[Cryptech-Commits] [core/coretest_hashes] 01/01: Adding test program that checks the SHA-1 and SHA-256 cores and do single block hashing.
git at cryptech.is
git at cryptech.is
Mon Mar 17 10:22:43 UTC 2014
This is an automated email from the git hooks/post-receive script.
joachim at secworks.se pushed a commit to branch master
in repository core/coretest_hashes.
commit 6ff77cfa730f54eb81eae3ba8e63cfdbd423e306
Author: Joachim Strömbergson <joachim at secworks.se>
Date: Mon Mar 17 11:22:36 2014 +0100
Adding test program that checks the SHA-1 and SHA-256 cores and do single block hashing.
---
src/sw/hash_tester.py | 394 ++++++++++++++++++++++++++++++++++++++++++++++++++
1 file changed, 394 insertions(+)
diff --git a/src/sw/hash_tester.py b/src/sw/hash_tester.py
new file mode 100755
index 0000000..73d64e2
--- /dev/null
+++ b/src/sw/hash_tester.py
@@ -0,0 +1,394 @@
+#!/usr/bin/env python
+# -*- coding: utf-8 -*-
+#=======================================================================
+#
+# hash_tester.py
+# --------------
+# This program sends several commands to the coretest_hashed subsystem
+# in order to verify the SHA-1 and SHA-256 hash function cores.
+# The program uses the built in hash implementations in Python
+# to do functional comparison and validation.
+#
+# Note: This program requires the PySerial module.
+# http://pyserial.sourceforge.net/
+#
+#
+# Author: Joachim Strombergson
+# Copyright (c) 2014, Secworks Sweden AB
+# All rights reserved.
+#
+# Redistribution and use in source and binary forms, with or
+# without modification, are permitted provided that the following
+# conditions are met:
+#
+# 1. Redistributions of source code must retain the above copyright
+# notice, this list of conditions and the following disclaimer.
+#
+# 2. Redistributions in binary form must reproduce the above copyright
+# notice, this list of conditions and the following disclaimer in
+# the documentation and/or other materials provided with the
+# distribution.
+#
+# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
+# FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
+# COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
+# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
+# BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
+# LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+# CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
+# STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
+# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
+# ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+#
+#=======================================================================
+
+#-------------------------------------------------------------------
+# Python module imports.
+#-------------------------------------------------------------------
+import sys
+import serial
+import os
+import time
+import threading
+
+
+#-------------------------------------------------------------------
+# Defines.
+#-------------------------------------------------------------------
+VERBOSE = False
+
+# Memory map.
+SOC = '\x55'
+EOC = '\xaa'
+READ_CMD = '\x10'
+WRITE_CMD = '\x11'
+
+UART_ADDR_PREFIX = '\x00'
+
+SHA1_ADDR_PREFIX = '\x10'
+SHA1_ADDR_NAME0 = '\x00'
+SHA1_ADDR_NAME1 = '\x01'
+SHA1_ADDR_VERSION = '\x02'
+SHA1_ADDR_CTRL = '\x08'
+SHA1_CTRL_INIT_BIT = 0
+SHA1_CTRL_NEXT_BIT = 1
+SHA1_ADDR_STATUS = '\x09'
+SHA1_STATUS_READY_BIT = 0
+SHA1_STATUS_VALID_BIT = 1
+SHA1_ADDR_BLOCK0 = '\x10'
+SHA1_ADDR_BLOCK1 = '\x11'
+SHA1_ADDR_BLOCK2 = '\x12'
+SHA1_ADDR_BLOCK3 = '\x13'
+SHA1_ADDR_BLOCK4 = '\x14'
+SHA1_ADDR_BLOCK5 = '\x15'
+SHA1_ADDR_BLOCK6 = '\x16'
+SHA1_ADDR_BLOCK7 = '\x17'
+SHA1_ADDR_BLOCK8 = '\x18'
+SHA1_ADDR_BLOCK9 = '\x19'
+SHA1_ADDR_BLOCK10 = '\x1a'
+SHA1_ADDR_BLOCK11 = '\x1b'
+SHA1_ADDR_BLOCK12 = '\x1c'
+SHA1_ADDR_BLOCK13 = '\x1d'
+SHA1_ADDR_BLOCK14 = '\x1e'
+SHA1_ADDR_BLOCK15 = '\x1f'
