//#pragma warning(disable : 4996) #include "freertos/FreeRTOS.h" #include "freertos/task.h" #include "Helper.h" #include #include #ifdef __cplusplus extern "C" { #endif #include #ifdef __cplusplus } #endif #include #include #include "ClassLogFile.h" #include "esp_vfs_fat.h" static const char* TAG = "helper"; //#define ISWINDOWS_TRUE #define PATH_MAX_STRING_SIZE 256 using namespace std; sdmmc_cid_t SDCardCid; sdmmc_csd_t SDCardCsd; ///////////////////////////////////////////////////////////////////////////////////////////// string getESPHeapInfo(){ string espInfoResultStr = ""; char aMsgBuf[80]; multi_heap_info_t aMultiHead_info ; heap_caps_get_info (&aMultiHead_info,MALLOC_CAP_8BIT); size_t aFreeHeapSize = heap_caps_get_free_size(MALLOC_CAP_8BIT); size_t aMinFreeHeadSize = heap_caps_get_minimum_free_size(MALLOC_CAP_8BIT); size_t aMinFreeHeapSize = heap_caps_get_minimum_free_size(MALLOC_CAP_8BIT); size_t aHeapLargestFreeBlockSize = heap_caps_get_largest_free_block(MALLOC_CAP_8BIT); sprintf(aMsgBuf," Free Heap Size: %ld", (long) aFreeHeapSize); size_t aFreeSPIHeapSize = heap_caps_get_free_size(MALLOC_CAP_8BIT| MALLOC_CAP_SPIRAM); size_t aFreeInternalHeapSize = heap_caps_get_free_size(MALLOC_CAP_8BIT| MALLOC_CAP_INTERNAL); size_t aMinFreeInternalHeapSize = heap_caps_get_minimum_free_size(MALLOC_CAP_8BIT| MALLOC_CAP_INTERNAL); sprintf(aMsgBuf," Heap: %ld", (long) aFreeHeapSize); espInfoResultStr += string(aMsgBuf); sprintf(aMsgBuf," Min Free: %ld", (long) aMinFreeHeapSize); espInfoResultStr += string(aMsgBuf); sprintf(aMsgBuf," larg. Block: %ld", (long) aHeapLargestFreeBlockSize); espInfoResultStr += string(aMsgBuf); sprintf(aMsgBuf," SPI Heap: %ld", (long) aFreeSPIHeapSize); espInfoResultStr += string(aMsgBuf); sprintf(aMsgBuf," Min Free Heap Size: %ld", (long) aMinFreeHeadSize); sprintf(aMsgBuf," NOT_SPI Heap: %ld", (long) (aFreeHeapSize - aFreeSPIHeapSize)); espInfoResultStr += string(aMsgBuf); sprintf(aMsgBuf," largest Block Size: %ld", (long) aHeapLargestFreeBlockSize); sprintf(aMsgBuf," Internal Heap: %ld", (long) (aFreeInternalHeapSize)); espInfoResultStr += string(aMsgBuf); sprintf(aMsgBuf," Internal Min Heap free: %ld", (long) (aMinFreeInternalHeapSize)); espInfoResultStr += string(aMsgBuf); return espInfoResultStr; } size_t getESPHeapSize(){ size_t aFreeHeapSize = heap_caps_get_free_size(MALLOC_CAP_8BIT); return aFreeHeapSize; } size_t getInternalESPHeapSize() { size_t aFreeInternalHeapSize = heap_caps_get_free_size(MALLOC_CAP_8BIT| MALLOC_CAP_INTERNAL); return aFreeInternalHeapSize; } string getSDCardPartitionSize(){ FATFS *fs; uint32_t fre_clust, tot_sect; /* Get volume information and free clusters of drive 0 */ f_getfree("0:", (DWORD *)&fre_clust, &fs); tot_sect = ((fs->n_fatent - 2) * fs->csize) /1024 /(1024/SDCardCsd.sector_size); //corrected by SD Card sector size (usually 512 bytes) and convert to MB printf("%d MB total drive space (Sector size [bytes]: %d)\n", (int)tot_sect, (int)fs->csize*512); return std::to_string(tot_sect); } string getSDCardFreeParitionSpace(){ FATFS *fs; uint32_t fre_clust, fre_sect; /* Get volume information and free clusters of