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xiuos/APP_Framework/Applications/webserver/webserver_project.c

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// Copyright (c) 2022 Cesanta Software Limited
// All rights reserved
//
// UI example
// It implements the following endpoints:
// /api/config/get - respond with current config
// /api/config/set - POST a config change
// any other URI serves static files from s_root_dir
// Data and results are JSON strings
/**
* @file webserver_project.c
* @brief support webserver_project for XiUOS
* @version 3.0
* @author AIIT XUOS Lab
* @date 2023-11-07
*/
/*************************************************
File name: webserver_project.c
Description: support webserver_project for XiUOS
Others:
History:
1. Date: 2023-11-07
Author: AIIT XUOS Lab
Modification:
1、support xishutong-arm32 board, using W5500 to support webserver.
2. Date: 2024-1-3
Author: AIIT XUOS Lab
Modification:
1、support xishutong board(single ethernet port), using MAC to support webserver
*************************************************/
#include "ip_addr.h"
#include "mongoose.h"
#include "netdev.h"
#include <sys_arch.h>
#include <lwip/sockets.h>
#include "lwip/sys.h"
#ifdef APPLICATION_WEBSERVER_XISHUTONG_4G
#include <adapter.h>
#endif
/*******************************************************************************
* Local variable definitions ('static')
******************************************************************************/
char index_path[] = "login.html";
static const char* s_http_addr = "http://192.168.131.88:8000"; // HTTP port
static const char* s_root_dir = "webserver";
static const char* s_enable_hexdump = "no";
static const char* s_ssi_pattern = "#.html";
static const char* web_version = "XiUOS WebServer 1.0";
static const char* net_carrier_china_mobile = "中国移动";
static const char* net_carrier_china_unicom = "中国联通";
static const char* net_carrier_china_telecom = "中国电信";
static struct netdev* p_netdev_webserver;
static struct netdev* p_netdev_ethernet;
static pthread_t tid;
#define WB_EVENT_TASK_STACK_SIZE 4096
#define WB_EVENT_TASK_PRIO 20
#define WB_4G_CONNECT 0x0001
#define WB_4G_DISCONNECT 0x0002
#define WB_MQTT_CONNECT 0x0004
#define WB_MQTT_DISCONNECT 0x0008
#define WB_LORA_CONNECT 0x0010
#define WB_LORA_DISCONNECT 0x0020
#define WB_ETHERNET_CONNECT 0x0040
#define WB_ETHERNET_DISCONNECT 0x0080
#define WB_EVENT_ALL (WB_4G_CONNECT | WB_4G_DISCONNECT | \
WB_MQTT_CONNECT | WB_MQTT_DISCONNECT | \
WB_LORA_CONNECT | WB_LORA_DISCONNECT | \
WB_ETHERNET_CONNECT | WB_ETHERNET_DISCONNECT)
static int wb_event;
static unsigned int status = 0;
static pthread_t wb_event_task;
enum ModulesType
{
MODULES_NULL = 0, // null
MODULES_4G, // support 4G modules
MODULES_LORA, // support LoRa modules
MODULES_ALL, //all
};
/*define device info*/
#ifdef APPLICATION_WEBSERVER_XISHUTONG_4G
static const char* device_name = "矽数通4G";
static const char* device_type = "xishutong-arm32";
static const char* device_serial_num = "123456789";
static int support_module = MODULES_ALL;
#endif
#ifdef APPLICATION_WEBSERVER_XISHUTONG
static const char* device_name = "矽数通";
static const char* device_type = "xishutong-arm32";
static const char* device_serial_num = "123456789";
static int support_module = MODULES_LORA;
#endif
/*define webserver info*/
static struct webserver_config {
char *ip, *mask, *gw, *dns;
} webserver_config;
/*define interface info*/
static struct rs485_config {
int baud_rate;
int data_bit;
int stop_bit;
int parity;
} rs485_config;
int rs485_uart_fd = -1;
#define RS485_DEVICE_PATH "/dev/usart4_dev4"
#ifdef APPLICATION_WEBSERVER_XISHUTONG_4G
/*define net 4G info*/
static struct net_4g_info {
char map_ip[20];
char connect_ip[40];
char operator[20];
