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== The easy peasy lemon squeasy way (UART) (CXR/CXRF/SW) ==
{{boxcode|height=400px|title=SysconAUTH.py|code=<syntaxhighlight lang=python>
# Python 2 + 3 compatible
from binascii import unhexlify as uhx
from Crypto.Cipher import AES # pycryptodome
import os
import serial # pyserial
import string
import sys
import time
class PS3UART(object):
    ser = serial.Serial()
    type = ''
           
    sc2tb = uhx('71f03f184c01c5ebc3f6a22a42ba9525')  # Syscon to TestBench Key    (0x130 xor 0x4578)
    tb2sc = uhx('907e730f4d4e0a0b7b75f030eb1d9d36')  # TestBench to Syscon Key    (0x130 xor 0x4588)
    value = uhx('3350BD7820345C29056A223BA220B323')  # 0x45B8
    zero  = uhx('00000000000000000000000000000000')
    auth1r_header = uhx('10100000FFFFFFFF0000000000000000')
    auth2_header  = uhx('10010000000000000000000000000000')
   
    def aes_decrypt_cbc(self, key, iv, in_data):
        return AES.new(key, AES.MODE_CBC, iv).decrypt(in_data)
   
    def aes_encrypt_cbc(self, key, iv, in_data):
        return AES.new(key, AES.MODE_CBC, iv).encrypt(in_data)
    def __init__(self, port, type):
        self.ser.port = port
        if(type == 'CXR' or type == 'SW'):
            self.ser.baudrate = 57600
        elif(type == 'CXRF'):
            self.ser.baudrate = 115200
        else:
            assert(False)
        self.type = type
        self.ser.timeout = 0.1
        self.ser.open()
        assert(self.ser.isOpen())
        self.ser.flush()
       
    def __del__(self):
        self.ser.close()
       
    def send(self, data):
        self.ser.write(data.encode('ascii'))   
                           
    def receive(self):
        return self.ser.read(self.ser.inWaiting())
       
    def command(self, com, wait = 1, verbose = False):
        if(verbose):
            print('Command: ' + com)
       
        if(self.type == 'CXR'):       
            length = len(com)
            checksum = sum(bytearray(com, 'ascii')) % 0x100
            if(length <= 10):
                self.send('C:{:02X}:{}\r\n'.format(checksum, com))
            else:
                j = 10
                self.send('C:{:02X}:{}'.format(checksum, com[0:j]))
                for i in range(length - j, 15, -15):
                    self.send(com[j:j+15])
                    j += 15
                self.send(com[j:] + '\r\n')
        elif(self.type == 'SW'):   
            length = len(com)
            if(length >= 0x40):
                if(self.command('SETCMDLONG FF FF')[0] != 0):
                    return (0xFFFFFFFF, ['Setcmdlong'])       
            checksum = sum(bytearray(com, 'ascii')) % 0x100
            self.send('{}:{:02X}\r\n'.format(com, checksum))
        else:
            self.send(com + '\r\n')
           
        time.sleep(wait)
        answer = self.receive().decode('ascii').strip()
        if(verbose):
            print('Answer: ' + answer)
       
        if(self.type == 'CXR'):
            answer = answer.split(':')
            if(len(answer) != 3):
                return (0xFFFFFFFF, ['Answer length'])
            checksum = sum(bytearray(answer[2], 'ascii')) % 0x100
            if(answer[0] != 'R' and answer[0] != 'E'):
                return (0xFFFFFFFF, ['Magic'])
            if(answer[1] != '{:02X}'.format(checksum)):
                return (0xFFFFFFFF, ['Checksum'])   
            data = answer[2].split(' ')
            if(answer[0] == 'R' and len(data) < 2 or answer[0] == 'E' and len(data) != 2):
                return (0xFFFFFFFF, ['Data length'])
            if(data[0] != 'OK' or len(data) < 2):
                return (int(data[1], 16), [])
            else:
                return (int(data[1], 16), data[2:])   
        elif(self.type == 'SW'):
            answer = answer.split('\n')
            for i in range(0, len(answer)):
                answer[i] = answer[i].replace('\n', '').rsplit(':', 1)
                if(len(answer[i]) != 2):
                    return (0xFFFFFFFF, ['Answer length'])
                checksum = sum(bytearray(answer[i][0], 'ascii')) % 0x100
                if(answer[i][1] != '{:02X}'.format(checksum)):
                    return (0xFFFFFFFF, ['Checksum'])
                answer[i][0] += '\n'
            ret = answer[-1][0].replace('\n', '').split(' ')
            if(len(ret) < 2 or len(ret[1]) != 8 and not all(c in string.hexdigits for c in ret[1])):
                return (0, [x[0] for x in answer])
            elif(len(answer) == 1):       
                return (int(ret[1], 16), ret[2:])
            else:
                return (int(ret[1], 16), [x[0] for x in answer[:-1]])
        else:
            return (0, [answer])
           
