#include uint8_t AdvertDataBuilder::encodeTo(uint8_t app_data[]) { app_data[0] = _type; int i = 1; if (_has_loc) { app_data[0] |= ADV_LATLON_MASK; memcpy(&app_data[i], &_lat, 4); i += 4; memcpy(&app_data[i], &_lon, 4); i += 4; } if (_extra1) { app_data[0] |= ADV_FEAT1_MASK; memcpy(&app_data[i], &_extra1, 2); i += 2; } if (_extra2) { app_data[0] |= ADV_FEAT2_MASK; memcpy(&app_data[i], &_extra2, 2); i += 2; } if (_name && *_name != 0) { app_data[0] |= ADV_NAME_MASK; const char* sp = _name; while (*sp && i < MAX_ADVERT_DATA_SIZE) { app_data[i++] = *sp++; } } return i; } AdvertDataParser::AdvertDataParser(const uint8_t app_data[], uint8_t app_data_len) { _name[0] = 0; _lat = _lon = 0; _flags = app_data[0]; _valid = false; _extra1 = _extra2 = 0; int i = 1; if (_flags & ADV_LATLON_MASK) { memcpy(&_lat, &app_data[i], 4); i += 4; memcpy(&_lon, &app_data[i], 4); i += 4; } if (_flags & ADV_FEAT1_MASK) { memcpy(&_extra1, &app_data[i], 2); i += 2; } if (_flags & ADV_FEAT2_MASK) { memcpy(&_extra2, &app_data[i], 2); i += 2; } if (app_data_len >= i) { int nlen = 0; if (_flags & ADV_NAME_MASK) { nlen = app_data_len - i; // remainder of app_data } if (nlen > 0) { memcpy(_name, &app_data[i], nlen); _name[nlen] = 0; // set null terminator } _valid = true; } } #include void AdvertTimeHelper::formatRelativeTimeDiff(char dest[], int32_t seconds_from_now, bool short_fmt) { const char *suffix; if (seconds_from_now < 0) { suffix = short_fmt ? "" : " ago"; seconds_from_now = -seconds_from_now; } else { suffix = short_fmt ? "" : " from now"; } if (seconds_from_now < 60) { sprintf(dest, "%d secs %s", seconds_from_now, suffix); } else { int32_t mins = seconds_from_now / 60; if (mins < 60) { sprintf(dest, "%d mins %s", mins, suffix); } else { int32_t hours = mins / 60; if (hours < 24) { sprintf(dest, "%d hours %s", hours, suffix); } else { sprintf(dest, "%d days %s", hours / 24, suffix); } } } }