BOOL q5_config_block_show(BYTE *config)
{
uint32_t value= hextoulong(config);
UserMessage(" Config Block: %.8s\r\n", config);
UserMessageNum(" Page Select: %d = ", GET_CONFIG(value, Q5_MASK_PAGE_SELECT, Q5_SHIFT_PAGE_SELECT));
UserMessage("%s\r\n", GET_CONFIG(value, Q5_MASK_PAGE_SELECT, Q5_SHIFT_PAGE_SELECT) ? "True" : "False");
UserMessageNum(" Fast Write: %d = ", GET_CONFIG(value, Q5_MASK_FAST_WRITE, Q5_SHIFT_FAST_WRITE));
UserMessage("%s\r\n", GET_CONFIG(value, Q5_MASK_FAST_WRITE, Q5_SHIFT_FAST_WRITE) ? "True" : "False");
UserMessageNum(" Data Rate: %02d = ", GET_CONFIG(value, Q5_MASK_DATA_BIT_RATE, Q5_SHIFT_DATA_BIT_RATE));
UserMessageNum("%d * FC\r\n", GET_CONFIG(value, Q5_MASK_DATA_BIT_RATE, Q5_SHIFT_DATA_BIT_RATE) * 2 + 2);
UserMessageNum(" Use AOR: %d = ", GET_CONFIG(value, Q5_MASK_USE_AOR, Q5_SHIFT_USE_AOR));
UserMessage("%s\r\n", GET_CONFIG(value, Q5_MASK_USE_AOR, Q5_SHIFT_USE_AOR) ? "True" : "False");
UserMessageNum(" Use PWD: %d = ", GET_CONFIG(value, Q5_MASK_USE_PWD, Q5_SHIFT_USE_PWD));
UserMessage("%s\r\n", GET_CONFIG(value, Q5_MASK_USE_PWD, Q5_SHIFT_USE_PWD) ? "True" : "False");
UserMessageNum(" PSK Carrier: %d = ", GET_CONFIG(value, Q5_MASK_PSK_CARRIER_FREQ, Q5_SHIFT_PSK_CARRIER_FREQ));
UserMessageNum("%d * FC\r\n", PSK_Rates[GET_CONFIG(value, Q5_MASK_PSK_CARRIER_FREQ, Q5_SHIFT_PSK_CARRIER_FREQ)]);
UserMessageNum(" Modulation: %d = ", GET_CONFIG(value, Q5_MASK_MODULATION, Q5_SHIFT_MODULATION));
UserMessage("%s\r\n", (BYTE *) Q5_Modulation[GET_CONFIG(value, Q5_MASK_MODULATION, Q5_SHIFT_MODULATION)]);
UserMessageNum(" Max Block: %d\r\n", GET_CONFIG(value, Q5_MASK_MAX_BLOCK, Q5_SHIFT_MAX_BLOCK));
UserMessageNum(" ST: %d = ", GET_CONFIG(value, Q5_MASK_ST, Q5_SHIFT_ST));
UserMessage("%s\r\n", GET_CONFIG(value, Q5_MASK_ST, Q5_SHIFT_ST) ? "True" : "False");
return TRUE;
}
// create a config block based on current tag settings
BOOL q5_create_config_block(BYTE *config)
{
uint32_t value= hextoulong(config);
BYTE tmp;
// data rate
value= SET_CONFIG(value, Q5_MASK_DATA_BIT_RATE, Q5_SHIFT_DATA_BIT_RATE, (RFIDlerConfig.DataRate - 2) / 2);
// psk sub-carrier
if((tmp= RFIDlerConfig.DataRateSub0))
{
if(tmp == 2)
tmp= 0;
else if (tmp == 4)
tmp= 1;
else
tmp= 2;
value= SET_CONFIG(value, Q5_MASK_PSK_CARRIER_FREQ, Q5_SHIFT_PSK_CARRIER_FREQ, tmp);
}
// modulation
if(RFIDlerConfig.Manchester && RFIDlerConfig.Modulation == MOD_MODE_ASK_OOK)
tmp= Q5_MOD_MANCHESTER;
else
{
if(RFIDlerConfig.BiPhase && RFIDlerConfig.Modulation == MOD_MODE_ASK_OOK)
tmp= Q5_MOD_BIPHASE;
else
switch(RFIDlerConfig.Modulation)
{
case MOD_MODE_ASK_OOK:
tmp= Q5_MOD_DIRECT;
break;
case MOD_MODE_FSK1:
tmp= Q5_MOD_FSK1;
break;
case MOD_MODE_FSK2:
tmp= Q5_MOD_FSK2;
break;
case MOD_MODE_PSK1:
tmp= Q5_MOD_PSK1;
break;
case MOD_MODE_PSK2:
tmp= Q5_MOD_PSK2;
break;
case MOD_MODE_PSK3:
tmp= Q5_MOD_PSK3;
break;
default:
return FALSE;
}
}
value= SET_CONFIG(value, Q5_MASK_MODULATION, Q5_SHIFT_MODULATION, tmp);
// data blocks
value= SET_CONFIG(value, Q5_MASK_MAX_BLOCK, Q5_SHIFT_MAX_BLOCK, RFIDlerConfig.DataBits / Q5_BLOCKSIZE);
ulongtohex(config, value);
return TRUE;
}
//// create a config block based on current tag settings
BOOL t55x7_create_config_block(BYTE *config)
{
uint32_t value= hextoulong(config);
BYTE i, tmp, xmode= FALSE;
// first decide if we need to be in extended mode or not
// invert is only supported in x-mode
if(RFIDlerConfig.Invert)
xmode= TRUE;
// is data rate supported by compat mode?
