Implemented all commands! Issues with uploading due to progmem size though

This commit is contained in:
Will Bradley 2012-08-24 02:23:40 -07:00
parent ed99a4c916
commit b740f4a32d

View File

@ -150,11 +150,13 @@ unsigned long keypadTime = 0; // Timeout counte
unsigned long keypadValue=0;
// Serial terminal buffer (needs to be global)
char inString[40]={0}; // Size of command buffer (<=128 for Arduino)
byte inCount=0;
boolean privmodeEnabled = false; // Switch for enabling "priveleged" commands
// Log buffer
char logKeys[20]={0};
int logData[20]={0};
int logCursor=0;
// Enter a MAC address and IP address for your controller below.
// The IP address will be dependent on your local network:
@ -177,34 +179,13 @@ PCATTACH pcattach; // Software interrupt library
* RAM for something else.
*/
const prog_uchar rebootMessage[] PROGMEM = {"AccessControlSystemRebooted"};
const prog_uchar doorChimeMessage[] PROGMEM = {"FrontDoorOpened"};
const prog_uchar doorsunlockedMessage[] PROGMEM = {"AllDoorsUnlocked"};
const prog_uchar doorslockedMessage[] PROGMEM = {"AllDoorsRelocked"};
const prog_uchar alarmtrainMessage[] PROGMEM = {"AlarmTrainingPerformed."};
const prog_uchar privsdeniedMessage[] PROGMEM = {"AccessDeniedPrivelegedModeIsNotEnabled"};
const prog_uchar privsenabledMessage[] PROGMEM = {"PrivelegedModeEnabled"};
const prog_uchar privsdisabledMessage[] PROGMEM = {"PrivelegedModeDisabled"};
const prog_uchar privsAttemptsMessage[] PROGMEM = {"TooManyFailedAttemptsTryAgainLater"};
const prog_uchar consolehelpMessage1[] PROGMEM = {"ValidCommandsAre"};
const prog_uchar consolehelpMessage2[] PROGMEM = {"Date-ShowUser-ModifyUser_num_usermask_tagnumber"};
const prog_uchar consolehelpMessage3[] PROGMEM = {"AllUserDump-RemoveUser_num-OpenDoor_num"};
const prog_uchar consolehelpMessage4[] PROGMEM = {"UnlockAllDoors-LockAllDoors"};
const prog_uchar consolehelpMessage5[] PROGMEM = {"1_DisarmAlarm-2_ArmAlarm-3_TrainAlarm-9_ShowStatus"};
const prog_uchar consolehelpMessage6[] PROGMEM = {"Enable_password"};
const prog_uchar consoledefaultMessage[] PROGMEM = {"InvalidCommandPressQuestionMarkForHelp"};
const prog_uchar statusMessage1[] PROGMEM = {"AlarmArmedState_1_Armed"};
const prog_uchar statusMessage2[] PROGMEM = {"AlarmSirenState_1_Activated"};
const prog_uchar statusMessage3[] PROGMEM = {"FrontDoorOpenState_0_Closed"};
const prog_uchar statusMessage4[] PROGMEM = {"RearUpDoorOpenState_0_Closed"};
const prog_uchar statusMessage5[] PROGMEM = {"Door1UnlockedState_1_Locked"};
const prog_uchar statusMessage6[] PROGMEM = {"Door2UnlockedState_1_Locked"};
const prog_uchar httpheaderok[] PROGMEM = {"HTTP/1.1 200 OK\r\nCache-Control: no-store\r\nContent-Type: text/html\r\n\r\n"};
const prog_uchar httpheadernoauth[] PROGMEM = {"HTTP/1.1 403 Forbidden\r\nCache-Control: no-store\r\nContent-Type: text/html\r\n\r\n<a href='/'>Not logged in.</a>"};
//const prog_uchar httpheaderbadquery[] PROGMEM = {"HTTP/1.1 400 Bad Request\r\nCache-Control: no-store\r\nContent-Type: text/html\r\n\r\n"};
const prog_uchar title[] PROGMEM = {"<h2>HSL OAC</h2>"};
//const prog_uchar help[] PROGMEM = {"<hr/><pre>Numbers must be zero-padded.\n\n?e=0000 - enable\n?s000 - show user\n?m000&p000&t00000000 - modify user permission tag\n?a - list all users\n?r000 - remove user\n?o1 ?o2 - open door 1/2\n?u - unlock all\n?l - lock all?1 - arm\n?2 - disarm\n?3 - train\n?9 - status</pre>"};