    def auth(self):
        if(self.type == 'CXR' or self.type == 'SW'):
            auth1r = self.command('AUTH1 10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000')
            if(auth1r[0] == 0 and auth1r[1] != []):
                auth1r = uhx(auth1r[1][0])
                if(auth1r[0:0x10] == self.auth1r_header):
                    data = self.aes_decrypt_cbc(self.sc2tb, self.zero, auth1r[0x10:0x40])
                    if(data[0x8:0x10] == self.zero[0x0:0x8] and data[0x10:0x20] == self.value and data[0x20:0x30] == self.zero):
                        new_data = data[0x8:0x10] + data[0x0:0x8] + self.zero + self.zero
                        auth2_body = self.aes_encrypt_cbc(self.tb2sc, self.zero, new_data)
                        auth2r = self.command('AUTH2 ' + ''.join('{:02X}'.format(c) for c in bytearray(self.auth2_header + auth2_body)))
                        if(auth2r[0] == 0):
                            return 'Auth successful'
                        else:
                            return 'Auth failed'
                    else:
                        return 'Auth1 response body invalid'
                else:
                    return 'Auth1 response header invalid'
            else:
                return 'Auth1 response invalid'
        else:
            scopen = self.command('scopen')
            if('SC_READY' in scopen[1][0]):
                auth1r = self.command('10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000')
                auth1r = auth1r[1][0].split('\r')[1][1:]
                if(len(auth1r) == 128):
                    auth1r = uhx(auth1r)
                    if(auth1r[0:0x10] == self.auth1r_header):
                        data = self.aes_decrypt_cbc(self.sc2tb, self.zero, auth1r[0x10:0x40])
                        if(data[0x8:0x10] == self.zero[0x0:0x8] and data[0x10:0x20] == self.value and data[0x20:0x30] == self.zero):
                            new_data = data[0x8:0x10] + data[0x0:0x8] + self.zero + self.zero
                            auth2_body = self.aes_encrypt_cbc(self.tb2sc, self.zero, new_data)
                            auth2r = self.command(''.join('{:02X}'.format(c) for c in bytearray(self.auth2_header + auth2_body)))
                            if('SC_SUCCESS' in auth2r[1][0]):
                                return 'Auth successful'
                            else:
                                return 'Auth failed'
                        else:
                            return 'Auth1 response body invalid'
                    else:
                        return 'Auth1 response header invalid'
                else:
                    return 'Auth1 response invalid'
            else:
                return 'scopen response invalid'
   
def main(argc, argv):
    if(argc < 3):
        print(os.path.basename(__file__) + ' <serial port> <sc type ["CXR", "CXRF", "SW"]>')
        sys.exit(1)
    ps3 = PS3UART(argv[1], argv[2])
    raw_input_c = vars(__builtins__).get('raw_input', input)
    while True:
        in_data = raw_input_c('> ')
        if(in_data.lower() == 'auth'):
            print(ps3.auth())
            continue
        if(in_data.lower() == 'exit'):
            break
        ret = ps3.command(in_data)
        if(argv[2] == 'CXR'):
            print('{:08X}'.format(ret[0]) + ' ' +  ' '.join(ret[1]))
        elif(argv[2] == 'SW'):
            if(len(ret[1]) > 0 and '\n' not in ret[1][0]):
                print('{:08X}'.format(ret[0]) + ' ' + ' '.join(ret[1]))
            else:
                print('{:08X}'.format(ret[0]) + '\n' + ''.join(ret[1]))
        else:
            print(ret[1][0])
               