for(i= 0, tmp= FALSE ; i < sizeof(T55x7_Compat_Data_Rates) ; ++i)
if(RFIDlerConfig.DataRate == T55x7_Compat_Data_Rates[i])
{
tmp= TRUE;
break;
}
if(!tmp)
xmode= TRUE;
// data rate
if(xmode)
{
value= SET_CONFIG(value, T55X7_MASK_MASTER_KEY, T55X7_SHIFT_MASTER_KEY, T55X7_XMODE_MODE);
value= SET_CONFIG(value, T55X7_MASK_XMODE, T55X7_SHIFT_XMODE, TRUE);
value= SET_CONFIG(value, T55X7_XMODE_MASK_DATA_BIT_RATE, T55X7_SHIFT_DATA_BIT_RATE, (RFIDlerConfig.DataRate - 2) / 2);
}
else
value= SET_CONFIG(value, T55X7_COMPAT_MASK_DATA_BIT_RATE, T55X7_SHIFT_DATA_BIT_RATE, i);
// psk sub-carrier
if(RFIDlerConfig.DataRateSub0)
value= SET_CONFIG(value, T55X7_MASK_PSK_CARRIER_FREQ, T55X7_SHIFT_PSK_CARRIER_FREQ, RFIDlerConfig.DataRateSub0 / 4);
// modulation
if(RFIDlerConfig.Manchester && RFIDlerConfig.Modulation == MOD_MODE_ASK_OOK)
tmp= T55X7_MOD_MANCHESTER;
else
{
// todo - add general support for biphase 57 (but this is just biphase 50 with inversion)
if(RFIDlerConfig.BiPhase && RFIDlerConfig.Modulation == MOD_MODE_ASK_OOK)
tmp= T55X7_MOD_BIPHASE_50;
else
switch(RFIDlerConfig.Modulation)
{
case MOD_MODE_ASK_OOK:
tmp= T55X7_MOD_DIRECT;
break;
case MOD_MODE_FSK1:
tmp= T55X7_MOD_FSK1;
break;
case MOD_MODE_FSK2:
tmp= T55X7_MOD_FSK2;
break;
case MOD_MODE_PSK1:
tmp= T55X7_MOD_PSK1;
break;
case MOD_MODE_PSK2:
tmp= T55X7_MOD_PSK2;
break;
case MOD_MODE_PSK3:
tmp= T55X7_MOD_PSK3;
break;
default:
return FALSE;
}
}
value= SET_CONFIG(value, T55X7_MASK_MODULATION, T55X7_SHIFT_MODULATION, tmp);
// data blocks
value= SET_CONFIG(value, T55X7_MASK_MAX_BLOCK, T55X7_SHIFT_MAX_BLOCK, RFIDlerConfig.DataBits / T55X7_BLOCKSIZE);
ulongtohex(config, value);
return TRUE;
}
BOOL t55x7_config_block_show(BYTE *config, BYTE *password)
{
uint32_t value= hextoulong(config);
BOOL xmode;
UserMessage(" Config Block (0): %.8s\r\n\r\n", config);
UserMessageNum(" Master Key: %d = ", GET_CONFIG(value, T55X7_MASK_MASTER_KEY, T55X7_SHIFT_MASTER_KEY));
if(GET_CONFIG(value, T55X7_MASK_MASTER_KEY, T55X7_SHIFT_MASTER_KEY) == T55X7_COMPAT_MODE)
UserMessage("%s\r\n", "Compatibility Mode");
else
if(GET_CONFIG(value, T55X7_MASK_MASTER_KEY, T55X7_SHIFT_MASTER_KEY) == T55X7_XMODE_MODE)
UserMessage("%s\r\n", "Extended Mode");
else
UserMessage("%s\r\n", "Undefined Mode");
xmode= GET_CONFIG(value, T55X7_MASK_XMODE, T55X7_SHIFT_XMODE);
UserMessage(" X-Mode: %s\r\n", xmode ? "True" : "False");
// display additional/alternate fields if in xmode
if(xmode)
{
UserMessageNum(" Data Rate: %02d = ", GET_CONFIG(value, T55X7_XMODE_MASK_DATA_BIT_RATE, T55X7_SHIFT_DATA_BIT_RATE));
UserMessageNum("%d * FC\r\n", GET_CONFIG(value, T55X7_XMODE_MASK_DATA_BIT_RATE, T55X7_SHIFT_DATA_BIT_RATE) * 2 + 2);
UserMessageNum(" Modulation: %02d = ", GET_CONFIG(value, T55X7_MASK_MODULATION, T55X7_SHIFT_MODULATION));
