1ei_connect(3) C Library Functions ei_connect(3)
2
6 ei_connect - Communicate with distributed Erlang.
7
9 This module enables C-programs to communicate with Erlang nodes, using
10 the Erlang distribution over TCP/IP.
11 A C-node appears to Erlang as a hidden node. That is, Erlang processes
13 that know the name of the C-node can communicate with it in a normal
14 manner, but the node name is not shown in the listing provided by er‐
15 lang:nodes/0 in ERTS.
16 The environment variable ERL_EPMD_PORT can be used to indicate which
18 logical cluster a C-node belongs to.
19
21 Most functions appear in a version with the suffix _tmo appended to the
22 function name. Those functions take an extra argument, a time-out in
23 milliseconds. The semantics is this: for each communication primitive
24 involved in the operation, if the primitive does not complete within
25 the time specified, the function returns an error and erl_errno is set
26 to ETIMEDOUT. With communication primitive is meant an operation on the
27 socket, like connect, accept, recv, or send.
28 Clearly the time-outs are for implementing fault tolerance, not to keep
30 hard real-time promises. The _tmo functions are for detecting non-re‐
31 sponsive peers and to avoid blocking on socket operations.
32 A time-out value of 0 (zero) means that time-outs are disabled. Calling
34 a _tmo function with the last argument as 0 is therefore the same thing
35 as calling the function without the _tmo suffix.
36 As with all other functions starting with ei_, you are not expected to
38 put the socket in non-blocking mode yourself in the program. Every use
39 of non-blocking mode is embedded inside the time-out functions. The
40 socket will always be back in blocking mode after the operations are
41 completed (regardless of the result). To avoid problems, leave the
42 socket options alone. ei handles any socket options that need modifica‐
43 tion.
44 In all other senses, the _tmo functions inherit all the return values
46 and the semantics from the functions without the _tmo suffix.
47
49 By default ei supplies a TCP/IPv4 socket interface that is used when
50 communicating. The user can however plug in his/her own IPv4 socket im‐
51 plementation. This, for example, in order to communicate over TLS. A
52 user supplied socket implementation is plugged in by passing a callback
53 structure to either ei_connect_init_ussi() or ei_connect_xinit_ussi().
54 All callbacks in the ei_socket_callbacks structure should return zero
56 on success; and a posix error code on failure.
57 The addr argument of the listen, accept, and connect callbacks refer to
59 appropriate address structure for currently used protocol. Currently ei
60 only supports IPv4. That is, at this time addr always points to a
61 struct sockaddr_in structure.
62 The ei_socket_callbacks structure may be enlarged in the future. All
64 fields not set, needs to be zeroed out. Currently the following fields
65 exist:
66 flags:
68 Flags informing ei about the behaviour of the callbacks. Flags
69 should be bitwise or:ed together. If no flag, is set, the flags
70 field should contain 0. Currently, supported flags:
71 EI_SCLBK_FLG_FULL_IMPL:
73 If set, the accept(), connect(), writev(), write(), and read()
74 callbacks implements timeouts. The timeout is passed in the tmo
75 argument and is given in milli seconds. Note that the tmo argu‐
76 ment to these callbacks differ from the timeout arguments in the
77 ei API. Zero means a zero timeout. That is, poll and timeout im‐
78 mediately unless the operation is successful. EI_SCLBK_INF_TMO
79 (max unsigned) means infinite timeout. The file descriptor is in
80 blocking mode when a callback is called, and it must be in block‐
81 ing mode when the callback returns.
82 If not set, ei will implement the timeout using select() in order
84 to determine when to call the callbacks and when to time out. The
85 tmo arguments of the accept(), connect(), writev(), write(), and
86 read() callbacks should be ignored. The callbacks may be called
87 in non-blocking mode. The callbacks are not allowed to change be‐
88 tween blocking and non-blocking mode. In order for this to work,
89 select() needs to interact with the socket primitives used the
90 same way as it interacts with the ordinary socket primitives. If
91 this is not the case, the callbacks need to implement timeouts
92 and this flag should be set.
93 More flags may be introduced in the future.
95 int (*socket)(void **ctx, void *setup_ctx):
97 Create a socket and a context for the socket.
98 On success it should set *ctx to point to a context for the created
100 socket. This context will be passed to all other socket callbacks.
101 This function will be passed the same setup_context as passed to
102 the preceeding ei_connect_init_ussi() or ei_connect_xinit_ussi()
103 call.
104 Note:
106 During the lifetime of a socket, the pointer *ctx has to remain the
107 same. That is, it cannot later be relocated.