if __name__ == '__main__':
    main(len(sys.argv), sys.argv)
</syntaxhighlight>}}
* Credits to M4j0r for the RE of this important info
=== Example Scripts ===
{{boxcode|height=400px|title=SysconEEPdumpCXR.py|code=<syntaxhighlight lang=python>
# Python 2 compatible
if(len(sys.argv) < 3):
    print os.path.basename(__file__) + ' <serial port> <output file>'
    sys.exit(1)
ps3 = PS3UART(sys.argv[1], 'CXR')
print "Version: " + ps3.command("VER")[1][0]
print ps3.auth()
f = open(sys.argv[2], 'wb')
block_size = 0x40
print "Dumping NVS"
failed = []
for i in xrange(0x2C00, 0x7400, block_size): # 0x7400 for CXR713, 0x4400 for CXR714
    print "Reading 0x{:04X}".format(i)
    data = ps3.command("R8 {:08X} {:02X}".format(i, block_size))
    ret = data[0]
    if ret == 0:
        f.write((data[1][0]).decode('hex'))
    else:
        print "Failed: " + str(ret)
        failed += [i]
        f.write(("A"*block_size*2).decode('hex'))
   
f.close()
time.sleep(2)
print "\nRetrying failed offsets"
for i in failed:
    print "Reading 0x{:04X}".format(i)
    for j in xrange(0, block_size, block_size/4):
        while True:
            data = ps3.command("R8 {:08X} {:02X}".format(i+j, block_size/4))
            ret = data[0]
            if ret == 0:
                print data[1][0]
                break
            time.sleep(2)
</syntaxhighlight>}}
{{boxcode|height=400px|title=SysconEEPdumpCXRF.py|code=<syntaxhighlight lang=python>
# Python 2 + 3 compatible
if(len(sys.argv) < 3):
    print(os.path.basename(__file__) + ' <serial port> <output file>')
    sys.exit(1)
 
ps3 = PS3UART(sys.argv[1], 'CXRF')
print('Version: ' + ps3.command('version')[1][0].split('\n')[1])
print(ps3.auth())
f = open(sys.argv[2], 'wb')
block_size = 0x40
print('Dumping NVS')
for i in range(0x2C00, 0x7400, block_size):
    print('Reading 0x{:04X}'.format(i))
    data = ps3.command('r {:08X} {:02X}'.format(i, block_size))
    data = data[1][0].split('\n')
    if len(data) != 9:
        print('Failed')
        continue
    for i in range(3, 7):
        temp = data[i][0:-2].replace(' ', '')
        f.write(bytearray.fromhex(temp))
     
f.close()
</syntaxhighlight>}}
{{boxcode|height=400px|title=SysconEEPdumpSW.py|code=<syntaxhighlight lang=python>
# Python 2 + 3 compatible
if(len(sys.argv) < 3):
    print(os.path.basename(__file__) + ' <serial port> <output file>')
    sys.exit(1)
 
ps3 = PS3UART(sys.argv[1], 'SW')
print('Version: ' + ps3.command('VER')[1][0])
print(ps3.auth())
f = open(sys.argv[2], 'wb')
block_size = 0x40
print('Dumping NVS')
for i in range(0x0, 0x1400, block_size):
    print('Reading 0x{:04X}'.format(i))
    data = ps3.command('EEP GET {:08X} {:02X}'.format(i, block_size))
    ret = data[0]
    temp = ''
    if ret == 0:
        for i in range(2, len(data[1])):
            temp += data[1][i][2:-2].replace(' ', '')
        f.write(bytearray.fromhex(temp))
    else:
        print('Failed: ' + str(ret))
     
