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utilsFS.cpp
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utilsFS.cpp
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// General purpose SD card and flash storage utilities
//
// s60sc 2021, 2022
#include "appGlobals.h"
// Storage settings
int sdMinCardFreeSpace = 100; // Minimum amount of card free Megabytes before sdFreeSpaceMode action is enabled
int sdFreeSpaceMode = 1; // 0 - No Check, 1 - Delete oldest dir, 2 - Upload oldest dir to FTP/HFS and then delete on SD
bool formatIfMountFailed = true; // Auto format the file system if mount failed. Set to false to not auto format.
static fs::FS fp = STORAGE;
// hold sorted list of filenames/folders names in order of newest first
static std::vector<std::string> fileVec;
static auto currentDir = "/~current";
static auto previousDir = "/~previous";
static char fsType[10] = {0};
static void infoSD() {
#if !(CONFIG_IDF_TARGET_ESP32C3)
uint8_t cardType = SD_MMC.cardType();
if (cardType == CARD_NONE) LOG_WRN("No SD card attached");
else {
char typeStr[8] = "UNKNOWN";
if (cardType == CARD_MMC) strcpy(typeStr, "MMC");
else if (cardType == CARD_SD) strcpy(typeStr, "SDSC");
else if (cardType == CARD_SDHC) strcpy(typeStr, "SDHC");
LOG_INF("SD card type %s, Size: %s", typeStr, fmtSize(SD_MMC.cardSize()));
}
#endif
}
static bool prepSD_MMC() {
bool res = false;
#if !(CONFIG_IDF_TARGET_ESP32C3)
/* open SD card in MMC 1 bit mode
MMC4 MMC1 ESP32 ESP32S3
D2 12
D3 .. 13
CMD CMD 15 38
CLK CLK 14 39
D0 D0 2 40
D1 4
*/
if (psramFound()) heap_caps_malloc_extmem_enable(MIN_RAM); // small number to force vector into psram
fileVec.reserve(1000);
if (psramFound()) heap_caps_malloc_extmem_enable(MAX_RAM);
#if CONFIG_IDF_TARGET_ESP32S3
#if !defined(SD_MMC_CLK)
LOG_WRN("SD card pins not defined");
return false;
#else
SD_MMC.setPins(SD_MMC_CLK, SD_MMC_CMD, SD_MMC_D0);
#endif
#endif
res = SD_MMC.begin("/sdcard", true, formatIfMountFailed);
#if defined(CAMERA_MODEL_AI_THINKER)
pinMode(4, OUTPUT);
digitalWrite(4, 0); // set lamp pin fully off as sd_mmc library still initialises pin 4 in 1 line mode
#endif
if (res) {
fp.mkdir(DATA_DIR);
infoSD();
res = true;
} else {
LOG_WRN("SD card mount failed");
res = false;
}
#endif
return res;
}
static void listFolder(const char* rootDir) {
// list contents of folder
LOG_INF("Sketch size %s", fmtSize(ESP.getSketchSize()));
File root = fp.open(rootDir);
File file = root.openNextFile();
while (file) {
LOG_INF("File: %s, size: %s", file.path(), fmtSize(file.size()));
file = root.openNextFile();
}
char totalBytes[20];
strcpy(totalBytes, fmtSize(STORAGE.totalBytes()));
LOG_INF("%s: %s used of %s", fsType, fmtSize(STORAGE.usedBytes()), totalBytes);
}
bool startStorage() {
// start required storage device (SD card or flash file system)
bool res = false;
#if !(CONFIG_IDF_TARGET_ESP32C3)
if ((fs::SDMMCFS*)&STORAGE == &SD_MMC) {
strcpy(fsType, "SD_MMC");
res = prepSD_MMC();
if (res) listFolder(DATA_DIR);
else snprintf(startupFailure, SF_LEN, STARTUP_FAIL "Check SD card inserted");
debugMemory("startStorage");
return res;
}
#endif
// One of SPIFFS or LittleFS
if (!strlen(fsType)) {
#ifdef _SPIFFS_H_
if ((fs::SPIFFSFS*)&STORAGE == &SPIFFS) {
strcpy(fsType, "SPIFFS");
res = SPIFFS.begin(formatIfMountFailed);
}
#endif
#ifdef _LITTLEFS_H_
if ((fs::LittleFSFS*)&STORAGE == &LittleFS) {
strcpy(fsType, "LittleFS");
res = LittleFS.begin(formatIfMountFailed);
// create data folder if not present
if (res) LittleFS.mkdir(DATA_DIR);
}
#endif
if (res) {
// list details of files on file system
const char* rootDir = !strcmp(fsType, "LittleFS") ? DATA_DIR : "/";
listFolder(rootDir);
}
} else {
snprintf(startupFailure, SF_LEN, STARTUP_FAIL "Failed to mount %s", fsType);
dataFilesChecked = true; // disable setupAssist as no file system