108 This callback is mandatory.
111 int (*close)(void *ctx):
113 Close the socket identified by ctx and destroy the context.
114 This callback is mandatory.
116 int (*listen)(void *ctx, void *addr, int *len, int backlog):
118 Bind the socket identified by ctx to a local interface and then
119 listen on it.
120 The addr and len arguments are both input and output arguments.
122 When called addr points to an address structure of lenght *len con‐
123 taining information on how to bind the socket. Uppon return this
124 callback should have updated the structure referred by addr with
125 information on how the socket actually was bound. *len should be
126 updated to reflect the size of *addr updated. backlog identifies
127 the size of the backlog for the listen socket.
128 This callback is mandatory.
130 int (*accept)(void **ctx, void *addr, int *len, unsigned tmo):
132 Accept connections on the listen socket identified by *ctx.
133 When a connection is accepted, a new context for the accepted con‐
135 nection should be created and *ctx should be updated to point to
136 the new context for the accepted connection. When called addr
137 points to an uninitialized address structure of lenght *len. Uppon
138 return this callback should have updated this structure with infor‐
139 mation about the client address. *len should be updated to reflect
140 the size of *addr updated.
141 If the EI_SCLBK_FLG_FULL_IMPL flag has been set, tmo contains time‐
143 out time in milliseconds.
144 Note:
146 During the lifetime of a socket, the pointer *ctx has to remain the
147 same. That is, it cannot later be relocated.
148 This callback is mandatory.
151 int (*connect)(void *ctx, void *addr, int len, unsigned tmo):
153 Connect the socket identified by ctx to the address identified by
154 addr.
155 When called addr points to an address structure of lenght len con‐
157 taining information on where to connect.
158 If the EI_SCLBK_FLG_FULL_IMPL flag has been set, tmo contains time‐
160 out time in milliseconds.
161 This callback is mandatory.
163 int (*writev)(void *ctx, const void *iov, long iovcnt, ssize_t *len,
165 unsigned tmo):
166 Write data on the connected socket identified by ctx.
167 iov points to an array of struct iovec structures of length iovcnt
169 containing data to write to the socket. On success, this callback
170 should set *len to the amount of bytes successfully written on the
171 socket.
172 If the EI_SCLBK_FLG_FULL_IMPL flag has been set, tmo contains time‐
174 out time in milliseconds.
175 This callback is optional. Set the writev field in the the
177 ei_socket_callbacks structure to NULL if not implemented.
178 int (*write)(void *ctx, const char *buf, ssize_t *len, unsigned tmo):
180 Write data on the connected socket identified by ctx.
181 When called buf points to a buffer of length *len containing the
183 data to write on the socket. On success, this callback should set
184 *len to the amount of bytes successfully written on the socket.
185 If the EI_SCLBK_FLG_FULL_IMPL flag has been set, tmo contains time‐
187 out time in milliseconds.
188 This callback is mandatory.
190 int (*read)(void *ctx, char *buf, ssize_t *len, unsigned tmo):
192 Read data on the connected socket identified by ctx.
193 buf points to a buffer of length *len where the read data should be
195 placed. On success, this callback should update *len to the amount
196 of bytes successfully read on the socket.
197 If the EI_SCLBK_FLG_FULL_IMPL flag has been set, tmo contains time‐
199 out time in milliseconds.
200 This callback is mandatory.
202 int (*handshake_packet_header_size)(void *ctx, int *sz):
204 Inform about handshake packet header size to use during the Erlang
205 distribution handshake.
206 On success, *sz should be set to the handshake packet header size
208 to use. Valid values are 2 and 4. Erlang TCP distribution use a
209 handshake packet size of 2 and Erlang TLS distribution use a hand‐
210 shake packet size of 4.
211 This callback is mandatory.
213 int (*connect_handshake_complete)(void *ctx):
215 Called when a locally started handshake has completed successfully.
216 This callback is optional. Set the connect_handshake_complete field
218 in the ei_socket_callbacks structure to NULL if not implemented.
219 int (*accept_handshake_complete)(void *ctx):
221 Called when a remotely started handshake has completed success‐
222 fully.
223 This callback is optional. Set the accept_handshake_complete field
225 in the ei_socket_callbacks structure to NULL if not implemented.
226 int (*get_fd)(void *ctx, int *fd):
228 Inform about file descriptor used by the socket which is identified
229 by ctx.
230 Note:
232 During the lifetime of a socket, the file descriptor has to remain
233 the same. That is, repeated calls to this callback with the same con‐
234 text should always report the same file descriptor.