const prog_uchar help[] PROGMEM = {"<hr/><pre>Numbers must be zero-padded.\n\n?e=0000 - enable\n</pre>"};
void setup(){ // Runs once at Arduino boot-up
@ -248,7 +229,7 @@ void setup(){ // Runs once at Arduino boot-up
Serial.begin(57600); // Set up Serial output at 8,N,1,57600bps
// Serial.begin(57600); // Set up Serial output at 8,N,1,57600bps
logReboot();
@ -284,81 +265,223 @@ void loop() // Main branch, runs over and ov
// character) and the line is blank, the http request has ended,
// so you can send a reply
if (c == '\n' && currentLineIsBlank) {
// send a standard http response header
client.println("HTTP/1.1 200 OK");
client.println("Cache-Control: no-store\r\nContent-Type: text/html");
client.println();
if(readString.indexOf("?hi") > 0) {
PROGMEMprintln(client,httpheaderok);
client.println("hi");
}
if(readString.indexOf("?s") > 0) { // list user
if(readString.indexOf("?s") > 0) { // show user
int offset = readString.indexOf("?s");
char usernum[4] = {readString[offset+2],readString[offset+3],readString[offset+4],'\0'};
client.print("s");
client.println(usernum);
}
if(readString.indexOf("?m") > 0) {
client.println("m"); // modify user <num> <usermask> <tagnumber>
}
if(readString.indexOf("?a") > 0) {
client.println("a"); // all users
}
if(readString.indexOf("?r") > 0) {
client.println("r"); // remove user <num>
}
if(readString.indexOf("?o") > 0) {
client.println("o"); // open <door#>
}
if(readString.indexOf("?u") > 0) {
unlockall();
client.println("u");
}
if(readString.indexOf("?l") > 0) {
lockall();
chirpAlarm(1);
client.println("l");
}
/*
if(readString.indexOf("?1") > 0) {
client.println("1"); // disarm
}
if(readString.indexOf("?2") > 0) {
client.println("2"); // arm
}
if(readString.indexOf("?3") > 0) {
client.println("3"); // train
}
*/
if(readString.indexOf("?9") > 0) {
if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok);
client.println("<pre>");
client.print("Alarm armed:");
client.println(alarmArmed,DEC);
client.print("Alarm activated:");
client.println(alarmActivated,DEC);
client.print("Alarm 3:");
client.println(pollAlarm(3),DEC);
client.print("Alarm 2:");
client.println(pollAlarm(2),DEC);
client.print("Door 1 locked:");
client.println(door1Locked);
client.print("Door 2 locked:");
client.println(door2Locked);
client.print("UserNum:");
client.print(" ");
client.print("Usermask:");
client.print(" ");
client.println("TagNum:");
dumpUser(client, atoi(usernum));
client.println("</pre>");
}
if(readString.indexOf("?e") > 0) {
int offset = readString.indexOf("?e");
char pass[5] = {readString[offset+2],readString[offset+3],readString[offset+4],readString[offset+5],'\0'};
else{
PROGMEMprintln(client,httpheadernoauth);
logprivFail();
}
}
if(readString.indexOf("?m") > 0) { // modify user #, permission #, tag # (?m000&p000&t00000000 must be zero-padded)
int offset = readString.indexOf("?m"); // user, 3 chars
int initialoffset = offset; // save for comparison
char usernum[4] = {readString[offset+2],readString[offset+3],readString[offset+4],'\0'};
login(strtoul(pass,NULL,16));
if(privmodeEnabled) {
client.println("ok");
offset = readString.indexOf("&p"); // permissions mask, 3 chars
char usermask[4] = {readString[offset+2],readString[offset+3],readString[offset+4],'\0'};