char signal_strength[20];
char connect_port[20];
int net_4g_init_flag;
int connect_status;
} net_4g_info;
struct Adapter* adapter;
static struct net_4g_mqtt_info {
char topic[40];
char username[40];
char password[40];
char client_id[40];
int connect_status;
} net_4g_mqtt_info;
#endif
/*define net LoRa info*/
struct net_lora_info
{
uint32_t frequency; // frequency
uint8_t sf; // spreadfactor
uint8_t bw; // bandwidth
uint32_t connect_status; //connect status
uint8_t lora_init_flag; //if 1 means already init
} net_lora_info;
/*define net Ethernet info*/
static struct net_ethernet_info {
char ethernetIp[20];
char ethernetNetmask[20];
char ethernetGateway[20];
char ethernetDNS[20];
char targetIp[20];
char targetPort[20];
char targetGateway[20];
char targetDNS[20];
int connect_status;
} net_ethernet_info;
static int socket_fd = -1;
static char tcp_ethernet_ipaddr[] = {192, 168, 130, 77};
static char tcp_ethernet_netmask[] = {255, 255, 254, 0};
static char tcp_ethernet_gwaddr[] = {192, 168, 130, 1};
static uint16_t tcp_socket_port = 8888;
/*define PLC info*/
static char *plc_json;
#define JSON_FILE_NAME "test_recipe.json"
/*******************************************************************************
* Function implementation - judge using 4G modules or LoRa modules
******************************************************************************/
static int JudgeModulesType(void)
{
int ret;
int retry = 5;
#ifdef APPLICATION_WEBSERVER_XISHUTONG_4G
extern int TestLoraRadio(int argc, char *argv[]);
char* check_params[2] = {"TestLoraRadio", "check"};
do {
ret = TestLoraRadio(2, check_params);
if (ret > 0) {
retry = 0;
support_module = MODULES_LORA;
} else {
retry--;
}
} while (retry > 0);
#endif
return support_module;
}
/*******************************************************************************
* Function implementation - define interface info
******************************************************************************/
static void Rs485InitConfigure(void)
{
rs485_uart_fd = PrivOpen(RS485_DEVICE_PATH, O_RDWR);
if (rs485_uart_fd < 0) {
printf("open rs485 %s fd error:%d\n", RS485_DEVICE_PATH, rs485_uart_fd);
return;
}
printf("uart %s open success\n", RS485_DEVICE_PATH);
struct SerialDataCfg uart_cfg;
memset(&uart_cfg, 0, sizeof(struct SerialDataCfg));
rs485_config.baud_rate = BAUD_RATE_115200;
rs485_config.data_bit = DATA_BITS_8;
rs485_config.stop_bit = STOP_BITS_1;
rs485_config.parity = PARITY_NONE;
uart_cfg.serial_baud_rate = rs485_config.baud_rate;
uart_cfg.serial_data_bits = rs485_config.data_bit;
uart_cfg.serial_stop_bits = rs485_config.stop_bit;
uart_cfg.serial_parity_mode = rs485_config.parity;
uart_cfg.serial_bit_order = BIT_ORDER_LSB;
uart_cfg.serial_invert_mode = NRZ_NORMAL;
uart_cfg.serial_buffer_size = SERIAL_RB_BUFSZ;
uart_cfg.serial_timeout = -1;
uart_cfg.is_ext_uart = 0;
uart_cfg.dev_recv_callback = NULL;
struct PrivIoctlCfg ioctl_cfg;
ioctl_cfg.ioctl_driver_type = SERIAL_TYPE;
ioctl_cfg.args = (void *)&uart_cfg;
if (0 != PrivIoctl(rs485_uart_fd, OPE_INT, &ioctl_cfg)) {
printf("ioctl uart fd error %d\n", rs485_uart_fd);
PrivClose(rs485_uart_fd);
return;
}
}
static void Rs485Configure(int baud_rate, int data_bit, int stop_bit, int parity)
{
if (rs485_uart_fd < 0) {
rs485_uart_fd = PrivOpen(RS485_DEVICE_PATH, O_RDWR);
if (rs485_uart_fd < 0) {
printf("open rs485 %s fd error:%d\n", RS485_DEVICE_PATH, rs485_uart_fd);
return;
}
printf("uart %s open success\n", RS485_DEVICE_PATH);
}
struct SerialDataCfg uart_cfg;
memset(&uart_cfg, 0, sizeof(struct SerialDataCfg));
uart_cfg.serial_baud_rate = baud_rate;
uart_cfg.serial_data_bits = data_bit;
uart_cfg.serial_stop_bits = stop_bit;
uart_cfg.serial_parity_mode = parity;
uart_cfg.serial_bit_order = BIT_ORDER_LSB;
uart_cfg.serial_invert_mode = NRZ_NORMAL;
