F103-Web-Server - Webserver only w/o any other functions, single th…

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Chau Vo / Mbed 2 deprecated F103-Web-Server

Webserver only w/o any other functions, single thread. Running on STM32F013+W5500

Dependencies: NTPClient W5500Interface Watchdog device_configuration eeprom_flash mbed-rpc-nucleo mbed-rtos mbed

Fork of F103-Serial-to-Ethernet by Chau Vo

main.cpp@30:15e23257e786, 2015-01-11 (annotated)

Committer:: olympux
Date:: Sun Jan 11 13:53:53 2015 +0000
Revision:: 30:15e23257e786
Parent:: 29:bc052f283ada
Child:: 31:2e4b6de6c2f3

Clean code

Who changed what in which revision?

User	Revision	Line number	New contents of line
olympux	0:c2eac797face	1	/*
olympux	30:15e23257e786	2	* Firmware supports NNIO and RPC protocols
olympux	30:15e23257e786	3	*/
olympux	0:c2eac797face	4	#include "mbed.h"
olympux	27:22f289beceb8	5	#include "rtos.h"
olympux	27:22f289beceb8	6	#include "mbed_rpc.h"
olympux	27:22f289beceb8	7	#include "Arguments.h"
olympux	27:22f289beceb8	8
olympux	12:7c152c0ca4d8	9	#include "eeprom.h"
olympux	0:c2eac797face	10	#include "EthernetInterface.h"
olympux	9:d2534ecf88c6	11	#include "NTPClient.h"
olympux	0:c2eac797face	12
olympux	12:7c152c0ca4d8	13	#include "my_eeprom_funcs.h"
olympux	20:71c7950fdd91	14	#include "Watchdog.h"
olympux	12:7c152c0ca4d8	15
olympux	0:c2eac797face	16
olympux	16:84a5bf7285d0	17	//Debug is disabled by default
olympux	25:48dd18cc147c	18	#if 1
olympux	16:84a5bf7285d0	19	//Enable debug
olympux	16:84a5bf7285d0	20	#include <cstdio>
olympux	16:84a5bf7285d0	21	#define DBG(x, ...) std::printf("[main : DBG]"x"\r\n", ##__VA_ARGS__);
olympux	16:84a5bf7285d0	22	#define WARN(x, ...) std::printf("[main : WARN]"x"\r\n", ##__VA_ARGS__);
olympux	16:84a5bf7285d0	23	#define ERR(x, ...) std::printf("[main : ERR]"x"\r\n", ##__VA_ARGS__);
olympux	16:84a5bf7285d0	24
olympux	16:84a5bf7285d0	25	#else
olympux	16:84a5bf7285d0	26	//Disable debug
olympux	16:84a5bf7285d0	27	#define DBG(x, ...)
olympux	16:84a5bf7285d0	28	#define WARN(x, ...)
olympux	16:84a5bf7285d0	29	#define ERR(x, ...)
olympux	16:84a5bf7285d0	30
olympux	16:84a5bf7285d0	31	#endif
olympux	16:84a5bf7285d0	32
olympux	16:84a5bf7285d0	33
olympux	2:18f10e7209f4	34	/*
olympux	2:18f10e7209f4	35	* Hardware defines
olympux	0:c2eac797face	36	*/
olympux	9:d2534ecf88c6	37	// Ethernet
olympux	0:c2eac797face	38	SPI spi(PA_7, PA_6, PA_5); // mosi, miso, sclk
olympux	11:709f90a3b599	39	EthernetInterface eth(&spi, PA_4, PC_9); // spi, cs, reset
olympux	30:15e23257e786	40
olympux	30:15e23257e786	41	/*
olympux	30:15e23257e786	42	* EEPROM section
olympux	30:15e23257e786	43	*/
olympux	30:15e23257e786	44	// Virtual address defined by the user: 0xFFFF value is prohibited
olympux	30:15e23257e786	45	uint16_t VirtAddVarTab[NumbOfVar] = {0x1212, 0x1313, 0x1414, 0x1515, // IP_Addr
olympux	30:15e23257e786	46	0x2212, 0x2313, 0x2414, 0x2515, // IP_Subnet
olympux	30:15e23257e786	47	0x3212, 0x3313, 0x3414, 0x3515, // IP_Gateway
olympux	30:15e23257e786	48	0x4212, // TCP server port, not used
olympux	30:15e23257e786	49	0x5212, // UDP server port, not used
olympux	30:15e23257e786	50	0x8888, // 1st run? 0xA5A5 = configured
olympux	30:15e23257e786	51	0x6212, 0x6313, 0x6414, // MAC
olympux	30:15e23257e786	52
olympux	30:15e23257e786	53	// this section is for the TCP server that this device connects to in TCP client mode
olympux	30:15e23257e786	54	0x7212, 0x7313, // 0xA5A5 = auto transmit status, time period
olympux	30:15e23257e786	55	0x8212, 0x8313,0x8414, 0x8515, // TCP server IP address
olympux	30:15e23257e786	56	0x9212, // TCP server port
olympux	30:15e23257e786	57
olympux	30:15e23257e786	58	// this section is for selecting protocol, not used
olympux	30:15e23257e786	59	0xA212, // 0xA5A5 = enable TCP server
olympux	30:15e23257e786	60	0xA313, // 0xA5A5 = eanble TCP client
olympux	30:15e23257e786	61	0xA414 // 0xA5A5 = enable UDP server
olympux	30:15e23257e786	62	};
olympux	30:15e23257e786	63
olympux	30:15e23257e786	64
olympux	30:15e23257e786	65	/*
olympux	30:15e23257e786	66	* Network configuration
olympux	30:15e23257e786	67	*/
olympux	30:15e23257e786	68	#define TCP_SERVER
olympux	30:15e23257e786	69	#define TCP_CLIENT
olympux	30:15e23257e786	70	#define UDP_SERVER
olympux	30:15e23257e786	71	//#define UDP_CLIENT
olympux	30:15e23257e786	72	#define NTP
olympux	30:15e23257e786	73
olympux	30:15e23257e786	74	#define TCP_SERVER_WAIT_CLIENT_TIMEOUT 200 // timeout for local tcp server wait for a remote client
olympux	30:15e23257e786	75	#define TCP_SERVER_RECEIVE_TIMEOUT 2000 // timeout for local tcp server wait to receive from remote client
olympux	30:15e23257e786	76	#define TCP_CLIENT_RECEIVE_TIMEOUT 200 // timeout for local tcp client try to connect remote server
olympux	30:15e23257e786	77	#define UDP_SERVER_RECEIVE_TIMEOUT 100 // timeout for checking config command
olympux	30:15e23257e786	78
olympux	0:c2eac797face	79
olympux	30:15e23257e786	80	// TCP server function
olympux	30:15e23257e786	81	TCPSocketServer tcp_server;
olympux	30:15e23257e786	82	TCPSocketConnection tcp_client;
olympux	30:15e23257e786	83	// TCP client function
olympux	30:15e23257e786	84	TCPSocketConnection tcp_sock;
olympux	30:15e23257e786	85	// UDP server
olympux	30:15e23257e786	86	UDPSocket udp_server;
olympux	30:15e23257e786	87	Endpoint ep_udp_client;
olympux	30:15e23257e786	88	// NTP
olympux	30:15e23257e786	89	NTPClient ntp;
olympux	30:15e23257e786	90
olympux	30:15e23257e786	91
olympux	30:15e23257e786	92	/*
olympux	30:15e23257e786	93	* Variables for network configuration, TCP server
olympux	30:15e23257e786	94	*/
olympux	30:15e23257e786	95	uint8_t u8mac[6], u8ip_addr[4];// keep mac and ip address in 8-bits