offset = readString.indexOf("&t"); // tag, 8 chars
char usertag[9] = {readString[offset+2],readString[offset+3],readString[offset+4],readString[offset+5],
readString[offset+6],readString[offset+7],readString[offset+8],readString[offset+9],'\0'};
if(offset-initialoffset == 10){
if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok);
client.println("<pre>");
client.println("prev:");
dumpUser(client, atoi(usernum));
addUser(atoi(usernum), atoi(usermask), strtoul(usertag,NULL,16));
client.println("cur:");
dumpUser(client, atoi(usernum));
client.println("</pre>");
}
else{
PROGMEMprintln(client,httpheadernoauth);
logprivFail();
}
}
else {
client.println("fail");
PROGMEMprintln(client,httpheaderok);
client.println("err:badquery");
}
}
if(readString.indexOf("?a") > 0) { //list all users
if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok);
logDate();
client.println("<pre>");
client.print("UserNum:");
client.print(" ");
client.print("Usermask:");
client.print(" ");
client.println("TagNum:");
for(int i=0; i<(NUMUSERS); i++){
dumpUser(client,i);
}
client.println("</pre>");
}
else{
PROGMEMprintln(client,httpheadernoauth);
logprivFail();
}
}
if(readString.indexOf("?r") > 0) { //remove user (?r000)
int offset = readString.indexOf("?r");
char usernum[4] = {readString[offset+2],readString[offset+3],readString[offset+4],'\0'};
if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok);
client.println("r");
client.println("<pre>");
client.println("prev:");
dumpUser(client,atoi(usernum));
deleteUser(atoi(usernum));
client.println("cur:");
dumpUser(client,atoi(usernum));
}
else{
PROGMEMprintln(client,httpheadernoauth);
logprivFail();
}
}
if(readString.indexOf("?o") > 0) { // open door ?o1 or ?o2
int offset = readString.indexOf("?o");
char doornum[2] = {readString[offset+2],'\0'};
if(privmodeEnabled==true) {
if(atoi(doornum) == 1){
PROGMEMprintln(client,httpheaderok);
alarmState(0); // Set to door chime only/open doors
armAlarm(4);
doorUnlock(1); // Open the door specified
door1locktimer=millis();
client.println("o1");
}
else{
if(atoi(doornum) == 2){
PROGMEMprintln(client,httpheaderok);
alarmState(0); // Set to door chime only/open doors
armAlarm(4);
doorUnlock(2);
door2locktimer=millis();
client.println("o2");
}
else {
PROGMEMprintln(client,httpheaderok);
client.println("err:baddoor#");
}
}
}
else{
PROGMEMprintln(client,httpheadernoauth);
logprivFail();
}
}
if(readString.indexOf("?u") > 0) { //unlock
if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok);
unlockall();
printStatus(client);
}
else{
PROGMEMprintln(client,httpheadernoauth);
logprivFail();
}
}
if(readString.indexOf("?l") > 0) { //lock
if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok);
lockall();
chirpAlarm(1);
printStatus(client);
}
else{
PROGMEMprintln(client,httpheadernoauth);
logprivFail();
}
}
if(readString.indexOf("?1") > 0) { // disarm
if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok);
armAlarm(0);
alarmState(0);
chirpAlarm(1);
printStatus(client);
}
else{
PROGMEMprintln(client,httpheadernoauth);
logprivFail();
}
}
if(readString.indexOf("?2") > 0) { // arm
if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok);
chirpAlarm(20); // 200 chirps = ~30 seconds delay
armAlarm(1);
printStatus(client);
}
else{
PROGMEMprintln(client,httpheadernoauth);
logprivFail();
}
}