uart_cfg.serial_buffer_size = SERIAL_RB_BUFSZ;
uart_cfg.serial_timeout = -1;
uart_cfg.is_ext_uart = 0;
uart_cfg.dev_recv_callback = NULL;
struct PrivIoctlCfg ioctl_cfg;
ioctl_cfg.ioctl_driver_type = SERIAL_TYPE;
ioctl_cfg.args = (void *)&uart_cfg;
if (0 != PrivIoctl(rs485_uart_fd, OPE_INT, &ioctl_cfg)) {
printf("ioctl uart fd error %d\n", rs485_uart_fd);
PrivClose(rs485_uart_fd);
return;
}
printf("Board RS485 changed to [br: %d, data: %d, stop: %d, party: %d]\n",
baud_rate, data_bit, stop_bit, parity);
}
/*******************************************************************************
* Function implementation - define net 4G info
******************************************************************************/
#ifdef APPLICATION_WEBSERVER_XISHUTONG_4G
static void Net4gGetInfo(char *ip, char *operator, char *signal_strength)
{
if (net_4g_info.net_4g_init_flag) {
strcpy(ip, adapter->network_info.ip_address);
sprintf(signal_strength, "%d", adapter->network_info.signal_strength);
switch (adapter->network_info.carrier_type)
{
case CARRIER_CHINA_MOBILE:
strcpy(operator, net_carrier_china_mobile);
break;
case CARRIER_CHINA_UNICOM:
strcpy(operator, net_carrier_china_unicom);
break;
case CARRIER_CHINA_TELECOM:
strcpy(operator, net_carrier_china_telecom);
break;
default:
break;
}
}
}
static void Net4gConnect(void)
{
int ret = -1;
int ec200a_baud_rate;
const char *send_msg = "Adapter_4G Test";
if (0 == net_4g_info.net_4g_init_flag) {
adapter->socket.socket_id = 0;
ec200a_baud_rate = 115200;
AdapterDeviceOpen(adapter);
AdapterDeviceControl(adapter, OPE_INT, &ec200a_baud_rate);
AdapterDeviceNetstat(adapter);
net_4g_info.net_4g_init_flag = 1;
}
if (1 == net_4g_mqtt_info.connect_status) {
AdapterDeviceMqttDisconnect(adapter);
net_4g_mqtt_info.connect_status = 0;
}
if (0 == net_4g_info.connect_status) {
ret = AdapterDeviceConnect(adapter, CLIENT, net_4g_info.connect_ip, net_4g_info.connect_port, IPV4);
if (ret < 0) {
net_4g_info.connect_status = 0;
printf("webserver %s fail\n", __func__);
} else {
net_4g_info.connect_status = 1;
AdapterDeviceSend(adapter, send_msg, strlen(send_msg));
printf("webserver %s success\n", __func__);
}
}
}
static void Net4gDisconnect(void)
{
if (1 == net_4g_info.connect_status) {
uint8_t priv_net_group = IP_PROTOCOL;
AdapterDeviceDisconnect(adapter, &priv_net_group);
net_4g_info.connect_status = 0;
}
}
/*******************************************************************************
* Function implementation - define net 4G MQTT info
******************************************************************************/
static void NetMqttConnect(void)
{
int ret = -1;
int ec200a_baud_rate = 0;
//for test
const char *send_msg = "Adapter_4G MQTT Test";
char recv_msg[256] = {0};
int send_cnt = 1;
if (0 == net_4g_info.net_4g_init_flag) {
adapter->socket.socket_id = 0;
ec200a_baud_rate = 115200;
AdapterDeviceOpen(adapter);
AdapterDeviceControl(adapter, OPE_INT, &ec200a_baud_rate);
AdapterDeviceNetstat(adapter);
net_4g_info.net_4g_init_flag = 1;
}
if (1 == net_4g_info.connect_status) {
uint8_t priv_net_group = IP_PROTOCOL;
AdapterDeviceDisconnect(adapter, &priv_net_group);
net_4g_info.connect_status = 0;
}
if (0 == net_4g_mqtt_info.connect_status) {
ret = AdapterDeviceMqttConnect(adapter, net_4g_info.connect_ip, net_4g_info.connect_port,
net_4g_mqtt_info.client_id, net_4g_mqtt_info.username, net_4g_mqtt_info.password);
if (ret < 0) {
net_4g_mqtt_info.connect_status = 0;
printf("webserver %s fail\n", __func__);
} else {
net_4g_mqtt_info.connect_status = 1;
//for test
while (send_cnt < 11) {
AdapterDeviceMqttSend(adapter, net_4g_mqtt_info.topic, send_msg, strlen(send_msg));
AdapterDeviceMqttRecv(adapter, net_4g_mqtt_info.topic, recv_msg, sizeof(recv_msg));
