Ram Gandikota
/
metronome
FRDM K64F Metronome
mbed-client/test/mbedclient_linux/main.cpp
- Committer:
- ram54288
- Date:
- 2017-05-14
- Revision:
- 0:a2cb7295a1f7
File content as of revision 0:a2cb7295a1f7:
/* * Copyright (c) 2015 ARM Limited. All rights reserved. * SPDX-License-Identifier: Apache-2.0 * Licensed under the Apache License, Version 2.0 (the License); you may * not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an AS IS BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include <unistd.h> #include <malloc.h> #include <stdio.h> #include <stdarg.h> #include <pthread.h> #include <signal.h> /* For SIGIGN and SIGINT */ #include "mbed-client/m2minterfacefactory.h" #include "mbed-client/m2mdevice.h" #include "mbed-client/m2minterfaceobserver.h" #include "mbed-client/m2minterface.h" #include "mbed-client/m2mobjectinstance.h" #include "mbed-client/m2mresource.h" #include "mbed-trace/mbed_trace.h" const String &BOOTSTRAP_SERVER_ADDRESS = "coap://10.45.3.10:5693"; const String &M2M_SERVER_ADDRESS = "coap://10.45.3.10:5683"; const String &MANUFACTURER = "manufacturer"; const String &TYPE = "type"; const String &MODEL_NUMBER = "2015"; const String &SERIAL_NUMBER = "12345"; const uint8_t STATIC_VALUE[] = "Open Mobile Alliance"; static void ctrl_c_handle_function(void); void close_function(); typedef void (*signalhandler_t)(int); /* Function pointer type for ctrl-c */ class MbedClient: public M2MInterfaceObserver { public: MbedClient(){ _security = NULL; _interface = NULL; _register_security = NULL; _device = NULL; _object = NULL; _bootstrapped = false; _error = false; _registered = false; _unregistered = false; _registration_updated = false; _value = 0; } ~MbedClient() { if(_security) { delete _security; } if(_register_security){ delete _register_security; } if(_device) { M2MDevice::delete_instance(); _device = NULL; } if(_object) { delete _object; } if(_interface) { delete _interface; } } bool create_interface() { _interface = M2MInterfaceFactory::create_interface(*this, "linux-endpoint", "test", 60, 5683, "", M2MInterface::UDP, M2MInterface::LwIP_IPv4, ""); printf("Endpoint Name : linux-endpoint\n"); return (_interface == NULL) ? false : true; } bool bootstrap_successful() { while(!_bootstrapped && !_error) { sleep(1); } return _bootstrapped; } bool register_successful() { while(!_registered && !_error) { sleep(1); } return _registered; } bool unregister_successful() { while(!_unregistered && !_error) { sleep(1); } return _unregistered; } bool registration_update_successful() { while(!_registration_updated && !_error) { } return _registration_updated; } bool create_bootstrap_object() { bool success = false; if(_security) { delete _security; } _security = M2MInterfaceFactory::create_security(M2MSecurity::Bootstrap); if(_security) { if(_security->set_resource_value(M2MSecurity::M2MServerUri, BOOTSTRAP_SERVER_ADDRESS) && _security->set_resource_value(M2MSecurity::SecurityMode, M2MSecurity::NoSecurity)) { success = true; /* Not used now because there is no TLS or DTLS implementation available for stack. security->set_resource_value(M2MSecurity::ServerPublicKey,certificates->certificate_ptr[0],certificates->certificate_len[0]); security->set_resource_value(M2MSecurity::PublicKey,certificates->certificate_ptr[1],certificates->certificate_len[1]); security->set_resource_value(M2MSecurity::Secretkey,certificates->own_private_key_ptr,certificates->own_private_key_len); */ } } printf("Bootstrap Server Address %s\n", BOOTSTRAP_SERVER_ADDRESS.c_str()); return success; } bool create_register_object() { bool success = false; _register_security = M2MInterfaceFactory::create_security(M2MSecurity::M2MServer); if(_register_security) { if(_register_security->set_resource_value(M2MSecurity::M2MServerUri, M2M_SERVER_ADDRESS) && _register_security->set_resource_value(M2MSecurity::SecurityMode, M2MSecurity::NoSecurity)) { success = true; /* Not used now because there is no TLS or DTLS implementation available for stack. security->set_resource_value(M2MSecurity::ServerPublicKey,certificates->certificate_ptr[0],certificates->certificate_len[0]); security->set_resource_value(M2MSecurity::PublicKey,certificates->certificate_ptr[1],certificates->certificate_len[1]); security->set_resource_value(M2MSecurity::Secretkey,certificates->own_private_key_ptr,certificates->own_private_key_len); */ } } return success; } void test_bootstrap() { _interface->bootstrap(_security); } bool create_device_object() { bool success = false; _device = M2MInterfaceFactory::create_device(); if(_device) { _device->object_instance()->set_operation(M2MBase::GET_PUT_POST_ALLOWED); if(_device->create_resource(M2MDevice::Manufacturer,MANUFACTURER) && _device->create_resource(M2MDevice::DeviceType,TYPE) && _device->create_resource(M2MDevice::ModelNumber,MODEL_NUMBER) && _device->create_resource(M2MDevice::SerialNumber,SERIAL_NUMBER)) { success = true; } } return success; } void execute_function(void *argument) { if(argument) { char* arguments = (char*)argument; printf("Received %s!!\n", arguments); } printf("I am executed !!