources. The caller * can always initiate another read request to ask for more. */ #define NSOCK_READ_CHUNK_SIZE 0x8FFFF struct npool; struct niod; struct nevent; struct proxy_chain; /* ------------------- TYPEDEFS ------------------- */ /* nsock_pool, nsock_iod, and nsock_event are opaque objects that should * only be accessed using the appropriate accessor functions (described below). */ /* An nsock_pool aggregates and manages events and i/o descriptors */ typedef struct npool *nsock_pool; /* nsock_iod is an I/O descriptor -- you create it and then use it to * make calls to do connect()s, read()s, write()s, etc. A single IOD can handle * multiple event calls, but only one at a time. Also the event calls must be in * a "reasonable" order. For example, you might start with nsock_connect_tcp() * followed by a bunch of nsock_read* and nsock_write* calls. Then you either * destroy the iod for good with nsi_delete() and allocate a new one via nsi_new * for your next connection. */ typedef struct niod *nsock_iod; /* An event is created when you do various calls (for reading, writing, * connecting, timers, etc) and is provided back to you in the callback when the * call completes/fails. It is automatically destroyed after the callback */ typedef struct nevent *nsock_event; /* Provided by calls which (internally) create an nsock_event. This allows you * to cancel the event */ typedef unsigned long nsock_event_id; /* This is used to save SSL sessionids between SSL connections */ typedef void *nsock_ssl_session; typedef void *nsock_ssl_ctx; typedef void *nsock_ssl; typedef struct proxy_chain *nsock_proxychain; /* Logging-related data structures */ typedef enum { /* -- * Actual message priority values */ NSOCK_LOG_DBG_ALL, NSOCK_LOG_DBG, NSOCK_LOG_INFO, NSOCK_LOG_ERROR, /* -- * No messages are issued by nsock with this value. * Users can therefore set loglevel to NSOCK_LOG_NONE * to disable logging */ NSOCK_LOG_NONE } nsock_loglevel_t; struct nsock_log_rec { /* Message emission time */ struct timeval time; /* Message log level */ nsock_loglevel_t level; /* Source file */ const char *file; /* Statement line in nsock source */ int line; /* Function that emitted the message */ const char *func; /* Actual log message */ char *msg; }; /* Nsock logging function. This function receives all nsock log records whose * level is greater than or equal to nsp loglevel. The rec structure is * allocated and freed by nsock. */ typedef void (*nsock_logger_t)(nsock_pool nsp, const struct nsock_log_rec *rec); /* ------------------- PROTOTYPES ------------------- */ /* Here is the all important looping function that tells the event * engine to start up and begin processing events. It will continue until all * events have been delivered (including new ones started from event handlers), * or the msec_timeout is reached, or a major error has occurred. Use -1 if you * don't want to set a maximum time for it to run. A timeout of 0 will return * after 1 non-blocking loop. The nsock loop can be restarted again after it * returns. For example you could do a series of 15 second runs, allowing you * to do other stuff between them. Or you could just schedule a timer to call * you back every 15 seconds. */ enum nsock_loopstatus { NSOCK_LOOP_NOEVENTS = 2, NSOCK_LOOP_TIMEOUT, NSOCK_LOOP_ERROR, NSOCK_LOOP_QUIT }; enum nsock_loopstatus nsock_loop(nsock_pool nsp, int msec_timeout); /* Calling this function will cause nsock_loop to quit on its next iteration * with a return value of NSOCK_LOOP_QUIT. */ void nsock_loop_quit(nsock_pool nsp); /* This next function returns the errno style error code -- which is only valid * if the status is NSOCK_LOOP_ERROR was returned by nsock_loop() */ int nsp_geterrorcode(nsock_pool nsp); /* Every nsp has an ID that is unique across the program execution */ unsigned long nsp_getid(nsock_pool nsp); nsock_ssl nsi_getssl(nsock_iod nsockiod); /* Note that nsi_get1_ssl_session will increment the usage count of the * SSL_SESSION, since nsock does a free when the nsi is destroyed. It's up to * any calling function/etc to do a SSL_SESSION_free() on it. * nsi_get0_ssl_session doesn't increment, and is for informational purposes * only. */ nsock_ssl_session nsi_get1_ssl_session(nsock_iod nsockiod); nsock_ssl_session nsi_get0_ssl_session(nsock_iod nsockiod); /* Sometimes it is useful to store a pointer to information inside the NSP so * you can retrieve it during a callback. */ void nsp_setud(nsock_pool nsp, void *data); /* And the function