kopia lustrzana https://github.com/Aircoookie/WLED
412 wiersze
12 KiB
C++
412 wiersze
12 KiB
C++
#include "wled.h"
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/*
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* Utility for SPIFFS filesystem
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*/
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#ifdef ARDUINO_ARCH_ESP32 //FS info bare IDF function until FS wrapper is available for ESP32
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#if WLED_FS != LITTLEFS && ESP_IDF_VERSION_MAJOR < 4
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#include "esp_spiffs.h"
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#endif
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#endif
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#define FS_BUFSIZE 256
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/*
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* Structural requirements for files managed by writeObjectToFile() and readObjectFromFile() utilities:
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* 1. File must be a string representation of a valid JSON object
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* 2. File must have '{' as first character
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* 3. There must not be any additional characters between a root-level key and its value object (e.g. space, tab, newline)
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* 4. There must not be any characters between an root object-separating ',' and the next object key string
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* 5. There may be any number of spaces, tabs, and/or newlines before such object-separating ','
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* 6. There must not be more than 5 consecutive spaces at any point except for those permitted in condition 5
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* 7. If it is desired to delete the first usable object (e.g. preset file), a dummy object '"0":{}' is inserted at the beginning.
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* It shall be disregarded by receiving software.
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* The reason for it is that deleting the first preset would require special code to handle commas between it and the 2nd preset
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*/
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// There are no consecutive spaces longer than this in the file, so if more space is required, findSpace() can return false immediately
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// Actual space may be lower
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uint16_t knownLargestSpace = UINT16_MAX;
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File f;
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//wrapper to find out how long closing takes
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void closeFile() {
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#ifdef WLED_DEBUG_FS
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DEBUGFS_PRINT(F("Close -> "));
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uint32_t s = millis();
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#endif
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f.close();
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DEBUGFS_PRINTF("took %d ms\n", millis() - s);
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doCloseFile = false;
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}
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//find() that reads and buffers data from file stream in 256-byte blocks.
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//Significantly faster, f.find(key) can take SECONDS for multi-kB files
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bool bufferedFind(const char *target, bool fromStart = true) {
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#ifdef WLED_DEBUG_FS
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DEBUGFS_PRINT("Find ");
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DEBUGFS_PRINTLN(target);
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uint32_t s = millis();
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#endif
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if (!f || !f.size()) return false;
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size_t targetLen = strlen(target);
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size_t index = 0;
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byte buf[FS_BUFSIZE];
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if (fromStart) f.seek(0);
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while (f.position() < f.size() -1) {
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uint16_t bufsize = f.read(buf, FS_BUFSIZE);
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uint16_t count = 0;
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while (count < bufsize) {
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if(buf[count] != target[index])
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index = 0; // reset index if any char does not match
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if(buf[count] == target[index]) {
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if(++index >= targetLen) { // return true if all chars in the target match
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f.seek((f.position() - bufsize) + count +1);
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DEBUGFS_PRINTF("Found at pos %d, took %d ms", f.position(), millis() - s);
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return true;
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}
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}
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count++;
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}
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}
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DEBUGFS_PRINTF("No match, took %d ms\n", millis() - s);
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return false;
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}
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//find empty spots in file stream in 256-byte blocks.
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bool bufferedFindSpace(uint16_t targetLen, bool fromStart = true) {
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#ifdef WLED_DEBUG_FS
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DEBUGFS_PRINTF("Find %d spaces\n", targetLen);
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uint32_t s = millis();
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#endif
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if (knownLargestSpace < targetLen) {
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DEBUGFS_PRINT(F("No match, KLS "));
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DEBUGFS_PRINTLN(knownLargestSpace);
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return false;
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}
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if (!f || !f.size()) return false;
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uint16_t index = 0;
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byte buf[FS_BUFSIZE];
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if (fromStart) f.seek(0);
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while (f.position() < f.size() -1) {
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uint16_t bufsize = f.read(buf, FS_BUFSIZE);
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uint16_t count = 0;
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while (count < bufsize) {
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if(buf[count] == ' ') {
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if(++index >= targetLen) { // return true if space long enough
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if (fromStart) {
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f.seek((f.position() - bufsize) + count +1 - targetLen);
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knownLargestSpace = UINT16_MAX; //there may be larger spaces after, so we don't know
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}
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DEBUGFS_PRINTF("Found at pos %d, took %d ms", f.position(), millis() - s);
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return true;
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}
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} else {
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if (!fromStart) return false;
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if (index) {
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if (knownLargestSpace < index || knownLargestSpace == UINT16_MAX) knownLargestSpace = index;
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index = 0; // reset index if not space
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}
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}
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count++;
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}
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}
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DEBUGFS_PRINTF("No match, took %d ms\n", millis() - s);
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return false;
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}
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//find the closing bracket corresponding to the opening bracket at the file pos when calling this function
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bool bufferedFindObjectEnd() {
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#ifdef WLED_DEBUG_FS
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DEBUGFS_PRINTLN(F("Find obj end"));
