void __exit embxshm_deinit( void ) { while (0 != numRegisteredFactories) { (void) EMBX_UnregisterTransport(registeredFactories[--numRegisteredFactories]); } return; }
int run_test(void) { EMBX_ERROR res; EMBX_TPINFO tpinfo1; EMBX_BOOL bFailed; EMBX_TRANSPORT tp; EMBX_PORT localPort,remotePort; EMBX_VOID *buffer1,*buffer2; EMBX_FACTORY factory; bFailed = EMBX_FALSE; tp = EMBX_INVALID_HANDLE_VALUE; buffer1 = buffer2 = 0; /* Test 1 */ res = EMBX_SendMessage(EMBX_INVALID_HANDLE_VALUE, buffer1, 0); if(res != EMBX_INVALID_PORT) { EMBX_Info(EMBX_TRUE, ("Test1 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } res = EMBX_RegisterTransport(EMBXLB_loopback_factory,&loopback_config,sizeof(EMBXLB_Config_t),&factory); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Transport Registration failed, res = %s, exiting\n",error_strings[res])); goto skip_remaining_tests; } /* Test 2 */ res = EMBX_Init(); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test2 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 3 */ res = EMBX_GetFirstTransport(&tpinfo1); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test3 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 4 */ res = EMBX_OpenTransport(tpinfo1.name, &tp); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test4 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 5 */ res = EMBX_CreatePort(tp, "testport", &localPort); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test5 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 6 */ res = EMBX_Connect(tp, "testport", &remotePort); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test6 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 7 */ res = EMBX_Alloc(tp, BUFFER_SIZE, &buffer1); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test7 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 8 */ res = EMBX_SendMessage(tp, buffer1, 0); if(res != EMBX_INVALID_PORT) { EMBX_Info(EMBX_TRUE, ("Test8 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } /* Test 9 */ res = EMBX_SendMessage(localPort, buffer1, 0); if(res != EMBX_INVALID_PORT) { EMBX_Info(EMBX_TRUE, ("Test9 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } /* Test 10 */ res = EMBX_SendMessage(remotePort, 0, 0); if(res != EMBX_INVALID_ARGUMENT) { EMBX_Info(EMBX_TRUE, ("Test10 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } /* Test 11 */ res = EMBX_SendMessage(remotePort, buffer1, BUFFER_SIZE+1); if(res != EMBX_INVALID_ARGUMENT) { EMBX_Info(EMBX_TRUE, ("Test11 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 12 */ res = EMBX_SendMessage(remotePort, buffer1, BUFFER_SIZE); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test12 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 13 - Ensure this allocation happens before buffer1 gets free'd * when the port is closed, so buffer1 and buffer2 will not point to * the same memory which is important for later tests. */ res = EMBX_Alloc(tp, BUFFER_SIZE, &buffer2); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test13 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 14 */ res = EMBX_ClosePort(localPort); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test14 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 15 - buffer1 has been freed by test14 so should be garbage */ res = EMBX_SendMessage(remotePort, buffer1, 0); if(res != EMBX_INVALID_ARGUMENT) { EMBX_Info(EMBX_TRUE, ("Test15 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } /* Test 16 */ res = EMBX_SendMessage(remotePort, buffer2, BUFFER_SIZE); if(res != EMBX_INVALID_PORT) { EMBX_Info(EMBX_TRUE, ("Test16 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 17 */ res = EMBX_ClosePort(remotePort); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test17 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 18 */ res = EMBX_CloseTransport(tp); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test18 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 19 */ res = EMBX_Deinit(); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test19 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* These test a different code path to the identical tests done before * EMBX_Init. */ /* Test 20 - Depends on buffer2 not having been freed so we get through * to checking the state of the driver. */ res = EMBX_SendMessage(remotePort, buffer2, 0); if(res != EMBX_INVALID_PORT) { EMBX_Info(EMBX_TRUE, ("Test20 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } /* Test 21 */ res = EMBX_UnregisterTransport(factory); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test21 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } return bFailed?-1:0; skip_remaining_tests: EMBX_Info(EMBX_TRUE, ("Skipping Remaining Tests\n")); return -1; }