}
debugMemory("startStorage");
return res;
}
static void getOldestDir(char* oldestDir) {
// get oldest folder by its date name
File root = fp.open("/");
File file = root.openNextFile();
if (file) strcpy(oldestDir, file.path()); // initialise oldestDir
while (file) {
if (file.isDirectory() && strstr(file.name(), "System") == NULL // ignore Sys Vol Info
&& strstr(DATA_DIR, file.name()) == NULL) { // ignore data folder
if (strcmp(oldestDir, file.path()) > 0) strcpy(oldestDir, file.path());
}
file = root.openNextFile();
}
}
void inline getFileDate(File& file, char* fileDate) {
// get last write date of file as string
time_t writeTime = file.getLastWrite();
struct tm lt;
localtime_r(&writeTime, <);
strftime(fileDate, sizeof(fileDate), "%Y-%m-%d %H:%M:%S", <);
}
bool checkFreeStorage() {
// Check for sufficient space on storage
bool res = false;
size_t freeSize = (size_t)((STORAGE.totalBytes() - STORAGE.usedBytes()) / ONEMEG);
if (!sdFreeSpaceMode && freeSize < sdMinCardFreeSpace)
LOG_WRN("Space left %uMB is less than minimum %uMB", freeSize, sdMinCardFreeSpace);
else {
// delete to make space
while (freeSize < sdMinCardFreeSpace) {
char oldestDir[FILE_NAME_LEN];
getOldestDir(oldestDir);
LOG_WRN("Deleting oldest folder: %s %s", oldestDir, sdFreeSpaceMode == 2 ? "after uploading" : "");
#if INCLUDE_FTP_HFS
if (sdFreeSpaceMode == 2) fsStartTransfer(oldestDir); // transfer and then delete oldest folder
#endif
deleteFolderOrFile(oldestDir);
freeSize = (size_t)((STORAGE.totalBytes() - STORAGE.usedBytes()) / ONEMEG);
}
LOG_INF("Storage free space: %s", fmtSize(STORAGE.totalBytes() - STORAGE.usedBytes()));
res = true;
}
return res;
}
void setFolderName(const char* fname, char* fileName) {
// set current or previous folder
char partName[FILE_NAME_LEN];
if (strchr(fname, '~') != NULL) {
if (!strcmp(fname, currentDir)) {
dateFormat(partName, sizeof(partName), true);
strcpy(fileName, partName);
LOG_INF("Current directory set to %s", fileName);
}
else if (!strcmp(fname, previousDir)) {
struct timeval tv;
gettimeofday(&tv, NULL);
struct tm* tm = localtime(&tv.tv_sec);
tm->tm_mday -= 1;
time_t prev = mktime(tm);
strftime(partName, sizeof(partName), "/%Y%m%d", localtime(&prev));
strcpy(fileName, partName);
LOG_INF("Previous directory set to %s", fileName);
} else strcpy(fileName, "");
} else strcpy(fileName, fname);
}
bool listDir(const char* fname, char* jsonBuff, size_t jsonBuffLen, const char* extension) {
// either list day folders in root, or files in a day folder
bool hasExtension = false;
char partJson[200]; // used to build SD page json buffer
bool noEntries = true;
char fileName[FILE_NAME_LEN];
setFolderName(fname, fileName);
// check if folder or file
if (strstr(fileName, extension) != NULL) {
// required file type selected
hasExtension = true;
noEntries = true;
strcpy(jsonBuff, "{}");
} else {
// ignore leading '/' if not the only character
bool returnDirs = strlen(fileName) > 1 ? (strchr(fileName+1, '/') == NULL ? false : true) : true;
// open relevant folder to list contents
File root = fp.open(fileName);
if (strlen(fileName)) {
if (!root) LOG_WRN("Failed to open directory %s", fileName);
else if (!root.isDirectory()) LOG_WRN("Not a directory %s", fileName);
LOG_VRB("Retrieving %s in %s", returnDirs ? "folders" : "files", fileName);
}
// build relevant option list
strcpy(jsonBuff, returnDirs ? "{" : "{\"/\":\".. [ Up ]\",");
File file = root.openNextFile();
if (psramFound()) heap_caps_malloc_extmem_enable(MIN_RAM); // small number to force vector into psram
while (file) {
if (returnDirs && file.isDirectory() && strstr(DATA_DIR, file.name()) == NULL) {
// build folder list, ignore data folder
sprintf(partJson, "\"%s\":\"%s\",", file.path(), file.name());
fileVec.push_back(std::string(partJson));