printf("[%d]4G mqtt test recv msg %s\n", send_cnt, recv_msg);
send_cnt++;
}
printf("webserver %s success\n", __func__);
}
}
}
static void NetMqttDisconnect(void)
{
if (1 == net_4g_mqtt_info.connect_status) {
AdapterDeviceMqttDisconnect(adapter);
net_4g_mqtt_info.connect_status = 0;
}
}
#endif
/*******************************************************************************
* Function implementation - define net LoRa info
******************************************************************************/
static void NetLoraConnect(void)
{
if (MODULES_LORA == support_module) {
char* tx_params[5] = {"TestLoraRadio", "tx", "1", "2000", "2"};
extern int TestLoraRadio(int argc, char *argv[]);
if (0 == net_lora_info.lora_init_flag) {
net_lora_info.lora_init_flag = 1;
}
TestLoraRadio(5, tx_params);
net_lora_info.connect_status = 1;
}
}
static void NetLoraDisconnect(void)
{
if (MODULES_LORA == support_module) {
net_lora_info.connect_status = 0;
}
}
/*******************************************************************************
* Function implementation - define net Ethernet info
******************************************************************************/
#ifdef APPLICATION_WEBSERVER_XISHUTONG_4G
static void TcpClientConnect(void)
{
int cnt = 20;
int ret;
char send_msg[128];
sscanf(net_ethernet_info.targetPort, "%d", &tcp_socket_port);
memset(send_msg, 0, sizeof(send_msg));
socket_fd = socket(AF_INET, SOCK_STREAM, 0);
if (socket_fd < 0) {
printf("Socket error\n");
return;
}
struct sockaddr_in tcp_sock;
tcp_sock.sin_family = AF_INET;
tcp_sock.sin_port = htons(tcp_socket_port);
tcp_sock.sin_addr.s_addr = inet_addr(net_ethernet_info.targetIp);
memset(&(tcp_sock.sin_zero), 0, sizeof(tcp_sock.sin_zero));
int keepalive = 1;
int keepidle = 30;
int keepinterval = 5;
int keepcount = 5;
setsockopt(socket_fd,
IPPROTO_TCP, /* set option at TCP level */
TCP_KEEPALIVE, /* name of option */
(void*)&keepalive, /* the cast is historical cruft */
sizeof(keepalive)); /* length of option value */
setsockopt(socket_fd,
IPPROTO_TCP, /* set option at TCP level */
TCP_KEEPIDLE, /* name of option */
(void*)&keepidle, /* the cast is historical cruft */
sizeof(keepidle)); /* length of option value */
setsockopt(socket_fd,
IPPROTO_TCP, /* set option at TCP level */
TCP_KEEPINTVL, /* name of option */
(void*)&keepinterval, /* the cast is historical cruft */
sizeof(keepinterval)); /* length of option value */
setsockopt(socket_fd,
IPPROTO_TCP, /* set option at TCP level */
TCP_KEEPCNT, /* name of option */
(void*)&keepcount, /* the cast is historical cruft */
sizeof(keepcount)); /* length of option value */
ret = connect(socket_fd, (struct sockaddr *)&tcp_sock, sizeof(struct sockaddr));
if (ret < 0) {
printf("Unable to connect %s:%d = %d\n", net_ethernet_info.targetIp, tcp_socket_port, ret);
closesocket(socket_fd);
return;
}
printf("TCP connect %s:%d success, start to send.\n", net_ethernet_info.targetIp, tcp_socket_port);
net_ethernet_info.connect_status = 1;
while (cnt --) {
printf("Lwip client is running.\n");
snprintf(send_msg, sizeof(send_msg), "TCP test package times %d\r\n", cnt);
send(socket_fd, send_msg, strlen(send_msg), 0);
printf("Send tcp msg: %s ", send_msg);
PrivTaskDelay(1000);
}
return;
}
static void TcpClientDisconnect(void)
{
printf("TCP disconnect\n");
closesocket(socket_fd);
net_ethernet_info.connect_status = 0;
}
#endif
/*******************************************************************************
* Function implementation - define plc info
******************************************************************************/
static void PlcInfoWriteToSd(const char *json)
{
extern int GetSdMountStatus(void);
if(GetSdMountStatus()) {
KPrintf("------Start download json file !------\r\n");
