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#include <Arduino.h>
#include <string.h>
#include "http_server.h"
#include "config.h"
#include "wifi.h"
#include "config.def.h"
#include "logging.h"
namespace homekit {
static const char CONTENT_TYPE_HTML[] = "text/html; charset=utf-8";
static const char CONTENT_TYPE_CSS[] = "text/css";
static const char CONTENT_TYPE_JS[] = "application/javascript";
static const char CONTENT_TYPE_JSON[] = "application/json";
static const char CONTENT_TYPE_FAVICON[] = "image/x-icon";
static const char JSON_STATUS_FMT[] = "{\"node_id\":\"%s\""
#ifdef DEBUG
",\"configured\":%d"
",\"crc\":%u"
",\"fl_n\":%d"
",\"fl_w\":%d"
#endif
"}";
static const size_t JSON_BUF_SIZE = 192;
static const char NODE_ID_ERROR[] = "?";
static const char FIELD_NODE_ID[] = "nid";
static const char FIELD_SSID[] = "ssid";
static const char FIELD_PSK[] = "psk";
static const char MSG_IS_INVALID[] = " is invalid";
static const char MSG_IS_MISSING[] = " is missing";
static const char GZIP[] = "gzip";
static const char CONTENT_ENCODING[] = "Content-Encoding";
static const char NOT_FOUND[] = "Not Found";
static void do_restart() {
ESP.restart();
}
void HttpServer::start() {
_server.on("/style.css", HTTP_GET, [](AsyncWebServerRequest* req) { sendGzip(req, files::style_css, CONTENT_TYPE_CSS); });
_server.on("/app.js", HTTP_GET, [](AsyncWebServerRequest* req) { sendGzip(req, files::app_js, CONTENT_TYPE_JS); });
_server.on("/favicon.ico", HTTP_GET, [](AsyncWebServerRequest* req) { sendGzip(req, files::favicon_ico, CONTENT_TYPE_FAVICON); });
_server.on("/", HTTP_GET, [&](AsyncWebServerRequest* req) { sendGzip(req, files::index_html, CONTENT_TYPE_HTML); });
_server.on("/status", HTTP_GET, [](AsyncWebServerRequest* req) {
char json_buf[JSON_BUF_SIZE];
auto cfg = config::read();
char *ssid, *psk;
wifi::getConfig(cfg, &ssid, &psk, nullptr);
if (!isValid(cfg) || !cfg.flags.node_configured) {
sprintf(json_buf, JSON_STATUS_FMT
, DEFAULT_NODE_ID
#ifdef DEBUG
, 0
, cfg.crc
, cfg.flags.node_configured
, cfg.flags.wifi_configured
#endif
);
} else {
char escaped_node_id[32];
char *escaped_node_id_res = cfg.escapeNodeId(escaped_node_id, 32);
sprintf(json_buf, JSON_STATUS_FMT
, escaped_node_id_res == nullptr ? NODE_ID_ERROR : escaped_node_id
#ifdef DEBUG
, 1
, cfg.crc
, cfg.flags.node_configured
, cfg.flags.wifi_configured
#endif
);
}
req->send(200, CONTENT_TYPE_JSON, json_buf);
});
_server.on("/status", HTTP_POST, [&](AsyncWebServerRequest* req) {
auto cfg = config::read();
char *s;
if (!handleInputStr(req, FIELD_SSID, 32, &s)) return;
strncpy(cfg.wifi_ssid, s, 32);
PRINTF("saving ssid: %s\n", cfg.wifi_ssid);
if (!handleInputStr(req, FIELD_PSK, 63, &s)) return;
strncpy(cfg.wifi_psk, s, 63);
PRINTF("saving psk: %s\n", cfg.wifi_psk);
if (!handleInputStr(req, FIELD_NODE_ID, 16, &s)) return;
strcpy(cfg.node_id, s);
PRINTF("saving node id: %s\n", cfg.node_id);
cfg.flags.node_configured = 1;
cfg.flags.wifi_configured = 1;
if (!config::write(cfg)) {
PRINTLN("eeprom write error");
return sendError(req, "eeprom error");
}
restartTimer.once(0, do_restart);
});