above wouldn't make much sense if we didn't have a way to * retrieve that data ... */ void *nsp_getud(nsock_pool nsp); /* Turns on or off broadcast support on new sockets. Default is off (0, false) * set in nsp_new(). Any non-zero (true) value sets SO_BROADCAST on all new * sockets (value of optval will be used directly in the setsockopt() call). */ void nsp_setbroadcast(nsock_pool nsp, int optval); /* Sets the name of the interface for new sockets to bind to. */ void nsp_setdevice(nsock_pool nsp, const char *device); /* Initializes an Nsock pool to create SSL connections. This sets an internal * SSL_CTX, which is like a template that sets options for all connections that * are made from it. Returns the SSL_CTX so you can set your own options. */ nsock_ssl_ctx nsp_ssl_init(nsock_pool ms_pool); /* Initializes an Nsock pool to create SSL connections that emphasize speed over * security. Insecure ciphers are used when they are faster and no certificate * verification is done. Returns the SSL_CTX so you can set your own options. */ nsock_ssl_ctx nsp_ssl_init_max_speed(nsock_pool ms_pool); /* Enforce use of a given IO engine. * The engine parameter is a zero-terminated string that will be * strup()'ed by the library. No validity check is performed by this function, * beware nsp_new() will fatal() if an invalid/unavailable engine name was * supplied before. * Pass NULL to reset to default (use most efficient engine available). * * Function returns 0 on success and -1 on error. */ int nsock_set_default_engine(char *engine); /* Get a comma-separated list of available engines. */ const char *nsock_list_engines(void); /* And here is how you create an nsock_pool. This allocates, initializes, and * returns an nsock_pool event aggregator. In the case of error, NULL will be * returned. If you do not wish to immediately associate any userdata, pass in * NULL. */ nsock_pool nsp_new(void *userdata); /* If nsp_new returned success, you must free the nsp when you are done with it * to conserve memory (and in some cases, sockets). After this call, nsp may no * longer be used. Any pending events are sent an NSE_STATUS_KILL callback and * all outstanding iods are deleted. */ void nsp_delete(nsock_pool nsp); /* Logging subsystem: set custom logging function. * (See nsock_logger_t type definition). */ void nsock_set_log_function(nsock_pool nsp, nsock_logger_t logger); nsock_loglevel_t nsock_get_loglevel(nsock_pool nsp); void nsock_set_loglevel(nsock_pool nsp, nsock_loglevel_t loglevel); /* Parse a proxy chain description string and build a nsock_proxychain object * accordingly. If the optional nsock_pool parameter is passed in, it gets * associated to the chain object. The alternative is to pass nsp=NULL and call * nsp_set_proxychain() manually. Whatever is done, the chain object has to be * deleted by the caller, using proxychain_delete(). */ int nsock_proxychain_new(const char *proxystr, nsock_proxychain *chain, nsock_pool nspool); /* If nsock_proxychain_new() returned success, caller has to free the chain * object using this function. */ void nsock_proxychain_delete(nsock_proxychain chain); /* Assign a previously created proxychain object to a nsock pool. After this, * new connections requests will be issued through the chain of proxies (if * possible). */ int nsp_set_proxychain(nsock_pool nspool, nsock_proxychain chain); /* nsock_event handles a single event. Its ID is generally returned when the * event is created, and the event itself is included in callbacks * * --------------------------------------------------------------------------- * IF YOU ADD NEW NSE_TYPES YOU MUST INCREASE TYPE_CODE_NUM_BITS SO THAT IT IS * ALWAYS log2(maximum_nse_type_value + 1) * --------------------------------------------------------------------------- */ #define TYPE_CODE_NUM_BITS 3 enum nse_type { NSE_TYPE_CONNECT = 0, NSE_TYPE_CONNECT_SSL = 1, NSE_TYPE_READ = 2, NSE_TYPE_WRITE = 3, NSE_TYPE_TIMER = 4, NSE_TYPE_PCAP_READ = 5, NSE_TYPE_MAX = 6, }; /* At some point I was considering a NSE_TYPE_START and NSE_TYPE_CUSTOM */ /* Find the type of an event that spawned a callback */ enum nse_type nse_type(nsock_event nse); /* Takes an nse_type (as returned by nse_type()) and returns a static string name * that you can use for printing, etc. */ const char *nse_type2str(enum nse_type type); /* Did the event succeed? What is the status? */ enum nse_status { NSE_STATUS_NONE = 0, /* User should never see this */ NSE_STATUS_SUCCESS, /* Everything went A-OK! */ NSE_STATUS_ERROR, /* Uh-oh! Problem, check the nse_errorcode() */ NSE_STATUS_TIMEOUT, /* The async call surpassed the timeout you specified */ NSE_STATUS_CANCELLED, /* Someone cancelled the event. (by calling nsock_event_cancel()). */ NSE_STATUS_KILL, /* The event has been killed, this generally means the nspool is being deleted -- you should free up any resources you have allocated and exit. Don't you dare make any more async nsock calls! */ NSE_STATUS_EOF, /* We got EOF and NO DATA -- if we got data first, SUCCESS is reported (see nse_eof()). */ NSE_STATUS_PROXYERROR }; enum nse_status nse_status(nsock_event nse); /* Takes an nse_status (as returned by nse_status() and returns a static string * name that you can use for printing, etc. */ const char *nse_status2str(enum nse_status status); /* This next function tells whether we received an EOF when we were reading. It * is generally a better way to check for EOF than looking at the status because * sometimes we read some data before getting the EOF, in which SUCCESS is * returned (although another read attempt would return a status of EOF). * nse_eof returns nonzero if we have reached EOF, zero if we have NOT reach * EOF. */ int nse_eof(nsock_event nse); /* This next function returns the errno style error code -- which is only valid * if the status is NSE_STATUS_ERROR (this is a normal errno style error code). */ int nse_errorcode(nsock_event nse); /* Every event has an ID which will be unique throughout the program's execution * (for a given nsock_pool) unless you blow through 500,000,000 of them */ nsock_event_id nse_id(nsock_event nse); /* If you did a read request, and the result was STATUS_SUCCESS, this function * provides the buffer that was read in as well as the number of chars read. * The buffer should not be modified or free'd . It is not guaranteed to be * NUL-terminated and it may even contain nuls */ char *nse_readbuf(nsock_event nse, int *nbytes); /* Obtains the nsock_iod (see below) associated with the event. Note that some * events (such as timers) don't have an nsock_iod associated with them */ nsock_iod nse_iod(nsock_event nse); /* nsock_iod is like a "file descriptor" for the nsock library. You use it to * request events. And here is how you create an nsock_iod. nsi_new returns * NULL if the iod cannot be allocated. Pass NULL as userdata if you don't want * to immediately associate any user data with the iod. */ nsock_iod nsi_new(nsock_pool nsockp, void *userdata); /* This version allows you to associate an existing sd with the msi so that you * can read/write it using the nsock infrastructure. For example, you may want * to watch for data from STDIN_FILENO at the same time as you read/write * various sockets. STDIN_FILENO is a special case, however. Any other sd is * dup()ed, so you may close or otherwise manipulate your copy. The duped copy * will be destroyed when the nsi is destroyed */ nsock_iod nsi_new2(nsock_pool nsockp, int sd, void *userdata); /* If msiod_new returned success, you must free the iod when you are done with * it to conserve memory (and in some cases, sockets). After this call, * nsockiod may no longer be used -- you need to create a new one with * nsi_new(). pending_response tells what to do with any events that are * pending on this nsock_iod. This can be NSOCK_PENDING_NOTIFY (send a KILL * notification to each event), NSOCK_PENDING_SILENT (do not send notification * to the killed events), or NSOCK_PENDING_ERROR (print an error message and * quit the program) */ enum nsock_del_mode { NSOCK_PENDING_NOTIFY, NSOCK_PENDING_SILENT, NSOCK_PENDING_ERROR, }; void nsi_delete(nsock_iod nsockiod, enum nsock_del_mode pending_response); /* Sometimes it is useful to store a pointer to information inside * the nsiod so you can retrieve it during a callback. */ void nsi_setud(nsock_iod nsiod, void *data); /* And the function above wouldn't make much sense if we didn't have a way to * retrieve that data ... */ void *nsi_getud(nsock_iod nsiod); /* I didn't want to do this. Its an ugly hack, but I suspect it will be * necessary. I certainly can't reproduce in nsock EVERYTHING you might want * to do with a socket. So I'm offering you this function to obtain the socket * descriptor which is (usually) wrapped in a nsock_iod). You can do * "reasonable" things with it, like setting socket receive buffers. But don't * create havok by closing the descriptor! If the descriptor you get back is * -1, the iod does not currently possess a valid descriptor */ int nsi_getsd(nsock_iod nsiod); /* Returns the ID of an nsock_iod . This ID is always unique amongst ids for a * given nspool (unless you blow through billions of them). */ unsigned long nsi_id(nsock_iod nsockiod); /* Returns Packets received in bytes */ unsigned long nsi_get_read_count(nsock_iod nsockiod); /* Returns Packets sent in bytes */ unsigned long nsi_get_write_count(nsock_iod nsockiod); /* Returns 1 if an NSI is communicating via SSL, 0 otherwise */ int nsi_checkssl(nsock_iod nsockiod); /* Returns the remote peer port (or -1 if unavailable). Note the return value * is a whole int so that -1 can be distinguished from 65535. Port is returned * in host byte order. */ int nsi_peerport(nsock_iod nsiod); /* Sets the local address to bind to before connect() */ int nsi_set_localaddr(nsock_iod nsi, struct sockaddr_storage *ss, size_t sslen); /* Sets IPv4 options to apply before connect(). It makes a copy of the options, * so you can free() yours if necessary. This copy is freed when the iod is * destroyed */ int nsi_set_ipoptions(nsock_iod nsi, void *ipopts, size_t ipoptslen); /* Returns that host/port/protocol information for the last communication (or * comm. attempt) this nsi has been involved with. By "involved" with I mean * interactions like establishing (or trying to) a connection or sending a UDP * datagram through an unconnected nsock_iod. AF is the address family (AF_INET * or AF_INET6), Protocol is IPPROTO_TCP or IPPROTO_UDP. Pass NULL for * information you do not need. If ANY of the information you requested is not * available, 0 will be returned and the unavailable sockets are zeroed. If * protocol or af is requested but not available, it will be set to -1 (and 0 * returned). The pointers you pass in must be NULL or point to allocated * address space. The sockaddr members should actually be sockaddr_storage, * sockaddr_in6, or sockaddr_in with the socklen of them set appropriately (eg * sizeof(sockaddr_storage) if that is what you are passing). */ int nsi_getlastcommunicationinfo(nsock_iod ms_iod, int *protocol, int *af, struct sockaddr *local, struct sockaddr *remote, size_t socklen); /* Set the hostname of the remote host, for when that matters. This is currently * only used for Server Name Indication in SSL connections. */ int nsi_set_hostname(nsock_iod nsi, const char *hostname); /* EVENT CREATION FUNCTIONS * --- * These functions request asynchronous * notification of completion of an event. The handler will never be * synchronously called back during the event creation call (that causes too * many hard to debug errors and plus we don't want people to have to deal with * callbacks until they actually call nsock_loop). */ /* These functions generally take a common 5 initial parameters: * * nsock_pool mst: * The is the nsock_pool describing the events you have scheduled, etc * * nsock_iod nsiod: * The I/O Descriptor that should be used in the request. Note that timer * events don't have this argument since they don't use an iod. You can * obtain it in the callback from the nsock_event. * * nsock_ev_handler handler: * This is the function you want the system to call when your event is * triggered (or times out, or hits an error, etc.). The function should be * of this form: void funcname(nsock_pool nsp, nsock_event nse, void *userdata) * * int timeout_msecs: * The timeout for the request in milliseconds. If the request hasn't * completed (or in a few cases started) within the timeout specified, the * handler will be called with a TIMEOUT status and the request will be * aborted. * * void *userdata: * The nsock_event that comes back can optionally have a pointer associated * with it. You can set that pointer here. If you don't want one, just * pass NULL. * * These functions return an nsock_event_id which can be used to cancel the * event if necessary. */ typedef void (*nsock_ev_handler)(nsock_pool, nsock_event, void *); /* Initialize an unconnected UDP socket. */ int nsock_setup_udp(nsock_pool nsp, nsock_iod ms_iod, int af); #if HAVE_SYS_UN_H /* Request a UNIX domain sockets connection to the same system (by path to socket). * This function connects to the socket of type SOCK_STREAM. ss should be a * sockaddr_storage, sockaddr_un as appropriate (just like what you would pass to * connect). sslen should be the sizeof the structure you are passing in. */ nsock_event_id nsock_connect_unixsock_stream(nsock_pool nsp, nsock_iod nsiod, nsock_ev_handler handler, int timeout_msecs, void *userdata, struct