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314 lines
11 KiB
C
314 lines
11 KiB
C
// Copyright (c) 2023 Cesanta Software Limited
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// All rights reserved
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//
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// Example MQTT client. It performs the following steps:
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//
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// To enable SSL/TLS, see https://mongoose.ws/tutorials/tls/#how-to-build
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#include "mongoose.h"
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#define DEVICE_ID_LEN 10
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#define ROOT_TOPIC_LEN 30
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#define KEEP_ALIVE_INTERVAL 60
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#define MQTT_SERVER_URL "mqtt://broker.hivemq.com:1883"
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#define DEFAULT_ROOT_TOPIC "topic_mg_device"
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static const char *s_url;
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static char *s_device_id;
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static const char *s_root_topic;
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static int s_qos = 1; // MQTT QoS
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static struct mg_connection *s_conn; // Client connection
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static struct mg_rpc *s_rpc_head = NULL;
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struct device_config {
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bool led_status;
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uint8_t led_pin;
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uint8_t brightness;
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uint8_t log_level;
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};
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static struct device_config s_device_config;
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// Handle interrupts, like Ctrl-C
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static int s_signo;
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static void signal_handler(int signo) {
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s_signo = signo;
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}
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static void generate_device_id(void) {
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char tmp[DEVICE_ID_LEN + 1];
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mg_random_str(tmp, DEVICE_ID_LEN);
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s_device_id = strdup(tmp);
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}
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static size_t print_fw_status(void (*out)(char, void *), void *ptr,
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va_list *ap) {
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int fw = va_arg(*ap, int);
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return mg_xprintf(out, ptr, "{%m:%d,%m:%c%lx%c,%m:%u,%m:%u}",
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MG_ESC("status"), mg_ota_status(fw), MG_ESC("crc32"), '"',
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mg_ota_crc32(fw), '"', MG_ESC("size"), mg_ota_size(fw),
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MG_ESC("timestamp"), mg_ota_timestamp(fw));
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}
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static void publish_status(struct mg_connection *c) {
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int status_topic_len = 50;
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char* status_topic = calloc(status_topic_len, sizeof(char));
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if (!status_topic) {
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MG_ERROR(("Out of memory"));
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return;
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}
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mg_snprintf(status_topic, status_topic_len, "%s/%s/status", s_root_topic,
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s_device_id);
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struct mg_str pubt = mg_str(status_topic);
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struct mg_mqtt_opts pub_opts;
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memset(&pub_opts, 0, sizeof(pub_opts));
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pub_opts.topic = pubt;
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int json_len = 400;
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char *device_status_json;
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device_status_json = calloc(json_len, sizeof(char));
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if (!device_status_json) {
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MG_ERROR(("Out of memory"));
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return;
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}
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mg_snprintf(device_status_json, json_len,
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"{%m:%m,%m:{%m:%m,%m:%s,%m:%hhu,%m:%hhu,%m:%hhu,%m:%M,%m:%M}}",
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MG_ESC("method"), MG_ESC("status.notify"), MG_ESC("params"),
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MG_ESC("status"), MG_ESC("online"), MG_ESC("led_status"),
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s_device_config.led_status ? "true" : "false", MG_ESC("led_pin"),
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s_device_config.led_pin, MG_ESC("brightness"),
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s_device_config.brightness, MG_ESC(("log_level")),
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s_device_config.log_level, MG_ESC(("crnt_fw")), print_fw_status,
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MG_FIRMWARE_CURRENT, MG_ESC(("prev_fw")), print_fw_status,
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MG_FIRMWARE_PREVIOUS);
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struct mg_str data = mg_str(device_status_json);
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pub_opts.message = data;
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pub_opts.qos = s_qos, pub_opts.retain = true;
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mg_mqtt_pub(c, &pub_opts);
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MG_INFO(("%lu PUBLISHED %.*s -> %.*s", c->id, (int) data.len, data.ptr,
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(int) pubt.len, pubt.ptr));
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free(device_status_json);
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free(status_topic);
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}
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static void publish_response(struct mg_connection *c, char *buf, size_t len) {
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int tx_topic_len = 50;
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char* tx_topic = calloc(tx_topic_len, sizeof(char));
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if (!tx_topic) {
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MG_ERROR(("Out of memory"));
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return;
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}
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mg_snprintf(tx_topic, tx_topic_len, "%s/%s/tx", s_root_topic,
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s_device_id);
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struct mg_str pubt = mg_str(tx_topic);
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struct mg_mqtt_opts pub_opts;
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memset(&pub_opts, 0, sizeof(pub_opts));
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pub_opts.topic = pubt;
