This example illustrates one way to convert an application that runs on a single machine into one that runs over a network. For instance, a programmer first creates a program that prints a message to the console, as follows:
/* * printmsg.c: print a message on the console */ #include <stdio.h> main(argc, argv) int argc; char *argv[]; { char *message; if (argc < 2) { fprintf(stderr, "usage: %s <message>\n", argv[0]); exit(1); } message = argv[1]; if (!printmessage(message)) { fprintf(stderr, "%s: couldn't print your message\n", argv[0]); exit(1); } printf("Message Delivered!\n"); exit(0); } /* * Print a message to the console. * Return a boolean indicating whether the * message was actually printed. */ printmessage(msg) char *msg; { FILE *f; f = fopen("/dev/console", "w"); if (f == NULL) { return (0); } fprintf(f, "%s\n", msg); fclose(f); return(1); }
example% cc printmsg.c -o printmsg example% printmsg "Hello, there." Message delivered! example%
If the printmessage program is turned into a remote procedure, it can be called from anywhere in the network. Ideally, one would insert a keyword such as remote in front of a procedure to turn it into a remote procedure. Unfortunately, the constraints of the C language do not permit this. However, a procedure can be made remote without language support.
To do this, the programmer must know the data types of all procedure inputs and outputs. In this case, the printmessage procedure takes a string as input and returns an integer as output. Knowing this, the programmer can write a protocol specification in Remote Procedure Call language (RPCL) that describes the remote version of PRINTMESSAGE , as follows:
/* * msg.x: Remote message printing protocol */ program MESSAGEPROG { version MESSAGEVERS { int PRINTMESSAGE(string) = 1; } = 1; } = 99;
Remote procedures are part of remote programs, so the above protocol declares a remote program containing the single procedure PRINTMESSAGE . This procedure was declared to be in version 1 of the remote program. No null procedure (procedure 0) is necessary, because the rpcgen command generates it automatically.
Conventionally, all declarations are written with capital letters.
The argument type is string and not char * because a char * in C is ambiguous. Programmers usually intend it to mean a null-terminated string of characters, but it could also represent a pointer to a single character or a pointer to an array of characters. In RPCL, a null-terminated string is unambiguously called a string .
Next, the programmer writes the remote procedure itself. The definition of a remote procedure to implement the PRINTMESSAGE procedure declared previously can be written as follows:
/* * msg_proc.c: implementation of the remote *procedure "printmessage" */ #include <stdio.h> #include <rpc/rpc.h> /* always needed */ #include "msg.h" /* msg.h will be generated by rpcgen */
/* * Remote version of "printmessage" */ int * printmessage_1(msg) char **msg; {
static int result; /* must be static! */ FILE *f; f = fopen("/dev/console", "w"); if (f == NULL) { result = 0; return (&result); } fprintf(f, "%s\en", *msg); fclose(f); result = 1; return (&result); }
The declaration of the remote procedure printmessage_1 in this step differs from that of the local procedure printmessage in the first step, in three ways:
Finally, the programmers declare the main client program that will call the remote procedure, as follows:
/* * rprintmsg.c: remote version of "printmsg.c" */ #include <stdio.h> #include <rpc/rpc.h> /* always needed */ #include "msg.h" /* msg.h will be generated by rpcgen */ main(argc, argv) int argc; char *argv[]; { CLIENT *cl; int *result; char *server; char *message; if (argc < 3) { fprintf(stderr, "usage: %s host message\en", argv[0]); exit(1); }
/* * Save values of command line arguments */ server = argv[1]; message = argv[2]; /* * Create client "handle" used for calling MESSAGEPROG on * the server designated on the command line. We tell * the RPC package to use the "tcp" protocol when * contacting the server. */ cl = clnt_create(server, MESSAGEPROG, MESSAGEVERS, "tcp"); if (cl == NULL) { /* * Couldn't establish connection with server. * Print error message and die. */ clnt_pcreateerror(server); exit(1); } /* * Call the remote procedure "printmessage" on the server */ result = printmessage_1(&message, cl); if (result == NULL) { /* * An error occurred while calling the server. * Print error message and die. */ clnt_perror(cl, server); exit(1); } /* * Okay, we successfully called the remote procedure. */ if (*result == 0) { /* * Server was unable to print our message. * Print error message and die. */ fprintf(stderr, "%s: %s couldn't print your message\n", argv[0], server); exit(1); } /* * The message got printed on the server's console */ printf("Message delivered to %s!\n", server); exit(0); }
Notes:
- First a client handle is created using the Remote Procedure Call (RPC) library clnt_create routine. This client handle is passed to the stub routines that call the remote procedure.
- The remote procedure printmessage_1 is called exactly the same way as it is declared in the msg_proc.c program, except for the inserted client handle as the first argument.
The client program rprintmsg and the server program msg_server are compiled as follows:
example% rpcgen msg.x example% cc rprintmsg.c msg_clnt.c -o rprintmsg example% cc msg_proc.c msg_svc.c -o msg_server
Before compilation, however, the rpcgen protocol compiler is used to perform the following operations on the msg.x input file: