Added missing files

This commit is contained in:
Lukas Bachschwell 2015-11-19 20:38:42 +01:00
parent 4c18ae050f
commit b492867bd2
5 changed files with 508 additions and 14 deletions

8
bb.con Executable file
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@ -0,0 +1,8 @@
drink number 0: Bier
price: 100
drink number 1: Wein
price: 100
drink number 2: AntiAlk
price: 050

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@ -6,6 +6,7 @@
#define FILE_EXTENSION ".per"
#define NAME_LEN 10
#define led 4
//######### RFID CONSTANTS ##########
const int startZeichen = 02; // Chip-Kennung beginnt mit 02

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@ -34,6 +34,7 @@ String rfID;
unsigned long oldTime = 0;
unsigned long ledTime = 0;
void setup() {
@ -44,6 +45,10 @@ void setup() {
lcd.init();
pinMode(2, INPUT_PULLUP);
pinMode(3, OUTPUT);
pinMode(led, OUTPUT);
//tone(3,440,5000);
//Fingerprint init
finger.begin(57600);
if (finger.verifyPassword()) {
@ -86,7 +91,9 @@ void setup() {
currentDrink = 0;
box->waiting = false;
//turnOn led
digitalWrite(led,HIGH);
ledTime = millis();
}
@ -98,6 +105,7 @@ void loop() {
checkButton();
boxTimer();
ledTimer();
@ -249,8 +257,8 @@ Person read_person(Beerbox *box, char *filename) {
//giving the full filename here, since it makes stuff easier
Serial.print("The filename is: ");
Serial.println(filename);
//Serial.print("The filename is: ");
//Serial.println(filename);
read = SD.open(filename, FILE_READ);
if (read == false) {
@ -278,21 +286,21 @@ Person read_person(Beerbox *box, char *filename) {
Serial.println(aperson.rfid_uuid);
read_line_from_file(read, tmp, sizeof(tmp));
sscanf(tmp, "finger_uuid: %d", &aperson.finger_uuid);
Serial.println(aperson.finger_uuid);
//Serial.println(aperson.finger_uuid);
//credits_left
read_line_from_file(read, tmp, sizeof(tmp));
sscanf(tmp, "credits_left: %d", &aperson.credits_left);
Serial.println(aperson.credits_left);
//Serial.println(aperson.credits_left);
while (read_line_from_file(read, tmp, sizeof(tmp)), strlen(tmp) > 0) {
int tmpCount = 0;
int tmpDrink = 0;
sscanf(tmp, "drink_Count_%d: %d", &tmpDrink, &tmpCount);
if (strlen(tmp)) {
Serial.print("drink: ");
Serial.print(tmpDrink);
Serial.print(" count: ");
Serial.println(tmpCount);
//Serial.print("drink: ");
//Serial.print(tmpDrink);
//Serial.print(" count: ");
//Serial.println(tmpCount);
aperson.drinks_taken[tmpDrink] = tmpCount;
}
}
@ -436,7 +444,6 @@ Person* readAllPersons () {
if (!entry.isDirectory()) {
if (strcmp(strlwr(entry.name() + (strlen(entry.name()) - 4)), ".per")==0)
{
Serial.println("Yea");
personCount++; //Yeah it is a person!
}
@ -445,8 +452,8 @@ Person* readAllPersons () {
entry.close();
}
//now store them
Serial.print("count:");
Serial.print(personCount);
//Serial.print("count:");
//Serial.print(personCount);
Person* readPersons = new Person[personCount];
int counter = 0;
dir.rewindDirectory();
@ -460,8 +467,8 @@ Person* readAllPersons () {
if (strstr(strlwr(entry.name() + (len - 4)), ".per"))
{
//Yeah it is a person!