FILE *fp = fopen(JSON_FILE_NAME, "w");
if(fp == NULL) {
printf("%s file create failed,please check!\r\n", JSON_FILE_NAME);
} else {
printf("%s file create success!\r\n", JSON_FILE_NAME);
fprintf(fp, "%s", json);
fclose(fp);
}
printf("------download %s file done!------\r\n", JSON_FILE_NAME);
}
}
/*******************************************************************************
* Function implementation - WebserverEventTask
******************************************************************************/
static void *WebserverEventTask(void *arg)
{
wb_event = PrivEventCreate(LINKLIST_FLAG_FIFO);
while(1) {
if (0 == PrivEventProcess(wb_event, WB_EVENT_ALL, EVENT_OR | EVENT_AUTOCLEAN, 0, &status)) {
switch( status ) {
#ifdef APPLICATION_WEBSERVER_XISHUTONG_4G
case WB_4G_CONNECT:
Net4gConnect();
break;
case WB_4G_DISCONNECT:
Net4gDisconnect();
break;
case WB_MQTT_CONNECT:
NetMqttConnect();
break;
case WB_MQTT_DISCONNECT:
NetMqttDisconnect();
break;
#endif
case WB_LORA_CONNECT:
NetLoraConnect();
break;
case WB_LORA_DISCONNECT:
NetLoraDisconnect();
break;
#ifdef APPLICATION_WEBSERVER_XISHUTONG_4G
case WB_ETHERNET_CONNECT:
TcpClientConnect();
break;
case WB_ETHERNET_DISCONNECT:
TcpClientDisconnect();
break;
#endif
}
}
}
}
static void WbEventInit(void)
{
char task_name[] = "wb_event_task";
pthread_args_t args;
args.pthread_name = task_name;
pthread_attr_t attr;
attr.schedparam.sched_priority = WB_EVENT_TASK_PRIO;
attr.stacksize = WB_EVENT_TASK_STACK_SIZE;
PrivTaskCreate(&wb_event_task, &attr, &WebserverEventTask, (void *)&args);
PrivTaskStartup(&wb_event_task);
}
/*******************************************************************************
* Function implementation - webserver
******************************************************************************/
// Try to update a single configuration value
static void update_config(struct mg_str json, const char* path, char** value)
{
char* jval;
if ((jval = mg_json_get_str(json, path)) != NULL) {
free(*value);
*value = strdup(jval);
}
}
static void update_config_array(struct mg_str json, const char* path, char* value)
{
char* jval;
if ((jval = mg_json_get_str(json, path)) != NULL) {
sprintf(value, "%s", jval);
}
}
static void fn(struct mg_connection* c, int ev, void* ev_data, void* fn_data)
{
if (ev == MG_EV_HTTP_MSG) {
struct mg_http_message *hm = (struct mg_http_message*)ev_data, tmp = { 0 };
/*define modules info*/
if (mg_http_match_uri(hm, "/net/getModulesInfo")) {
mg_http_reply(c, 200, "Content-Type: application/json\r\n",
"{%m:%d}\n",
MG_ESC("modulesStatus"), JudgeModulesType());
}
/*define device info*/
else if (mg_http_match_uri(hm, "/getSystemInfo")) {
mg_http_reply(c, 200, "Content-Type: application/json\r\n",
"{%m:%m, %m:%m, %m:%m, %m:%m, %m:%m, %m:%m}\n",
MG_ESC("deviceName"), MG_ESC(device_name),
MG_ESC("deviceType"), MG_ESC(device_type),
MG_ESC("deviceNo"), MG_ESC(device_serial_num),
MG_ESC("ip"), MG_ESC(webserver_config.ip),
MG_ESC("netmask"), MG_ESC(webserver_config.mask),
MG_ESC("gateway"), MG_ESC(webserver_config.gw));
}
/*define webserver info*/
else if (mg_http_match_uri(hm, "/setNetInfo")) {
struct mg_str json = hm->body;
printf("json: %s\n", json.ptr);
update_config(json, "$.ip", &webserver_config.ip);
update_config(json, "$.netmask", &webserver_config.mask);
update_config(json, "$.gateway", &webserver_config.gw);
mg_http_reply(c, 200, "Content-Type: application/json\r\n", "{\"status\":\"success\"}\r\n");
ip_addr_t ipaddr, maskaddr, gwaddr;
inet_aton(webserver_config.ip, &ipaddr);
inet_aton(webserver_config.mask, &maskaddr);
inet_aton(webserver_config.gw, &gwaddr);
p_netdev_webserver->ops->set_addr_info(p_netdev_webserver, &ipaddr, &maskaddr, &gwaddr);
printf("Board Webserver Net changed to [IP: %s, Mask: %s, GW: %s]\n",