drive 0 */ f_getfree("0:", (DWORD *)&fre_clust, &fs); fre_sect = (fre_clust * fs->csize) / 1024 /(1024/SDCardCsd.sector_size); //corrected by SD Card sector size (usually 512 bytes) and convert to MB printf("%d MB free drive space (Sector size [bytes]: %d)\n", (int)fre_sect, (int)fs->ssize); return std::to_string(fre_sect); } string getSDCardParitionAllocationSize(){ FATFS *fs; uint32_t fre_clust, allocation_size; /* Get volume information and free clusters of drive 0 */ f_getfree("0:", (DWORD *)&fre_clust, &fs); allocation_size = fs->ssize; printf("SD Card Parition Allocation Size (bytes): %d)\n", allocation_size); return std::to_string(allocation_size); } void SaveSDCardInfo(sdmmc_card_t* card) { SDCardCid = card->cid; SDCardCsd = card->csd; } string getSDCardManufacturer(){ string SDCardManufacturer = SDCardParseManufacturerIDs(SDCardCid.mfg_id); printf("SD Card Manufactuer: %s\n", SDCardManufacturer.c_str()); return (SDCardManufacturer + " (ID: " + std::to_string(SDCardCid.mfg_id) + ")"); } string getSDCardName(){ char *SDCardName = SDCardCid.name; printf("SD Card Name: %s\n", SDCardName); return std::string(SDCardName); } string getSDCardCapacity(){ int SDCardCapacity = SDCardCsd.capacity / (1024/SDCardCsd.sector_size) / 1024; // total sectors * sector size --> Byte to MB (1024*1024) printf("SD Card Capacity: %s\n", std::to_string(SDCardCapacity).c_str()); return std::to_string(SDCardCapacity); } string getSDCardSectorSize(){ int SDCardSectorSize = SDCardCsd.sector_size; printf("SD Card Sector Size: %s\n", std::to_string(SDCardSectorSize).c_str()); return std::to_string(SDCardSectorSize); } /* int SDCardManu = card->cid.mfg_id; printf("SD Manu: %s\n", std::to_string(SDCardManu).c_str()); printf("SD Manu (ASCII): %s\n", SDCardParseManufacturerIDs(card->cid.mfg_id).c_str()); int SDCardOEM = card->cid.oem_id; printf("SD OEM: %s\n", std::to_string(SDCardOEM).c_str()); int SDCardRev = card->cid.revision; printf("SD Rev: %s\n", std::to_string(SDCardRev).c_str()); char *SDCardName = card->cid.name; printf("SD Name: %s\n", SDCardName); int SDCardCSize = card->csd.sector_size; printf("SD C-Size: %s\n", std::to_string(SDCardCSize).c_str()); int SDCardCapa = card->csd.capacity / (1024/card->csd.sector_size) / 1024; // total sectors * sector size --> Byte to MB (1024*1024) printf("SD Capa: %s\n", std::to_string(SDCardCapa).c_str()); */ /////////////////////////////////////////////////////////////////////////////////////////////// void memCopyGen(uint8_t* _source, uint8_t* _target, int _size) { for (int i = 0; i < _size; ++i) *(_target + i) = *(_source + i); } FILE* OpenFileAndWait(const char* nm, const char* _mode, int _waitsec) { FILE *pfile; ESP_LOGD(TAG, "open file %s in mode %s", nm, _mode); if ((pfile = fopen(nm, _mode)) != NULL) { ESP_LOGD(TAG, "File %s successfully opened", nm); } else { ESP_LOGD(TAG, "Error: file %s does not exist!", nm); return NULL; } /* if (pfile == NULL) { TickType_t xDelay; xDelay = _waitsec * 1000 / portTICK_PERIOD_MS; std::string zw = "File is locked: " + std::string(nm) + " - wait for " + std::to_string(_waitsec) + " seconds"; LogFile.WriteToFile(zw); vTaskDelay( xDelay ); pfile = fopen(nm, _mode); } */ return pfile; } std::string FormatFileName(std::string input) { #ifdef ISWINDOWS_TRUE input.erase(0, 1); std::string os = "/"; std::string ns = "\\"; FindReplace(input, os, ns); #endif return input; } void FindReplace(std::string& line, std::string& oldString, std::string& newString) { const size_t oldSize = oldString.length(); // do nothing if line is shorter than the string to find if (oldSize > line.length()) return; const size_t newSize = newString.length(); for (size_t pos = 0; ; pos += newSize) { // Locate the substring to replace pos = line.find(oldString, pos); if (pos == std::string::npos) return; if (oldSize == newSize) { // if they're same size, use std::string::replace line.replace(pos, oldSize, newString); } else { // if not same size, replace by erasing and inserting line.erase(pos, oldSize); line.insert(pos, newString); } } } void MakeDir(std::string _what) { // chdir(_where.c_str()); if (mkdir(_what.c_str(), S_IRWXU|S_IRWXG|S_IROTH)) ESP_LOGD(TAG, "Problem with MakeDir: %s", _what.c_str()); } bool ctype_space(const char c, string adddelimiter) { if (c == ' ' || c == '\t' || c == '\r' || c == '\n' || c == 11) { return true; } if (adddelimiter.find(c) != string::npos) return true; return false; } string trim(string istring, string adddelimiter) { bool trimmed = false; if (ctype_space(istring[istring.length() - 1], adddelimiter)) { istring.erase(istring.length() - 1); trimmed = true; } if (ctype_space(istring[0], adddelimiter)) { istring.erase(0, 1); trimmed = true; } if ((trimmed == false) || (istring.size() == 0)) { return istring; } else { return trim(istring, adddelimiter); } } size_t findDelimiterPos(string input, string delimiter) { size_t pos = std::string::npos; size_t zw; string akt_del; for (int anz = 0; anz < delimiter.length(); ++anz) { akt_del = delimiter[anz]; if ((zw = input.find(akt_del)) != std::string::npos) { if (pos != std::string::npos) { if (zw < pos) pos = zw; } else pos = zw; } } return pos; } void RenameFile(string from, string to) { // ESP_LOGI(logTag, "Deleting file : %s", fn.c_str()); /* Delete file */ FILE* fpSourceFile = OpenFileAndWait(from.c_str(), "rb"); if (!fpSourceFile) // Sourcefile existiert nicht sonst gibt es einen Fehler beim Kopierversuch! { ESP_LOGD(TAG, "DeleteFile: File %s existiert nicht!", from.c_str()); return; } fclose(fpSourceFile); rename(from.c_str(), to.c_str()); } void DeleteFile(string fn) { // ESP_LOGI(logTag, "Deleting file : %s", fn.c_str()); /* Delete file */ FILE* fpSourceFile = OpenFileAndWait(fn.c_str(), "rb"); if (!fpSourceFile) // Sourcefile existiert nicht sonst gibt es einen Fehler beim Kopierversuch! { ESP_LOGD(TAG, "DeleteFile: File %s existiert nicht!", fn.c_str()); return; } fclose(fpSourceFile); unlink(fn.c_str()); } void CopyFile(string input, string output) { input = FormatFileName(input); output = FormatFileName(output); if (toUpper(input).compare("/SDCARD/WLAN.INI") == 0) { ESP_LOGD(TAG, "wlan.ini kann nicht kopiert werden!"); return; } char cTemp; FILE* fpSourceFile = OpenFileAndWait(input.c_str(), "rb"); if (!fpSourceFile) // Sourcefile existiert nicht sonst gibt es einen Fehler beim Kopierversuch! { ESP_LOGD(TAG, "File %s existiert nicht!", input.c_str()); return; } FILE* fpTargetFile = OpenFileAndWait(output.c_str(), "wb"); // Code Section // Read From The Source File - "Copy" while (fread(&cTemp, 1, 1, fpSourceFile) == 1) { // Write To The Target File - "Paste" fwrite(&cTemp, 1, 1, fpTargetFile); } // Close The Files fclose(fpSourceFile); fclose(fpTargetFile); ESP_LOGD(TAG, "File copied: %s to %s", input.c_str(), output.c_str()); } string getFileFullFileName(string filename) { size_t lastpos = filename.find_last_of('/'); if (lastpos == string::npos) return ""; // ESP_LOGD(TAG, "Last position: %d", lastpos); string zw = filename.substr(lastpos + 1, filename.size() - lastpos); return zw; } string getDirectory(string filename) { size_t lastpos = filename.find('/'); if (lastpos == string::npos) lastpos = filename.find('\\'); if (lastpos == string::npos) return ""; // ESP_LOGD(TAG, "Directory: %d", lastpos); string zw = filename.substr(0, lastpos - 1); return zw; } string getFileType(string filename) { size_t lastpos = filename.rfind(".", filename.length()); size_t neu_pos; while ((neu_pos = filename.find(".", lastpos + 1)) > -1) { lastpos = neu_pos; } if (lastpos == string::npos) return ""; string zw = filename.substr(lastpos + 1, filename.size() - lastpos); zw = toUpper(zw); return zw; } /* recursive mkdir */ int mkdir_r(const char *dir, const mode_t mode) { char tmp[PATH_MAX_STRING_SIZE]; char *p = NULL; struct stat sb; size_t len; /* copy path */ len = strnlen (dir, PATH_MAX_STRING_SIZE); if (len == 0 || len == PATH_MAX_STRING_SIZE) { return -1; } memcpy (tmp, dir, len); tmp[len] = '\0'; /* remove trailing slash */ if(tmp[len - 1] == '/') { tmp[len - 1] = '\0'; } /* check if path exists and is a directory */ if (stat (tmp, &sb) == 0) { if (S_ISDIR (sb.st_mode)) { return 0; } } /* recursive mkdir */ for(p = tmp + 1; *p; p++) { if(*p == '/') { *p = 0; /* test path */ if (stat(tmp, &sb) != 0) { /* path does not exist - create directory */ if (mkdir(tmp, mode) < 0) { return -1; } } else if (!S_ISDIR(sb.st_mode)) { /* not a directory */ return -1; } *p = '/'; } } /* test path */ if (stat(tmp, &sb) != 0) { /* path does not exist - create directory */ if (mkdir(tmp, mode) < 0) { return -1; } } else if (!S_ISDIR(sb.st_mode)) { /* not a directory */ return -1; } return 0; } string toUpper(string in) { for (int i = 0; i < in.length(); ++i) in[i] = toupper(in[i]); return in; } string toLower(string in) { for (int i = 0; i < in.length(); ++i) in[i] = tolower(in[i]); return in; } // CPU Temp extern "C" uint8_t temprature_sens_read(); float temperatureRead() { return (temprature_sens_read() - 32) / 1.8; } time_t addDays(time_t startTime, int days) { struct tm* tm = localtime(&startTime); tm->tm_mday += days; return mktime(tm); } int removeFolder(const char* folderPath, const char* logTag) { ESP_LOGI(logTag, "Delete folder %s", folderPath); DIR *dir = opendir(folderPath); if (!dir) { ESP_LOGI(logTag, "Failed to stat dir : %s", folderPath); return -1; } struct dirent *entry; int deleted = 