f.close()
</syntaxhighlight>}}
{{boxcode|height=400px|title=SysconEEPpatchCXR.py|code=<syntaxhighlight lang=python>
# Python 2 compatible
if(len(sys.argv) < 3):
    print os.path.basename(__file__) + ' <serial port> <patch file>'
    sys.exit(1)
ps3 = PS3UART(sys.argv[1], 'CXR')
f = open(sys.argv[2], 'rb')
patch = f.read()
f.close()
print "Version: " + ps3.command("VER")[1][0]
print ps3.auth()
patch_area_1 = 0x2800
patch_area_2 = 0x4400 # 0x7400 for CXR713, 0x4400 for CXR714
block_size = 0x40
print "First region"
for i in xrange(0, 0x400, block_size):
    print hex(ps3.command("EEP SET " + hex(i+patch_area_1)[2:] + " " + hex(block_size)[2:] + " " + patch[i:i+block_size].encode('hex'))[0])
print ""
print "Second region"
for i in xrange(0x400, 0x1000, block_size):
    print hex(ps3.command("EEP SET " + hex(i+patch_area_2-0x400)[2:] + " " + hex(block_size)[2:] + " " + patch[i:i+block_size].encode('hex'))[0])
</syntaxhighlight>}}
== IDs ==
<pre>
//phase ids
#define PHASE_ID_GET_STATE 0x0
#define PHASE_ID_PERSONALIZE 0x1
#define PHASE_ID_AUTH1 0x2
#define PHASE_ID_AUTH2 0x3
#define PHASE_ID_SEQ_SERVICE 0x4
#define PHASE_ID_GET_PERSONALIZE_VERSION 0x5
#define PHASE_ID_GET_SYSTEM_INFO 0x6
#define PHASE_ID_FACTORY_INIT 0xFF
//seq service ids
#define SEQ_SERVICE_ID_GET_RTC 0x1
#define SEQ_SERVICE_ID_SET_CLOCK 0x2
#define SEQ_SERVICE_ID_GET_CLOCK 0x3
#define SEQ_SERVICE_ID_READ_DATA 0x4
#define SEQ_SERVICE_ID_WRITE_DATA 0x5
#define SEQ_SERVICE_ID_GET_RTC_STATUS 0x6
#define SEQ_SERVICE_ID_SET_RTC_STATUS 0x7
#define SEQ_SERVICE_ID_SET_RTC 0x8
#define SEQ_SERVICE_ID_CORRECT_RTC 0x9
#define SEQ_SERVICE_ID_SET_RTC2 0xA
#define SEQ_SERVICE_ID_CORRECT_RTC2 0xB
</pre>
== Syscon packets ==
== Syscon packets ==


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</pre>
</pre>


* Although this service is not used on Slim and some Phat consoles anymore, it is working (only on consoles with a CXR (Mullion) Syscon).
* Although this service is not used on Slim and some Phat consoles anymore, it is working.
* It seems it have the same restrictions as NVS service.
* It seems it have the same restrictions as NVS service.


Line 387: Line 39:
</pre>
</pre>


* Although this service is not used on Slim and some Phat consoles anymore, it is working (only on consoles with a CXR (Mullion) Syscon).
* Although this service is not used on Slim and some Phat consoles anymore, it is working.
* It seems it have the same restrictions as NVS service.
* It seems it have the same restrictions as NVS service.


Line 473: Line 125:
</pre>
</pre>


==== sc_config_info::be::get_reference_clock ====
==== Get reference clock ====
Purpose: Used to calculate an initial value of timebase register.
Purpose: Used to calculate an initial value of timebase register.
<pre>
<pre>
struct __attribute__ ((packed)) get_reference_clock_request_t {
struct __attribute__ ((packed)) get_reference_clock_request_t {
uint8_t cmd; // 0x03
uint8_t cmd; // 0x03
uint8_t param; // 0x10
};
struct __attribute__ ((packed)) get_reference_clock_response_t {
uint8_t cmd;
uint8_t padding[3];
uint32_t ref_clock_value;
uint32_t unk;
};
</pre>
==== sc_config_info::xdr::get_reference_clock ====
<pre>
struct __attribute__ ((packed)) get_reference_clock_request_t {
uint8_t cmd; // 0x00
uint8_t param; // 0x10
uint8_t param; // 0x10
};
};
Line 818: Line 455:
See :
See :


* https://www.psdevwiki.com/ps3/File:C1kVeMD.png
* https://imgur.com/a/Iwv4d
* https://www.psdevwiki.com/ps3/File:NBkrqqZ.png
* https://imgur.com/a/48gsT
* database : https://www.sendspace.com/file/6awfi9
* database : https://www.sendspace.com/file/6awfi9


For proof
For proof
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