Serial.print("Person: ");
Serial.println(entry.name());
//Serial.print("Person: ");
//Serial.println(entry.name());
Person thisPerson = read_person(box, entry.name());
readPersons[counter] = thisPerson;
counter++;

276
enroll.ino Normal file
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@ -0,0 +1,276 @@
uint8_t getFingerprintEnroll(int id) {
lcd.setCursor(0, 1);
lcd.print("Fin pls");
int p = -1;
while (p != FINGERPRINT_OK) {
p = finger.getImage();
switch (p) {
case FINGERPRINT_OK:
Serial.println("Image taken");
lcd.clear();
lcd.print("Image 1");
lcd.setCursor(0, 1);
lcd.print("Done");
break;
case FINGERPRINT_NOFINGER:
Serial.println(".");
break;
case FINGERPRINT_PACKETRECIEVEERR:
Serial.println("Communication error");
lcd.clear();
lcd.print("Error");
break;
case FINGERPRINT_IMAGEFAIL:
Serial.println("Imaging error");
lcd.clear();
lcd.print("Error");
break;
default:
Serial.println("Unknown error");
lcd.clear();
lcd.print("Error");
break;
}
}
// OK success!
p = finger.image2Tz(1);
switch (p) {
case FINGERPRINT_OK:
Serial.println("Image converted");
break;
case FINGERPRINT_IMAGEMESS:
Serial.println("Image too messy");
return p;
case FINGERPRINT_PACKETRECIEVEERR:
Serial.println("Communication error");
return p;
case FINGERPRINT_FEATUREFAIL:
Serial.println("Could not find fingerprint features");
return p;
case FINGERPRINT_INVALIDIMAGE:
Serial.println("Could not find fingerprint features");
return p;
default:
Serial.println("Unknown error");
return p;
}
//Serial.println("Remove finger");
lcd.clear();
lcd.print("Remove");
lcd.setCursor(0, 1);
lcd.print("Finger");
delay(2000);
p = 0;
while (p != FINGERPRINT_NOFINGER) {
p = finger.getImage();
}
p = -1;
lcd.clear();
lcd.print("Second");
lcd.setCursor(0, 1);
lcd.print("time pls");
Serial.println("Place same finger again");
while (p != FINGERPRINT_OK) {
p = finger.getImage();
switch (p) {
case FINGERPRINT_OK:
Serial.println("Image taken");
break;
case FINGERPRINT_NOFINGER:
Serial.print(".");
break;
case FINGERPRINT_PACKETRECIEVEERR:
Serial.println("Communication error");
lcd.clear();
lcd.print("Error");
break;
case FINGERPRINT_IMAGEFAIL:
Serial.println("Imaging error");
lcd.clear();
lcd.print("Error");
break;
default:
Serial.println("Unknown error");
lcd.clear();
lcd.print("Error");
break;
}
}
// OK success!
p = finger.image2Tz(2);
switch (p) {
case FINGERPRINT_OK:
Serial.println("Image converted");
break;
case FINGERPRINT_IMAGEMESS:
Serial.println("Image too messy");
return p;
case FINGERPRINT_PACKETRECIEVEERR:
Serial.println("Communication error");
lcd.clear();
lcd.print("Error");
return p;
case FINGERPRINT_FEATUREFAIL:
Serial.println("Could not find fingerprint features");
lcd.clear();
lcd.print("Error");
return p;
case FINGERPRINT_INVALIDIMAGE:
Serial.println("Could not find fingerprint features");
lcd.clear();
lcd.print("Error");
return p;
default:
Serial.println("Unknown error");
lcd.clear();
lcd.print("Error");
return p;
}
// OK converted!
p = finger.createModel();
if (p == FINGERPRINT_OK) {
Serial.println("Prints matched!");
lcd.clear();
lcd.print("Match!");
} else if (p == FINGERPRINT_PACKETRECIEVEERR) {
Serial.println("Communication error");
return p;
} else if (p == FINGERPRINT_ENROLLMISMATCH) {
Serial.println("Fingerprints did not match");
lcd.clear();
lcd.print("Error");
lcd.setCursor(0, 1);
lcd.print("mismatch");
delay(1000);
return p;
} else {
Serial.println("Unknown error");
return p;
}
Serial.print("ID "); Serial.println(id);
p = finger.storeModel(id);
if (p == FINGERPRINT_OK) {
Serial.println("Stored!");
} else if (p == FINGERPRINT_PACKETRECIEVEERR) {
Serial.println("Communication error");
return p;
} else if (p == FINGERPRINT_BADLOCATION) {
Serial.println("Could not store in that location");
return p;
} else if (p == FINGERPRINT_FLASHERR) {
Serial.println("Error writing to flash");
return p;
} else {
Serial.println("Unknown error");
return p;
}
return 0;
}
void getRFIDEnroll() {
Serial1.flush();
if (Serial1.available() >= gesamtKennungLaenge) // wenn genug Zeichen eingegangen ...