sockaddr *ss, size_t sslen); /* Request a UNIX domain sockets connection to the same system (by path to socket). * This function connects to the socket of type SOCK_DGRAM. ss should be a * sockaddr_storage, sockaddr_un as appropriate (just like what you would pass to * connect). sslen should be the sizeof the structure you are passing in. */ nsock_event_id nsock_connect_unixsock_datagram(nsock_pool nsp, nsock_iod nsiod, nsock_ev_handler handler, void *userdata, struct sockaddr *ss, size_t sslen); #endif /* HAVE_SYS_UN_H */ /* Request a TCP connection to another system (by IP address). The in_addr is * normal network byte order, but the port number should be given in HOST BYTE * ORDER. ss should be a sockaddr_storage, sockaddr_in6, or sockaddr_in as * appropriate (just like what you would pass to connect). sslen should be the * sizeof the structure you are passing in. */ nsock_event_id nsock_connect_tcp(nsock_pool nsp, nsock_iod nsiod, nsock_ev_handler handler, int timeout_msecs, void *userdata, struct sockaddr *ss, size_t sslen, unsigned short port); nsock_event_id nsock_connect_tcp_direct(nsock_pool nsp, nsock_iod nsiod, nsock_ev_handler handler, int timeout_msecs, void *userdata, struct sockaddr *ss, size_t sslen, unsigned short port); /* Request an SCTP association to another system (by IP address). The in_addr is * normal network byte order, but the port number should be given in HOST BYTE * ORDER. ss should be a sockaddr_storage, sockaddr_in6, or sockaddr_in as * appropriate (just like what you would pass to connect). sslen should be the * sizeof the structure you are passing in. */ nsock_event_id nsock_connect_sctp(nsock_pool nsp, nsock_iod nsiod, nsock_ev_handler handler, int timeout_msecs, void *userdata, struct sockaddr *ss, size_t sslen, unsigned short port); /* Request a UDP "connection" to another system (by IP address). The in_addr is * normal network byte order, but the port number should be given in HOST BYTE * ORDER. Since this is UDP, no packets are actually sent. The destination IP * and port are just associated with the nsiod (an actual OS connect() call is * made). You can then use the normal nsock write calls on the socket. There * is no timeout since this call always calls your callback at the next * opportunity. The advantages to having a connected UDP socket (as opposed to * just specifying an address with sendto()) are that we can now use a consistent * set of write/read calls for TCP/UDP, received packets from the non-partner * are automatically dropped by the OS, and the OS can provide asynchronous * errors (see Unix Network Programming pp224). ss should be a * sockaddr_storage, sockaddr_in6, or sockaddr_in as appropriate (just like what * you would pass to connect). sslen should be the sizeof the structure you are * passing in. */ nsock_event_id nsock_connect_udp(nsock_pool nsp, nsock_iod nsiod, nsock_ev_handler handler, void *userdata, struct sockaddr *ss, size_t sslen, unsigned short port); /* Request an SSL over TCP/SCTP connection to another system (by IP address). * The in_addr is normal network byte order, but the port number should be given * in HOST BYTE ORDER. This function will call back only after it has made the * connection AND done the initial SSL negotiation. From that point on, you use * the normal read/write calls and decryption will happen transparently. ss * should be a sockaddr_storage, sockaddr_in6, or sockaddr_in as appropriate * (just like what you would pass to connect). sslen should be the sizeof the * structure you are passing in. */ nsock_event_id nsock_connect_ssl(nsock_pool nsp, nsock_iod nsiod, nsock_ev_handler handler, int timeout_msecs, void *userdata, struct sockaddr *ss, size_t sslen, int proto, unsigned short port, nsock_ssl_session ssl_session); /* Request ssl connection over already established TCP/SCTP connection. nsiod * must be socket that is already connected to target using nsock_connect_tcp or * nsock_connect_sctp. All parameters have the same meaning as in * 'nsock_connect_ssl' */ nsock_event_id nsock_reconnect_ssl(nsock_pool nsp, nsock_iod nsiod, nsock_ev_handler handler, int timeout_msecs, void *userdata, nsock_ssl_session ssl_session); /* Read up to nlines lines (terminated with \n, which of course inclues \r\n), * or until EOF, or until the timeout, whichever comes first. Note that * NSE_STATUS_SUCCESS will be returned in the case of EOF or timeout if at least * 1 char has been read. Also note that you may get more than 'nlines' back -- * we