olympux	30:15e23257e786	96	uint16_t u16mac_addr[3], u16ip_addr[4], u16ip_subnet[4], u16ip_gateway[4]; // 16-bits, directly loaded from eeprom
olympux	30:15e23257e786	97	char str_ip_addr[16], str_ip_subnet[16], str_ip_gateway[16]; // for printf, converted from 16-bits u16ip_xxx
olympux	30:15e23257e786	98	uint16_t configured_ip = 0; // static ip configured flag
olympux	30:15e23257e786	99
olympux	30:15e23257e786	100	const uint16_t tcp_server_local_port = 10000; // fixed, change to 7000 if internet required
olympux	30:15e23257e786	101	const uint16_t udp_server_local_port = 11000; // fixed
olympux	30:15e23257e786	102
olympux	30:15e23257e786	103	// TCP client: this section is used for the TCP server that this device connects to in TCP client mode
olympux	30:15e23257e786	104	// this device will transmit status every transmit_time_period
olympux	30:15e23257e786	105	uint16_t auto_transmit_flag = 0, transmit_time_period = 1000; // auto transmit status, time period = 1s
olympux	30:15e23257e786	106	uint16_t u16server_ip_addr[4]; // directly loaded from eeprom
olympux	30:15e23257e786	107	uint8_t u8server_ip_addr[4]; // server ip address in 8-bits
olympux	30:15e23257e786	108	char str_server_ip_addr[16];// for printf, converted from 16-bits u16server_ip_addr
olympux	30:15e23257e786	109	uint16_t u16tcp_server_port; // directly loaded from eeprom
olympux	30:15e23257e786	110	uint16_t u16enable_tcp_client, u16enable_tcp_server;// flags for enabling TCP client or TCP server
olympux	30:15e23257e786	111
olympux	30:15e23257e786	112	#define NET_BUF_LEN 256
olympux	30:15e23257e786	113	#define RPC_BUF_LEN 256
olympux	30:15e23257e786	114	char tcp_receiving_buffer[NET_BUF_LEN];
olympux	30:15e23257e786	115	char tcp_sending_buffer[NET_BUF_LEN]; // socket buffer
olympux	30:15e23257e786	116	char udp_receiving_buffer[NET_BUF_LEN];
olympux	30:15e23257e786	117	char rpc_outbuf[RPC_BUF_LEN]; // rpc output buffer
olympux	30:15e23257e786	118
olympux	30:15e23257e786	119
olympux	30:15e23257e786	120	/*
olympux	30:15e23257e786	121	* RPC Protocol
olympux	30:15e23257e786	122	* Use the RPC enabled wrapped class - see RpcClasses.h for more info
olympux	30:15e23257e786	123	*/
olympux	27:22f289beceb8	124	// DigitalIn
olympux	27:22f289beceb8	125	RpcDigitalIn di0(PB_14, "din0");
olympux	27:22f289beceb8	126	RpcDigitalIn di1(PB_12, "din1");
olympux	27:22f289beceb8	127	RpcDigitalIn di2(PB_10, "din2");
olympux	27:22f289beceb8	128	RpcDigitalIn di3(PB_1, "din3");
olympux	27:22f289beceb8	129	RpcDigitalIn di4(PB_15, "din4");
olympux	27:22f289beceb8	130	RpcDigitalIn di5(PB_13, "din5");
olympux	27:22f289beceb8	131	RpcDigitalIn di6(PB_11, "din6");
olympux	27:22f289beceb8	132	RpcDigitalIn di7(PB_2, "din7");
olympux	11:709f90a3b599	133	DigitalIn din0(PB_14);
olympux	11:709f90a3b599	134	DigitalIn din1(PB_12);
olympux	11:709f90a3b599	135	DigitalIn din2(PB_10);
olympux	11:709f90a3b599	136	DigitalIn din3(PB_1);
olympux	11:709f90a3b599	137	DigitalIn din4(PB_15);
olympux	11:709f90a3b599	138	DigitalIn din5(PB_13);
olympux	11:709f90a3b599	139	DigitalIn din6(PB_11);
olympux	11:709f90a3b599	140	DigitalIn din7(PB_2);
olympux	27:22f289beceb8	141	// DigitalOut
olympux	27:22f289beceb8	142	RpcDigitalOut do0(PB_3, "dout0");
olympux	27:22f289beceb8	143	RpcDigitalOut do1(PB_5, "dout1");
olympux	27:22f289beceb8	144	RpcDigitalOut do2(PB_7, "dout2");
olympux	27:22f289beceb8	145	RpcDigitalOut do3(PB_9, "dout3");
olympux	27:22f289beceb8	146	RpcDigitalOut do4(PD_2, "dout4");
olympux	27:22f289beceb8	147	RpcDigitalOut do5(PB_4, "dout5");
olympux	27:22f289beceb8	148	RpcDigitalOut do6(PB_6, "dout6");
olympux	27:22f289beceb8	149	RpcDigitalOut do7(PB_8, "dout7");
olympux	11:709f90a3b599	150	DigitalOut dout0(PB_3);
olympux	11:709f90a3b599	151	DigitalOut dout1(PB_5);
olympux	11:709f90a3b599	152	DigitalOut dout2(PB_7);
olympux	11:709f90a3b599	153	DigitalOut dout3(PB_9);
olympux	11:709f90a3b599	154	DigitalOut dout4(PD_2);
olympux	11:709f90a3b599	155	DigitalOut dout5(PB_4);
olympux	11:709f90a3b599	156	DigitalOut dout6(PB_6);
olympux	11:709f90a3b599	157	DigitalOut dout7(PB_8);
olympux	27:22f289beceb8	158	// AnalogIn
olympux	27:22f289beceb8	159	RpcAnalogIn adc10(PC_0, "ain0"); // adc10
olympux	27:22f289beceb8	160	RpcAnalogIn adc11(PC_1, "ain1"); // adc11
olympux	11:709f90a3b599	161	AnalogIn ain0(PC_0);
olympux	11:709f90a3b599	162	AnalogIn ain1(PC_1);
olympux	27:22f289beceb8	163	// AnalogOut, PWM
olympux	27:22f289beceb8	164	RpcPwmOut pwm11(PA_8, "pwm0"); // pwm11
olympux	27:22f289beceb8	165	RpcPwmOut pwm21(PA_15, "pwm1"); // pwm21
olympux	27:22f289beceb8	166	// Serial
olympux	27:22f289beceb8	167	RpcSerial usart2(USBTX, USBRX, "uart"); // usart2
olympux	27:22f289beceb8	168	Serial uart(USBTX,USBRX);
olympux	27:22f289beceb8	169	// Timer
olympux	27:22f289beceb8	170	RpcTimer timer1("timer1");
olympux	20:71c7950fdd91	171	// Watchdog
olympux	20:71c7950fdd91	172	Watchdog wdt;
olympux	20:71c7950fdd91	173
olympux	20:71c7950fdd91	174
olympux	13:bcf840da68fd	175	/*
olympux	30:15e23257e786	176	* NNIO Protocol
olympux	30:15e23257e786	177	*/
olympux	9:d2534ecf88c6	178	// Commands
olympux	29:bc052f283ada	179	#define DEVICE_DESCRIPTION "NNIO"
olympux	27:22f289beceb8	180	#define DEVICE_CONFIG_CODE "NNCF"
olympux	27:22f289beceb8	181	#define DEVICE_CONTROL_CODE "NNIO"
olympux	17:88ef7a078095	182
olympux	17:88ef7a078095	183	#define RECEIVING_PROTOCOL_LENGTH 58
olympux	17:88ef7a078095	184	#define SENDING_PROTOCOL_LENGTH 39
olympux	26:09e0dd020900	185	#define QUERY_NETWORK_CONFIG_CMD_LENGTH 6
olympux	17:88ef7a078095	186	#define SET_NETWORK_CONFIG_CMD_LENGTH 19
olympux	26:09e0dd020900	187	#define UPDATE_TCP_SERVER_INFO_COMMAND_LENGTH 12
olympux	17:88ef7a078095	188
