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storage.cpp
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storage.cpp
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#include "esp_camera.h"
#include "src/jsonlib/jsonlib.h"
#include "storage.h"
// These are defined in the main .ino file
extern void flashLED(int flashtime);
extern int myRotation; // Rotation
extern int lampVal; // The current Lamp value
extern bool autoLamp; // Automatic lamp mode
extern int xclk; // Camera module clock speed
extern int minFrameTime; // Limits framerate
/*
* Useful utility when debugging...
*/
void listDir(fs::FS &fs, const char * dirname, uint8_t levels){
Serial.printf("Listing SPIFFS directory: %s\r\n", dirname);
File root = fs.open(dirname);
if(!root){
Serial.println("- failed to open directory");
return;
}
if(!root.isDirectory()){
Serial.println(" - not a directory");
return;
}
File file = root.openNextFile();
while(file){
if(file.isDirectory()){
Serial.print(" DIR : ");
Serial.println(file.name());
if(levels){
listDir(fs, file.name(), levels -1);
}
} else {
Serial.print(" FILE: ");
Serial.print(file.name());
Serial.print("\tSIZE: ");
Serial.println(file.size());
}
file = root.openNextFile();
}
}
void dumpPrefs(fs::FS &fs){
if (fs.exists(PREFERENCES_FILE)) {
// Dump contents for debug
File file = fs.open(PREFERENCES_FILE, FILE_READ);
int countSize = 0;
while (file.available() && countSize <= PREFERENCES_MAX_SIZE) {
Serial.print(char(file.read()));
countSize++;
}
Serial.println("");
file.close();
} else {
Serial.printf("%s not found, nothing to dump.\r\n", PREFERENCES_FILE);
}
}
void loadPrefs(fs::FS &fs){
if (fs.exists(PREFERENCES_FILE)) {
// read file into a string
String prefs;
Serial.printf("Loading preferences from file %s\r\n", PREFERENCES_FILE);
File file = fs.open(PREFERENCES_FILE, FILE_READ);
if (!file) {
Serial.println("Failed to open preferences file for reading, maybe corrupt, removing");
removePrefs(SPIFFS);
return;
}
size_t size = file.size();
if (size > PREFERENCES_MAX_SIZE) {
Serial.println("Preferences file size is too large, maybe corrupt, removing");
removePrefs(SPIFFS);
return;
}
while (file.available()) {
prefs += char(file.read());
if (prefs.length() > size) {
// corrupted SPIFFS files can return data beyond their declared size.
Serial.println("Preferences file failed to load properly, appears to be corrupt, removing");
removePrefs(SPIFFS);
return;
}
}
// get sensor reference
sensor_t * s = esp_camera_sensor_get();
// process local settings
if (lampVal >= 0) {
int lampValPref = jsonExtract(prefs, "lamp").toInt();
if (lampValPref >= 0) lampVal = lampValPref;
}
minFrameTime = jsonExtract(prefs, "min_frame_time").toInt();
if (jsonExtract(prefs, "autolamp").toInt() == 0) autoLamp = false; else autoLamp = true;
int xclkPref = jsonExtract(prefs, "xclk").toInt();
if (xclkPref >= 2) xclk = xclkPref;
myRotation = jsonExtract(prefs, "rotate").toInt();
// process camera settings
s->set_framesize(s, (framesize_t)jsonExtract(prefs, "framesize").toInt());
s->set_quality(s, jsonExtract(prefs, "quality").toInt());
s->set_xclk(s, LEDC_TIMER_0, xclk);
s->set_brightness(s, jsonExtract(prefs, "brightness").toInt());
s->set_contrast(s, jsonExtract(prefs, "contrast").toInt());
s->set_saturation(s, jsonExtract(prefs, "saturation").toInt());
s->set_special_effect(s, jsonExtract(prefs, "special_effect").toInt());
s->set_wb_mode(s, jsonExtract(prefs, "wb_mode").toInt());
s->set_whitebal(s, jsonExtract(prefs, "awb").toInt());
s->set_awb_gain(s, jsonExtract(prefs, "awb_gain").toInt());
s->set_exposure_ctrl(s, jsonExtract(prefs, "aec").toInt());
s->set_aec2(s, jsonExtract(prefs, "aec2").toInt());
