Fixed upload issues, improved logging and http interface

This commit is contained in:
Will Bradley 2012-08-24 04:02:14 -07:00
parent b740f4a32d
commit 965ef59269

View File

@ -153,8 +153,8 @@ unsigned long keypadValue=0;
boolean privmodeEnabled = false; // Switch for enabling "priveleged" commands boolean privmodeEnabled = false; // Switch for enabling "priveleged" commands
// Log buffer // Log buffer
char logKeys[20]={0}; char logKeys[40]={0};
int logData[20]={0}; int logData[40]={0};
int logCursor=0; int logCursor=0;
@ -181,11 +181,15 @@ PCATTACH pcattach; // Software interrupt library
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 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 title[] PROGMEM = {"<h2>OAC</h2>"};
//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 help[] PROGMEM = {"<hr/><pre>Numbers must be zero-padded.\n\n?e=0000 - enable privileged commands (enter wrong code to logout)\n?s000 - show user\n?m000&p000&t00000000 - modify user(0-200) permission(0-255) tag(00000000-ffffffff)\n?a - list all users\n?r000 - remove user\n?o1 ?o2 - open door 1/2\n?u ?u=1 ?u=2 - unlock all/1/2\n?l - lock all\n?1 - disarm\n?2 - arm\n?3 - train\n?9 - status</pre>"};
const prog_uchar title[] PROGMEM = {"<h2>HSL OAC</h2>"}; const prog_uchar noauth[] PROGMEM = {"<a href='/'>Not logged in.</a>"};
//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 unlockboth[] PROGMEM = {"Unlocked all doors."};
const prog_uchar help[] PROGMEM = {"<hr/><pre>Numbers must be zero-padded.\n\n?e=0000 - enable\n</pre>"}; const prog_uchar unlock1[] PROGMEM = {"Unlocked door 1."};
const prog_uchar unlock2[] PROGMEM = {"Unlocked door 2."};
const prog_uchar open1[] PROGMEM = {"Opened door 1 for a few seconds."};
const prog_uchar open2[] PROGMEM = {"Opened door 2 for a few seconds."};
const prog_uchar lockboth[] PROGMEM = {"Locked all doors."};
void setup(){ // Runs once at Arduino boot-up void setup(){ // Runs once at Arduino boot-up
@ -265,17 +269,13 @@ void loop() // Main branch, runs over and ov
// character) and the line is blank, the http request has ended, // character) and the line is blank, the http request has ended,
// so you can send a reply // so you can send a reply
if (c == '\n' && currentLineIsBlank) { if (c == '\n' && currentLineIsBlank) {
if(readString.indexOf("?hi") > 0) {
PROGMEMprintln(client,httpheaderok); PROGMEMprintln(client,httpheaderok);
client.println("hi");
}
if(readString.indexOf("?s") > 0) { // show user if(readString.indexOf("?s") > 0) { // show user
int offset = readString.indexOf("?s"); int offset = readString.indexOf("?s");
char usernum[4] = {readString[offset+2],readString[offset+3],readString[offset+4],'\0'}; char usernum[4] = {readString[offset+2],readString[offset+3],readString[offset+4],'\0'};
if(privmodeEnabled==true) { if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok);
client.println("<pre>"); client.println("<pre>");
client.print("UserNum:"); client.print("UserNum:");
client.print(" "); client.print(" ");
@ -286,7 +286,7 @@ void loop() // Main branch, runs over and ov
client.println("</pre>"); client.println("</pre>");
} }
else{ else{
PROGMEMprintln(client,httpheadernoauth); PROGMEMprintln(client,noauth);
logprivFail(); logprivFail();
} }
} }
@ -304,7 +304,6 @@ void loop() // Main branch, runs over and ov
if(offset-initialoffset == 10){ if(offset-initialoffset == 10){
if(privmodeEnabled==true) { if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok);
client.println("<pre>"); client.println("<pre>");
client.println("prev:"); client.println("prev:");