int run_test(void) { EMBX_ERROR res; EMBX_TRANSPORT tp; EMBX_FACTORY factory; tp = EMBX_INVALID_HANDLE_VALUE; /* Test 1 */ res = EMBX_RegisterTransport(EMBXLB_loopback_factory, &blocking_loopback_config, sizeof(EMBXLB_Config_t), &factory); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test1 failed, res = %s, exiting\n",error_strings[res])); goto skip_remaining_tests; } /* Test 2 */ res = EMBX_Init(); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test2 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 3 */ res = EMBX_OpenTransport("lo_blocking", &tp); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test3 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 4 */ res = EMBX_CloseTransport(tp); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test4 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 5 */ res = EMBX_UnregisterTransport(factory); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test5 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 6 */ res = EMBX_RegisterTransport(EMBXLB_loopback_factory,&blocking_loopback_config,sizeof(EMBXLB_Config_t),&factory); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test6 failed, res = %s, exiting\n",error_strings[res])); goto skip_remaining_tests; } if(!EMBX_OS_ThreadCreate(deinit_thread, (void *)2000, EMBX_DEFAULT_THREAD_PRIORITY, "deinit")) { EMBX_Info(EMBX_TRUE, ("Unable to create thread\n")); goto skip_remaining_tests; } /* Test 7 */ res = EMBX_OpenTransport("lo_blocking", &tp); if(res != EMBX_TRANSPORT_CLOSED) { EMBX_Info(EMBX_TRUE, ("Test7 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 8 */ res = EMBX_Deinit(); if(res != EMBX_DRIVER_NOT_INITIALIZED) { EMBX_Info(EMBX_TRUE, ("Test8 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } return 0; skip_remaining_tests: EMBX_Info(EMBX_TRUE, ("Skipping Remaining Tests\n")); return -1; }
int run_test(void) { EMBX_UINT i; EMBX_ERROR res; EMBX_TPINFO tpinfo1; EMBX_BOOL bFailed; EMBX_PORT localPort,remotePort; EMBX_VOID *buffer1; EMBX_FACTORY factory; EMBX_RECEIVE_EVENT ev; bFailed = EMBX_FALSE; buffer1 = 0; /* Test 1 */ res = EMBX_ReceiveBlock(EMBX_INVALID_HANDLE_VALUE, &ev); if(res != EMBX_INVALID_PORT) { EMBX_Info(EMBX_TRUE, ("Test1 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } res = EMBX_RegisterTransport(EMBXLB_loopback_factory, &loopback_config, sizeof(EMBXLB_Config_t), &factory); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Transport Registration failed, res = %s, exiting\n",error_strings[res])); goto skip_remaining_tests; } /* Test 2 */ res = EMBX_Init(); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test2 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 3 */ res = EMBX_GetFirstTransport(&tpinfo1); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test3 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 4 */ res = EMBX_OpenTransport(tpinfo1.name, &tp); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test4 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 5 */ res = EMBX_CreatePort(tp, "testport", &localPort); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test5 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 6 */ res = EMBX_Connect(tp, "testport", &remotePort); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test6 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 7 */ res = EMBX_ReceiveBlock(tp, &ev); if(res != EMBX_INVALID_PORT) { EMBX_Info(EMBX_TRUE, ("Test7 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } /* Test 8 */ res = EMBX_ReceiveBlock(remotePort, &ev); if(res != EMBX_INVALID_PORT) { EMBX_Info(EMBX_TRUE, ("Test8 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } /* Test 9 */ res = EMBX_ReceiveBlock(localPort, 0); if(res != EMBX_INVALID_ARGUMENT) { EMBX_Info(EMBX_TRUE, ("Test9 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } /* Test 10 */ res = EMBX_Alloc(tp, BUFFER_SIZE, &buffer1); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test10 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } for(i=0;i<BUFFER_SIZE;i++) { ((unsigned char *)buffer1)[i] = (unsigned char)i; } /* Test 11 */ res = EMBX_SendMessage(remotePort, buffer1, BUFFER_SIZE); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test11 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 12 */ res = EMBX_ReceiveBlock(localPort, &ev); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test12 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } if(ev.handle != EMBX_INVALID_HANDLE_VALUE || ev.offset != 0 || ev.type != EMBX_REC_MESSAGE || ev.size != BUFFER_SIZE) { EMBX_Info(EMBX_TRUE, ("Test13 failed, event structure incorrect\n")); goto skip_remaining_tests; } for(i=0;i<ev.size;i++) { if( ((unsigned char *)ev.data)[i] != (unsigned char)i ) { EMBX_Info(EMBX_TRUE, ("Test13 failed, buffer contents incorrect\n")); bFailed = EMBX_TRUE; break; } } /* Test 13 */ res = EMBX_Free(ev.data); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test13 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } if(!EMBX_OS_ThreadCreate(send_thread, (void *)remotePort, EMBX_DEFAULT_THREAD_PRIORITY, "send")) { EMBX_Info(EMBX_TRUE, ("Unable to create thread\n")); goto skip_remaining_tests; } /* Test 14 */ res = EMBX_ReceiveBlock(localPort, &ev); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test14 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } if(ev.handle != EMBX_INVALID_HANDLE_VALUE || ev.offset != 0 || ev.type != EMBX_REC_MESSAGE || ev.size != BUFFER_SIZE) { EMBX_Info(EMBX_TRUE, ("Test15 failed, event structure incorrect\n")); goto skip_remaining_tests; } /* Test 15 */ res = EMBX_Free(ev.data); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test15 