olympux	27:22f289beceb8	189	#define QUERY_DISCOVERY_CMD "NNCFDS"
olympux	27:22f289beceb8	190	#define QUERY_IP_CMD "NNCFIP"
olympux	27:22f289beceb8	191	#define QUERY_SUBNET_CMD "NNCFSN"
olympux	27:22f289beceb8	192	#define QUERY_GATEWAY_CMD "NNCFGW"
olympux	27:22f289beceb8	193	#define QUERY_MAC_CMD "NNCFMC"
olympux	27:22f289beceb8	194	#define QUERY_UDP_PORT_CMD "NNCFUP"
olympux	27:22f289beceb8	195	#define QUERY_TCP_PORT_CMD "NNCFTP"
olympux	27:22f289beceb8	196	#define QUERY_UPDATE_TIME_CMD "NNCFTM"
olympux	11:709f90a3b599	197	#define RECEIVING_PROTOCOL_ENABLE_OUTPUT 'O'
olympux	11:709f90a3b599	198	#define QUERY_STATUS_COMMAND 'Q'
olympux	11:709f90a3b599	199	#define DIGITAL_HIGH 'H'
olympux	11:709f90a3b599	200	#define DIGITAL_LOW 'L'
olympux	9:d2534ecf88c6	201
olympux	9:d2534ecf88c6	202
olympux	9:d2534ecf88c6	203	// Positions
olympux	11:709f90a3b599	204	#define RECEIVING_PROTOCOL_ID_POS 0
olympux	9:d2534ecf88c6	205	#define RECEIVING_PROTOCOL_OP_POS 4
olympux	9:d2534ecf88c6	206	#define RECEIVING_PROTOCOL_EN_DO_POS RECEIVING_PROTOCOL_OP_POS + 0
olympux	9:d2534ecf88c6	207	#define RECEIVING_PROTOCOL_EN_A0O_POS RECEIVING_PROTOCOL_OP_POS + 1
olympux	9:d2534ecf88c6	208	#define RECEIVING_PROTOCOL_EN_A1O_POS RECEIVING_PROTOCOL_OP_POS + 2
olympux	9:d2534ecf88c6	209	#define RECEIVING_PROTOCOL_EN_UART_POS RECEIVING_PROTOCOL_OP_POS + 3
olympux	9:d2534ecf88c6	210	#define RECEIVING_PROTOCOL_COMMAND_POS RECEIVING_PROTOCOL_OP_POS + 4
olympux	11:709f90a3b599	211
olympux	11:709f90a3b599	212	#define RECEIVING_PROTOCOL_IP_POS 9
olympux	11:709f90a3b599	213	#define RECEIVING_PROTOCOL_DO_POS 13
olympux	11:709f90a3b599	214	#define RECEIVING_PROTOCOL_A0O_POS 21
olympux	11:709f90a3b599	215	#define RECEIVING_PROTOCOL_A01_POS 23
olympux	11:709f90a3b599	216	#define RECEIVING_PROTOCOL_UART_POS 25
olympux	9:d2534ecf88c6	217
olympux	9:d2534ecf88c6	218
olympux	11:709f90a3b599	219	#define SENDING_PROTOCOL_ID_POS 0
olympux	11:709f90a3b599	220	#define SENDING_PROTOCOL_MAC_POS 4
olympux	11:709f90a3b599	221	#define SENDING_PROTOCOL_IP_POS 10
olympux	11:709f90a3b599	222	#define SENDING_PROTOCOL_DI_POS 14
olympux	11:709f90a3b599	223	#define SENDING_PROTOCOL_DO_POS 22
olympux	11:709f90a3b599	224	#define SENDING_PROTOCOL_AI0_POS 30
olympux	11:709f90a3b599	225	#define SENDING_PROTOCOL_AI1_POS 32
olympux	11:709f90a3b599	226	#define SENDING_PROTOCOL_AO0_POS 34
olympux	11:709f90a3b599	227	#define SENDING_PROTOCOL_AO1_POS 36
olympux	11:709f90a3b599	228	#define SENDING_PROTOCOL_CR_POS 38
olympux	0:c2eac797face	229
olympux	2:18f10e7209f4	230
olympux	2:18f10e7209f4	231	/*
olympux	2:18f10e7209f4	232	* RTOS
olympux	2:18f10e7209f4	233	*/
olympux	2:18f10e7209f4	234	struct message_t {
olympux	2:18f10e7209f4	235	int len;
olympux	2:18f10e7209f4	236	char *msg;
olympux	2:18f10e7209f4	237	};
olympux	3:972ed747474c	238	Queue<message_t, 16> uart_queue;
olympux	15:edeb0aed160d	239	Queue<bool, 1> auto_update_queue;
olympux	2:18f10e7209f4	240
olympux	2:18f10e7209f4	241
olympux	26:09e0dd020900	242
olympux	26:09e0dd020900	243	// Prototypes
olympux	26:09e0dd020900	244	int ethernet_init(void);
olympux	28:00c0c20d03c1	245	int process_control_command(char* received_buffer, int len);
olympux	26:09e0dd020900	246	void process_config_command(char* received_buffer, int len);
olympux	26:09e0dd020900	247	void update_digital_outputs(char* buf);
olympux	26:09e0dd020900	248	void update_sending_frame(char* buf);
olympux	26:09e0dd020900	249
olympux	26:09e0dd020900	250
olympux	2:18f10e7209f4	251	/*
olympux	2:18f10e7209f4	252	* Threads
olympux	2:18f10e7209f4	253	*/
olympux	15:edeb0aed160d	254	// Timer thread for auto update
olympux	15:edeb0aed160d	255	void auto_update_timer_thread(void const* args) {
olympux	18:ca499a2e7da6	256	bool update_flag = true;
olympux	15:edeb0aed160d	257
olympux	15:edeb0aed160d	258	Thread::wait(500);
olympux	15:edeb0aed160d	259	while(true) {
olympux	15:edeb0aed160d	260	auto_update_queue.put(&update_flag);
olympux	18:ca499a2e7da6	261	Thread::wait(1000*transmit_time_period); // Thread::wait() in ms
olympux	15:edeb0aed160d	262	}
olympux	15:edeb0aed160d	263	}
olympux	15:edeb0aed160d	264
olympux	15:edeb0aed160d	265
olympux	20:71c7950fdd91	266	// WDT reset
olympux	20:71c7950fdd91	267	void wdt_reset_thread(void const* args) {
olympux	20:71c7950fdd91	268	while (true)
olympux	20:71c7950fdd91	269	wdt.Service();
olympux	20:71c7950fdd91	270	}
olympux	20:71c7950fdd91	271
olympux	20:71c7950fdd91	272
olympux	4:568c97f2a407	273	int main()
olympux	4:568c97f2a407	274	{
olympux	9:d2534ecf88c6	275	int n, ret;
olympux	4:568c97f2a407	276
olympux	20:71c7950fdd91	277	Thread::wait(500); // turn on delay
olympux	20:71c7950fdd91	278
olympux	4:568c97f2a407	279	/*
olympux	9:d2534ecf88c6	280	* Configure
olympux	4:568c97f2a407	281	*/
olympux	11:709f90a3b599	282	uart.baud(115200);
olympux	18:ca499a2e7da6	283	DBG("\r\nStarting...");
olympux	20:71c7950fdd91	284
olympux	20:71c7950fdd91	285	if (wdt.WatchdogCausedReset())
olympux	20:71c7950fdd91	286	DBG("Watchdog caused reset.");
olympux	20:71c7950fdd91	287	wdt.Configure(4);
olympux	6:d054e394fba3	288
olympux	6:d054e394fba3	289	/*
olympux	6:d054e394fba3	290	* FLASH
olympux	6:d054e394fba3	291	*/
olympux	12:7c152c0ca4d8	292	load_eeprom_network();
olympux	15:edeb0aed160d	293	load_eeprom_tcpserver();
olympux	20:71c7950fdd91	294
olympux	20:71c7950fdd91	295	/*
olympux	20:71c7950fdd91	296	* UI threads
olympux	20:71c7950fdd91	297	*/
olympux	20:71c7950fdd91	298	Thread t2(auto_update_timer_thread);
olympux	20:71c7950fdd91	299	Thread t3(wdt_reset_thread);
olympux	20:71c7950fdd91	300
olympux	4:568c97f2a407	301	/*
olympux	4:568c97f2a407	302	* Ethernet
olympux	4:568c97f2a407	303	*/