noEntries = false;
}
if (!returnDirs && !file.isDirectory()) {
// build file list
if (strstr(file.name(), extension) != NULL) {
sprintf(partJson, "\"%s\":\"%s %s\",", file.path(), file.name(), fmtSize(file.size()));
fileVec.push_back(std::string(partJson));
noEntries = false;
}
}
file = root.openNextFile();
}
if (psramFound()) heap_caps_malloc_extmem_enable(MAX_RAM);
}
if (noEntries && !hasExtension) sprintf(jsonBuff, "{\"/\":\"List folders\",\"%s\":\"Go to current (today)\",\"%s\":\"Go to previous (yesterday)\"}", currentDir, previousDir);
else {
// build json string content
sort(fileVec.begin(), fileVec.end(), std::greater<std::string>());
for (auto fileInfo : fileVec) {
if (strlen(jsonBuff) + strlen(fileInfo.c_str()) < jsonBuffLen) strcat(jsonBuff, fileInfo.c_str());
else {
LOG_WRN("Too many folders/files to list %u+%u in %u bytes", strlen(jsonBuff), strlen(partJson), jsonBuffLen);
break;
}
}
jsonBuff[strlen(jsonBuff)-1] = '}'; // lose trailing comma
}
fileVec.clear();
return hasExtension;
}
static void deleteOthers(const char* baseFile) {
#ifdef ISCAM
// delete corresponding csv and srt files if exist
char otherDeleteName[FILE_NAME_LEN];
strcpy(otherDeleteName, baseFile);
changeExtension(otherDeleteName, CSV_EXT);
if (STORAGE.remove(otherDeleteName)) LOG_INF("File %s deleted", otherDeleteName);
changeExtension(otherDeleteName, SRT_EXT);
if (STORAGE.remove(otherDeleteName)) LOG_INF("File %s deleted", otherDeleteName);
#endif
}
void deleteFolderOrFile(const char* deleteThis) {
// delete supplied file or folder, unless it is a reserved folder
char fileName[FILE_NAME_LEN];
setFolderName(deleteThis, fileName);
File df = fp.open(fileName);
if (!df) {
LOG_WRN("Failed to open %s", fileName);
return;
}
if (df.isDirectory() && (strstr(fileName, "System") != NULL
|| strstr("/", fileName) != NULL)) {
df.close();
LOG_WRN("Deletion of %s not permitted", fileName);
delay(1000); // reduce thrashing on same error
return;
}
LOG_INF("Deleting : %s", fileName);
// Empty named folder first
if (df.isDirectory() || ((!strcmp(fsType, "SPIFFS")) && strstr("/", fileName) != NULL)) {
LOG_INF("Folder %s contents", fileName);
File file = df.openNextFile();
while (file) {
char filepath[FILE_NAME_LEN];
strcpy(filepath, file.path());
if (file.isDirectory()) LOG_INF(" DIR : %s", filepath);
else {
size_t fSize = file.size();
file.close();
LOG_INF(" FILE : %s Size : %s %sdeleted", filepath, fmtSize(fSize), STORAGE.remove(filepath) ? "" : "not ");
deleteOthers(filepath);
}
file = df.openNextFile();
}
// Remove the folder
if (df.isDirectory()) LOG_ALT("Folder %s %sdeleted", fileName, STORAGE.rmdir(fileName) ? "" : "not ");
else df.close();
} else {
// delete individual file
df.close();
LOG_ALT("File %s %sdeleted", deleteThis, STORAGE.remove(deleteThis) ? "" : "not "); //Remove the file
deleteOthers(deleteThis);
}
}
/************** uncompressed tarball **************/
#define BLOCKSIZE 512
static esp_err_t writeHeader(File& inFile, httpd_req_t* req) {
char tarHeader[BLOCKSIZE] = {0}; // 512 bytes tar header
strncpy(tarHeader, inFile.name(), 99); // name of file
sprintf(tarHeader + 100, "0000666"); // file permissions stored as ascii octal number
sprintf(tarHeader + 124, "%011o", inFile.size()); // length of file in bytes as 6 digit ascii octal number
memcpy(tarHeader + 148, " ", 8); // init as 8 spaces to calc checksum
tarHeader[156] = '0'; // type of entry - 0 for ordinary file
strcpy(tarHeader + 257, "ustar"); // magic
memcpy(tarHeader + 263, "00", 2); // version as two 0 digits
// Calculate and set the checksum
uint32_t checksum = 0;
for (const auto& ch : tarHeader) checksum += ch;
sprintf(tarHeader + 148, "%06lo", checksum); // six digit octal number with leading zeroes followed by a NUL and then a space.