if(readString.indexOf("?3") > 0) { // train
if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok);
trainAlarm();
printStatus(client);
}
else{
PROGMEMprintln(client,httpheadernoauth);
logprivFail();
}
}
if(readString.indexOf("?9") > 0) { // status
PROGMEMprintln(client,httpheaderok);
PROGMEMprintln(client,title);
printStatus(client);
PROGMEMprintln(client,help);
}
if(readString.indexOf("?e=") > 0) {
int offset = readString.indexOf("?e=");
char pass[5] = {readString[offset+3],readString[offset+4],readString[offset+5],readString[offset+6],'\0'};
if(login(strtoul(pass,NULL,16))) {
PROGMEMprintln(client,httpheaderok);
PROGMEMprintln(client,title);
client.println("authok");
PROGMEMprintln(client,help);
}
else {
PROGMEMprintln(client,httpheadernoauth);
PROGMEMprintln(client,title);
client.println("authfail");
PROGMEMprintln(client,help);
}
}
if(readString.indexOf("?") < 1) {
PROGMEMprintln(client,httpheaderok);
PROGMEMprintln(client,title);
PROGMEMprintln(client,help);
}
break;
}
@ -418,15 +541,10 @@ void loop() // Main branch, runs over and ov
if(hour==23 && minute==59 && door1Locked==false){
doorLock(1);
door1Locked==true;
Serial.println("Door 1 locked for 2359 bed time.");
addToLog('L',2);
}
// Notes: RFID polling is interrupt driven, just test for the reader1Count value to climb to the bit length of the key
// change reader1Count & reader1 et. al. to arrays for loop handling of multiple reader output events
// later change them for interrupt handling as well!
@ -474,9 +592,7 @@ void loop() // Main branch, runs over and ov
case 255: // Locked out user
{
Serial.print("User ");
Serial.print(userMask1,DEC);
Serial.println(" locked out.");
addToLog('F',userMask1);
break;
}
@ -553,9 +669,7 @@ void loop() // Main branch, runs over and ov
case 255: // Locked out
{
Serial.print("User ");
Serial.print(userMask2,DEC);
Serial.println(" locked out.");
addToLog('F',userMask2);
break;
}
@ -953,17 +1067,13 @@ void trainAlarm(){ // Train the system about the default s
delay(50); // Give the readings time to settle
}
avg=((temp[0]+temp[1]+temp[2]+temp[3]+temp[4])/20); // Average the results to get best values
Serial.print("Sensor ");
Serial.print(i);
Serial.print(" ");
Serial.print("value:");
Serial.println(avg);
addToLog('t',avg);
EEPROM.write((EEPROM_ALARMZONES+i),byte(avg)); //Save results to EEPROM
avg=0;
}
logDate();
PROGMEMprintln(alarmtrainMessage);
//PROGMEMprintln(alarmtrainMessage);
}
@ -992,14 +1102,11 @@ int found=-1;
for(int i=0; i<=numUsers; i++){
if(input == superUserList[i]){
logDate();
Serial.print("Superuser ");
Serial.print(i,DEC);
Serial.println(" found.");
addToLog('S',i);
found=i;
return found;
}
}
return found; //If no, return -1
}
@ -1011,9 +1118,7 @@ byte dp=1;
else(dp=DOORPIN2);
digitalWrite(dp, HIGH);
Serial.print("Door ");
Serial.print(input,DEC);
Serial.println(" unlocked");
//addToLog('U',input);
}
@ -1024,9 +1129,7 @@ byte dp=1;
else(dp=DOORPIN2);
digitalWrite(dp, LOW);
Serial.print("Door ");
Serial.print(input,DEC);
Serial.println(" locked");
//addToLog('L',input);
}
void unlockall() {
@ -1037,7 +1140,8 @@ void unlockall() {
door1Locked=false;
door2Locked=false;
chirpAlarm(3);
PROGMEMprintln(doorsunlockedMessage);
//PROGMEMprintln(doorsunlockedMessage);
}
void lockall() { //Lock down all doors. Can also be run periodically to safeguard system.