olympux	6:d054e394fba3	304	ret = ethernet_init();
olympux	4:568c97f2a407	305	if (ret) {
olympux	18:ca499a2e7da6	306	ERR("Ethernet initialisation failed. App halted.");
olympux	4:568c97f2a407	307	while (true) {};
olympux	4:568c97f2a407	308	}
olympux	4:568c97f2a407	309
olympux	23:47ee805435b1	310	Thread::wait(2000); // TCP/UDP stack delay
olympux	12:7c152c0ca4d8	311
olympux	12:7c152c0ca4d8	312	/*
olympux	20:71c7950fdd91	313	* UDP server
olympux	20:71c7950fdd91	314	* TCP server/client
olympux	12:7c152c0ca4d8	315	*/
olympux	20:71c7950fdd91	316	#ifdef UDP_SERVER
olympux	20:71c7950fdd91	317	ret = udp_server.bind(udp_server_local_port);
olympux	20:71c7950fdd91	318	DBG("UDP server started (sock.bind = %d)...", ret);
olympux	20:71c7950fdd91	319	udp_server.set_blocking(false, UDP_SERVER_RECEIVE_TIMEOUT);
olympux	20:71c7950fdd91	320	#endif
olympux	20:71c7950fdd91	321
olympux	3:972ed747474c	322	#ifdef TCP_SERVER
olympux	12:7c152c0ca4d8	323	tcp_server.bind(tcp_server_local_port);
olympux	3:972ed747474c	324	tcp_server.listen();
olympux	18:ca499a2e7da6	325	DBG("TCP server started...");
olympux	4:568c97f2a407	326	tcp_server.set_blocking(false, TCP_SERVER_WAIT_CLIENT_TIMEOUT);
olympux	3:972ed747474c	327	#endif
olympux	14:18eda020a589	328
olympux	14:18eda020a589	329	#ifdef TCP_CLIENT
olympux	18:ca499a2e7da6	330
olympux	14:18eda020a589	331	#endif
olympux	3:972ed747474c	332
olympux	12:7c152c0ca4d8	333	/*
olympux	19:05934ee9ee67	334	* Network loop processor
olympux	12:7c152c0ca4d8	335	*/
olympux	0:c2eac797face	336	while (true) {
olympux	30:15e23257e786	337	#ifdef TCP_CLIENT // auto update device status to a remote TCP server
olympux	18:ca499a2e7da6	338	if (auto_transmit_flag == 0xA5A5) {
olympux	18:ca499a2e7da6	339	// connect to TCP server if required
olympux	18:ca499a2e7da6	340	if (!tcp_sock.is_connected()) {
olympux	20:71c7950fdd91	341	ret = tcp_sock.connect(str_server_ip_addr, u16tcp_server_port); // timeout is default in connect() in W5500.h
olympux	18:ca499a2e7da6	342	if (ret > -1) {
olympux	18:ca499a2e7da6	343	DBG("Successfully connected to %s on port %d", str_server_ip_addr, u16tcp_server_port);
olympux	18:ca499a2e7da6	344	}
olympux	18:ca499a2e7da6	345	else {
olympux	18:ca499a2e7da6	346	ERR("Unable to connect to %s on port %d", str_server_ip_addr, u16tcp_server_port);
olympux	18:ca499a2e7da6	347	}
olympux	16:84a5bf7285d0	348	}
olympux	18:ca499a2e7da6	349
olympux	18:ca499a2e7da6	350	// transmit data if connected
olympux	18:ca499a2e7da6	351	if (tcp_sock.is_connected()) {
olympux	18:ca499a2e7da6	352	osEvent evt = auto_update_queue.get(1); // timeout after 1ms
olympux	18:ca499a2e7da6	353	if (evt.status == osEventMessage) {
olympux	18:ca499a2e7da6	354	DBG("Updating...");
olympux	19:05934ee9ee67	355	update_sending_frame(tcp_sending_buffer);
olympux	19:05934ee9ee67	356	tcp_sock.send_all(tcp_sending_buffer, SENDING_PROTOCOL_LENGTH);
olympux	19:05934ee9ee67	357	}
olympux	19:05934ee9ee67	358
olympux	19:05934ee9ee67	359	// check to receive or timeout
olympux	19:05934ee9ee67	360	tcp_sock.set_blocking(false, TCP_CLIENT_RECEIVE_TIMEOUT);
olympux	19:05934ee9ee67	361	n = tcp_sock.receive(tcp_receiving_buffer, sizeof(tcp_receiving_buffer));
olympux	19:05934ee9ee67	362	if (n > 0) {
olympux	19:05934ee9ee67	363	// got some data, test it
olympux	19:05934ee9ee67	364	DBG("TCP client received %d bytes: %s", n, tcp_receiving_buffer);
olympux	26:09e0dd020900	365	process_control_command(tcp_receiving_buffer, n);
olympux	18:ca499a2e7da6	366	}
olympux	16:84a5bf7285d0	367	}
olympux	18:ca499a2e7da6	368	} // if tcp client enabled && auto transmit
olympux	15:edeb0aed160d	369	#endif
olympux	15:edeb0aed160d	370
olympux	15:edeb0aed160d	371
olympux	30:15e23257e786	372	#ifdef TCP_SERVER // control and monitor from a remote TCP client, both NNIO and RPC-style
olympux	30:15e23257e786	373	// no tcp client connected{
olympux	20:71c7950fdd91	374	if (1) {
olympux	4:568c97f2a407	375	// wait for client within timeout
olympux	4:568c97f2a407	376	ret = tcp_server.accept(tcp_client);
olympux	2:18f10e7209f4	377
olympux	4:568c97f2a407	378	// tcp client connected
olympux	4:568c97f2a407	379	if (ret > -1) {
olympux	18:ca499a2e7da6	380	DBG("Connection from: %s", tcp_client.get_address());
olympux	4:568c97f2a407	381
olympux	4:568c97f2a407	382	// loop waiting and receiving data within timeout
olympux	4:568c97f2a407	383	tcp_client.set_blocking(false, TCP_SERVER_RECEIVE_TIMEOUT); // Timeout after x seconds
olympux	4:568c97f2a407	384	while (true) {
olympux	19:05934ee9ee67	385	n = tcp_client.receive(tcp_receiving_buffer, sizeof(tcp_receiving_buffer));
olympux	4:568c97f2a407	386	if (n <= 0) break;
olympux	4:568c97f2a407	387
olympux	28:00c0c20d03c1	388	// got some data, process it
olympux	27:22f289beceb8	389	tcp_receiving_buffer[n] = '\0'; // for debugging purpose
olympux	19:05934ee9ee67	390	DBG("TCP server received: %s", tcp_receiving_buffer);
olympux	28:00c0c20d03c1	391	n = process_control_command(tcp_receiving_buffer, n);
olympux	28:00c0c20d03c1	392	// send rpc reply back to client, NNIO protocol always returns 0
olympux	28:00c0c20d03c1	393	if (n > 0) {
olympux	29:bc052f283ada	394	rpc_outbuf[n] = '\0';
olympux	28:00c0c20d03c1	395	tcp_client.send_all(rpc_outbuf, strlen(rpc_outbuf));
olympux	28:00c0c20d03c1	396	}
olympux	4:568c97f2a407	397	} // end loop if no data received within timeout
olympux	4:568c97f2a407	398	} // if client connected
olympux	20:71c7950fdd91	399	tcp_client.close();
olympux	18:ca499a2e7da6	400	} // if tcp server enabled && no client connected
olympux	3:972ed747474c	401	#endif
olympux	20:71c7950fdd91	402
olympux	30:15e23257e786	403	#ifdef UDP_SERVER // configuration and control, both NNIO and RPC-style
