#include #include #include #include #include "../src/ipc.h" #define MSG "coucou" #define SERVICE_NAME "pong" #define PRINTERR(ret,msg) {\ const char * err = ipc_errors_get (ret);\ fprintf(stderr, "error while %s: %s\n", msg, err);\ } void chomp (char *str, ssize_t len) { if (str[len - 1] == '\n') { str[len - 1] = '\0'; } if (str[len - 2] == '\n') { str[len - 2] = '\0'; } } struct ipc_connection_info *srv; void non_interactive (char *env[]) { SECURE_DECLARATION (struct ipc_message, m); // init service TEST_IPC_Q (ipc_connection (env, srv, SERVICE_NAME), EXIT_FAILURE); TEST_IPC_Q (ipc_message_format_data (&m, 42, MSG, (ssize_t) strlen (MSG) + 1), EXIT_FAILURE); printf ("msg to send (%ld): %.*s\n", (ssize_t) strlen (MSG) + 1, (int)strlen (MSG), MSG); TEST_IPC_Q (ipc_write (srv, &m), EXIT_FAILURE); ipc_message_empty (&m); TEST_IPC_Q (ipc_read (srv, &m), EXIT_FAILURE); printf ("msg recv (type: %u): %s\n", m.user_type, m.payload); ipc_message_empty (&m); TEST_IPC_Q (ipc_close (srv), EXIT_FAILURE); } void interactive (char *env[]) { // init service TEST_IPC_Q (ipc_connection (env, srv, SERVICE_NAME), EXIT_FAILURE); SECURE_DECLARATION (struct ipc_event, event); SECURE_DECLARATION (struct ipc_connection_infos, services); ipc_add (&services, srv); ipc_add_fd (&services, 0); // add STDIN ipc_connections_print (&services); long timer = 10; while (1) { printf ("msg to send: "); fflush (stdout); TEST_IPC_WAIT_EVENT_Q (ipc_wait_event (&services, NULL, &event, &timer), EXIT_FAILURE); switch (event.type) { case IPC_EVENT_TYPE_TIMER:{ printf ("time up!\n"); timer = 10; }; break; case IPC_EVENT_TYPE_EXTRA_SOCKET: { // structure not read, should read the message here ssize_t len; char buf[4096]; memset (buf, 0, 4096); len = read (event.origin->fd, buf, 4096); buf[len - 1] = '\0'; chomp (buf, len); #if 0 printf ("\n"); printf ("message to send: %.*s\n", (int)len, buf); #endif // in case we want to quit the program if (len == 0 || strncmp (buf, "quit", 4) == 0 || strncmp (buf, "exit", 4) == 0) { TEST_IPC_Q (ipc_close (srv), EXIT_FAILURE); ipc_connections_free (&services); exit (EXIT_SUCCESS); } // send the message read on STDIN struct ipc_message *m = NULL; SECURE_BUFFER_HEAP_ALLOCATION (m, sizeof (struct ipc_message),,); for (size_t i = 0; i < 5; i++) { memset (buf, 0, 4096); snprintf (buf, 4096, "%lu", i); len = strlen (buf); printf ("message %lu, buffer %.*s\n", i, (int)len, buf); TEST_IPC_Q (ipc_message_format_data (m, 42, buf, len), EXIT_FAILURE); printf ("message from structure: %.*s\n", m->length, m->payload); #if 0 printf ("\n"); printf ("right before sending a message\n"); #endif TEST_IPC_Q (ipc_write (srv, m), EXIT_FAILURE); #if 0 printf ("right after sending a message\n"); #endif ipc_message_empty (m); // sleep (1); } free (m); } break; case IPC_EVENT_TYPE_MESSAGE: { struct ipc_message *m = event.m; printf ("\rmsg recv: %.*s\n", m->length, m->payload); }; break; case IPC_EVENT_TYPE_DISCONNECTION: case IPC_EVENT_TYPE_NOT_SET: case IPC_EVENT_TYPE_CONNECTION: case IPC_EVENT_TYPE_ERROR: default: fprintf (stderr, "should not happen, event type %d\n", event.type); } } } int main (int argc, char *argv[], char *env[]) { argc = argc; // warnings argv = argv; // warnings srv = malloc (sizeof (struct ipc_connection_info)); memset (srv, 0, sizeof (struct ipc_connection_info)); // index and version should be filled srv->index = 0; srv->version = 0; if (argc == 1) non_interactive (env); else interactive (env); return EXIT_SUCCESS; }