_server.on("/reset", HTTP_POST, [&](AsyncWebServerRequest* req) {
config::erase();
restartTimer.once(0, do_restart);
});
_server.on("/heap", HTTP_GET, [](AsyncWebServerRequest* req) {
req->send(200, CONTENT_TYPE_HTML, String(ESP.getFreeHeap()));
});
_server.on("/scan", HTTP_GET, [&](AsyncWebServerRequest* req) {
int i = 0;
size_t len;
const char* ssid;
bool enough = false;
bzero(reinterpret_cast<uint8_t*>(buf1k), ARRAY_SIZE(buf1k));
char* cur = buf1k;
strncpy(cur, "{\"list\":[", ARRAY_SIZE(buf1k));
cur += 9;
for (auto& res: *_scanResults) {
ssid = res.ssid.c_str();
len = res.ssid.length();
// new item (array with 2 items)
*cur++ = '[';
// 1. ssid (string)
*cur++ = '"';
for (size_t j = 0; j < len; j++) {
if (*(ssid+j) == '"')
*cur++ = '\\';
*cur++ = *(ssid+j);
}
*cur++ = '"';
*cur++ = ',';
// 2. rssi (number)
cur += sprintf(cur, "%d", res.rssi);
// close array
*cur++ = ']';
if (cur - buf1k >= ARRAY_SIZE(buf1k)-40)
enough = true;
if (i < _scanResults->size()-1 || enough)
*cur++ = ',';
if (enough)
break;
i++;
}
*cur++ = ']';
*cur++ = '}';
*cur++ = '\0';
req->send(200, CONTENT_TYPE_JSON, buf1k);
});
_server.on("/update", HTTP_POST, [&](AsyncWebServerRequest* req) {
char json_buf[16];
bool should_reboot = !Update.hasError();
sprintf(json_buf, "{\"result\":%d}", should_reboot ? 1 : 0);
auto resp = req->beginResponse(200, CONTENT_TYPE_JSON, json_buf);
req->send(resp);
if (should_reboot) restartTimer.once(1, do_restart);
}, [&](AsyncWebServerRequest *req, const String& filename, size_t index, uint8_t *data, size_t len, bool final) {
if (!index) {
PRINTF("update start: %s\n", filename.c_str());
Update.runAsync(true);
if (!Update.begin((ESP.getFreeSketchSpace() - 0x1000) & 0xFFFFF000))
Update.printError(Serial);
}
if (!Update.hasError() && len) {
if (Update.write(data, len) != len) {
Update.printError(Serial);
}
}
if (final) { // if the final flag is set then this is the last frame of data
if (Update.end(true)) {
PRINTF("update success: %uB\n", index+len);
} else {
Update.printError(Serial);
}
}
});
_server.onNotFound([](AsyncWebServerRequest* req) {
req->send(404, CONTENT_TYPE_HTML, NOT_FOUND);
});
_server.begin();
}
void HttpServer::sendGzip(AsyncWebServerRequest* req, StaticFile file, const char* content_type) {
auto resp = req->beginResponse_P(200, content_type, file.content, file.size);
resp->addHeader(CONTENT_ENCODING, GZIP);
req->send(resp);
}
void HttpServer::sendError(AsyncWebServerRequest* req, const String& message) {
char buf[32];
if (snprintf(buf, 32, "error: %s", message.c_str()) == 32)
buf[31] = '\0';
req->send(400, CONTENT_TYPE_HTML, buf);
}
bool HttpServer::handleInputStr(AsyncWebServerRequest *req,
const char *field_name,
size_t max_len,
char **dst) {
const char* s;
size_t len;
if (!req->hasParam(field_name, true)) {
sendError(req, String(field_name) + String(MSG_IS_MISSING));
return false;
}
s = req->getParam(field_name, true)->value().c_str();
len = strlen(s);
if (!len || len > max_len) {
sendError(req, String(FIELD_NODE_ID) + String(MSG_IS_INVALID));
return false;
}
*dst = (char*)s;
return true;
}
}
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