olympux	27:22f289beceb8	404	bool discovery_mode_flag, config_mode_flag;
olympux	25:48dd18cc147c	405
olympux	19:05934ee9ee67	406	n = udp_server.receiveFrom(ep_udp_client, udp_receiving_buffer, sizeof(udp_receiving_buffer));
olympux	25:48dd18cc147c	407
olympux	25:48dd18cc147c	408	// check to see if it is a query command
olympux	25:48dd18cc147c	409	// if yes, is it a discovery command or an ip query to enter config mode
olympux	27:22f289beceb8	410	discovery_mode_flag = false;
olympux	25:48dd18cc147c	411	config_mode_flag = false;
olympux	26:09e0dd020900	412	if ((n == QUERY_NETWORK_CONFIG_CMD_LENGTH) && (strstr(udp_receiving_buffer, QUERY_DISCOVERY_CMD) != NULL)) {
olympux	27:22f289beceb8	413	discovery_mode_flag = true;
olympux	25:48dd18cc147c	414	DBG("Received discovery command");
olympux	25:48dd18cc147c	415	char str[50];
olympux	29:bc052f283ada	416	sprintf(str, "%s%s%s", DEVICE_DESCRIPTION, eth.getMACAddress(), eth.getIPAddress());
olympux	25:48dd18cc147c	417	udp_server.sendTo(ep_udp_client, str, strlen(str));
olympux	27:22f289beceb8	418	} // NNCFDS
olympux	26:09e0dd020900	419	else if ((n == QUERY_NETWORK_CONFIG_CMD_LENGTH) && (strstr(udp_receiving_buffer, QUERY_IP_CMD) != NULL)) {
olympux	25:48dd18cc147c	420	config_mode_flag = true;
olympux	27:22f289beceb8	421	DBG("Entered configuration mode...");
olympux	20:71c7950fdd91	422	DBG("!!! RESET when finished");
olympux	27:22f289beceb8	423	} // NNCFIP
olympux	25:48dd18cc147c	424
olympux	27:22f289beceb8	425	// if received NNCFIP, enter config mode
olympux	25:48dd18cc147c	426	if (config_mode_flag) {
olympux	26:09e0dd020900	427	while (n > 0)
olympux	26:09e0dd020900	428	{
olympux	20:71c7950fdd91	429	// got some data, test it
olympux	27:22f289beceb8	430	DBG("UDP received (%s) from (%s:%d)", udp_receiving_buffer, ep_udp_client.get_address(), ep_udp_client.get_port());
olympux	26:09e0dd020900	431	process_config_command(udp_receiving_buffer, n);
olympux	20:71c7950fdd91	432	// wait to receive new config command
olympux	20:71c7950fdd91	433	udp_server.set_blocking(true);
olympux	20:71c7950fdd91	434	n = udp_server.receiveFrom(ep_udp_client, udp_receiving_buffer, sizeof(udp_receiving_buffer));
olympux	26:09e0dd020900	435	} // while (n > 0), config loop
olympux	25:48dd18cc147c	436	} // if (config_mode_flag)
olympux	29:bc052f283ada	437	// process control packages sent using UDP
olympux	29:bc052f283ada	438	else if ((n > 0) && (!discovery_mode_flag)) {
olympux	28:00c0c20d03c1	439	n = process_control_command(udp_receiving_buffer, n);
olympux	28:00c0c20d03c1	440	// send rpc reply back to client, NNIO protocol always returns 0
olympux	28:00c0c20d03c1	441	if (n > 0) {
olympux	29:bc052f283ada	442	rpc_outbuf[n] = '\0';
olympux	28:00c0c20d03c1	443	udp_server.sendTo(ep_udp_client, rpc_outbuf, strlen(rpc_outbuf));
olympux	28:00c0c20d03c1	444	}
olympux	25:48dd18cc147c	445	}
olympux	3:972ed747474c	446	#endif
olympux	4:568c97f2a407	447	} // network processor
olympux	11:709f90a3b599	448	}
olympux	11:709f90a3b599	449
olympux	26:09e0dd020900	450
olympux	28:00c0c20d03c1	451	/*
olympux	28:00c0c20d03c1	452	* Process NNCF commands
olympux	28:00c0c20d03c1	453	*/
olympux	26:09e0dd020900	454	void process_config_command(char* received_buffer, int len)
olympux	26:09e0dd020900	455	{
olympux	27:22f289beceb8	456	DBG("Processing configuration command");
olympux	27:22f289beceb8	457
olympux	26:09e0dd020900	458	// a configuration command always starts with NN
olympux	27:22f289beceb8	459	if ((received_buffer[0] == 'N') && (received_buffer[1] == 'N') &&
olympux	27:22f289beceb8	460	(received_buffer[2] == 'C') && (received_buffer[3] == 'F')) {
olympux	26:09e0dd020900	461	switch (len) {
olympux	26:09e0dd020900	462	// length = 6, a QUERY command (discovery command, TCP port, or UDP port)
olympux	27:22f289beceb8	463	// Format: NNCFDS, NNCFTP, NNCFUP, NNCFTM
olympux	30:15e23257e786	464	case QUERY_NETWORK_CONFIG_CMD_LENGTH: {
olympux	26:09e0dd020900	465	if (strstr(received_buffer, QUERY_IP_CMD) != NULL) {
olympux	26:09e0dd020900	466	udp_server.sendTo(ep_udp_client, eth.getIPAddress(), strlen(eth.getIPAddress()));
olympux	27:22f289beceb8	467	} // NNCFIP
olympux	26:09e0dd020900	468	else if (strstr(received_buffer, QUERY_SUBNET_CMD) != NULL) {
olympux	26:09e0dd020900	469	udp_server.sendTo(ep_udp_client, eth.getNetworkMask(), strlen(eth.getNetworkMask()));
olympux	27:22f289beceb8	470	} // NNCFSN
olympux	26:09e0dd020900	471	else if (strstr(received_buffer, QUERY_GATEWAY_CMD) != NULL) {
olympux	26:09e0dd020900	472	udp_server.sendTo(ep_udp_client, eth.getGateway(), strlen(eth.getGateway()));
olympux	27:22f289beceb8	473	} // NNCFGW
olympux	26:09e0dd020900	474	else if (strstr(received_buffer, QUERY_MAC_CMD) != NULL) {
olympux	26:09e0dd020900	475	udp_server.sendTo(ep_udp_client, eth.getMACAddress(), strlen(eth.getMACAddress()));
olympux	27:22f289beceb8	476	} // NNCFMC
olympux	26:09e0dd020900	477	// ask for TCP server port
olympux	26:09e0dd020900	478	else if (strstr(received_buffer, QUERY_TCP_PORT_CMD) != NULL) {
olympux	26:09e0dd020900	479	char port[5];
olympux	26:09e0dd020900	480	sprintf(port, "%5d", tcp_server_local_port);
olympux	26:09e0dd020900	481	udp_server.sendTo(ep_udp_client, port, strlen(port));
olympux	27:22f289beceb8	482	} // NNCFTP
olympux	26:09e0dd020900	483	// ask for UDP server port
olympux	26:09e0dd020900	484	else if (strstr(received_buffer, QUERY_UDP_PORT_CMD) != NULL) {
olympux	26:09e0dd020900	485	char port[5];
olympux	26:09e0dd020900	486	sprintf(port, "%5d", udp_server_local_port);
olympux	26:09e0dd020900	487	udp_server.sendTo(ep_udp_client, port, strlen(port));
olympux	27:22f289beceb8	488	} // NNCFUP
olympux	26:09e0dd020900	489	else if (strstr(received_buffer, QUERY_UPDATE_TIME_CMD) != NULL) {