235 The file descriptor has to be a real file descriptor. That is, no
237 other operation should be able to get the same file descriptor until
238 it has been released by the close() callback.
239 This callback is mandatory.
242
244 ei_cnode:
245 Opaque data type representing a C-node. A ei_cnode structure is
246 initialized by calling ei_connect_init() or friends.
247 ei_socket_callbacks:
249 typedef struct {
252 int flags;
253 int (*socket)(void **ctx, void *setup_ctx);
254 int (*close)(void *ctx);
255 int (*listen)(void *ctx, void *addr, int *len, int backlog);
256 int (*accept)(void **ctx, void *addr, int *len, unsigned tmo);
257 int (*connect)(void *ctx, void *addr, int len, unsigned tmo);
258 int (*writev)(void *ctx, const void *iov, int iovcnt, ssize_t *len, unsigned tmo);
259 int (*write)(void *ctx, const char *buf, ssize_t *len, unsigned tmo);
260 int (*read)(void *ctx, char *buf, ssize_t *len, unsigned tmo);
261 int (*handshake_packet_header_size)(void *ctx, int *sz);
262 int (*connect_handshake_complete)(void *ctx);
263 int (*accept_handshake_complete)(void *ctx);
264 int (*get_fd)(void *ctx, int *fd);
265 } ei_socket_callbacks;
266 Callbacks functions for a User Supplied Socket Implementation .
268 Documentation of each field can be found in the User Supplied
269 Socket Implementation section above.
270 ErlConnect:
272 typedef struct {
275 char ipadr[4]; /* Ip v4 address in network byte order */
276 char nodename[MAXNODELEN];
277 } ErlConnect;
278 IP v4 address and nodename.
280 Erl_IpAddr:
282 typedef struct {
285 unsigned s_addr; /* Ip v4 address in network byte order */
286 } Erl_IpAddr;
287 IP v4 address.
289 erlang_msg:
291 typedef struct {
294 long msgtype;
295 erlang_pid from;
296 erlang_pid to;
297 char toname[MAXATOMLEN+1];
298 char cookie[MAXATOMLEN+1];
299 erlang_trace token;
300 } erlang_msg;
301 Information about a message received via ei_receive_msg() or
303 friends.
304
306 struct hostent *ei_gethostbyaddr(const char *addr, int len, int type)
307 struct hostent *ei_gethostbyaddr_r(const char *addr, int length, int
308 type, struct hostent *hostp, char *buffer, int buflen, int *h_er‐
309 rnop)
310 struct hostent *ei_gethostbyname(const char *name)
311 struct hostent *ei_gethostbyname_r(const char *name, struct hostent
312 *hostp, char *buffer, int buflen, int *h_errnop)
313 Convenience functions for some common name lookup functions.
315 int ei_accept(ei_cnode *ec, int listensock, ErlConnect *conp)
317 Types:
319 ei_cnode
321 ErlConnect
322 Used by a server process to accept a connection from a client
324 process.
325 * ec is the C-node structure.
327 * listensock is an open socket descriptor on which listen()
329 has previously been called.
330 * conp is a pointer to an ErlConnect struct.
332 On success, conp is filled in with the address and node name of
334 the connecting client and a file descriptor is returned. On
335 failure, ERL_ERROR is returned and erl_errno is set to EIO.
336 int ei_accept_tmo(ei_cnode *ec, int listensock, ErlConnect *conp, un‐
338 signed timeout_ms)
339 Types:
341 ei_cnode
343 ErlConnect
344 Equivalent to ei_accept with an optional time-out argument, see
346 the description at the beginning of this manual page.
347 int ei_close_connection(int fd)
349 Closes a previously opened connection or listen socket.
351 int ei_connect(ei_cnode* ec, char *nodename)
353 int ei_xconnect(ei_cnode* ec, Erl_IpAddr adr, char *alivename)
354 int ei_connect_host_port(ei_cnode* ec, char *hostname, int port)
355 int ei_xconnect_host_port(ei_cnode* ec, Erl_IpAddr adr, int port)
356 Types:
358 ei_cnode
360 Erl_IpAddr
361 Sets up a connection to an Erlang node.
363 ei_xconnect() requires the IP address of the remote host and the
365 alive name of the remote node to be specified. ei_connect() pro‐
366 vides an alternative interface and determines the information
367 from the node name provided. The ei_xconnect_host_port() func‐
368 tion provides yet another alternative that will work even if
369 there is no EPMD instance on the host where the remote node is
370 running. The ei_xconnect_host_port() function requires the IP
371 address and port of the remote node to be specified. The ei_con‐
372 nect_host_port() function is an alternative to ei_xcon‐
373 nect_host_port() that lets the user specify a hostname instead
374 of an IP address.