dumpUser(client, atoi(usernum)); dumpUser(client, atoi(usernum));
@ -314,18 +313,16 @@ void loop() // Main branch, runs over and ov
client.println("</pre>"); client.println("</pre>");
} }
else{ else{
PROGMEMprintln(client,httpheadernoauth); PROGMEMprintln(client,noauth);
logprivFail(); logprivFail();
} }
} }
else { else {
PROGMEMprintln(client,httpheaderok);
client.println("err:badquery"); client.println("err:badquery");
} }
} }
if(readString.indexOf("?a") > 0) { //list all users if(readString.indexOf("?a") > 0) { //list all users
if(privmodeEnabled==true) { if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok);
logDate(); logDate();
client.println("<pre>"); client.println("<pre>");
client.print("UserNum:"); client.print("UserNum:");
@ -339,7 +336,7 @@ void loop() // Main branch, runs over and ov
client.println("</pre>"); client.println("</pre>");
} }
else{ else{
PROGMEMprintln(client,httpheadernoauth); PROGMEMprintln(client,noauth);
logprivFail(); logprivFail();
} }
} }
@ -348,7 +345,6 @@ void loop() // Main branch, runs over and ov
char usernum[4] = {readString[offset+2],readString[offset+3],readString[offset+4],'\0'}; char usernum[4] = {readString[offset+2],readString[offset+3],readString[offset+4],'\0'};
if(privmodeEnabled==true) { if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok);
client.println("r"); client.println("r");
client.println("<pre>"); client.println("<pre>");
client.println("prev:"); client.println("prev:");
@ -358,7 +354,7 @@ void loop() // Main branch, runs over and ov
dumpUser(client,atoi(usernum)); dumpUser(client,atoi(usernum));
} }
else{ else{
PROGMEMprintln(client,httpheadernoauth); PROGMEMprintln(client,noauth);
logprivFail(); logprivFail();
} }
} }
@ -368,117 +364,143 @@ void loop() // Main branch, runs over and ov
if(privmodeEnabled==true) { if(privmodeEnabled==true) {
if(atoi(doornum) == 1){ if(atoi(doornum) == 1){
PROGMEMprintln(client,httpheaderok);
alarmState(0); // Set to door chime only/open doors alarmState(0); // Set to door chime only/open doors
armAlarm(4); armAlarm(4);
doorUnlock(1); // Open the door specified doorUnlock(1); // Open the door specified
door1locktimer=millis(); door1locktimer=millis();
client.println("o1"); PROGMEMprintln(client,open1);
} }
else{ else{
if(atoi(doornum) == 2){ if(atoi(doornum) == 2){
PROGMEMprintln(client,httpheaderok);
alarmState(0); // Set to door chime only/open doors alarmState(0); // Set to door chime only/open doors
armAlarm(4); armAlarm(4);
doorUnlock(2); doorUnlock(2);
door2locktimer=millis(); door2locktimer=millis();
client.println("o2"); PROGMEMprintln(client,open2);
} }
else { else {
PROGMEMprintln(client,httpheaderok);
client.println("err:baddoor#"); client.println("err:baddoor#");
} }
} }
} }
else{ else{
PROGMEMprintln(client,httpheadernoauth); PROGMEMprintln(client,noauth);
logprivFail(); logprivFail();
} }
} }
if(readString.indexOf("?u") > 0) { //unlock if(readString.indexOf("?u") > 0) { //unlock (?u or ?u=1 or ?u=2)
if(privmodeEnabled==true) { if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok); int offset = readString.indexOf("?u="); // see if we're unlocking a specific door
if(offset > 0) {
char doornum[2] = {readString[offset+3],'\0'};
if(atoi(doornum) == 1){
doorUnlock(1);
alarmState(0);
armAlarm(4);
door1Locked=false;
chirpAlarm(3);
PROGMEMprintln(client,unlock1);
}
else {
if(atoi(doornum) == 2){
doorUnlock(2);
alarmState(0);
armAlarm(4);
door2Locked=false;
chirpAlarm(3);
PROGMEMprintln(client,unlock2);
}
else {
client.println("err:baddoor#");
}
}
}
else { // not unlocking a specific door; unlock all.