\n"); } bool create_generic_object() { bool success = false; _object = M2MInterfaceFactory::create_object("10"); if(_object) { _object->set_operation(M2MBase::GET_PUT_POST_ALLOWED); M2MObjectInstance* inst = _object->create_object_instance(); if(inst) { inst->set_operation(M2MBase::GET_PUT_POST_ALLOWED); inst->set_observable(false); char buffer[20]; int size = sprintf(buffer,"%d",_value); inst->create_static_resource("0", "ResourceTest", M2MResourceInstance::INTEGER, STATIC_VALUE, sizeof(STATIC_VALUE)-1); M2MResourceInstance* instance = inst->create_dynamic_resource_instance("1", "ResourceTest", M2MResourceInstance::INTEGER, true,0); if(instance) { instance->set_operation(M2MBase::GET_PUT_POST_ALLOWED); instance->set_value((const uint8_t*)buffer, (const uint32_t)size); instance->set_execute_function(execute_callback(this,&MbedClient::execute_function)); _value++; } } } return success; } void update_resource() { if(_object) { M2MObjectInstance* inst = _object->object_instance(); if(inst) { M2MResource* res = inst->resource("1"); res = inst->resource("1"); if(res) { M2MResourceInstance *res_inst = res->resource_instance(0); if(res_inst) { char buffer1[20]; int size1 = sprintf(buffer1,"%d",_value); res_inst->set_value((const uint8_t*)buffer1, (const uint32_t)size1); _value++; } } } } } void test_register(){ M2MObjectList object_list; object_list.push_back(_device); object_list.push_back(_object); _interface->register_object(_register_security,object_list); } void test_update_register() { uint32_t updated_lifetime = 20; _registered = false; _unregistered = false; _interface->update_registration(_register_security,updated_lifetime); } void test_unregister() { _interface->unregister_object(NULL); } void bootstrap_done(M2MSecurity *server_object){ if(server_object) { _register_security = server_object; _bootstrapped = true; printf("\nBootstrapped\n"); printf("mDS Address %s\n", _register_security->resource_value_string(M2MSecurity::M2MServerUri).c_str()); } } void object_registered(M2MSecurity */*security_object*/, const M2MServer &/*server_object*/){ _registered = true; printf("\nRegistered\n"); } void object_unregistered(M2MSecurity */*server_object*/){ _unregistered = true; printf("\nUnregistered\n"); } void registration_updated(M2MSecurity */*security_object*/, const M2MServer & /*server_object*/){ _registration_updated = true; printf("\nregistration updated\n"); } void error(M2MInterface::Error error){ _error = true; close_function(); printf("\nError occured Error Code : %d\n", (int8_t)error); } void value_updated(M2MBase *base, M2MBase::BaseType type) { printf("\nValue updated of Object name %s and Type %d\n", base->name(), type); } private: M2MInterface *_interface; M2MSecurity *_security; M2MSecurity *_register_security; M2MDevice *_device; M2MObject *_object; bool _bootstrapped; bool _error; bool _registered; bool _unregistered; bool _registration_updated; int _value; }; void* wait_for_bootstrap(void* arg) { MbedClient *client; client = (MbedClient*) arg; if(client->bootstrap_successful()) { printf("Registering endpoint\n"); client->test_register(); } return NULL; } void* wait_for_unregister(void* arg) { MbedClient *client; client = (MbedClient*) arg; if(client->unregister_successful()) { printf("Unregistered done --> exiting\n"); close_function(); } return NULL; } void* send_observation(void* arg) { MbedClient *client; client = (MbedClient*) arg; static uint8_t counter = 0; while(1) { sleep(1); if(counter >= 5 && client->register_successful()) { printf("Sending observation\n"); client->update_resource(); counter = 0; } else counter++; } return NULL; } static MbedClient *m2mclient = NULL; static void ctrl_c_handle_function(void) { if(m2mclient && m2mclient->register_successful()) { printf("Unregistering endpoint\n"); m2mclient->test_unregister(); } } void trace_printer(const char* str) { printf("%s\r\n", str); } static pthread_t bootstrap_thread; static pthread_t unregister_thread; static pthread_t observation_thread; void close_function() { pthread_cancel(bootstrap_thread); pthread_cancel(unregister_thread); pthread_cancel(observation_thread); } int main() { MbedClient mbed_client; m2mclient = &mbed_client; mbed_trace_init(); mbed_trace_print_function_set( trace_printer ); mbed_trace_config_set(TRACE_MODE_COLOR|TRACE_ACTIVE_LEVEL_DEBUG|TRACE_CARRIAGE_RETURN); signal(SIGINT, (signalhandler_t)ctrl_c_handle_function); bool result = mbed_client.create_interface(); if(true == result) { printf("\nInterface created\n"); } result = mbed_client.create_bootstrap_object(); if(true == result) { printf("Bootstrap object created"); } result = mbed_client.create_register_object(); if(true == result) { printf("Register object created"); } result = mbed_client.create_device_object(); if(true == result){ printf("\nDevice object created !!\n"); } result = mbed_client.create_generic_object(); if(true == result) { printf("\nGeneric object created\n"); } // printf("Bootstrapping endpoint\n"); // mbed_client.test_bootstrap(); printf("Registering endpoint\n"); mbed_client.test_register(); pthread_create(&bootstrap_thread, NULL, &wait_for_bootstrap, (void*) &mbed_client); pthread_create(&observation_thread, NULL, &send_observation, (void*) &mbed_client); pthread_create(&unregister_thread, NULL, &wait_for_unregister, (void*) &mbed_client); pthread_join(bootstrap_thread, NULL); pthread_join(unregister_thread, NULL); pthread_join(observation_thread, NULL); exit(EXIT_SUCCESS); }