375 * adr is the 32-bit IP address of the remote host.
377 * alive is the alivename of the remote node.
379 * node is the name of the remote node.
381 * port is the port number of the remote node.
383 These functions return an open file descriptor on success, or a
385 negative value indicating that an error occurred. In the latter
386 case they set erl_errno to one of the following:
387 EHOSTUNREACH:
389 The remote host node is unreachable.
390 ENOMEM:
392 No more memory is available.
393 EIO:
395 I/O error.
396 Also, errno values from socket(2) and connect(2) system calls
398 may be propagated into erl_errno.
399 Example:
401 #define NODE "madonna@chivas.du.etx.ericsson.se"
403 #define ALIVE "madonna"
404 #define IP_ADDR "150.236.14.75"
405 /*** Variant 1 ***/
407 int fd = ei_connect(&ec, NODE);
408 /*** Variant 2 ***/
410 struct in_addr addr;
411 addr.s_addr = inet_addr(IP_ADDR);
412 fd = ei_xconnect(&ec, &addr, ALIVE);
413 int ei_connect_init(ei_cnode* ec, const char* this_node_name, const
416 char *cookie, short creation)
417 int ei_connect_init_ussi(ei_cnode* ec, const char* this_node_name,
418 const char *cookie, short creation, ei_socket_callbacks *cbs, int
419 cbs_sz, void *setup_context)
420 int ei_connect_xinit(ei_cnode* ec, const char *thishostname, const char
421 *thisalivename, const char *thisnodename, Erl_IpAddr thisipaddr, const
422 char *cookie, short creation)
423 int ei_connect_xinit_ussi(ei_cnode* ec, const char *thishostname, const
424 char *thisalivename, const char *thisnodename, Erl_IpAddr thisipaddr,
425 const char *cookie, short creation, ei_socket_callbacks *cbs, int
426 cbs_sz, void *setup_context)
427 Types:
429 ei_cnode
431 Erl_IpAddr
432 ei_socket_callbacks
433 Initializes the ec structure, to identify the node name and
435 cookie of the server. One of them must be called before other
436 functions that works on the ei_cnode type or a file descriptor
437 associated with a connection to another node is used.
438 * ec is a structure containing information about the C-node.
440 It is used in other ei functions for connecting and receiv‐
441 ing data.
442 * this_node_name is the name of the C-node (the name before
444 '@' in the full node name).
445 * cookie is the cookie for the node.
447 * creation identifies a specific instance of a C-node. It can
449 help prevent the node from receiving messages sent to an
450 earlier process with the same registered name.
451 * thishostname is the name of the machine we are running on.
453 If long names are to be used, they are to be fully qualified
454 (that is, durin.erix.ericsson.se instead of durin).
455 * thisalivename is the name of the local C-node (the name be‐
457 fore '@' in the full node name). Can be NULL (from OTP 23)
458 to get a dynamically assigned name from the peer node.
459 * thisnodename is the full name of the local C-node, that is,
461 mynode@myhost. Can be NULL if thisalivename is NULL.
462 * thispaddr if the IP address of the host.
464 * cbs is a pointer to a callback structure implementing and
466 alternative socket interface.
467 * cbs_sz is the size of the structure pointed to by cbs.
469 * setup_context is a pointer to a structure that will be
471 passed as second argument to the socket callback in the cbs
472 structure.
473 A C-node acting as a server is assigned a creation number when
475 it calls ei_publish().
476 A connection is closed by simply closing the socket. For infor‐
478 mation about how to close the socket gracefully (when there are
479 outgoing packets before close), see the relevant system documen‐
480 tation.
481 These functions return a negative value indicating that an error
483 occurred.
484 Example 1:
486 int n = 0;
488 struct in_addr addr;
489 ei_cnode ec;
490 addr.s_addr = inet_addr("150.236.14.75");
491 if (ei_connect_xinit(&ec,
492 "chivas",
493 "madonna",
494 "madonna@chivas.du.etx.ericsson.se",
495 &addr;
496 "cookie...",
497 n++) < 0) {
498 fprintf(stderr,"ERROR when initializing: %d",erl_errno);
499 exit(-1);
500 }
501 Example 2:
504 if (ei_connect_init(&ec, "madonna", "cookie...", n++) < 0) {
506 fprintf(stderr,"ERROR when initializing: %d",erl_errno);
507 exit(-1);
508 }
509 int ei_connect_tmo(ei_cnode* ec, char *nodename, unsigned timeout_ms)
512 int ei_xconnect_tmo(ei_cnode* ec, Erl_IpAddr adr, char *alivename, un‐
513 signed timeout_ms)
514 int ei_connect_host_port_tmo(ei_cnode* ec, char *hostname, int port,
515 unsigned ms)
516 int ei_xconnect_host_port_tmo(ei_cnode* ec, Erl_IpAddr adr, int port,
517 unsigned ms)
518 Types:
520 ei_cnode
522 Erl_IpAddr
523 Equivalent to ei_connect, ei_xconnect, ei_connect_host_port and
525 ei_xconnect_host_port with an optional time-out argument, see
526 the description at the beginning of this manual page.