+SHA1_ADDR_DIGEST0 = '\x20'
+SHA1_ADDR_DIGEST1 = '\x21'
+SHA1_ADDR_DIGEST2 = '\x22'
+SHA1_ADDR_DIGEST3 = '\x23'
+SHA1_ADDR_DIGEST4 = '\x24'
+
+SHA256_ADDR_PREFIX = '\x20'
+SHA256_ADDR_NAME0 = '\x00'
+SHA256_ADDR_NAME1 = '\x01'
+SHA256_ADDR_VERSION = '\x02'
+SHA256_ADDR_CTRL = '\x08'
+SHA256_CTRL_INIT_BIT = 0
+SHA256_CTRL_NEXT_BIT = 1
+SHA256_ADDR_STATUS = '\x09'
+SHA256_STATUS_READY_BIT = 0
+SHA256_STATUS_VALID_BIT = 1
+SHA256_ADDR_BLOCK0 = '\x10'
+SHA256_ADDR_BLOCK1 = '\x11'
+SHA256_ADDR_BLOCK2 = '\x12'
+SHA256_ADDR_BLOCK3 = '\x13'
+SHA256_ADDR_BLOCK4 = '\x14'
+SHA256_ADDR_BLOCK5 = '\x15'
+SHA256_ADDR_BLOCK6 = '\x16'
+SHA256_ADDR_BLOCK7 = '\x17'
+SHA256_ADDR_BLOCK8 = '\x18'
+SHA256_ADDR_BLOCK9 = '\x19'
+SHA256_ADDR_BLOCK10 = '\x1a'
+SHA256_ADDR_BLOCK11 = '\x1b'
+SHA256_ADDR_BLOCK12 = '\x1c'
+SHA256_ADDR_BLOCK13 = '\x1d'
+SHA256_ADDR_BLOCK14 = '\x1e'
+SHA256_ADDR_BLOCK15 = '\x1f'
+SHA256_ADDR_DIGEST0 = '\x20'
+SHA256_ADDR_DIGEST1 = '\x21'
+SHA256_ADDR_DIGEST2 = '\x22'
+SHA256_ADDR_DIGEST3 = '\x23'
+SHA256_ADDR_DIGEST4 = '\x24'
+SHA256_ADDR_DIGEST5 = '\x25'
+SHA256_ADDR_DIGEST6 = '\x26'
+SHA256_ADDR_DIGEST7 = '\x27'
+
+NAME0_ADDR = '\x00'
+NAME1_ADDR = '\x01'
+VERSION_ADDR = '\x02'
+
+
+#-------------------------------------------------------------------
+# print_response()
+#
+# Parses a received buffer and prints the response.
+#-------------------------------------------------------------------
+def print_response(buffer):
+ if VERBOSE:
+ print "Length of response: %d" % len(buffer)
+ if buffer[0] == '\xaa':
+ print "Response contains correct Start of Response (SOR)"
+ if buffer[-1] == '\x55':
+ print "Response contains correct End of Response (EOR)"
+
+ response_code = ord(buffer[1])
+
+ if response_code == 0xfe:
+ print "UNKNOWN response code received."
+
+ elif response_code == 0xfd:
+ print "ERROR response code received."
+
+ elif response_code == 0x7f:
+ read_addr = ord(buffer[2]) * 256 + ord(buffer[3])
+ read_data = (ord(buffer[4]) * 16777216) + (ord(buffer[5]) * 65536) +\
+ (ord(buffer[6]) * 256) + ord(buffer[7])
+ print "READ_OK. address 0x%02x = 0x%08x." % (read_addr, read_data)
+
+ elif response_code == 0x7e:
+ read_addr = ord(buffer[2]) * 256 + ord(buffer[3])
+ print "WRITE_OK. address 0x%02x." % (read_addr)
+
+ elif response_code == 0x7d:
+ print "RESET_OK."
+
+ else:
+ print "Response 0x%02x is unknown." % response_code
+ print buffer
+
+
+#-------------------------------------------------------------------
+# read_serial_thread()
+#
+# Function used in a thread to read from the serial port and
+# collect response from coretest.
+#-------------------------------------------------------------------
+def read_serial_thread(serialport):
+ if VERBOSE:
+ print "Serial port response thread started. Waiting for response..."
+
+ buffer = []
+ while True:
+ response = serialport.read()
+ buffer.append(response)
+ if response == '\x55':
+ print_response(buffer)
+ buffer = []
+
+
+#-------------------------------------------------------------------
+# write_serial_bytes()
+#
+# Send the bytes in the buffer to coretest over the serial port.
+#-------------------------------------------------------------------
+def write_serial_bytes(tx_cmd, serialport):
+ if VERBOSE:
+ print "Command to be sent:", tx_cmd
+
+ for tx_byte in tx_cmd:
+ serialport.write(tx_byte)
+
+ # Allow the device to complete the transaction.
+ time.sleep(0.1)
+
+
+#-------------------------------------------------------------------
+# main()
+#
+# Parse any arguments and run the tests.
+#-------------------------------------------------------------------
+def main():
+ # Open device
+ ser = serial.Serial()
+ ser.port='/dev/cu.usbserial-A801SA6T'
+ ser.baudrate=9600
+ ser.bytesize=8
+ ser.parity='N'
+ ser.stopbits=1
+ ser.timeout=1
+ ser.writeTimeout=0
+
+ if VERBOSE:
+ print "Setting up a serial port and starting a receive thread."