0; while ((entry = readdir(dir)) != NULL) { std::string path = string(folderPath) + "/" + entry->d_name; if (entry->d_type == DT_REG) { if (unlink(path.c_str()) == 0) { deleted ++; } else { ESP_LOGE(logTag, "can't delete file : %s", path.c_str()); } } else if (entry->d_type == DT_DIR) { deleted += removeFolder(path.c_str(), logTag); } } closedir(dir); if (rmdir(folderPath) != 0) { ESP_LOGE(logTag, "can't delete file : %s", folderPath); } ESP_LOGI(logTag, "%d older log files in folder %s deleted.", deleted, folderPath); return deleted; } std::vector HelperZerlegeZeile(std::string input, std::string _delimiter = "") { std::vector Output; std::string delimiter = " =,"; if (_delimiter.length() > 0){ delimiter = _delimiter; } input = trim(input, delimiter); size_t pos = findDelimiterPos(input, delimiter); std::string token; while (pos != std::string::npos) { token = input.substr(0, pos); token = trim(token, delimiter); Output.push_back(token); input.erase(0, pos + 1); input = trim(input, delimiter); pos = findDelimiterPos(input, delimiter); } Output.push_back(input); return Output; } /* Source: https://git.kernel.org/pub/scm/utils/mmc/mmc-utils.git/tree/lsmmc.c */ /* SD Card Manufacturer Database */ struct SDCard_Manufacturer_database { string type; int id; string manufacturer; }; /* Source: https://git.kernel.org/pub/scm/utils/mmc/mmc-utils.git/tree/lsmmc.c */ /* SD Card Manufacturer Database */ struct SDCard_Manufacturer_database database[] = { { .type = "sd", .id = 0x01, .manufacturer = "Panasonic", }, { .type = "sd", .id = 0x02, .manufacturer = "Toshiba/Kingston/Viking", }, { .type = "sd", .id = 0x03, .manufacturer = "SanDisk", }, { .type = "sd", .id = 0x08, .manufacturer = "Silicon Power", }, { .type = "sd", .id = 0x18, .manufacturer = "Infineon", }, { .type = "sd", .id = 0x1b, .manufacturer = "Transcend/Samsung", }, { .type = "sd", .id = 0x1c, .manufacturer = "Transcend", }, { .type = "sd", .id = 0x1d, .manufacturer = "Corsair/AData", }, { .type = "sd", .id = 0x1e, .manufacturer = "Transcend", }, { .type = "sd", .id = 0x1f, .manufacturer = "Kingston", }, { .type = "sd", .id = 0x27, .manufacturer = "Delkin/Phison", }, { .type = "sd", .id = 0x28, .manufacturer = "Lexar", }, { .type = "sd", .id = 0x30, .manufacturer = "SanDisk", }, { .type = "sd", .id = 0x31, .manufacturer = "Silicon Power", }, { .type = "sd", .id = 0x33, .manufacturer = "STMicroelectronics", }, { .type = "sd", .id = 0x41, .manufacturer = "Kingston", }, { .type = "sd", .id = 0x6f, .manufacturer = "STMicroelectronics", }, { .type = "sd", .id = 0x74, .manufacturer = "Transcend", }, { .type = "sd", .id = 0x76, .manufacturer = "Patriot", }, { .type = "sd", .id = 0x82, .manufacturer = "Gobe/Sony", }, { .type = "sd", .id = 0x89, .manufacturer = "Unknown", } }; /* Parse SD Card Manufacturer Database */ string SDCardParseManufacturerIDs(int id) { unsigned int id_cnt = sizeof(database) / sizeof(struct SDCard_Manufacturer_database); string ret_val = ""; for (int i = 0; i < id_cnt; i++) { if (database[i].id == id) { return database[i].manufacturer; } else { ret_val = "ID unknown (not in DB)"; } } return ret_val; }