527 int ei_get_tracelevel(void)
529 void ei_set_tracelevel(int level)
530 Used to set tracing on the distribution. The levels are differ‐
532 ent verbosity levels. A higher level means more information. See
533 also section Debug Information.
534 These functions are not thread safe.
536 int ei_listen(ei_cnode *ec, int *port, int backlog)
538 int ei_xlisten(ei_cnode *ec, Erl_IpAddr adr, int *port, int backlog)
539 Types:
541 ei_cnode
543 Erl_IpAddr
544 Used by a server process to setup a listen socket which later
546 can be used for accepting connections from client processes.
547 * ec is the C-node structure.
549 * adr is local interface to bind to.
551 * port is a pointer to an integer containing the port number
553 to bind to. If *port equals 0 when calling ei_listen(), the
554 socket will be bound to an ephemeral port. On success,
555 ei_listen() will update the value of *port to the port actu‐
556 ally bound to.
557 * backlog is maximum backlog of pending connections.
559 ei_listen will create a socket, bind to a port on the local in‐
561 terface identified by adr (or all local interfaces if ei_lis‐
562 ten() is called), and mark the socket as a passive socket (that
563 is, a socket that will be used for accepting incoming connec‐
564 tions).
565 On success, a file descriptor is returned which can be used in a
567 call to ei_accept(). On failure, ERL_ERROR is returned and
568 erl_errno is set to EIO.
569 int ei_make_pid(ei_cnode *ec, erlang_pid *pid)
571 Types:
573 ei_cnode
575 erlang_pid
576 Creates a new process identifier in the argument pid. This
578 process identifier refers to a conseptual process residing on
579 the C-node identified by the argument ec. On success 0 is re‐
580 turned. On failure ERL_ERROR is returned and erl_errno is set.
581 The C-node identified by ec must have been initialized and must
583 have received a name prior to the call to ei_make_pid(). Ini‐
584 tialization of the C-node is done by a call to ei_connect_init()
585 or friends. If the name is dynamically assigned from the peer
586 node, the C-node also has to be connected.
587 int ei_make_ref(ei_cnode *ec, erlang_ref *ref)
589 Types:
591 ei_cnode
593 erlang_ref
594 Creates a new reference in the argument ref. This reference
596 originates from the C-node identified by the argument ec. On
597 success 0 is returned. On failure ERL_ERROR is returned and
598 erl_errno is set.
599 The C-node identified by ec must have been initialized and must
601 have received a name prior to the call to ei_make_ref(). Ini‐
602 tialization of the C-node is done by a call to ei_connect_init()
603 or friends. If the name is dynamically assigned from the peer
604 node, the C-node also has to be connected.
605 int ei_publish(ei_cnode *ec, int port)
607 Types:
609 ei_cnode
611 Used by a server process to register with the local name server
613 EPMD, thereby allowing other processes to send messages by using
614 the registered name. Before calling either of these functions,
615 the process should have called bind() and listen() on an open
616 socket.
617 * ec is the C-node structure.
619 * port is the local name to register, and is to be the same as
621 the port number that was previously bound to the socket.
622 * addr is the 32-bit IP address of the local host.
624 To unregister with EPMD, simply close the returned descriptor.
626 Do not use ei_unpublish(), which is deprecated anyway.
627 On success, the function returns a descriptor connecting the
629 calling process to EPMD. On failure, -1 is returned and erl_er‐
630 rno is set to EIO.
631 Also, errno values from socket(2) and connect(2) system calls
633 may be propagated into erl_errno.
634 int ei_publish_tmo(ei_cnode *ec, int port, unsigned timeout_ms)
636 Types:
638 ei_cnode
640 Equivalent to ei_publish with an optional time-out argument, see
642 the description at the beginning of this manual page.
643 int ei_receive(int fd, unsigned char* bufp, int bufsize)
645 Receives a message consisting of a sequence of bytes in the Er‐
647 lang external format.