if(GET_CONFIG(value, T55X7_MASK_MODULATION, T55X7_SHIFT_MODULATION) > 8)
{
if(GET_CONFIG(value, T55X7_MASK_MODULATION, T55X7_SHIFT_MODULATION)== T55X7_MOD_BIPHASE_50)
UserMessage("%s\r\n", "BiPhase ('50)");
else
if (GET_CONFIG(value, T55X7_MASK_MODULATION, T55X7_SHIFT_MODULATION)== T55X7_MOD_BIPHASE_57)
UserMessage("%s\r\n", "BiPhase ('57)");
else
UserMessage("%s\r\n", "Invalid");
}
else
UserMessage("%s\r\n", (BYTE *) T55x7_Compat_Modulation[GET_CONFIG(value, T55X7_MASK_MODULATION, T55X7_SHIFT_MODULATION)]);
UserMessage(" SST: %s\r\n", GET_CONFIG(value, T55X7_XMODE_MASK_SST, T55X7_SHIFT_ST_SST) ? "True" : "False");
}
else
{
UserMessageNum(" Data Rate: %02d = ", GET_CONFIG(value, T55X7_COMPAT_MASK_DATA_BIT_RATE, T55X7_SHIFT_DATA_BIT_RATE));
UserMessageNum("%d * FC\r\n", T55x7_Compat_Data_Rates[GET_CONFIG(value, T55X7_COMPAT_MASK_DATA_BIT_RATE, T55X7_SHIFT_DATA_BIT_RATE)]);
UserMessageNum(" Modulation: %02d = ", GET_CONFIG(value, T55X7_MASK_MODULATION, T55X7_SHIFT_MODULATION));
if(GET_CONFIG(value, T55X7_MASK_MODULATION, T55X7_SHIFT_MODULATION) > 8)
{
if(GET_CONFIG(value, T55X7_MASK_MODULATION, T55X7_SHIFT_MODULATION)== 16)
UserMessage("%s\r\n", "BiPhase ('50)");
else
UserMessage("%s\r\n", "Reserved/Invalid");
}
else
UserMessage("%s\r\n", (BYTE *) T55x7_Compat_Modulation[GET_CONFIG(value, T55X7_MASK_MODULATION, T55X7_SHIFT_MODULATION)]);
UserMessage(" ST: %s\r\n", GET_CONFIG(value, T55X7_COMPAT_MASK_ST, T55X7_SHIFT_ST_SST) ? "True" : "False");
}
// display common fields
UserMessageNum(" PSK Carrier: %d = ", GET_CONFIG(value, T55X7_MASK_PSK_CARRIER_FREQ, T55X7_SHIFT_PSK_CARRIER_FREQ));
if(GET_CONFIG(value, T55X7_MASK_PSK_CARRIER_FREQ, T55X7_SHIFT_PSK_CARRIER_FREQ) > 2)
UserMessage("%s\r\n", "Reserved");
else
UserMessageNum("%d * FC\r\n", GET_CONFIG(value, T55X7_MASK_PSK_CARRIER_FREQ, T55X7_SHIFT_PSK_CARRIER_FREQ) * 2 + 2);
UserMessageNum(" Maxblock: %d\r\n", GET_CONFIG(value, T55X7_MASK_MAX_BLOCK, T55X7_SHIFT_MAX_BLOCK));
UserMessage(" AOR: %s\r\n", GET_CONFIG(value, T55X7_MASK_AOR, T55X7_SHIFT_AOR) ? "True" : "False");
UserMessage(" OTP: %s\r\n", GET_CONFIG(value, T55X7_MASK_OTP, T55X7_SHIFT_OTP) ? "True" : "False");
UserMessage(" PWD: %s\r\n", GET_CONFIG(value, T55X7_MASK_PWD, T55X7_SHIFT_PWD) ? "True" : "False");
UserMessage(" Fast Write: %s\r\n", GET_CONFIG(value, T55X7_MASK_FAST_WRITE, T55X7_SHIFT_FAST_WRITE) ? "True" : "False");
UserMessage(" Inverse Data: %s\r\n", GET_CONFIG(value, T55X7_MASK_INVERSE_DATA, T55X7_SHIFT_INVERSE_DATA) ? "True" : "False");
UserMessage(" POR Delay: %s\r\n", GET_CONFIG(value, T55X7_MASK_POR_DELAY, T55X7_SHIFT_POR_DELAY) ? "True" : "False");
UserMessage("\r\n PWD Block (7): %.8s ", password);
printhexreadable(password, 4);
UserMessage("%s", "\r\n");
return TRUE;
}