s->set_ae_level(s, jsonExtract(prefs, "ae_level").toInt());
s->set_aec_value(s, jsonExtract(prefs, "aec_value").toInt());
s->set_gain_ctrl(s, jsonExtract(prefs, "agc").toInt());
s->set_agc_gain(s, jsonExtract(prefs, "agc_gain").toInt());
s->set_gainceiling(s, (gainceiling_t)jsonExtract(prefs, "gainceiling").toInt());
s->set_bpc(s, jsonExtract(prefs, "bpc").toInt());
s->set_wpc(s, jsonExtract(prefs, "wpc").toInt());
s->set_raw_gma(s, jsonExtract(prefs, "raw_gma").toInt());
s->set_lenc(s, jsonExtract(prefs, "lenc").toInt());
s->set_vflip(s, jsonExtract(prefs, "vflip").toInt());
s->set_hmirror(s, jsonExtract(prefs, "hmirror").toInt());
s->set_dcw(s, jsonExtract(prefs, "dcw").toInt());
s->set_colorbar(s, jsonExtract(prefs, "colorbar").toInt());
// close the file
file.close();
dumpPrefs(SPIFFS);
} else {
Serial.printf("Preference file %s not found; using system defaults.\r\n", PREFERENCES_FILE);
}
}
void savePrefs(fs::FS &fs){
if (fs.exists(PREFERENCES_FILE)) {
Serial.printf("Updating %s\r\n", PREFERENCES_FILE);
} else {
Serial.printf("Creating %s\r\n", PREFERENCES_FILE);
}
File file = fs.open(PREFERENCES_FILE, FILE_WRITE);
static char json_response[1024];
sensor_t * s = esp_camera_sensor_get();
char * p = json_response;
*p++ = '{';
p+=sprintf(p, "\"lamp\":%i,", lampVal);
p+=sprintf(p, "\"autolamp\":%u,", autoLamp);
p+=sprintf(p, "\"framesize\":%u,", s->status.framesize);
p+=sprintf(p, "\"quality\":%u,", s->status.quality);
p+=sprintf(p, "\"xclk\":%u,", xclk);
p+=sprintf(p, "\"min_frame_time\":%d,", minFrameTime);
p+=sprintf(p, "\"brightness\":%d,", s->status.brightness);
p+=sprintf(p, "\"contrast\":%d,", s->status.contrast);
p+=sprintf(p, "\"saturation\":%d,", s->status.saturation);
p+=sprintf(p, "\"special_effect\":%u,", s->status.special_effect);
p+=sprintf(p, "\"wb_mode\":%u,", s->status.wb_mode);
p+=sprintf(p, "\"awb\":%u,", s->status.awb);
p+=sprintf(p, "\"awb_gain\":%u,", s->status.awb_gain);
p+=sprintf(p, "\"aec\":%u,", s->status.aec);
p+=sprintf(p, "\"aec2\":%u,", s->status.aec2);
p+=sprintf(p, "\"ae_level\":%d,", s->status.ae_level);
p+=sprintf(p, "\"aec_value\":%u,", s->status.aec_value);
p+=sprintf(p, "\"agc\":%u,", s->status.agc);
p+=sprintf(p, "\"agc_gain\":%u,", s->status.agc_gain);
p+=sprintf(p, "\"gainceiling\":%u,", s->status.gainceiling);
p+=sprintf(p, "\"bpc\":%u,", s->status.bpc);
p+=sprintf(p, "\"wpc\":%u,", s->status.wpc);
p+=sprintf(p, "\"raw_gma\":%u,", s->status.raw_gma);
p+=sprintf(p, "\"lenc\":%u,", s->status.lenc);
p+=sprintf(p, "\"vflip\":%u,", s->status.vflip);
p+=sprintf(p, "\"hmirror\":%u,", s->status.hmirror);
p+=sprintf(p, "\"dcw\":%u,", s->status.dcw);
p+=sprintf(p, "\"colorbar\":%u,", s->status.colorbar);
p+=sprintf(p, "\"rotate\":\"%d\"", myRotation);
*p++ = '}';
*p++ = 0;
file.print(json_response);
file.close();
dumpPrefs(SPIFFS);
}
void removePrefs(fs::FS &fs) {
if (fs.exists(PREFERENCES_FILE)) {
Serial.printf("Removing %s\r\n", PREFERENCES_FILE);
if (!fs.remove(PREFERENCES_FILE)) {
Serial.println("Error removing preferences");
}
} else {
Serial.println("No saved preferences file to remove");
}
}
void filesystemStart(){
Serial.println("Starting internal SPIFFS filesystem");
while ( !SPIFFS.begin(FORMAT_SPIFFS_IF_FAILED) ) {
// if we sit in this loop something is wrong;
// if no existing spiffs partition exists one should be automagically created.
Serial.println("SPIFFS Mount failed, this can happen on first-run initialisation");
Serial.println("If it happens repeatedly check if a SPIFFS partition is present for your board?");
for (int i=0; i<10; i++) {
flashLED(100); // Show SPIFFS failure
delay(100);
}
delay(1000);
Serial.println("Retrying..");
}
listDir(SPIFFS, "/", 0);
}