{
if (Serial1.read() == startZeichen) // und das Startzeichen erkannt wurde ...
{
//Serial.print("Start-Byte erkannt ... ");
bytesGelesen = 0; // starten Lesen, also Zaehler auf 0
while (bytesGelesen < kennungLaenge) // lese 12-stelligen Code
{
char zeichen = Serial1.read(); // lesen Zeichen
//Serial.print(zeichen); // zur Kontrolle
//Serial.print(" ");
if (zeichen == endeZeichen) // suche nach Ende-Befehl
{
//Serial.println("CR erkannt ...");
break;
}
code[bytesGelesen] = zeichen; // speicher Zeichen im Puffer
bytesGelesen = bytesGelesen + 1; // ein Zeichen weiter
}
code[bytesGelesen] = 0; // beende Zeichenkette
Serial.print("RFID-Code lautet: ");
Serial.println(code);
zugang = code; //char[] to string
//already existing
if (getRFIDIndex(code) != -1) {
Serial.print("Error: ");
Serial.print("This is ");
Serial.println(persons[getRFIDIndex(code)].name);
lcd.setCursor(0, 1);
lcd.print("Error! ");
zugang = ""; //this time reset first!
delay(1000); // debounce time
serial1_flush_buffer();
}
else {
// do not reset zugang
delay(1000); // debounce time
serial1_flush_buffer();
}
}
}
}
int write_pers_file(Person* thisPerson) {
Serial.println("Writing Person:");
File write;
char tmp[25];
int i = 0;
//Serial.println(thisPerson.file_name);
write = SD.open(thisPerson->file_name, FILE_WRITE);
// write.seek(0);
sprintf(tmp, "%s\n", thisPerson->name);
Serial.print(tmp);
write.write(tmp, strlen(tmp));
sprintf(tmp, "rfid_uuid: %s\n", thisPerson->rfid_uuid);
Serial.print(tmp);
write.write(tmp, strlen(tmp));
sprintf(tmp, "finger_uuid: %u\n", thisPerson->finger_uuid);
Serial.print(tmp);
write.write(tmp, strlen(tmp));
sprintf(tmp, "credits_left: %u\n", thisPerson->credits_left);
write.write(tmp, strlen(tmp));
for (i = 0; i < drinksMax; i++) {
if (thisPerson->drinks_taken[i] != -1) {
sprintf(tmp, "\ndrink_Count_%d: %d\n", i, thisPerson->drinks_taken[i]);
write.write(tmp, strlen(tmp));
Serial.println(tmp);
}
}
write.close();
//rescan it!
delete [] persons; // When done, free memory pointed to
persons = NULL;
persons = readAllPersons();
Serial.println(sizeof(persons));
return 0;
}

202
inputs.ino Normal file
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@ -0,0 +1,202 @@
void checkButton() {
//one change per click to make seleting drinks easier for the drunken
//if (digitalRead(2) != lastButtonState) {
//delayMicroseconds(50); //debounce delay
if (digitalRead(2) != lastButtonState) {
//ok we have a change!
if (digitalRead(2) == LOW) {
//pushed
digitalWrite(led,HIGH);
ledTime = millis();
if (box->waiting == 0) {
if (currentDrink == drinksMax - 1) currentDrink = -1;
currentDrink++;
Serial.println(box->drinks[currentDrink].name);
lcd.clear();
lcd.print("Drink:");
lcd.setCursor(0, 1);
lcd.print(box->drinks[currentDrink].name);
}
else
{
//revert save
persons[lastPersonIndex].drinks_taken[currentDrink]--;
box->waiting = 0;
lcd.clear();
lcd.print("Abort!");
delay(500);
//reset to default
lcd.clear();
lcd.print("Drink:");
lcd.setCursor(0, 1);
lcd.print(box->drinks[currentDrink].name);
}
}
else {//released
}
lastButtonState = digitalRead(2);
}
//}
}
bool checkFinger() {
uint8_t p = finger.getImage();
if (p != FINGERPRINT_OK) return -1;
p = finger.image2Tz();
if (p != FINGERPRINT_OK) return -1;
digitalWrite(led,HIGH);
ledTime = millis();
p = finger.fingerFastSearch();
if (p != FINGERPRINT_OK) return -1;
// found a match!