648 * fd is an open descriptor to an Erlang connection. It is ob‐
650 tained from a previous ei_connect or ei_accept.
651 * bufp is a buffer large enough to hold the expected message.
653 * bufsize indicates the size of bufp.
655 If a tick occurs, that is, the Erlang node on the other end of
657 the connection has polled this node to see if it is still alive,
658 the function returns ERL_TICK and no message is placed in the
659 buffer. Also, erl_errno is set to EAGAIN.
660 On success, the message is placed in the specified buffer and
662 the function returns the number of bytes actually read. On fail‐
663 ure, the function returns ERL_ERROR and sets erl_errno to one of
664 the following:
665 EAGAIN:
667 Temporary error: Try again.
668 EMSGSIZE:
670 Buffer is too small.
671 EIO:
673 I/O error.
674 int ei_receive_encoded(int fd, char **mbufp, int *bufsz, erlang_msg
676 *msg, int *msglen)
677 Types:
679 erlang_msg
681 This function is retained for compatibility with code generated
683 by the interface compiler and with code following examples in
684 the same application.
685 In essence, the function performs the same operation as ei_xre‐
687 ceive_msg, but instead of using an ei_x_buff, the function ex‐
688 pects a pointer to a character pointer (mbufp), where the char‐
689 acter pointer is to point to a memory area allocated by malloc.
690 Argument bufsz is to be a pointer to an integer containing the
691 exact size (in bytes) of the memory area. The function may re‐
692 allocate the memory area and will in such cases put the new size
693 in *bufsz and update *mbufp.
694 Returns either ERL_TICK or the msgtype field of the erlang_msg
696 *msg. The length of the message is put in *msglen. On error a
697 value < 0 is returned.
698 It is recommended to use ei_xreceive_msg instead when possible,
700 for the sake of readability. However, the function will be re‐
701 tained in the interface for compatibility and will not be re‐
702 moved in future releases without prior notice.
703 int ei_receive_encoded_tmo(int fd, char **mbufp, int *bufsz, er‐
705 lang_msg *msg, int *msglen, unsigned timeout_ms)
706 Types:
708 erlang_msg
710 Equivalent to ei_receive_encoded with an optional time-out argu‐
712 ment, see the description at the beginning of this manual page.
713 int ei_receive_msg(int fd, erlang_msg* msg, ei_x_buff* x)
715 int ei_xreceive_msg(int fd, erlang_msg* msg, ei_x_buff* x)
716 Types:
718 ei_x_buff
720 erlang_msg
721 Receives a message to the buffer in x. ei_xreceive_msg allows
723 the buffer in x to grow, but ei_receive_msg fails if the message
724 is larger than the pre-allocated buffer in x.
725 * fd is an open descriptor to an Erlang connection.
727 * msg is a pointer to an erlang_msg structure and contains in‐
729 formation on the message received.
730 * x is buffer obtained from ei_x_new.
732 On success, the functions return ERL_MSG and the msg struct is
734 initialized.
735 msgtype identifies the type of message, and is one of the fol‐
737 lowing:
738 ERL_SEND:
740 Indicates that an ordinary send operation has occurred.
741 msg->to contains the pid of the recipient (the C-node).
742 ERL_REG_SEND:
744 A registered send operation occurred. msg->from contains the
745 pid of the sender.
746 ERL_LINK or ERL_UNLINK:
748 msg->to and msg->from contain the pids of the sender and re‐
749 cipient of the link or unlink.
750 ERL_EXIT:
752 Indicates a broken link. msg->to and msg->from contain the
753 pids of the linked processes.
754 The return value is the same as for ei_receive.
756 int ei_receive_msg_tmo(int fd, erlang_msg* msg, ei_x_buff* x, unsigned
758 imeout_ms)
759 int ei_xreceive_msg_tmo(int fd, erlang_msg* msg, ei_x_buff* x, unsigned
760 timeout_ms)
761 Types:
763 ei_x_buff
765 erlang_msg
766 Equivalent to ei_receive_msg and ei_xreceive_msg with an op‐
768 tional time-out argument, see the description at the beginning
769 of this manual page.
770 int ei_receive_tmo(int fd, unsigned char* bufp, int bufsize, unsigned
772 timeout_ms)
773 Equivalent to ei_receive with an optional time-out argument, see
775 the description at the beginning of this manual page.
776 int ei_reg_send(ei_cnode* ec, int fd, char* server_name, char* buf, int
778 len)
779 Types:
781 ei_cnode
783 Sends an Erlang term to a registered process.
785 * fd is an open descriptor to an Erlang connection.