olympux	26:09e0dd020900	490	#ifdef NTP
olympux	26:09e0dd020900	491	char str_time[50];
olympux	26:09e0dd020900	492
olympux	26:09e0dd020900	493	DBG("Trying to update time...");
olympux	26:09e0dd020900	494	if (ntp.setTime("0.pool.ntp.org") == 0) {
olympux	26:09e0dd020900	495	DBG("Set time successfully");
olympux	26:09e0dd020900	496	time_t ctTime;
olympux	26:09e0dd020900	497	ctTime = time(NULL);
olympux	26:09e0dd020900	498
olympux	26:09e0dd020900	499	DBG("Time is set to (UTC): %s", ctime(&ctTime));
olympux	26:09e0dd020900	500	sprintf(str_time, "%s", ctime(&ctTime));
olympux	26:09e0dd020900	501	udp_server.sendTo(ep_udp_client, str_time, strlen(str_time));
olympux	26:09e0dd020900	502	} else {
olympux	26:09e0dd020900	503	WARN("Error");
olympux	26:09e0dd020900	504	sprintf(str_time, "ERR");
olympux	26:09e0dd020900	505	udp_server.sendTo(ep_udp_client, str_time, strlen(str_time));
olympux	26:09e0dd020900	506	}
olympux	26:09e0dd020900	507	#elif
olympux	26:09e0dd020900	508	WARN("NTP disabled");
olympux	26:09e0dd020900	509	sprintf(str_time, "DIS");
olympux	26:09e0dd020900	510	udp_server.sendTo(ep_udp_client, str_time, strlen(str_time));
olympux	26:09e0dd020900	511	#endif
olympux	27:22f289beceb8	512	} // NNCFTM
olympux	26:09e0dd020900	513	break;
olympux	30:15e23257e786	514	}
olympux	30:15e23257e786	515	// length = 19, SET NETWORK CONFIGURATION
olympux	30:15e23257e786	516	// Format: 4E 4E 43 46 C0 A8 00 78 FF FF FF 00 C0 A8 00 01 00 00 01
olympux	30:15e23257e786	517	// (NNCF; IP: 192.168.0.120; Subnet: 255.255.255.0; GW: 192.168.0.1; MAC: 0 0 1)
olympux	26:09e0dd020900	518	case SET_NETWORK_CONFIG_CMD_LENGTH: {
olympux	26:09e0dd020900	519	// check device id
olympux	27:22f289beceb8	520	char* id = strstr(received_buffer, DEVICE_CONFIG_CODE);
olympux	26:09e0dd020900	521	if (id == NULL)
olympux	26:09e0dd020900	522	break;
olympux	26:09e0dd020900	523	else if ((id - received_buffer) > 0)
olympux	26:09e0dd020900	524	break;
olympux	26:09e0dd020900	525
olympux	26:09e0dd020900	526	DBG("Received user configuration");
olympux	27:22f289beceb8	527	write_eeprom_network(&received_buffer[strlen(DEVICE_CONFIG_CODE)]); // parameters from 5th char, 15-bytes
olympux	26:09e0dd020900	528	break;
olympux	26:09e0dd020900	529	}
olympux	26:09e0dd020900	530	// length = 12, SET TCP SERVER CONFIGURATION
olympux	26:09e0dd020900	531	// auto update & its time period, TCP server configuration (IP & port)
olympux	27:22f289beceb8	532	// Format: 4E 4E 43 46 'Y' 01 C0 A8 00 09 E0 2E (LSB MSB)
olympux	27:22f289beceb8	533	// NNCF Auto 1s 192.168.0.9 12000
olympux	26:09e0dd020900	534	case UPDATE_TCP_SERVER_INFO_COMMAND_LENGTH: {
olympux	27:22f289beceb8	535	char* id = strstr(received_buffer, DEVICE_CONFIG_CODE);
olympux	26:09e0dd020900	536	if (id == NULL)
olympux	26:09e0dd020900	537	break;
olympux	26:09e0dd020900	538	else if ((id - received_buffer) > 0)
olympux	26:09e0dd020900	539	break;
olympux	26:09e0dd020900	540
olympux	26:09e0dd020900	541	DBG("Received TCP server configuration");
olympux	27:22f289beceb8	542	write_eeprom_tcpserver(&received_buffer[strlen(DEVICE_CONFIG_CODE)]); // parameters from 5th char
olympux	26:09e0dd020900	543	break;
olympux	26:09e0dd020900	544	}
olympux	26:09e0dd020900	545	default:
olympux	26:09e0dd020900	546	break;
olympux	26:09e0dd020900	547	} // switch (n), check configuration command length
olympux	27:22f289beceb8	548	} // if starts with NNCF, a config command
olympux	30:15e23257e786	549	else { // if not a configuration command
olympux	26:09e0dd020900	550	}
olympux	26:09e0dd020900	551	}
olympux	26:09e0dd020900	552
olympux	12:7c152c0ca4d8	553	/*
olympux	30:15e23257e786	554	* Procedure to process receiving protocol, which includes command to control outputs.
olympux	30:15e23257e786	555	* Support both NNIO and RPC-style commands.
olympux	30:15e23257e786	556	* RPC always starts with '/'.
olympux	30:15e23257e786	557	* Return:
olympux	30:15e23257e786	558	* 0 if NNIO protocol;
olympux	30:15e23257e786	559	* length of rpc output buffer if rpc;
olympux	30:15e23257e786	560	* -1 if rpc failed
olympux	28:00c0c20d03c1	561	*/
olympux	28:00c0c20d03c1	562	int process_control_command(char* received_buffer, int len)
olympux	26:09e0dd020900	563	{
olympux	26:09e0dd020900	564	char* received_frame;
olympux	30:15e23257e786	565	bool rpc_style;
olympux	26:09e0dd020900	566	int pos;
olympux	29:bc052f283ada	567	char inbuf[RPC_BUF_LEN];
olympux	26:09e0dd020900	568
olympux	27:22f289beceb8	569	DBG("Processing control command");
olympux	27:22f289beceb8	570
olympux	30:15e23257e786	571	/*
olympux	30:15e23257e786	572	* This section is for RPC-style command
olympux	30:15e23257e786	573	*/
olympux	30:15e23257e786	574	// check if it is a RPC-style command
olympux	30:15e23257e786	575	rpc_style = false;
olympux	27:22f289beceb8	576	strncpy(inbuf, received_buffer, len);
olympux	27:22f289beceb8	577	inbuf[len] = '\r'; // use inbuf for RPC protocol
olympux	27:22f289beceb8	578	inbuf[len+1] = '\n';
olympux	27:22f289beceb8	579	inbuf[len+2] = '\0'; // add CR-LF
olympux	27:22f289beceb8	580	if ((len > 0) && (inbuf[0] == '/')) {
olympux	29:bc052f283ada	581	char obj_name[32];
olympux	27:22f289beceb8	582	bool result;
olympux	29:bc052f283ada	583
olympux	30:15e23257e786	584	rpc_style = true;
olympux	29:bc052f283ada	585	// find RPC object name
olympux	29:bc052f283ada	586	for (int i = 1; i < strlen(inbuf); i++) {
olympux	29:bc052f283ada	587	if (inbuf[i] != '/') {
olympux	29:bc052f283ada	588	obj_name[i-1] = inbuf[i];
olympux	29:bc052f283ada	589	}
olympux	29:bc052f283ada	590	else {
olympux	29:bc052f283ada	591	obj_name[i-1] = '\0';
olympux	29:bc052f283ada	592	break;
olympux	29:bc052f283ada	593	}
olympux	29:bc052f283ada	594	}