webserver_config.ip,
webserver_config.mask,
webserver_config.gw);
}
/*define interface info*/
else if (mg_http_match_uri(hm, "/interface/get485Info")) {
mg_http_reply(c, 200, "Content-Type: application/json\r\n",
"{%m:%d, %m:%d, %m:%d, %m:%d}\n",
MG_ESC("baudRate"), rs485_config.baud_rate,
MG_ESC("wordLength"), rs485_config.data_bit,
MG_ESC("stopBits"), rs485_config.stop_bit,
MG_ESC("parity"), rs485_config.parity);
} else if (mg_http_match_uri(hm, "/interface/set485Info")) {
struct mg_str json = hm->body;
printf("json: %s\n", json.ptr);
rs485_config.baud_rate = mg_json_get_long(json, "$.baudRate", 0);
rs485_config.data_bit = mg_json_get_long(json, "$.wordLength", 0);
rs485_config.stop_bit = mg_json_get_long(json, "$.stopBits", 0);
rs485_config.parity = mg_json_get_long(json, "$.parity", 0);
mg_http_reply(c, 200, "Content-Type: application/json\r\n", "{\"status\":\"success\"}\r\n");
Rs485Configure(rs485_config.baud_rate, rs485_config.data_bit, rs485_config.stop_bit, rs485_config.parity);
}
/*define net 4G info*/
#ifdef APPLICATION_WEBSERVER_XISHUTONG_4G
else if (mg_http_match_uri(hm, "/net/get4gInfo")) {
Net4gGetInfo(net_4g_info.map_ip, net_4g_info.operator, net_4g_info.signal_strength);
mg_http_reply(c, 200, "Content-Type: application/json\r\n",
"{%m:%m, %m:%m, %m:%m, %m:%m, %m:%m, %m:%d}\n",
MG_ESC("mapIp"), MG_ESC(net_4g_info.map_ip),
MG_ESC("operator"), MG_ESC(net_4g_info.operator),
MG_ESC("signalIntensity"), MG_ESC(net_4g_info.signal_strength),
MG_ESC("publicIp"), MG_ESC(net_4g_info.connect_ip),
MG_ESC("publicPort"), MG_ESC(net_4g_info.connect_port),
MG_ESC("status"), net_4g_info.connect_status);
} else if (mg_http_match_uri(hm, "/net/set4gInfo")) {
struct mg_str json = hm->body;
printf("json: %s\n", json.ptr);
update_config_array(json, "$.publicIp", net_4g_info.connect_ip);
update_config_array(json, "$.publicPort", net_4g_info.connect_port);
mg_http_reply(c, 200, "Content-Type: application/json\r\n", "{\"status\":\"success\"}\r\n");
} else if (mg_http_match_uri(hm, "/net/connect4G")) {
//enable 4G connect function
PrivEvenTrigger(wb_event, WB_4G_CONNECT);
mg_http_reply(c, 200, "Content-Type: application/json\r\n", "{\"status\":\"success\"}\r\n");
} else if (mg_http_match_uri(hm, "/net/disconnect4G")) {
//disable 4G connect function
PrivEvenTrigger(wb_event, WB_4G_CONNECT);
mg_http_reply(c, 200, "Content-Type: application/json\r\n", "{\"status\":\"success\"}\r\n");
} else if (mg_http_match_uri(hm, "/net/getMQTTInfo")) {
mg_http_reply(c, 200, "Content-Type: application/json\r\n",
"{%m:%m, %m:%m, %m:%m, %m:%m, %m:%d}\n",
MG_ESC("topic"), MG_ESC(net_4g_mqtt_info.topic),
MG_ESC("username"), MG_ESC(net_4g_mqtt_info.username),
MG_ESC("password"), MG_ESC(net_4g_mqtt_info.password),
MG_ESC("clientId"), MG_ESC(net_4g_mqtt_info.client_id),
MG_ESC("status"), net_4g_mqtt_info.connect_status);
} else if (mg_http_match_uri(hm, "/net/setMQTTInfo")) {
struct mg_str json = hm->body;
printf("json: %s\n", json.ptr);
update_config_array(json, "$.topic", net_4g_mqtt_info.topic);
update_config_array(json, "$.username", net_4g_mqtt_info.username);
update_config_array(json, "$.password", net_4g_mqtt_info.password);
update_config_array(json, "$.clientId", net_4g_mqtt_info.client_id);
mg_http_reply(c, 200, "Content-Type: application/json\r\n", "{\"status\":\"success\"}\r\n");
} else if (mg_http_match_uri(hm, "/net/connectMQTT")) {
//enable 4G MQTT connect function
PrivEvenTrigger(wb_event, WB_MQTT_CONNECT);
mg_http_reply(c, 200, "Content-Type: application/json\r\n", "{\"status\":\"success\"}\r\n");
} else if (mg_http_match_uri(hm, "/net/disconnectMQTT")) {
//disable 4G MQTT connect function
PrivEvenTrigger(wb_event, WB_MQTT_DISCONNECT);
mg_http_reply(c, 200, "Content-Type: application/json\r\n", "{\"status\":\"success\"}\r\n");