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } /* Test 16 */ res = EMBX_ClosePort(remotePort); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test16 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 17 */ res = EMBX_ClosePort(localPort); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test17 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 18 */ res = EMBX_CloseTransport(tp); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test18 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 19 */ res = EMBX_Deinit(); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test19 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* These test a different code path to the identical tests done before * EMBX_Init */ /* Test 20 */ res = EMBX_ReceiveBlock(localPort, &ev); if(res != EMBX_INVALID_PORT) { EMBX_Info(EMBX_TRUE, ("Test20 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } /* Test 21 */ res = EMBX_UnregisterTransport(factory); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test21 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } return bFailed?-1:0; skip_remaining_tests: EMBX_Info(EMBX_TRUE, ("Skipping Remaining Tests\n")); return -1; }
int run_test(void) { EMBX_UINT i; EMBX_ERROR res; EMBX_TPINFO tpinfo1; EMBX_BOOL bFailed; EMBX_TRANSPORT tp; EMBX_PORT localPort,remotePort; EMBX_HANDLE hObj; EMBX_FACTORY factory; EMBX_RECEIVE_EVENT ev; bFailed = EMBX_FALSE; tp = EMBX_INVALID_HANDLE_VALUE; hObj = EMBX_INVALID_HANDLE_VALUE; /* Test 1 */ res = EMBX_Receive(EMBX_INVALID_HANDLE_VALUE, &ev); if(res != EMBX_INVALID_PORT) { EMBX_Info(EMBX_TRUE, ("Test1 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } res = EMBX_RegisterTransport(EMBXLB_loopback_factory, &loopback_config, sizeof(EMBXLB_Config_t), &factory); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Transport Registration failed, res = %s, exiting\n",error_strings[res])); goto skip_remaining_tests; } /* Test 2 */ res = EMBX_Init(); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test2 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 3 */ res = EMBX_GetFirstTransport(&tpinfo1); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test3 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 4 */ res = EMBX_OpenTransport(tpinfo1.name, &tp); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test4 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 5 */ res = EMBX_CreatePort(tp, "testport", &localPort); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test5 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 6 */ res = EMBX_Connect(tp, "testport", &remotePort); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test6 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 7 */ res = EMBX_RegisterObject(tp, object, BUFFER_SIZE, &hObj); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test7 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } for(i=0;i<BUFFER_SIZE;i++) { ((unsigned char *)object)[i] = (unsigned char)i; } /* Test 8 */ res = EMBX_SendObject(remotePort, hObj, 0, BUFFER_SIZE); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test8 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } /* Test 9 */ res = EMBX_Receive(localPort, &ev); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test9 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } if(ev.handle != hObj || /* This is a specific quirk of the loopback transport */ ev.offset != 0 || ev.type != EMBX_REC_OBJECT || ev.size != BUFFER_SIZE) { EMBX_Info(EMBX_TRUE, ("Test9 failed, event structure incorrect\n")); goto skip_remaining_tests; } for(i=0;i<ev.size;i++) { if( ((unsigned char *)ev.data)[i] != (unsigned char)i ) { EMBX_Info(EMBX_TRUE, ("Test9 failed, buffer contents incorrect\n")); bFailed = EMBX_TRUE; break; } } /* Test 10 */ res = EMBX_UpdateObject(remotePort, hObj, 0, BUFFER_SIZE); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test10 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 11 */ res = EMBX_Receive(localPort, &ev); if(res != EMBX_INVALID_STATUS) { EMBX_Info(EMBX_TRUE, ("Test11 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 12 */ res = EMBX_DeregisterObject(tp, hObj); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test12 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } /* Test 13 */ res = EMBX_ClosePort(remotePort); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test13 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 14 */ res = EMBX_ClosePort(localPort); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test14 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 15 */ res = EMBX_CloseTransport(tp); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test15 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 16 */ res = EMBX_Deinit(); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test16 failed, res = %s\n",error_strings[res])); goto skip_remaining_tests; } /* Test 17 */ res = EMBX_UnregisterTransport(factory); if(res != EMBX_SUCCESS) { EMBX_Info(EMBX_TRUE, ("Test17 failed, res = %s\n",error_strings[res])); bFailed = EMBX_TRUE; } return bFailed?-1:0; skip_remaining_tests: EMBX_Info(EMBX_TRUE, ("Skipping Remaining Tests\n")); return -1; }