@ -1045,147 +1149,46 @@ void lockall() { //Lock down all doors. Can also be run per
digitalWrite(DOORPIN2,LOW);
door1Locked=true;
door2Locked=true;
PROGMEMprintln(doorslockedMessage);
//PROGMEMprintln(doorslockedMessage);
}
/* Logging Functions - Modify these as needed for your application.
Logging may be serial to USB or via Ethernet (to be added later)
*/
void PROGMEMprintln(const prog_uchar str[]) // Function to retrieve logging strings from program memory
{ // Prints newline after each string
char c;
if(!str) return;
//if(client.connect(server, 80) > 0) {
// client.print("GET /~access/log/?device=door&data=");
while((c = pgm_read_byte(str++))){
Serial.write(c);
// client.write(c);
}
//client.println(" HTTP/1.0");
//client.println();
//client.stop();
// reset values coming from http
// httpresponse = "";
//}
Serial.println();
}
void PROGMEMprint(const prog_uchar str[]) // Function to retrieve logging strings from program memory
{ // Does not print newlines
char c;
if(!str) return;
//if(client.connect(server, 80) > 0) {
// client.print("GET /~access/log/?device=door&data=");
while((c = pgm_read_byte(str++))){
Serial.write(c);
// client.write(c);
}
// client.println(" HTTP/1.0");
// client.println();
// client.stop();
// reset values coming from http
// httpresponse = "";
//}
}
void logDate()
{
ds1307.getDateDs1307(&second, &minute, &hour, &dayOfWeek, &dayOfMonth, &month, &year);
Serial.print(hour, DEC);
Serial.print(":");
Serial.print(minute, DEC);
Serial.print(":");
Serial.print(second, DEC);
Serial.print(" ");
Serial.print(month, DEC);
Serial.print("/");
Serial.print(dayOfMonth, DEC);
Serial.print("/");
Serial.print(year, DEC);
Serial.print(' ');
switch(dayOfWeek){
case 1:{
Serial.print("SUN");
break;
}
case 2:{
Serial.print("MON");
break;
}
case 3:{
Serial.print("TUE");
break;
}
case 4:{
Serial.print("WED");
break;
}
case 5:{
Serial.print("THU");
break;
}
case 6:{
Serial.print("FRI");
break;
}
case 7:{
Serial.print("SAT");
break;
}
}
Serial.print(" ");
addToLog('H',hour);
addToLog('M',minute);
}
void logReboot() { //Log system startup
logDate();
PROGMEMprintln(rebootMessage);
//PROGMEMprintln(rebootMessage);
}
void logChime() {
logDate();
PROGMEMprintln(doorChimeMessage);
//PROGMEMprintln(doorChimeMessage);
}
void logTagPresent (long user, byte reader) { //Log Tag Presented events
logDate();
Serial.print("User ");
if(DEBUG==2){ Serial.print(user,HEX);}
Serial.print(" presented tag at reader ");
Serial.println(reader,DEC);
addToLog('R',user); // fix this, user is long instead of int
}
void logAccessGranted(long user, byte reader) { //Log Access events
logDate();
Serial.print("User ");
if(DEBUG==2){Serial.print(user,HEX);}
Serial.print(" granted access at reader ");
Serial.println(reader,DEC);
addToLog('G',user); // fix this, user is long instead of int
}
void logAccessDenied(long user, byte reader) { //Log Access denied events
logDate();
Serial.print("User ");
if(DEBUG==1){Serial.print(user,HEX);}
Serial.print(" denied access at reader ");
Serial.println(reader,DEC);
addToLog('D',user); // fix this, user is long instead of int
}
void logkeypadCommand(byte reader, long command){
logDate();
Serial.print("Command ");
Serial.print(command,HEX);
Serial.print(" entered at reader ");
Serial.println(reader,DEC);
addToLog('C',command); // fix this, user is long instead of int
}
@ -1193,41 +1196,32 @@ void logkeypadCommand(byte reader, long command){
void logalarmSensor(byte zone) { //Log Alarm zone events
logDate();
Serial.print("Zone ");
Serial.print(zone,DEC);
Serial.println(" sensor activated");
addToLog('S',zone);
}
void logalarmTriggered() {
logDate();
Serial.println("Alarm triggered!"); // This phrase can be scanned for by alerting scripts.