PROGMEMprintln(client,unlockboth);
unlockall(); unlockall();
}
printStatus(client); printStatus(client);
} }
else{ else{
PROGMEMprintln(client,httpheadernoauth); PROGMEMprintln(client,noauth);
logprivFail(); logprivFail();
} }
} }
if(readString.indexOf("?l") > 0) { //lock if(readString.indexOf("?l") > 0) { //lock
if(privmodeEnabled==true) { if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok);
lockall(); lockall();
chirpAlarm(1); chirpAlarm(1);
PROGMEMprintln(client,lockboth);
printStatus(client); printStatus(client);
} }
else{ else{
PROGMEMprintln(client,httpheadernoauth); PROGMEMprintln(client,noauth);
logprivFail(); logprivFail();
} }
} }
if(readString.indexOf("?1") > 0) { // disarm if(readString.indexOf("?1") > 0) { // disarm
if(privmodeEnabled==true) { if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok);
armAlarm(0); armAlarm(0);
alarmState(0); alarmState(0);
chirpAlarm(1); chirpAlarm(1);
printStatus(client); printStatus(client);
} }
else{ else{
PROGMEMprintln(client,httpheadernoauth); PROGMEMprintln(client,noauth);
logprivFail(); logprivFail();
} }
} }
if(readString.indexOf("?2") > 0) { // arm if(readString.indexOf("?2") > 0) { // arm
if(privmodeEnabled==true) { if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok);
chirpAlarm(20); // 200 chirps = ~30 seconds delay chirpAlarm(20); // 200 chirps = ~30 seconds delay
armAlarm(1); armAlarm(1);
printStatus(client); printStatus(client);
} }
else{ else{
PROGMEMprintln(client,httpheadernoauth); PROGMEMprintln(client,noauth);
logprivFail(); logprivFail();
} }
} }
if(readString.indexOf("?3") > 0) { // train if(readString.indexOf("?3") > 0) { // train
if(privmodeEnabled==true) { if(privmodeEnabled==true) {
PROGMEMprintln(client,httpheaderok);
trainAlarm(); trainAlarm();
printStatus(client); printStatus(client);
} }
else{ else{
PROGMEMprintln(client,httpheadernoauth); PROGMEMprintln(client,noauth);
logprivFail(); logprivFail();
} }
} }
if(readString.indexOf("?9") > 0) { // status if(readString.indexOf("?9") > 0) { // status
PROGMEMprintln(client,httpheaderok);
PROGMEMprintln(client,title); PROGMEMprintln(client,title);
printStatus(client); printStatus(client);
PROGMEMprintln(client,help); PROGMEMprintln(client,help);
} }
if(readString.indexOf("?z") > 0) { // log
if(privmodeEnabled==true) {
printLog(client);
}
else{
PROGMEMprintln(client,noauth);
logprivFail();
}
}
if(readString.indexOf("?e=") > 0) { if(readString.indexOf("?e=") > 0) {
int offset = readString.indexOf("?e="); int offset = readString.indexOf("?e=");
char pass[5] = {readString[offset+3],readString[offset+4],readString[offset+5],readString[offset+6],'\0'}; char pass[5] = {readString[offset+3],readString[offset+4],readString[offset+5],readString[offset+6],'\0'};
if(login(strtoul(pass,NULL,16))) { if(login(strtoul(pass,NULL,16))) {
PROGMEMprintln(client,httpheaderok);
PROGMEMprintln(client,title); PROGMEMprintln(client,title);
client.println("authok"); client.println("authok");
PROGMEMprintln(client,help); PROGMEMprintln(client,help);
} }
else { else {
PROGMEMprintln(client,httpheadernoauth);
PROGMEMprintln(client,title); PROGMEMprintln(client,title);
client.println("authfail"); client.println("authfail");
PROGMEMprintln(client,help); PROGMEMprintln(client,help);
} }
} }
if(readString.indexOf("?") < 1) { if(readString.indexOf("?") < 0) {
PROGMEMprintln(client,httpheaderok);
PROGMEMprintln(client,title); PROGMEMprintln(client,title);
PROGMEMprintln(client,help); PROGMEMprintln(client,help);
} }
@ -541,7 +563,7 @@ void loop() // Main branch, runs over and ov
if(hour==23 && minute==59 && door1Locked==false){ if(hour==23 && minute==59 && door1Locked==false){
doorLock(1); doorLock(1);
door1Locked==true; door1Locked==true;
addToLog('L',2); addToLog('L',3);
} }
@ -592,7 +614,7 @@ void loop() // Main branch, runs over and ov
case 255: // Locked out user case 255: // Locked out user
{ {
addToLog('F',userMask1); addToLog('f',userMask1);
break; break;
} }
@ -669,7 +691,7 @@ void loop() // Main branch, runs over and ov
case 255: // Locked out case 255: // Locked out
{ {
addToLog('F',userMask2); addToLog('f',userMask2);
break; break;
} }
@ -1118,18 +1140,18 @@ byte dp=1;
else(dp=DOORPIN2); else(dp=DOORPIN2);
digitalWrite(dp, HIGH); digitalWrite(dp, HIGH);
//addToLog('U',input); addToLog('U',input);
} }
void doorLock(int input) { //Send an unlock signal to the door and flash the Door LED void doorLock(int input) { //Send a lock signal to the door and flash the Door LED
byte dp=1; byte dp=1;
if(input == 1) { if(input == 1) {
dp=DOORPIN1; } dp=DOORPIN1; }
else(dp=DOORPIN2); else(dp=DOORPIN2);
digitalWrite(dp, LOW); digitalWrite(dp, LOW);
//addToLog('L',input); addToLog('L',input);
} }
void unlockall() { void unlockall() {
@ -1144,9 +1166,8 @@ void unlockall() {
//PROGMEMprintln(doorsunlockedMessage); //PROGMEMprintln(doorsunlockedMessage);
} }
void lockall() { //Lock down all doors. Can also be run periodically to safeguard system. void lockall() { //Lock down all doors. Can also be run periodically to safeguard system.