return httpd_resp_send_chunk(req, tarHeader, BLOCKSIZE);
}
esp_err_t downloadFile(File& df, httpd_req_t* req) {
// download file as attachment, required file name in inFileName
// setup download header, create zip file if required, and download file
esp_err_t res = ESP_OK;
bool needZip = false;
char downloadName[FILE_NAME_LEN];
strcpy(downloadName, df.name());
size_t downloadSize = df.size();
char fsSavePath[FILE_NAME_LEN];
strcpy(fsSavePath, inFileName);
#ifdef ISCAM
changeExtension(fsSavePath, CSV_EXT);
// check if ancillary files present
needZip = STORAGE.exists(fsSavePath);
const char* extensions[3] = {AVI_EXT, CSV_EXT, SRT_EXT};
if (needZip) {
// ancillary files, calculate total size for http header
downloadSize = 0;
for (const auto& ext : extensions) {
changeExtension(fsSavePath, ext);
File inFile = STORAGE.open(fsSavePath, FILE_READ);
if (inFile) {
// round up file size to 512 byte boundary and add header size
downloadSize += (((inFile.size() + BLOCKSIZE - 1) / BLOCKSIZE) * BLOCKSIZE) + BLOCKSIZE;
strcpy(downloadName, inFile.name());
inFile.close();
}
}
downloadSize += BLOCKSIZE * 2; // end of tarball marker
changeExtension(downloadName, "zip");
}
#endif
// create http header
LOG_INF("Download file: %s, size: %s", downloadName, fmtSize(downloadSize));
httpd_resp_set_type(req, "application/octet-stream");
// header field values must remain valid until first send
char contentDisp[IN_FILE_NAME_LEN + 50];
snprintf(contentDisp, sizeof(contentDisp) - 1, "attachment; filename=%s", downloadName);
httpd_resp_set_hdr(req, "Content-Disposition", contentDisp);
char contentLength[10];
snprintf(contentLength, sizeof(contentLength) - 1, "%i", downloadSize);
httpd_resp_set_hdr(req, "Content-Length", contentLength);
if (needZip) {
#ifdef ISCAM
// package avi file and ancillary files into uncompressed tarball
for (const auto& ext : extensions) {
changeExtension(fsSavePath, ext);
File inFile = STORAGE.open(fsSavePath, FILE_READ);
if (inFile) {
res = writeHeader(inFile, req);
if (res == ESP_OK) res = sendChunks(inFile, req, false);
if (res == ESP_OK) {
// write end of file filler
size_t remainingBytes = inFile.size() % BLOCKSIZE;
if (remainingBytes) {
char zeroBlock[BLOCKSIZE - remainingBytes] = {};
res = httpd_resp_send_chunk(req, zeroBlock, sizeof(zeroBlock));
}
inFile.close();
}
}
}
// Write two blocks filled with zeros to mark the end of the archive
char zeroBlock[BLOCKSIZE] = {};
res = httpd_resp_send_chunk(req, zeroBlock, BLOCKSIZE);
res = httpd_resp_send_chunk(req, zeroBlock, BLOCKSIZE);
res = httpd_resp_sendstr_chunk(req, NULL);
#endif
} else res = sendChunks(df, req); // send AVI
return res;
}