olympux	28:00c0c20d03c1	595	DBG("Rpc command = %s", inbuf);
olympux	29:bc052f283ada	596	/*
olympux	29:bc052f283ada	597	* execute RPC command, return reply length and reply in rpc_outbuf
olympux	29:bc052f283ada	598	*/
olympux	28:00c0c20d03c1	599	result = RPC::call(inbuf, rpc_outbuf);
olympux	27:22f289beceb8	600	if (result) {
olympux	29:bc052f283ada	601	// re-arrange output buffer as following: object_name:output_value
olympux	29:bc052f283ada	602	strcpy(inbuf, rpc_outbuf); // use inbuf as temp
olympux	29:bc052f283ada	603	strcpy(rpc_outbuf, obj_name); // rpc object name
olympux	29:bc052f283ada	604	strcat(rpc_outbuf, ":");
olympux	29:bc052f283ada	605	strcat(rpc_outbuf, inbuf); // concat rpc reply
olympux	29:bc052f283ada	606	strcat(rpc_outbuf, "\r\n"); // CR-LF
olympux	29:bc052f283ada	607	int j = strlen(rpc_outbuf);
olympux	29:bc052f283ada	608	DBG("Reply of rpc command on \"%s\" (%d bytes): %s", obj_name, j, rpc_outbuf);
olympux	29:bc052f283ada	609	return j; // return length of rpc_outbuf
olympux	27:22f289beceb8	610	}
olympux	27:22f289beceb8	611	else {
olympux	27:22f289beceb8	612	ERR("Failed: %s", inbuf);
olympux	28:00c0c20d03c1	613	return -1;
olympux	27:22f289beceb8	614	}
olympux	27:22f289beceb8	615	}
olympux	27:22f289beceb8	616
olympux	28:00c0c20d03c1	617	/*
olympux	28:00c0c20d03c1	618	* This section below is for NNIO protocol
olympux	28:00c0c20d03c1	619	*/
olympux	30:15e23257e786	620	while ((!rpc_style) && (len >= RECEIVING_PROTOCOL_LENGTH)) {
olympux	26:09e0dd020900	621	// find device ID
olympux	26:09e0dd020900	622	DBG("Checking device ID...");
olympux	27:22f289beceb8	623	char* id = strstr(received_buffer, DEVICE_CONTROL_CODE);
olympux	26:09e0dd020900	624	if (id == NULL) {
olympux	26:09e0dd020900	625	DBG("No device ID found");
olympux	26:09e0dd020900	626	break;
olympux	26:09e0dd020900	627	}
olympux	26:09e0dd020900	628	pos = id - received_buffer;
olympux	26:09e0dd020900	629	DBG("Found a frame at %d", pos);
olympux	26:09e0dd020900	630
olympux	26:09e0dd020900	631	// extract this frame
olympux	26:09e0dd020900	632	received_frame = &received_buffer[pos];
olympux	26:09e0dd020900	633	// calculate the rest
olympux	26:09e0dd020900	634	received_buffer = &received_buffer[pos + RECEIVING_PROTOCOL_LENGTH];
olympux	26:09e0dd020900	635	len -= RECEIVING_PROTOCOL_LENGTH;
olympux	26:09e0dd020900	636
olympux	26:09e0dd020900	637	// process this received frame
olympux	26:09e0dd020900	638	// firstly, update outputs if required
olympux	26:09e0dd020900	639	// digital outputs
olympux	26:09e0dd020900	640	if (received_frame[RECEIVING_PROTOCOL_EN_DO_POS] == RECEIVING_PROTOCOL_ENABLE_OUTPUT) {
olympux	26:09e0dd020900	641	DBG("Update digital outputs");
olympux	26:09e0dd020900	642	char str_dout[9];
olympux	26:09e0dd020900	643	memcpy(str_dout, &received_frame[RECEIVING_PROTOCOL_DO_POS], 8);
olympux	26:09e0dd020900	644	str_dout[8] = '\0';
olympux	26:09e0dd020900	645	update_digital_outputs(str_dout);
olympux	26:09e0dd020900	646	}
olympux	26:09e0dd020900	647	// analog output 0
olympux	26:09e0dd020900	648	if (received_frame[RECEIVING_PROTOCOL_EN_A0O_POS] == RECEIVING_PROTOCOL_ENABLE_OUTPUT) {
olympux	26:09e0dd020900	649	DBG("Update analog output 0");
olympux	26:09e0dd020900	650	//TODO Update analog output
olympux	26:09e0dd020900	651	}
olympux	26:09e0dd020900	652	// analog output 1
olympux	26:09e0dd020900	653	if (received_buffer[RECEIVING_PROTOCOL_EN_A1O_POS] == RECEIVING_PROTOCOL_ENABLE_OUTPUT) {
olympux	26:09e0dd020900	654	DBG("Update analog output 1");
olympux	26:09e0dd020900	655	//TODO Update analog output
olympux	26:09e0dd020900	656	}
olympux	26:09e0dd020900	657	// UART
olympux	26:09e0dd020900	658	if (received_frame[RECEIVING_PROTOCOL_EN_UART_POS] == RECEIVING_PROTOCOL_ENABLE_OUTPUT) {
olympux	26:09e0dd020900	659	DBG("UART data: ");
olympux	26:09e0dd020900	660	char str_uart[33];
olympux	26:09e0dd020900	661	memcpy(str_uart, &received_frame[RECEIVING_PROTOCOL_UART_POS], 32);
olympux	26:09e0dd020900	662	str_uart[32] = '\0';
olympux	26:09e0dd020900	663	uart.printf("%s\r\n", str_uart);
olympux	26:09e0dd020900	664	}
olympux	26:09e0dd020900	665
olympux	26:09e0dd020900	666	// then, check query status command and sending protocol if required
olympux	26:09e0dd020900	667	if (received_frame[RECEIVING_PROTOCOL_COMMAND_POS] == QUERY_STATUS_COMMAND) {
olympux	26:09e0dd020900	668	DBG("Requested to send device status through TCP");
olympux	26:09e0dd020900	669	// sending protocol
olympux	26:09e0dd020900	670	update_sending_frame(tcp_sending_buffer);
olympux	26:09e0dd020900	671	tcp_client.send_all(tcp_sending_buffer, SENDING_PROTOCOL_LENGTH);
olympux	26:09e0dd020900	672	DBG("Sent");
olympux	26:09e0dd020900	673	}
olympux	26:09e0dd020900	674	}
olympux	28:00c0c20d03c1	675
olympux	27:22f289beceb8	676	DBG("Successfully processed.");
olympux	28:00c0c20d03c1	677	return 0;
olympux	26:09e0dd020900	678	}
olympux	26:09e0dd020900	679
olympux	26:09e0dd020900	680
olympux	26:09e0dd020900	681	/*
olympux	26:09e0dd020900	682	* W5500 Ethernet init
olympux	26:09e0dd020900	683	*/
olympux	26:09e0dd020900	684	int ethernet_init(void) {
olympux	26:09e0dd020900	685	int dhcp_ret, ret;
olympux	26:09e0dd020900	686
olympux	27:22f289beceb8	687	DBG("Initialising ethernet...");
olympux	26:09e0dd020900	688
olympux	26:09e0dd020900	689	// if not configured, try dhcp
olympux	26:09e0dd020900	690	dhcp_ret = -1;
olympux	26:09e0dd020900	691	if (configured_ip != DEFAULT_ENABLE_FLAG_VALUE) {
olympux	27:22f289beceb8	692	DBG("Connecting to DHCP server...");
olympux	26:09e0dd020900	693	dhcp_ret = eth.init(u8mac);
olympux	26:09e0dd020900	694	if (dhcp_ret == 0)
olympux	26:09e0dd020900	695	dhcp_ret = eth.connect();
olympux	26:09e0dd020900	696	}