}
addToLog('T',0);
}
void logunLock(long user, byte door) { //Log unlock events
logDate();
Serial.print("User ");
Serial.print(user,DEC);
Serial.print(" unlocked door ");
Serial.println(door,DEC);
addToLog('U',user); // fix this, user is long instead of int
}
void logalarmState(byte level) { //Log unlock events
logDate();
Serial.print("Alarm level changed to ");
Serial.println(level,DEC);
addToLog('M',level);
}
void logalarmArmed(byte level) { //Log unlock events
logDate();
Serial.print("Alarm armed level changed to ");
Serial.println(level,DEC);
addToLog('A',level);
}
void logprivFail() {
// Serial.println("Priv mode disabled");
PROGMEMprintln(privsdeniedMessage);
}
addToLog('F',2);
}
void hardwareTest(long iterations)
@ -1251,6 +1245,7 @@ void hardwareTest(long iterations)
for(long counter=1; counter<=iterations; counter++) { // Do this number of times specified
logDate();
/*
Serial.print("\n");
Serial.println("Pass: ");
Serial.println(counter);
@ -1270,19 +1265,20 @@ void hardwareTest(long iterations)
Serial.println(analogRead(2));
Serial.print("Input A3:");
Serial.println(analogRead(3));
*/
delay(5000);
digitalWrite(6,HIGH); // Relay exercise routine
digitalWrite(7,HIGH);
digitalWrite(8,HIGH);
digitalWrite(9,HIGH);
Serial.println("Relays 0..3 on");
//Serial.println("Relays 0..3 on");
delay(2000);
digitalWrite(6,LOW);
digitalWrite(7,LOW);
digitalWrite(8,LOW);
digitalWrite(9,LOW);
Serial.println("Relays 0..3 off");
//Serial.println("Relays 0..3 off");
}
}
@ -1292,7 +1288,7 @@ void clearUsers() //Erases all users from EEPROM
for(int i=EEPROM_FIRSTUSER; i<=EEPROM_LASTUSER; i++){
EEPROM.write(i,0);
logDate();
Serial.println("User database erased.");
addToLog('Z',0);
}
}
@ -1304,32 +1300,21 @@ void addUser(int userNum, byte userMask, unsigned long tagNumber) // Modif
logDate();
if((userNum <0) || (userNum > NUMUSERS)) { // Do not write to invalid EEPROM addresses.
Serial.print("Invalid user modify attempted.");
addToLog('i',userNum);
}
else
{
EEPROM_buffer[0] = byte(tagNumber & 0xFFF); // Fill the buffer with the values to write to bytes 0..4
EEPROM_buffer[1] = byte(tagNumber >> 8);
EEPROM_buffer[2] = byte(tagNumber >> 16);
EEPROM_buffer[3] = byte(tagNumber >> 24);
EEPROM_buffer[4] = byte(userMask);
for(int i=0; i<5; i++){
EEPROM.write((offset+i), (EEPROM_buffer[i])); // Store the resulting value in 5 bytes of EEPROM.
}
Serial.print("User ");
Serial.print(userNum,DEC);
Serial.println(" successfully modified");
addToLog('M',userNum);
}
}
@ -1342,24 +1327,15 @@ void deleteUser(int userNum) // Delet
if((userNum <0) || (userNum > NUMUSERS)) { // Do not write to invalid EEPROM addresses.
Serial.print("Invalid user delete attempted.");
addToLog('I',userNum);
}
else
{
for(int i=0; i<5; i++){
EEPROM.write((offset+i), 0xFF); // Store the resulting value in 5 bytes of EEPROM.
// Starting at offset.