}
#endif
/*define net LoRa info*/
else if (mg_http_match_uri(hm, "/net/getLoraInfo")) {
mg_http_reply(c, 200, "Content-Type: application/json\r\n",
"{%m:%d, %m:%d, %m:%d, %m:%d}\n",
MG_ESC("range"), net_lora_info.frequency,
MG_ESC("bandwidth"), net_lora_info.bw,
MG_ESC("factor"), net_lora_info.sf,
MG_ESC("status"), net_lora_info.connect_status);
}
else if (mg_http_match_uri(hm, "/net/setLoraInfo")) {
struct mg_str json = hm->body;
printf("json: %s\n", json.ptr);
net_lora_info.frequency = mg_json_get_long(json, "$.range", 0);
net_lora_info.sf = mg_json_get_long(json, "$.factor", 0);
net_lora_info.bw = mg_json_get_long(json, "$.bandwidth", 0);
mg_http_reply(c, 200, "Content-Type: application/json\r\n", "{\"status\":\"success\"}\r\n");
extern void LoraRadioParamsUpdate(uint32_t frequency, uint8_t sf, uint8_t bw);
LoraRadioParamsUpdate(net_lora_info.frequency, net_lora_info.sf, net_lora_info.bw);
} else if (mg_http_match_uri(hm, "/net/ConnectLora")) {
//enable LoRa connect function
PrivEvenTrigger(wb_event, WB_LORA_CONNECT);
mg_http_reply(c, 200, "Content-Type: application/json\r\n", "{\"status\":\"success\"}\r\n");
} else if (mg_http_match_uri(hm, "/net/DisonnectLora")) {
//disable LoRa connect function
PrivEvenTrigger(wb_event, WB_LORA_DISCONNECT);
mg_http_reply(c, 200, "Content-Type: application/json\r\n", "{\"status\":\"success\"}\r\n");
}
/*define net Ethernet info*/
#ifdef APPLICATION_WEBSERVER_XISHUTONG_4G
else if (mg_http_match_uri(hm, "/net/getEthernetInfo")) {
mg_http_reply(c, 200, "Content-Type: application/json\r\n",
"{%m:%m, %m:%m, %m:%m, %m:%m, %m:%m, %m:%m, %m:%m, %m:%m, %m:%d}\n",
MG_ESC("ethernetIp"), MG_ESC(net_ethernet_info.ethernetIp),
MG_ESC("ethernetNetmask"), MG_ESC(net_ethernet_info.ethernetNetmask),
MG_ESC("ethernetGateway"), MG_ESC(net_ethernet_info.ethernetGateway),
MG_ESC("ethernetDNS"), MG_ESC(net_ethernet_info.ethernetDNS),
MG_ESC("targetIp"), MG_ESC(net_ethernet_info.targetIp),
MG_ESC("targetPort"), MG_ESC(net_ethernet_info.targetPort),
MG_ESC("targetGateway"), MG_ESC(net_ethernet_info.targetGateway),
MG_ESC("targetDNS"), MG_ESC(net_ethernet_info.targetDNS),
MG_ESC("ethernetStatus"), net_ethernet_info.connect_status);
} else if (mg_http_match_uri(hm, "/net/setEthernetInfo")) {
struct mg_str json = hm->body;
printf("json: %s\n", json.ptr);
update_config_array(json, "$.ethernetIp", net_ethernet_info.ethernetIp);
update_config_array(json, "$.ethernetNetmask", net_ethernet_info.ethernetNetmask);
update_config_array(json, "$.ethernetGateway", net_ethernet_info.ethernetGateway);
update_config_array(json, "$.ethernetDNS", net_ethernet_info.ethernetDNS);
update_config_array(json, "$.targetIp", net_ethernet_info.targetIp);
update_config_array(json, "$.targetPort", net_ethernet_info.targetPort);
update_config_array(json, "$.targetGateway", net_ethernet_info.targetGateway);
update_config_array(json, "$.targetDNS", net_ethernet_info.targetDNS);
mg_http_reply(c, 200, "Content-Type: application/json\r\n", "{\"status\":\"success\"}\r\n");
p_netdev_ethernet = netdev_get_by_name("hd");
if (p_netdev_ethernet) {
ip_addr_t ipaddr, maskaddr, gwaddr;
inet_aton(net_ethernet_info.ethernetIp, &ipaddr);
inet_aton(net_ethernet_info.ethernetNetmask, &maskaddr);
inet_aton(net_ethernet_info.ethernetGateway, &gwaddr);
p_netdev_ethernet->ops->set_addr_info(p_netdev_ethernet, &ipaddr, &maskaddr, &gwaddr);
printf("Ethernet Configuration changed to [IP: %s, Mask: %s, GW: %s]\n",
net_ethernet_info.ethernetIp, net_ethernet_info.ethernetNetmask,
net_ethernet_info.ethernetGateway);
}
} else if (mg_http_match_uri(hm, "/net/connectEthernet")) {
//enable Ethernet connect function
PrivEvenTrigger(wb_event, WB_ETHERNET_CONNECT);