doorLock(1);
digitalWrite(DOORPIN1, LOW); doorLock(2);
digitalWrite(DOORPIN2,LOW);
door1Locked=true; door1Locked=true;
door2Locked=true; door2Locked=true;
//PROGMEMprintln(doorslockedMessage); //PROGMEMprintln(doorslockedMessage);
@ -1159,6 +1180,7 @@ void logDate()
ds1307.getDateDs1307(&second, &minute, &hour, &dayOfWeek, &dayOfMonth, &month, &year); ds1307.getDateDs1307(&second, &minute, &hour, &dayOfWeek, &dayOfMonth, &month, &year);
addToLog('H',hour); addToLog('H',hour);
addToLog('M',minute); addToLog('M',minute);
addToLog('E',second);
} }
void logReboot() { //Log system startup void logReboot() { //Log system startup
@ -1196,7 +1218,7 @@ void logkeypadCommand(byte reader, long command){
void logalarmSensor(byte zone) { //Log Alarm zone events void logalarmSensor(byte zone) { //Log Alarm zone events
logDate(); logDate();
addToLog('S',zone); addToLog('s',zone);
} }
void logalarmTriggered() { void logalarmTriggered() {
@ -1210,8 +1232,8 @@ void logunLock(long user, byte door) { //Log unlock events
} }
void logalarmState(byte level) { //Log unlock events void logalarmState(byte level) { //Log unlock events
logDate(); //logDate();
addToLog('M',level); addToLog('m',level);
} }
void logalarmArmed(byte level) { //Log unlock events void logalarmArmed(byte level) { //Log unlock events
@ -1314,7 +1336,7 @@ void addUser(int userNum, byte userMask, unsigned long tagNumber) // Modif
EEPROM.write((offset+i), (EEPROM_buffer[i])); // Store the resulting value in 5 bytes of EEPROM. EEPROM.write((offset+i), (EEPROM_buffer[i])); // Store the resulting value in 5 bytes of EEPROM.
} }
addToLog('M',userNum); addToLog('a',userNum);
} }
} }
@ -1366,7 +1388,7 @@ int checkUser(unsigned long tagNumber) // Check
if((EEPROM_buffer == tagNumber) && (tagNumber !=0xFFFFFFFF) && (tagNumber !=0x0)) { // Return a not found on blank (0xFFFFFFFF) entries if((EEPROM_buffer == tagNumber) && (tagNumber !=0xFFFFFFFF) && (tagNumber !=0x0)) { // Return a not found on blank (0xFFFFFFFF) entries
addToLog('C',((i-EEPROM_FIRSTUSER)/5)); addToLog('c',((i-EEPROM_FIRSTUSER)/5));
found = EEPROM.read(i+4); found = EEPROM.read(i+4);
return found; return found;
} }
@ -1466,14 +1488,19 @@ void addToLog(char type, int data) {
logData[logCursor] = data; logData[logCursor] = data;
logCursor += 1; logCursor += 1;
if(logCursor > 20) { if(logCursor > sizeof(logKeys)) {
logCursor = 0; logCursor = 0;
} }
} }
void readFromLog(int index, char &type, int &data) { void printLog(EthernetClient client) {
logKeys[index] = type; client.println("<pre>");
logData[index] = data; for(int i=0;i<sizeof(logKeys);i++) {
client.print(logKeys[i]);
client.print(": ");
client.println(logData[i]);
}
client.println("</pre>");
} }