olympux	26:09e0dd020900	697
olympux	26:09e0dd020900	698	if (dhcp_ret != 0) {
olympux	26:09e0dd020900	699	DBG("No DHCP, load static IP configuration");
olympux	26:09e0dd020900	700	ret = eth.init(u8mac, str_ip_addr, str_ip_subnet, str_ip_gateway); // static
olympux	26:09e0dd020900	701	} else {
olympux	26:09e0dd020900	702	snprintf(str_ip_addr, 16, "%s", eth.getIPAddress());
olympux	26:09e0dd020900	703	snprintf(str_ip_subnet, 16, "%s", eth.getNetworkMask());
olympux	26:09e0dd020900	704	snprintf(str_ip_gateway, 16, "%s", eth.getGateway());
olympux	26:09e0dd020900	705	ret = 0;
olympux	26:09e0dd020900	706	}
olympux	26:09e0dd020900	707
olympux	26:09e0dd020900	708	if (ret == 0) {
olympux	26:09e0dd020900	709	DBG("Initialized, MAC: %s", eth.getMACAddress());
olympux	26:09e0dd020900	710	} else {
olympux	26:09e0dd020900	711	ERR("Error eth.init() - ret = %d", ret);
olympux	26:09e0dd020900	712	return -1;
olympux	26:09e0dd020900	713	}
olympux	26:09e0dd020900	714
olympux	26:09e0dd020900	715	ret = eth.connect();
olympux	26:09e0dd020900	716	if (!ret) {
olympux	26:09e0dd020900	717	DBG("IP: %s, MASK: %s, GW: %s", eth.getIPAddress(), eth.getNetworkMask(), eth.getGateway());
olympux	26:09e0dd020900	718	} else {
olympux	26:09e0dd020900	719	ERR("Error eth.connect() - ret = %d", ret);
olympux	26:09e0dd020900	720	return -1;
olympux	26:09e0dd020900	721	}
olympux	26:09e0dd020900	722
olympux	26:09e0dd020900	723	return 0;
olympux	26:09e0dd020900	724	}
olympux	26:09e0dd020900	725
olympux	26:09e0dd020900	726
olympux	26:09e0dd020900	727	/*
olympux	26:09e0dd020900	728	* Update digital outputs according to receiving protocol
olympux	12:7c152c0ca4d8	729	*/
olympux	12:7c152c0ca4d8	730	void update_digital_outputs(char* buf) {
olympux	18:ca499a2e7da6	731	DBG("Digital outputs: %s", buf);
olympux	11:709f90a3b599	732
olympux	12:7c152c0ca4d8	733	dout0 = (buf[0] == DIGITAL_HIGH)? 1 : 0;
olympux	12:7c152c0ca4d8	734	dout1 = (buf[1] == DIGITAL_HIGH)? 1 : 0;
olympux	12:7c152c0ca4d8	735	dout2 = (buf[2] == DIGITAL_HIGH)? 1 : 0;
olympux	12:7c152c0ca4d8	736	dout3 = (buf[3] == DIGITAL_HIGH)? 1 : 0;
olympux	12:7c152c0ca4d8	737	dout4 = (buf[4] == DIGITAL_HIGH)? 1 : 0;
olympux	12:7c152c0ca4d8	738	dout5 = (buf[5] == DIGITAL_HIGH)? 1 : 0;
olympux	12:7c152c0ca4d8	739	dout6 = (buf[6] == DIGITAL_HIGH)? 1 : 0;
olympux	12:7c152c0ca4d8	740	dout7 = (buf[7] == DIGITAL_HIGH)? 1 : 0;
olympux	12:7c152c0ca4d8	741	}
olympux	12:7c152c0ca4d8	742
olympux	26:09e0dd020900	743	/*
olympux	26:09e0dd020900	744	* Prepare a frame for sending protocol, which includes status of I/Os
olympux	26:09e0dd020900	745	*/
olympux	12:7c152c0ca4d8	746	void update_sending_frame(char* buf) {
olympux	27:22f289beceb8	747	memcpy(&buf[SENDING_PROTOCOL_ID_POS], DEVICE_CONTROL_CODE, 4); // device id
olympux	12:7c152c0ca4d8	748	memcpy(&buf[SENDING_PROTOCOL_MAC_POS], &u8mac, 6);
olympux	12:7c152c0ca4d8	749	memcpy(&buf[SENDING_PROTOCOL_IP_POS], &u8ip_addr, 4);
olympux	11:709f90a3b599	750
olympux	12:7c152c0ca4d8	751	buf[SENDING_PROTOCOL_DI_POS+0] = (din0 == 1) ? DIGITAL_HIGH : DIGITAL_LOW;
olympux	12:7c152c0ca4d8	752	buf[SENDING_PROTOCOL_DI_POS+1] = (din1 == 1) ? DIGITAL_HIGH : DIGITAL_LOW;
olympux	12:7c152c0ca4d8	753	buf[SENDING_PROTOCOL_DI_POS+2] = (din2 == 1) ? DIGITAL_HIGH : DIGITAL_LOW;
olympux	12:7c152c0ca4d8	754	buf[SENDING_PROTOCOL_DI_POS+3] = (din3 == 1) ? DIGITAL_HIGH : DIGITAL_LOW;
olympux	12:7c152c0ca4d8	755	buf[SENDING_PROTOCOL_DI_POS+4] = (din4 == 1) ? DIGITAL_HIGH : DIGITAL_LOW;
olympux	12:7c152c0ca4d8	756	buf[SENDING_PROTOCOL_DI_POS+5] = (din5 == 1) ? DIGITAL_HIGH : DIGITAL_LOW;
olympux	12:7c152c0ca4d8	757	buf[SENDING_PROTOCOL_DI_POS+6] = (din6 == 1) ? DIGITAL_HIGH : DIGITAL_LOW;
olympux	12:7c152c0ca4d8	758	buf[SENDING_PROTOCOL_DI_POS+7] = (din7 == 1) ? DIGITAL_HIGH : DIGITAL_LOW;
olympux	11:709f90a3b599	759
olympux	12:7c152c0ca4d8	760	buf[SENDING_PROTOCOL_DO_POS+0] = (dout0 == 1) ? DIGITAL_HIGH : DIGITAL_LOW;
olympux	12:7c152c0ca4d8	761	buf[SENDING_PROTOCOL_DO_POS+1] = (dout1 == 1) ? DIGITAL_HIGH : DIGITAL_LOW;
olympux	12:7c152c0ca4d8	762	buf[SENDING_PROTOCOL_DO_POS+2] = (dout2 == 1) ? DIGITAL_HIGH : DIGITAL_LOW;
olympux	12:7c152c0ca4d8	763	buf[SENDING_PROTOCOL_DO_POS+3] = (dout3 == 1) ? DIGITAL_HIGH : DIGITAL_LOW;
olympux	12:7c152c0ca4d8	764	buf[SENDING_PROTOCOL_DO_POS+4] = (dout4 == 1) ? DIGITAL_HIGH : DIGITAL_LOW;
olympux	12:7c152c0ca4d8	765	buf[SENDING_PROTOCOL_DO_POS+5] = (dout5 == 1) ? DIGITAL_HIGH : DIGITAL_LOW;
olympux	12:7c152c0ca4d8	766	buf[SENDING_PROTOCOL_DO_POS+6] = (dout6 == 1) ? DIGITAL_HIGH : DIGITAL_LOW;
olympux	12:7c152c0ca4d8	767	buf[SENDING_PROTOCOL_DO_POS+7] = (dout7 == 1) ? DIGITAL_HIGH : DIGITAL_LOW;
olympux	11:709f90a3b599	768
olympux	15:edeb0aed160d	769	uint16_t val = ain0.read_u16(); // 16-bits normalised
olympux	15:edeb0aed160d	770	memcpy(&buf[SENDING_PROTOCOL_AI0_POS], &val, 2); // LSB MSB
olympux	15:edeb0aed160d	771	val = ain1.read_u16(); // 16-bits normalised
olympux	15:edeb0aed160d	772	memcpy(&buf[SENDING_PROTOCOL_AI1_POS], &val, 2); // LSB MSB
olympux	23:47ee805435b1	773	val = 0x1234;
olympux	15:edeb0aed160d	774	memcpy(&buf[SENDING_PROTOCOL_AO0_POS], &val, 2); // LSB MSB
olympux	23:47ee805435b1	775	val = 0x5678;
olympux	15:edeb0aed160d	776	memcpy(&buf[SENDING_PROTOCOL_AO1_POS], &val, 2); // LSB MSB
olympux	12:7c152c0ca4d8	777	buf[SENDING_PROTOCOL_CR_POS] = 0x0D;
olympux	12:7c152c0ca4d8	778	buf[SENDING_PROTOCOL_CR_POS+1] = '\0';
olympux	4:568c97f2a407	779	}

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	19 Aug 2016
Imports:	28
Forks:	0
Commits:	48
Dependents:	0
Dependencies:	8
Followers:	1

main.cpp@30:15e23257e786, 2015-01-11 (annotated)

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