}
Serial.print("User deleted at position ");
Serial.println(userNum);
addToLog('D',userNum);
}
}
@ -1390,24 +1366,19 @@ int checkUser(unsigned long tagNumber) // Check
if((EEPROM_buffer == tagNumber) && (tagNumber !=0xFFFFFFFF) && (tagNumber !=0x0)) { // Return a not found on blank (0xFFFFFFFF) entries
Serial.print("User ");
Serial.print(((i-EEPROM_FIRSTUSER)/5),DEC);
Serial.println(" authenticated.");
addToLog('C',((i-EEPROM_FIRSTUSER)/5));
found = EEPROM.read(i+4);
return found;
}
}
Serial.println("User not found");
addToLog('c',0);
delay(1000); // Delay to prevent brute-force attacks on reader
return found;
}
void dumpUser(byte usernum) // Return information ona particular entry in the local DB
void dumpUser(EthernetClient client, byte usernum) // Return information ona particular entry in the local DB
{ // Users number 0..NUMUSERS
@ -1427,66 +1398,94 @@ void dumpUser(byte usernum) // Return
EEPROM_buffer= EEPROM_buffer<<8;
EEPROM_buffer=(EEPROM_buffer ^ EEPROM.read(i));
Serial.print(((i-EEPROM_FIRSTUSER)/5),DEC);
Serial.print("\t");
Serial.print(EEPROM.read(i+4),DEC);
Serial.print("\t");
client.print(((i-EEPROM_FIRSTUSER)/5),DEC);
client.print("\t");
client.print(EEPROM.read(i+4),DEC);
client.print("\t");
if(DEBUG==2){
Serial.println(EEPROM_buffer,HEX);
client.println(EEPROM_buffer,HEX);
}
else {
if(EEPROM_buffer != 0xFFFFFFFF) {
Serial.println("********");
client.println("********");
}
}
}
else Serial.println("Bad user number!");
else client.println("Bad user number!");
}
void login(long input) {
boolean login(long input) {
logDate();
if((consoleFail>=5) && (millis()-consolefailTimer<300000)) // Do not allow priv mode if more than 5 failed logins in 5 minute
{
PROGMEMprintln(privsAttemptsMessage);
addToLog('F',1);
return false;
}
else {
if (input == PRIVPASSWORD)
{
consoleFail=0;
PROGMEMprintln(privsenabledMessage);
addToLog('S',0);
privmodeEnabled=true;
return true;
}
else {
PROGMEMprintln(privsdisabledMessage);
addToLog('F',0);
privmodeEnabled=false;
if(consoleFail==0) { // Set the timeout for failed logins
consolefailTimer=millis();
}
consoleFail++; // Increment the login failure counter
return false;
}
}
}
void showUser(char* input) {
if(privmodeEnabled==true) {
Serial.print("UserNum:");
Serial.print(" ");
Serial.print("Usermask:");
Serial.print(" ");
Serial.println("TagNum:");
dumpUser(atoi(input));
//Serial.println(); // commented out due to dumpUser always printing a line -WB 7-7-2011
}
else{logprivFail();}
void printStatus(EthernetClient client) {
client.println("<pre>");
client.print("Alarm armed:");
client.println(alarmArmed,DEC);
client.print("Alarm activated:");
client.println(alarmActivated,DEC);
client.print("Alarm 3:");
client.println(pollAlarm(3),DEC);
client.print("Alarm 2:");
client.println(pollAlarm(2),DEC);
client.print("Door 1 locked:");
client.println(door1Locked);
client.print("Door 2 locked:");
client.println(door2Locked);
client.println("</pre>");
}
void addToLog(char type, int data) {
logKeys[logCursor] = type;
logData[logCursor] = data;
logCursor += 1;
if(logCursor > 20) {
logCursor = 0;
}
}
void readFromLog(int index, char &type, int &data) {
logKeys[index] = type;
logData[index] = data;
}
void PROGMEMprintln(EthernetClient client, const prog_uchar str[]) // Function to retrieve strings from program memory
{
char c;
if(!str) return;
while((c = pgm_read_byte(str++))){
client.print(c);
}
}
/* Wrapper functions for interrupt attachment
Could be cleaned up in library?
*/