787 * server_name is the registered name of the intended recipi‐
789 ent.
790 * buf is the buffer containing the term in binary format.
792 * len is the length of the message in bytes.
794 Returns 0 if successful, otherwise -1. In the latter case it
796 sets erl_errno to EIO.
797 Example:
799 Send the atom "ok" to the process "worker":
801 ei_x_buff x;
803 ei_x_new_with_version(&x);
804 ei_x_encode_atom(&x, "ok");
805 if (ei_reg_send(&ec, fd, x.buff, x.index) < 0)
806 handle_error();
807 int ei_reg_send_tmo(ei_cnode* ec, int fd, char* server_name, char* buf,
810 int len, unsigned timeout_ms)
811 Types:
813 ei_cnode
815 Equivalent to ei_reg_send with an optional time-out argument,
817 see the description at the beginning of this manual page.
818 int ei_rpc(ei_cnode *ec, int fd, char *mod, char *fun, const char *arg‐
820 buf, int argbuflen, ei_x_buff *x)
821 int ei_rpc_to(ei_cnode *ec, int fd, char *mod, char *fun, const char
822 *argbuf, int argbuflen)
823 int ei_rpc_from(ei_cnode *ec, int fd, int timeout, erlang_msg *msg,
824 ei_x_buff *x)
825 Types:
827 ei_cnode
829 ei_x_buff
830 erlang_msg
831 Supports calling Erlang functions on remote nodes. ei_rpc_to()
833 sends an RPC request to a remote node and ei_rpc_from() receives
834 the results of such a call. ei_rpc() combines the functionality
835 of these two functions by sending an RPC request and waiting for
836 the results. See also rpc:call/4 in Kernel.
837 * ec is the C-node structure previously initiated by a call to
839 ei_connect_init() or ei_connect_xinit().
840 * fd is an open descriptor to an Erlang connection.
842 * timeout is the maximum time (in milliseconds) to wait for
844 results. Specify ERL_NO_TIMEOUT to wait forever. ei_rpc()
845 waits infinitely for the answer, that is, the call will
846 never time out.
847 * mod is the name of the module containing the function to be
849 run on the remote node.
850 * fun is the name of the function to run.
852 * argbuf is a pointer to a buffer with an encoded Erlang list,
854 without a version magic number, containing the arguments to
855 be passed to the function.
856 * argbuflen is the length of the buffer containing the encoded
858 Erlang list.
859 * msg is structure of type erlang_msg and contains information
861 on the message received. For a description of the erlang_msg
862 format, see ei_receive_msg.
863 * x points to the dynamic buffer that receives the result. For
865 ei_rpc() this is the result without the version magic num‐
866 ber. For ei_rpc_from() the result returns a version magic
867 number and a 2-tuple {rex,Reply}.
868 ei_rpc() returns the number of bytes in the result on success
870 and -1 on failure. ei_rpc_from() returns the number of bytes,
871 otherwise one of ERL_TICK, ERL_TIMEOUT, and ERL_ERROR. When
872 failing, all three functions set erl_errno to one of the follow‐
873 ing:
874 EIO:
876 I/O error.
877 ETIMEDOUT:
879 Time-out expired.
880 EAGAIN:
882 Temporary error: Try again.
883 Example:
885 Check to see if an Erlang process is alive:
887 int index = 0, is_alive;
889 ei_x_buff args, result;
890 ei_x_new(&result);
892 ei_x_new(&args);
893 ei_x_encode_list_header(&args, 1);
894 ei_x_encode_pid(&args, &check_pid);
895 ei_x_encode_empty_list(&args);
896 if (ei_rpc(&ec, fd, "erlang", "is_process_alive",
898 args.buff, args.index, &result) < 0)
899 handle_error();
900 if (ei_decode_version(result.buff, &index) < 0
902 || ei_decode_bool(result.buff, &index, &is_alive) < 0)
903 handle_error();
904 erlang_pid *ei_self(ei_cnode *ec)
907 Types:
909 ei_cnode
911 erlang_pid
912 Retrieves a generic pid of the C-node. Every C-node has a
914 (pseudo) pid used in ei_send_reg, ei_rpc(), and others. This is
915 contained in a field in the ec structure. Do not modify this
916 structure.
917 On success a pointer to the process identifier is returned. On
919 failure NULL is returned and erl_errno is set.
920 The C-node identified by ec must have been initialized and must
922 have received a name prior to the call to ei_self(). Initializa‐
923 tion of the C-node is done by a call to ei_connect_init() or
924 friends. If the name is dynamically assigned from the peer node,
925 the C-node also has to be connected.