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uint32_t s = millis();
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#endif
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if (!f || !f.size()) return false;
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uint16_t objDepth = 0; //num of '{' minus num of '}'. return once 0
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//size_t start = f.position();
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byte buf[FS_BUFSIZE];
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while (f.position() < f.size() -1) {
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uint16_t bufsize = f.read(buf, FS_BUFSIZE);
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uint16_t count = 0;
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while (count < bufsize) {
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if (buf[count] == '{') objDepth++;
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if (buf[count] == '}') objDepth--;
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if (objDepth == 0) {
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f.seek((f.position() - bufsize) + count +1);
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DEBUGFS_PRINTF("} at pos %d, took %d ms", f.position(), millis() - s);
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return true;
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}
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count++;
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}
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}
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DEBUGFS_PRINTF("No match, took %d ms\n", millis() - s);
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return false;
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}
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//fills n bytes from current file pos with ' ' characters
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void writeSpace(uint16_t l)
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{
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byte buf[FS_BUFSIZE];
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memset(buf, ' ', FS_BUFSIZE);
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while (l > 0) {
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uint16_t block = (l>FS_BUFSIZE) ? FS_BUFSIZE : l;
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f.write(buf, block);
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l -= block;
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}
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if (knownLargestSpace < l) knownLargestSpace = l;
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}
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bool appendObjectToFile(const char* key, JsonDocument* content, uint32_t s, uint32_t contentLen = 0)
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{
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#ifdef WLED_DEBUG_FS
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DEBUGFS_PRINTLN(F("Append"));
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uint32_t s1 = millis();
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#endif
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uint32_t pos = 0;
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if (!f) return false;
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if (f.size() < 3) {
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char init[10];
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strcpy_P(init, PSTR("{\"0\":{}}"));
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f.print(init);
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}
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if (content->isNull()) {
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doCloseFile = true;
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return true; //nothing to append
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}
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//if there is enough empty space in file, insert there instead of appending
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if (!contentLen) contentLen = measureJson(*content);
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DEBUGFS_PRINTF("CLen %d\n", contentLen);
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if (bufferedFindSpace(contentLen + strlen(key) + 1)) {
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if (f.position() > 2) f.write(','); //add comma if not first object
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f.print(key);
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serializeJson(*content, f);
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DEBUGFS_PRINTF("Inserted, took %d ms (total %d)", millis() - s1, millis() - s);
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doCloseFile = true;
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return true;
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}
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//not enough space, append at end
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//permitted space for presets exceeded
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updateFSInfo();
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if (f.size() + 9000 > (fsBytesTotal - fsBytesUsed)) { //make sure there is enough space to at least copy the file once
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errorFlag = ERR_FS_QUOTA;
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doCloseFile = true;
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return false;
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}
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//check if last character in file is '}' (typical)
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uint32_t eof = f.size() -1;
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f.seek(eof, SeekSet);
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if (f.read() == '}') pos = eof;
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if (pos == 0) //not found
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{
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DEBUGFS_PRINTLN("not }");
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f.seek(0);
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while (bufferedFind("}",false)) //find last closing bracket in JSON if not last char
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{
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pos = f.position();
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}
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if (pos > 0) pos--;
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}
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DEBUGFS_PRINT("pos "); DEBUGFS_PRINTLN(pos);
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if (pos > 2)
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{
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f.seek(pos, SeekSet);
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f.write(',');
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} else { //file content is not valid JSON object
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f.seek(0, SeekSet);
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f.print('{'); //start JSON
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}
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f.print(key);
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//Append object
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serializeJson(*content, f);
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f.write('}');
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doCloseFile = true;
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DEBUGFS_PRINTF("Appended, took %d ms (total %d)", millis() - s1, millis() - s);
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return true;
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}
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bool writeObjectToFileUsingId(const char* file, uint16_t id, JsonDocument* content)
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{
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char objKey[10];
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sprintf(objKey, "\"%d\":", id);
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return writeObjectToFile(file, objKey, content);
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}
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bool writeObjectToFile(const char* file, const char* key, JsonDocument* content)
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{
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uint32_t s = 0; //timing
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#ifdef WLED_DEBUG_FS
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DEBUGFS_PRINTF("Write to %s with key %s >>>\n", file, (key==nullptr)?"nullptr":key);
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serializeJson(*content, Serial); DEBUGFS_PRINTLN();
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s = millis();
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#endif
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uint32_t pos = 0;
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f = WLED_FS.open(file, "r+");
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if (!f && !WLED_FS.exists(file)) f = WLED_FS.open(file, "w+");
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if (!f) {
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DEBUGFS_PRINTLN(F("Failed to open!"));
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return false;
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}
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if (!bufferedFind(key)) //key does not exist in file
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{
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return appendObjectToFile(key, content, s);
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}
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//an object with this key already exists, replace or delete it
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pos = f.position();
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//measure out end of old object
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bufferedFindObjectEnd();
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uint32_t pos2 = f.position();
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uint32_t oldLen = pos2 - pos;
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DEBUGFS_PRINTF("Old obj len %d\n", oldLen);
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//Three cases:
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//1. The new content is null, overwrite old obj with spaces
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//2. The new content is smaller than the old, overwrite and fill diff with spaces
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//3. The new content is larger than the old, but smaller than old + trailing spaces, overwrite with new
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//4. The new content is larger than old + trailing spaces, delete old and append
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uint32_t contentLen = 0;
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if (!content->isNull()) contentLen = measureJson(*content);
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if (contentLen && contentLen <= oldLen) { //replace and fill diff with spaces
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DEBUGFS_PRINTLN(F("replace"));
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f.seek(pos);
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serializeJson(*content, f);
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writeSpace(pos2 - f.position());
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} else if (contentLen && bufferedFindSpace(contentLen - oldLen, false)) { //enough leading spaces to replace
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DEBUGFS_PRINTLN(F("replace (trailing)"));
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f.seek(pos);
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serializeJson(*content, f);
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} else {
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DEBUGFS_PRINTLN(F("delete"));
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pos -= strlen(key);
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if (pos > 3) pos--; //also delete leading comma if not first object
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f.seek(pos);
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writeSpace(pos2 - pos);
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if (contentLen) return appendObjectToFile(key, content, s, contentLen);
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}
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doCloseFile = true;
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DEBUGFS_PRINTF("Replaced/deleted, took %d ms\n", millis() - s);
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return true;
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}
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bool readObjectFromFileUsingId(const char* file, uint16_t id, JsonDocument* dest)
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{
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char objKey[10];
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sprintf(objKey, "\"%d\":", id);
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return readObjectFromFile(file, objKey, dest);
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}
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//if the key is a nullptr, deserialize entire object
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bool readObjectFromFile(const char* file, const char* key, JsonDocument* dest)
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{
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if (doCloseFile) closeFile();
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#ifdef WLED_DEBUG_FS
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DEBUGFS_PRINTF("Read from %s with key %s >>>\n", file, (key==nullptr)?"nullptr":key);
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uint32_t s = millis();
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#endif
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f = WLED_FS.open(file, "r");
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if (!f) return false;
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if (key != nullptr && !bufferedFind(key)) //key does not exist in file
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{
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f.close();
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dest->clear();
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DEBUGFS_PRINTLN(F("Obj not found."));
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return false;
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}
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deserializeJson(*dest, f);
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f.close();
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DEBUGFS_PRINTF("Read, took %d ms\n", millis() - s);
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return true;
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}
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void updateFSInfo() {
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#ifdef ARDUINO_ARCH_ESP32
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#if WLED_FS == LITTLEFS || ESP_IDF_VERSION_MAJOR >= 4
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fsBytesTotal = WLED_FS.totalBytes();
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fsBytesUsed = WLED_FS.usedBytes();
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#else
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esp_spiffs_info(nullptr, &fsBytesTotal, &fsBytesUsed);
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#endif
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#else
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FSInfo fsi;
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WLED_FS.info(fsi);
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fsBytesUsed = fsi.usedBytes;
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fsBytesTotal = fsi.totalBytes;
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#endif
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}
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//Un-comment any file types you need
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String getContentType(AsyncWebServerRequest* request, String filename){
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if(request->hasArg("download")) return "application/octet-stream";
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else if(filename.endsWith(".htm")) return "text/html";
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else if(filename.endsWith(".html")) return "text/html";
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else if(filename.endsWith(".css")) return "text/css";
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else if(filename.endsWith(".js")) return "application/javascript";
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else if(filename.endsWith(".json")) return "application/json";
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else if(filename.endsWith(".png")) return "image/png";
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else if(filename.endsWith(".gif")) return "image/gif";
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else if(filename.endsWith(".jpg")) return "image/jpeg";
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else if(filename.endsWith(".ico")) return "image/x-icon";
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// else if(filename.endsWith(".xml")) return "text/xml";
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// else if(filename.endsWith(".pdf")) return "application/x-pdf";
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// else if(filename.endsWith(".zip")) return "application/x-zip";
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// else if(filename.endsWith(".gz")) return "application/x-gzip";
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return "text/plain";
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}
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bool handleFileRead(AsyncWebServerRequest* request, String path){
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DEBUG_PRINTLN("FileRead: " + path);
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if(path.endsWith("/")) path += "index.htm";
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if(path.indexOf("sec") > -1) return false;
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String contentType = getContentType(request, path);
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/*String pathWithGz = path + ".gz";
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if(WLED_FS.exists(pathWithGz)){
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request->send(WLED_FS, pathWithGz, contentType);
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return true;
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}*/
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if(WLED_FS.exists(path)) {
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request->send(WLED_FS, path, contentType);
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return true;
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}
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return false;
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}
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