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struct mg_str data = mg_str_n(buf, len);
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pub_opts.message = data;
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pub_opts.qos = s_qos;
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mg_mqtt_pub(c, &pub_opts);
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MG_INFO(("%lu PUBLISHED %.*s -> %.*s", c->id, (int) data.len, data.ptr,
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(int) pubt.len, pubt.ptr));
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free(tx_topic);
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}
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static void subscribe(struct mg_connection *c) {
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int rx_topic_len = 50;
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char* rx_topic = calloc(rx_topic_len, sizeof(char));
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if (!rx_topic) {
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MG_ERROR(("Out of memory"));
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return;
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}
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mg_snprintf(rx_topic, rx_topic_len, "%s/%s/rx", s_root_topic,
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s_device_id);
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struct mg_str subt = mg_str(rx_topic);
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struct mg_mqtt_opts sub_opts;
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memset(&sub_opts, 0, sizeof(sub_opts));
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sub_opts.topic = subt;
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sub_opts.qos = s_qos;
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mg_mqtt_sub(c, &sub_opts);
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MG_INFO(("%lu SUBSCRIBED to %.*s", c->id, (int) subt.len, subt.ptr));
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free(rx_topic);
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}
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static void rpc_config_set(struct mg_rpc_req *r) {
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bool tmp_status, ok;
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long tmp_brightness, tmp_level, tmp_pin;
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ok = mg_json_get_bool(r->frame, "$.params.led_status", &tmp_status);
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if (ok) s_device_config.led_status = tmp_status;
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tmp_brightness = mg_json_get_long(r->frame, "$.params.brightness", -1);
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if (tmp_brightness >= 0) s_device_config.brightness = tmp_brightness;
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tmp_level = mg_json_get_long(r->frame, "$.params.log_level", -1);
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if (tmp_level >= 0) s_device_config.log_level = tmp_level;
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tmp_pin = mg_json_get_long(r->frame, "$.params.led_pin", -1);
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if (tmp_pin > 0) s_device_config.led_pin = tmp_pin;
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mg_rpc_ok(r, "%m", MG_ESC("ok"));
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}
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static void rpc_ota_commit(struct mg_rpc_req *r) {
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if (mg_ota_commit()) {
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mg_rpc_ok(r, "%m", MG_ESC("ok"));
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} else {
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mg_rpc_err(r, 1, "Failed to commit the firmware");
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}
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}
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static void rpc_device_reset(struct mg_rpc_req *r) {
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mg_rpc_ok(r, "%m", MG_ESC("ok"));
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}
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static void rpc_ota_rollback(struct mg_rpc_req *r) {
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if (mg_ota_rollback()) {
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mg_rpc_ok(r, "%m", MG_ESC("ok"));
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} else {
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mg_rpc_err(r, 1, "Failed to rollback to the previous firmware");
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}
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}
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static void rpc_ota_upload(struct mg_rpc_req *r) {
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long ofs = mg_json_get_long(r->frame, "$.params.offset", -1);
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long tot = mg_json_get_long(r->frame, "$.params.total", -1);
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int len;
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char *file_chunk = mg_json_get_b64(r->frame, "$.params.chunk", &len);
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if (!file_chunk) {
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mg_rpc_err(r, 1, "Error processing the binary chunk.");
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return;
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}
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struct mg_str data = mg_str_n(file_chunk, len);
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if (ofs < 0 || tot < 0) {
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mg_rpc_err(r, 1, "offset and total not set");
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} else if (ofs == 0 && mg_ota_begin((size_t) tot) == false) {
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mg_rpc_err(r, 1, "mg_ota_begin(%ld) failed\n", tot);
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} else if (data.len > 0 && mg_ota_write(data.ptr, data.len) == false) {
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mg_rpc_err(r, 1, "mg_ota_write(%lu) @%ld failed\n", data.len, ofs);
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mg_ota_end();
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} else if (data.len == 0 && mg_ota_end() == false) {
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mg_rpc_err(r, 1, "mg_ota_end() failed\n", tot);
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} else {
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mg_rpc_ok(r, "%m", MG_ESC("ok"));
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if (data.len == 0) {
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// Successful mg_ota_end() called, schedule device reboot
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mg_timer_add(s_conn->mgr, 500, 0, (void (*)(void *)) mg_device_reset,
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NULL);
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}
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}
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free(file_chunk);
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}
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static void fn(struct mg_connection *c, int ev, void *ev_data, void *fn_data) {
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if (ev == MG_EV_OPEN) {
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MG_INFO(("%lu CREATED", c->id));
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// c->is_hexdumping = 1;
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} else if (ev == MG_EV_CONNECT) {
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MG_INFO(("Device ID is connected %s", s_device_id));
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} else if (ev == MG_EV_ERROR) {
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// On error, log error message
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MG_ERROR(("%lu ERROR %s", c->id, (char *) ev_data));
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} else if (ev == MG_EV_MQTT_OPEN) {
