#include #include #include "../libipc.h" #define SERVICE "pong" #define SERVICE_LEN 4 int direct_write_then_read(void); int wait_event(void); int main(void) { direct_write_then_read(); wait_event(); } int direct_write_then_read(void) { int ret = 0; int servicefd = 0; printf ("Init context.\n"); void *ctx = NULL; ret = ipc_context_init (&ctx); if (ret != 0) { printf ("Cannot init context.\n"); return 1; } printf ("Connect to a 'pong' service.\n"); ret = ipc_connect_service (ctx, &servicefd, SERVICE, SERVICE_LEN); if (ret != 0) { printf ("Cannot connect to a service.\n"); return 1; } printf ("Let's send a message.\n"); ret = ipc_write (ctx, servicefd, "hello, plz bounce me", 21); if (ret != 0) { printf ("Cannot write to the service.\n"); return 1; } char message[10000]; size_t size = 10000; ret = ipc_read_fd (ctx, servicefd, message, &size); if (ret != 0) { printf ("Cannot read from the service fd: %d.\n", ret); return 1; } if (size == 0) { printf ("No message returned.\n"); return 1; } message[size] = '\0'; printf ("Response: %s.\n", message); printf ("Deinit context\n"); ipc_context_deinit (ctx); free(ctx); printf ("Context freed.\n"); return 0; } int wait_event(void) { int ret = 0; int servicefd = 0; char message[10000]; size_t size = 10000; char event_type; size_t index = 0; int originfd = 0; void *ctx = NULL; printf ("Init context.\n"); ret = ipc_context_init (&ctx); if (ret != 0) { printf ("Cannot init context.\n"); return 1; } printf ("Connect to a 'pong' service.\n"); ret = ipc_connect_service (ctx, &servicefd, SERVICE, SERVICE_LEN); if (ret != 0) { printf ("Cannot connect to a service.\n"); return 1; } printf ("Let's schedule a message.\n"); ret = ipc_schedule (ctx, servicefd, "hello, plz bounce me", 21); if (ret != 0) { printf ("Cannot schedule a message.\n"); return 1; } printf ("Let's set the timer to one second.\n"); ipc_context_timer (ctx, 1000); printf ("Let's loop over events.\n"); char should_continue = 1; size_t count = 0; while(should_continue) { size = 10000; ret = ipc_wait_event (ctx, &event_type, &index, &originfd, message, &size); if (ret != 0) { printf ("Error while waiting for an event.\n"); return 1; } printf ("EVENT %lu\t", count++); switch ((enum event_types) event_type) { case ERROR: { printf ("Error.\n"); return 1; } case EXTERNAL: { printf ("External (shouldn't happen).\n"); return 1; } case SWITCH_RX: { printf ("Switch RX (shouldn't happen).\n"); return 1; } case SWITCH_TX: { printf ("Switch TX (shouldn't happen).\n"); return 1; } case CONNECTION: { printf ("Connection (shouldn't happen).\n"); return 1; } case DISCONNECTION: { printf ("Disconnection (shouldn't happen).\n"); return 1; } case TIMER: { printf ("TIMER.\n"); break; } case TX: { printf ("A message has been sent.\n"); break; } case MESSAGE: { if (size == 0) { printf ("No message returned.\n"); return 1; } message[size] = '\0'; printf ("Response: %s.\n", message); // We received the response, quitting. should_continue = 0; break; } } } printf ("Deinit context\n"); ipc_context_deinit (ctx); free(ctx); printf ("Context freed.\n"); return 0; }