// Serial.print("Found ID #"); Serial.print(finger.fingerID);
// Serial.print(" with confidence of "); Serial.println(finger.confidence);
//ok now check which person that is!
if (getFingerIndex(finger.fingerID) != -1) {
Serial.print("This is ");
Serial.println(persons[getFingerIndex(finger.fingerID)].name);
countUp(getFingerIndex(finger.fingerID), 0);//for finger context
}
}
void checkRFID() {
Serial1.flush();
if (Serial1.available() >= gesamtKennungLaenge) // wenn genug Zeichen eingegangen ...
{
if (Serial1.read() == startZeichen) // und das Startzeichen erkannt wurde ...
{
//Serial.print("Start-Byte erkannt ... ");
bytesGelesen = 0; // starten Lesen, also Zaehler auf 0
while (bytesGelesen < kennungLaenge) // lese 12-stelligen Code
{
char zeichen = Serial1.read(); // lesen Zeichen
//Serial.print(zeichen); // zur Kontrolle
//Serial.print(" ");
if (zeichen == endeZeichen) // suche nach Ende-Befehl
{
//Serial.println("CR erkannt ...");
break;
}
code[bytesGelesen] = zeichen; // speicher Zeichen im Puffer
bytesGelesen = bytesGelesen + 1; // ein Zeichen weiter
}
code[bytesGelesen] = 0; // beende Zeichenkette
Serial.print("RFID-Code lautet: ");
Serial.println(code);
digitalWrite(led,HIGH);
ledTime = millis();
//Serial.print("This is ");
//Serial.println(persons[getRFIDIndex(persons, code)].name);
if(getRFIDIndex( code)!=-1)
countUp(getRFIDIndex( code), 1); // 1 for rfid context
else
Serial.println("Error: Nonexisting Card");
zugang = "";
delay(1000); // debounce time
serial1_flush_buffer();
}
}
}
void serial1_flush_buffer()
{
while (Serial1.read() >= 0)
; // do nothing
}
//
//LB
//Funktion schreiben, welche ein Array vom struct Person (Beliebige Groesse) sowie eine rfid-kennung uebernimmt und den Index der entsprechenden Person im array (beginnend bei 0)zurueckgiebt.
int getRFIDIndex( char* rfid) {
for (int i = 0; i < personCount; i++) {
if (!strcmp(persons[i].rfid_uuid, rfid)) {
return i;
}
}
return -1;
}
int getFingerIndex( uint8_t fingerID) {
for (int i = 0; i < personCount; i++) {
if (persons[i].finger_uuid == fingerID) {
return i;
}
}
return -1;
}
void countUp(int personIndex, int context) {
lcd.clear();
lcd.print(persons[personIndex].name);
lcd.setCursor(0, 1);
persons[personIndex].drinks_taken[currentDrink]++;
lcd.print(persons[personIndex].drinks_taken[currentDrink]);
lcd.print(" Ok? ");
lcd.setCursor(7, 1);
lcd.print("3");
lastPersonIndex = personIndex;
box->waiting = 3;
oldTime = millis();
}
void boxTimer() {
if (box->waiting != 0) {
if ((millis() - oldTime) > 1000)
{
if (box->waiting == 3) {
lcd.setCursor(7, 1);
lcd.print("2");
box->waiting = 2;
}
else if (box->waiting == 2) {
lcd.setCursor(7, 1);
lcd.print("1");
box->waiting = 1;
} else if (box->waiting == 1) {
update_pers_file();
lcd.clear();
lcd.print("Saved!");
delay(500);
//reset to default
lcd.clear();
lcd.print("Drink:");
lcd.setCursor(0, 1);
lcd.print(box->drinks[currentDrink].name);
box->waiting = 0;
digitalWrite(led,false);
}
oldTime = millis();
}
}
}
void ledTimer() {
if (ledTime != 0) {
if ((millis() - ledTime) > 5000)
{
digitalWrite(led,LOW);
ledTime = 0;
}
}
}