just stop once "at least" 'nlines' is read */ nsock_event_id nsock_readlines(nsock_pool nsp, nsock_iod nsiod, nsock_ev_handler handler, int timeout_msecs, void *userdata, int nlines); /* Same as above, except it tries to read at least 'nbytes' instead of 'nlines'. */ nsock_event_id nsock_readbytes(nsock_pool nsp, nsock_iod nsiod, nsock_ev_handler handler, int timeout_msecs, void *userdata, int nbytes); /* The simplest read function -- returns NSE_STATUS_SUCCESS when it reads * anything, otherwise it returns timeout, eof, or error as appropriate */ nsock_event_id nsock_read(nsock_pool nsp, nsock_iod nsiod, nsock_ev_handler handler, int timeout_msecs, void *userdata); /* Write some data to the socket. If the write is not COMPLETED within * timeout_msecs , NSE_STATUS_TIMEOUT will be returned. If you are supplying * NUL-terminated data, you can optionally pass -1 for datalen and nsock_write * will figure out the length itself */ nsock_event_id nsock_write(nsock_pool nsp, nsock_iod nsiod, nsock_ev_handler handler, int timeout_msecs, void *userdata, const char *data, int datalen); nsock_event_id nsock_sendto(nsock_pool ms_pool, nsock_iod ms_iod, nsock_ev_handler handler, int timeout_msecs, void *userdata, struct sockaddr *saddr, size_t sslen, unsigned short port, const char *data, int datalen); /* Same as nsock_write except you can use a printf-style format and you can only * use this for ASCII strings */ nsock_event_id nsock_printf(nsock_pool nsp, nsock_iod nsiod, nsock_ev_handler handler, int timeout_msecs, void *userdata, char *format, ... ); /* Send back an NSE_TYPE_TIMER after the number of milliseconds specified. Of * course it can also return due to error, cancellation, etc. */ nsock_event_id nsock_timer_create(nsock_pool nsp, nsock_ev_handler handler, int timeout_msecs, void *userdata); /* Cancel an event (such as a timer or read request). If notify is nonzero, the * requester will be sent an event CANCELLED status back to the given handler. * But in some cases there is no need to do this (like if the function deleting * it is the one which created it), in which case 0 can be passed to skip the * step. This function returns zero if the event is not found, nonzero * otherwise */ int nsock_event_cancel(nsock_pool ms_pool, nsock_event_id id, int notify ); /* Grab the latest time as recorded by the nsock library, which does so at least * once per event loop (in main_loop). Not only does this function (generally) * avoid a system call, but in many circumstances it is better to use nsock's * time rather than the system time. If nsock has never obtained the time when * you call it, it will do so before returning */ const struct timeval *nsock_gettimeofday(); #ifdef HAVE_PCAP /* Open pcap device and connect it to nsp. Other parameters have the * same meaning as for pcap_open_live in pcap(3). * * device: pcap-style device name * snaplen: size of packet to be copied to handler * promisc: whether to open device in promiscuous mode * bpf_fmt: berkeley filter * * return value: 0 if everything was okay, or error code if error occurred. * */ int nsock_pcap_open(nsock_pool nsp, nsock_iod nsiod, const char *pcap_device, int snaplen, int promisc, const char *bpf_fmt, ...); /* Requests exactly one packet to be captured.from pcap. * See nsock_read() for parameters description. */ nsock_event_id nsock_pcap_read_packet(nsock_pool nsp, nsock_iod nsiod, nsock_ev_handler handler, int timeout_msecs, void *userdata); /* Gets packet data. This should be called after successful receipt of packet * to get packet. If you're not interested in some values, just pass NULL * instead of valid pointer. * l3_data is just after l2_data in buffer. Feel free to treat l2_data as one * buffer with size of (l2_len + l3_len). * Ts time is fixed for systems that don't support proper timing, like Windows. * So TS is pointing to time when packet was received or to the time _after_. * As a result you'll get longer times than you should, but it's safer to * think that host is a bit further. * */ void nse_readpcap(nsock_event nsee, const unsigned char **l2_data, size_t *l2_len, const unsigned char **l3_data, size_t *l3_len, size_t *packet_len, struct timeval *ts); /* Well. Just pcap-style datalink. Like DLT_EN10MB or DLT_SLIP. Check in pcap(3) manpage. */ int nsi_pcap_linktype(nsock_iod nsiod); /* Is this nsiod a pcap descriptor? */ int nsi_is_pcap(nsock_iod nsiod); #endif /* HAVE_PCAP */ #ifdef __cplusplus } /* End of 'extern "C"' */ #endif #endif /* NSOCK_H */