+
+ try:
+ ser.open()
+ except:
+ print "Error: Can't open serial device."
+ sys.exit(1)
+
+ try:
+ my_thread = threading.Thread(target=read_serial_thread, args=(ser,))
+ except:
+ print "Error: Can't start thread."
+ sys.exit()
+
+ my_thread.daemon = True
+ my_thread.start()
+
+ # TC1-1: Read name and version from SHA-1 core.
+ print "TC1-1: Reading name, type and version words from SHA-1 core."
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_NAME0, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_NAME1, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_VERSION, EOC], ser)
+ print""
+
+ # TC1-2: Writing and reading a block into the SHA-1 core.
+ print "TC1-2: Writing and reading a block into the SHA-1 core."
+ write_serial_bytes([SOC, WRITE_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK0, '\x61', '\x62', '\x63', '\x80', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK1, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK2, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK3, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK4, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK5, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK6, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK7, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK8, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK9, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK10, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK11, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK12, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK13, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK14, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK15, '\x00', '\x00', '\x00', '\x18', EOC], ser)
+ print "TC1-2: All block words written. Time to read."
+
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK0, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK1, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK2, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK3, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK4, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK5, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK6, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK7, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK8, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK9, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK10, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK11, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK12, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK13, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK14, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_BLOCK15, EOC], ser)
+ print "TC1-2: All block words read."
+ print""
+
+ # TC1-3: Running single block procssing on SHA-1 with the current block.
+ print "TC1-3: Starting the SHA-1 core on single block procssing with the current block."
+ write_serial_bytes([SOC, WRITE_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_CTRL, '\x00', '\x00', '\x00', '\x01', EOC], ser)
+ time.sleep(0.1)
+ print "TC1-3: Reading SHA-1 status and digest."
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_STATUS, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_DIGEST0, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_DIGEST1, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_DIGEST2, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_DIGEST3, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA1_ADDR_PREFIX, SHA1_ADDR_DIGEST4, EOC], ser)
+ print""
+
+ # TC2-1: Read name and version from SHA-256 core.
+ print "TC2-1: Reading name, type and version words from SHA-256 core."
+ my_cmd = [SOC, READ_CMD, SHA256_ADDR_PREFIX, NAME0_ADDR, EOC]
+ write_serial_bytes(my_cmd, ser)
+ my_cmd = [SOC, READ_CMD, SHA256_ADDR_PREFIX, NAME1_ADDR, EOC]
+ write_serial_bytes(my_cmd, ser)
+ my_cmd = [SOC, READ_CMD, SHA256_ADDR_PREFIX, VERSION_ADDR, EOC]
+ write_serial_bytes(my_cmd, ser)
+ print""
+
+
+ # TC2-2: Writing and reading a block into the SHA-256 core.
+ print "TC2-2: Writing and reading a block into the SHA-256 core."
+ write_serial_bytes([SOC, WRITE_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK0, '\x61', '\x62', '\x63', '\x80', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK1, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK2, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK3, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK4, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK5, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK6, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK7, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK8, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK9, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK10, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK11, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK12, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK13, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK14, '\x00', '\x00', '\x00', '\x00', EOC], ser)
+ write_serial_bytes([SOC, WRITE_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK15, '\x00', '\x00', '\x00', '\x18', EOC], ser)
+ print "TC1-2: All block words written. Time to read."
+
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK0, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK1, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK2, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK3, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK4, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK5, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK6, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK7, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK8, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK9, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK10, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK11, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK12, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK13, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK14, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_BLOCK15, EOC], ser)
+ print "TC2-2: All block words read."
+ print""
+
+
+ # TC2-3: Running single block procssing on SHA-256 with the current block.
+ print "TC2-3: Starting the SHA-256 core on single block procssing with the current block."
+ write_serial_bytes([SOC, WRITE_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_CTRL, '\x00', '\x00', '\x00', '\x01', EOC], ser)
+ time.sleep(0.1)
+ print "TC2-3: Reading SHA-256 status and digest."
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_STATUS, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_DIGEST0, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_DIGEST1, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_DIGEST2, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_DIGEST3, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_DIGEST4, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_DIGEST5, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_DIGEST6, EOC], ser)
+ write_serial_bytes([SOC, READ_CMD, SHA256_ADDR_PREFIX, SHA256_ADDR_DIGEST7, EOC], ser)
+ print""
+
+ # Exit nicely.
+ if VERBOSE:
+ print "Done. Closing device."
+ ser.close()
+
+
+#-------------------------------------------------------------------
+# __name__
+# Python thingy which allows the file to be run standalone as
+# well as parsed from within a Python interpreter.
+#-------------------------------------------------------------------
+if __name__=="__main__":
+ # Run the main function.
+ sys.exit(main())
+
+
+#=======================================================================
+# EOF hash_tester.py
+#=======================================================================
More information about the Commits
mailing list