926 int ei_send(int fd, erlang_pid* to, char* buf, int len)
928 Types:
930 erlang_pid
932 Sends an Erlang term to a process.
934 * fd is an open descriptor to an Erlang connection.
936 * to is the pid of the intended recipient of the message.
938 * buf is the buffer containing the term in binary format.
940 * len is the length of the message in bytes.
942 Returns 0 if successful, otherwise -1. In the latter case it
944 sets erl_errno to EIO.
945 int ei_send_encoded(int fd, erlang_pid* to, char* buf, int len)
947 Types:
949 erlang_pid
951 Works exactly as ei_send, the alternative name is retained for
953 backward compatibility. The function will not be removed without
954 prior notice.
955 int ei_send_encoded_tmo(int fd, erlang_pid* to, char* buf, int len, un‐
957 signed timeout_ms)
958 Types:
960 erlang_pid
962 Equivalent to ei_send_encoded with an optional time-out argu‐
964 ment, see the description at the beginning of this manual page.
965 int ei_send_reg_encoded(int fd, const erlang_pid *from, const char *to,
967 const char *buf, int len)
968 Types:
970 erlang_pid
972 This function is retained for compatibility with code generated
974 by the interface compiler and with code following examples in
975 the same application.
976 The function works as ei_reg_send with one exception. Instead of
978 taking ei_cnode as first argument, it takes a second argument,
979 an erlang_pid, which is to be the process identifier of the
980 sending process (in the Erlang distribution protocol).
981 A suitable erlang_pid can be retrieved from the ei_cnode struc‐
983 ture by calling ei_self(cnode_pointer).
984 int ei_send_reg_encoded_tmo(int fd, const erlang_pid *from, const char
986 *to, const char *buf, int len, unsigned timeout_ms)
987 Types:
989 erlang_pid
991 Equivalent to ei_send_reg_encoded with an optional time-out ar‐
993 gument, see the description at the beginning of this manual
994 page.
995 int ei_send_tmo(int fd, erlang_pid* to, char* buf, int len, unsigned
997 timeout_ms)
998 Types:
1000 erlang_pid
1002 Equivalent to ei_send with an optional time-out argument, see
1004 the description at the beginning of this manual page.
1005 const char *ei_thisnodename(ei_cnode *ec)
1007 const char *ei_thishostname(ei_cnode *ec)
1008 const char *ei_thisalivename(ei_cnode *ec)
1009 Types:
1011 ei_cnode
1013 Can be used to retrieve information about the C-node. These val‐
1015 ues are initially set with ei_connect_init() or ei_con‐
1016 nect_xinit().
1017 These function simply fetch the appropriate field from the ec
1019 structure. Read the field directly will probably be safe for a
1020 long time, so these functions are not really needed.
1021 int ei_unpublish(ei_cnode *ec)
1023 Types:
1025 ei_cnode
1027 Can be called by a process to unregister a specified node from
1029 EPMD on the local host. This is, however, usually not allowed,
1030 unless EPMD was started with flag -relaxed_command_check, which
1031 it normally is not.
1032 To unregister a node you have published, you should close the
1034 descriptor that was returned by ei_publish().
1035 Warning:
1037 This function is deprecated and will be removed in a future re‐
1038 lease.
1039 ec is the node structure of the node to unregister.
1042 If the node was successfully unregistered from EPMD, the func‐
1044 tion returns 0. Otherwise, -1 is returned and erl_errno is set
1045 to EIO.
1046 int ei_unpublish_tmo(ei_cnode *ec, unsigned timeout_ms)
1048 Types:
1050 ei_cnode
1052 Equivalent to ei_unpublish with an optional time-out argument,
1054 see the description at the beginning of this manual page.
1055
1057 If a connection attempt fails, the following can be checked:
1058 * erl_errno.
1060 * That the correct cookie was used
1062 * That EPMD is running
1064 * That the remote Erlang node on the other side is running the same
1066 version of Erlang as the ei library
1067 * That environment variable ERL_EPMD_PORT is set correctly
1069 The connection attempt can be traced by setting a trace level by either
1071 using ei_set_tracelevel or by setting environment variable
1072 EI_TRACELEVEL. The trace levels have the following messages:
1073 * 1: Verbose error messages
1075 * 2: Above messages and verbose warning messages
1077 * 3: Above messages and progress reports for connection handling
1079 * 4: Above messages and progress reports for communication
1081 * 5: Above messages and progress reports for data conversion
1083Ericsson AB erl_interface 4.0.3.1 ei_connect(3)