mg_http_reply(c, 200, "Content-Type: application/json\r\n", "{\"status\":\"success\"}\r\n");
} else if (mg_http_match_uri(hm, "/net/disconnectEthernet")) {
//disable Ethernet connect function
PrivEvenTrigger(wb_event, WB_ETHERNET_DISCONNECT);
mg_http_reply(c, 200, "Content-Type: application/json\r\n", "{\"status\":\"success\"}\r\n");
}
#endif
/*define plc info*/
else if (mg_http_match_uri(hm, "/control/setPLCInfo")) {
struct mg_str json = hm->body;
printf("json: %s\n", json.ptr);
PlcInfoWriteToSd(json.ptr);
mg_http_reply(c, 200, "Content-Type: application/json\r\n", "{\"status\":\"success\"}\r\n");
} else {
struct mg_str unknown = mg_str_n("?", 1), *cl;
struct mg_http_serve_opts opts = { .root_dir = s_root_dir, .ssi_pattern = s_ssi_pattern };
mg_http_serve_dir(c, hm, &opts);
mg_http_parse((char*)c->send.buf, c->send.len, &tmp);
cl = mg_http_get_header(&tmp, "Content-Length");
if (cl == NULL)
cl = &unknown;
MG_INFO(("%.*s %.*s %.*s %.*s", (int)hm->method.len, hm->method.ptr,
(int)hm->uri.len, hm->uri.ptr, (int)tmp.uri.len, tmp.uri.ptr,
(int)cl->len, cl->ptr));
}
}
(void)fn_data;
}
static void* do_webserver(void* args)
{
#ifdef APPLICATION_WEBSERVER_XISHUTONG_4G
p_netdev_webserver = netdev_get_by_name("wz");
if (p_netdev_webserver == NULL) {
MG_INFO(("Did not find wz netdev, use default.\n"));
p_netdev_webserver = NETDEV_DEFAULT;
}
#endif
#ifdef APPLICATION_WEBSERVER_XISHUTONG
p_netdev_webserver = netdev_get_by_name("hd");
if (p_netdev_webserver == NULL) {
MG_INFO(("Did not find hd netdev, use default.\n"));
p_netdev_webserver = NETDEV_DEFAULT;
}
#endif
MG_INFO(("Webserver Use Netdev %s", p_netdev_webserver->name));
webserver_config.ip = strdup(inet_ntoa(*p_netdev_webserver->ip_addr));
webserver_config.mask = strdup(inet_ntoa(*p_netdev_webserver->netmask));
webserver_config.gw = strdup(inet_ntoa(*p_netdev_webserver->gw));
webserver_config.dns = strdup(inet_ntoa(p_netdev_webserver->dns_servers[0]));
#ifdef BSP_USING_RS485
Rs485InitConfigure();
#endif
#ifdef APPLICATION_WEBSERVER_XISHUTONG_4G
adapter = AdapterDeviceFindByName(ADAPTER_4G_NAME);
#endif
//4g init param
net_4g_info.net_4g_init_flag = 0;
net_4g_info.connect_status = 0;
net_4g_mqtt_info.connect_status = 0;
//lora init param
net_lora_info.bw = 2;//bw 0:125 kHz 1:250 kHz 2:500 kHz,
net_lora_info.sf = 12;//sf12
net_lora_info.lora_init_flag = 0;
WbEventInit();
struct mg_mgr mgr; // Event manager
// mg_log_set(MG_LL_INFO); // Set to 3 to enable debug
mg_log_set(MG_LL_ERROR); // Set to 3 to enable debug
mg_mgr_init(&mgr); // Initialise event manager
mg_http_listen(&mgr, s_http_addr, fn, NULL); // Create HTTP listener
for (;;)
mg_mgr_poll(&mgr, 50); // Infinite event loop
mg_mgr_free(&mgr);
return NULL;
}
int webserver(void)
{
extern void LwipNetworkActive(int argc, char* argv[]);
#ifdef APPLICATION_WEBSERVER_XISHUTONG_4G
char* params[2] = {"LwipNetworkActive", "-a"};
LwipNetworkActive(2, params);
#endif
#ifdef APPLICATION_WEBSERVER_XISHUTONG
char* params[3] = {"LwipNetworkActive", "-e", "0"};
LwipNetworkActive(3, params);
extern void LwipSetNetwork(int argc, char* argv[]);
char* ip_params[5] = {"LwipSetNetwork", "-d", "hd", "-i", "192.168.131.88"};
LwipSetNetwork(5, ip_params);
char* gw_params[5] = {"LwipSetNetwork", "-d", "hd", "-g", "192.168.131.1"};
LwipSetNetwork(5, gw_params);
#endif
pthread_attr_t attr;
attr.schedparam.sched_priority = 30;
attr.stacksize = 0x4000;
char task_name[] = "do_webserver";
pthread_args_t args;
args.pthread_name = task_name;
PrivTaskCreate(&tid, &attr, &do_webserver, (void *)&args);
PrivTaskStartup(&tid);
return 0;
}
SHELL_EXPORT_CMD(SHELL_CMD_PERMISSION(0) | SHELL_CMD_TYPE(SHELL_TYPE_CMD_MAIN) | SHELL_CMD_PARAM_NUM(5),
Webserver, webserver, webserver for project);
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