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// MQTT connect is successful
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MG_INFO(("%lu CONNECTED to %s", c->id, s_url));
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subscribe(c);
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publish_status(c);
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} else if (ev == MG_EV_MQTT_MSG) {
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// When we get echo response, print it
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struct mg_mqtt_message *mm = (struct mg_mqtt_message *) ev_data;
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if (!mg_strcmp(mm->topic, mg_str("ota.upload"))) {
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MG_INFO(("%lu RECEIVED %.*s <- %.*s", c->id, (int) mm->data.len,
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mm->data.ptr, (int) mm->topic.len, mm->topic.ptr));
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}
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struct mg_iobuf io = {0, 0, 0, 512};
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struct mg_rpc_req r = {&s_rpc_head, 0, mg_pfn_iobuf, &io, 0, mm->data};
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mg_rpc_process(&r);
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if (io.buf) {
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publish_response(c, (char *) io.buf, io.len);
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publish_status(c);
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}
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mg_iobuf_free(&io);
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} else if (ev == MG_EV_CLOSE) {
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MG_INFO(("%lu CLOSED", c->id));
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s_conn = NULL; // Mark that we're closed
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}
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(void) fn_data;
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}
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// Timer function - recreate client connection if it is closed
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static void timer_fn(void *arg) {
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struct mg_mgr *mgr = (struct mg_mgr *) arg;
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char status_topic[50];
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memset(status_topic, 0, sizeof(status_topic));
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mg_snprintf(status_topic, sizeof(status_topic), "%s/%s/status", s_root_topic,
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s_device_id);
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char msg[200];
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memset(msg, 0, sizeof(msg));
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mg_snprintf(msg, sizeof(msg), "{%m:%m,%m:{%m:%m}}", MG_ESC("method"),
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MG_ESC("status.notify"), MG_ESC("params"), MG_ESC("status"),
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MG_ESC("offline"));
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struct mg_mqtt_opts opts = {.clean = true,
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.qos = s_qos,
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.topic = mg_str(status_topic),
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.version = 4,
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.keepalive = KEEP_ALIVE_INTERVAL,
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.retain = true,
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.message = mg_str(msg)};
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if (s_conn == NULL) s_conn = mg_mqtt_connect(mgr, s_url, &opts, fn, NULL);
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}
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static void timer_keepalive(void *arg) {
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mg_mqtt_send_header(s_conn, MQTT_CMD_PINGREQ, 0, 0);
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(void) arg;
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}
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int main(int argc, char *argv[]) {
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struct mg_mgr mgr;
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int i;
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int pingreq_interval_ms = KEEP_ALIVE_INTERVAL * 1000 - 500;
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s_url = MQTT_SERVER_URL;
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s_root_topic = DEFAULT_ROOT_TOPIC;
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// Parse command-line flags
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for (i = 1; i < argc; i++) {
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if (strcmp(argv[i], "-u") == 0 && argv[i + 1] != NULL) {
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s_url = argv[++i];
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} else if (strcmp(argv[i], "-i") == 0 && argv[i + 1] != NULL) {
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s_device_id = strdup(argv[++i]);
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} else if (strcmp(argv[i], "-t") == 0 && argv[i + 1] != NULL) {
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s_root_topic = argv[++i];
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} else if (strcmp(argv[i], "-v") == 0 && argv[i + 1] != NULL) {
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mg_log_set(atoi(argv[++i]));
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} else {
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MG_ERROR(("Unknown option: %s. Usage:", argv[i]));
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MG_ERROR(("%s [-u mqtts://SERVER:PORT] [-i DEVICE_ID] [-t TOPIC_NAME] [-v DEBUG_LEVEL]",
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argv[0], argv[i]));
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return 1;
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}
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}
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signal(SIGINT, signal_handler); // Setup signal handlers - exist event
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signal(SIGTERM, signal_handler); // manager loop on SIGINT and SIGTERM
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if (!s_device_id) generate_device_id();
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// Configure JSON-RPC functions we're going to handle
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mg_rpc_add(&s_rpc_head, mg_str("config.set"), rpc_config_set, NULL);
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mg_rpc_add(&s_rpc_head, mg_str("ota.commit"), rpc_ota_commit, NULL);
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mg_rpc_add(&s_rpc_head, mg_str("device.reset"), rpc_device_reset, NULL);
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mg_rpc_add(&s_rpc_head, mg_str("ota.rollback"), rpc_ota_rollback, NULL);
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mg_rpc_add(&s_rpc_head, mg_str("ota.upload"), rpc_ota_upload, NULL);
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mg_mgr_init(&mgr);
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mg_timer_add(&mgr, 3000, MG_TIMER_REPEAT | MG_TIMER_RUN_NOW, timer_fn, &mgr);
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mg_timer_add(&mgr, pingreq_interval_ms, MG_TIMER_REPEAT, timer_keepalive,
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&mgr);
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while (s_signo == 0) mg_mgr_poll(&mgr, 1000); // Event loop, 1s timeout
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mg_mgr_free(&mgr); // Finished, cleanup
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mg_rpc_del(&s_rpc_head, NULL); // Deallocate RPC handlers
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free(s_device_id);
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return 0;
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}
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