[libsigrokdecode.git] / decoders / avr_isp / pd.py

##
## This file is part of the libsigrokdecode project.
##
## Copyright (C) 2012-2014 Uwe Hermann <uwe@hermann-uwe.de>
##
## This program is free software; you can redistribute it and/or modify
## it under the terms of the GNU General Public License as published by
## the Free Software Foundation; either version 2 of the License, or
## (at your option) any later version.
##
## This program is distributed in the hope that it will be useful,
## but WITHOUT ANY WARRANTY; without even the implied warranty of
## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
## GNU General Public License for more details.
##
## You should have received a copy of the GNU General Public License
## along with this program; if not, write to the Free Software
## Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301 USA
##

import sigrokdecode as srd
from .parts import *

VENDOR_CODE_ATMEL = 0x1e

class Decoder(srd.Decoder):
    api_version = 1
    id = 'avr_isp'
    name = 'AVR ISP'
    longname = 'AVR In-System Programming'
    desc = 'Protocol for in-system programming Atmel AVR MCUs.'
    license = 'gplv2+'
    inputs = ['spi', 'logic']
    outputs = ['avr_isp']
    probes = []
    optional_probes = [
        {'id': 'reset', 'name': 'RESET#', 'desc': 'Target AVR MCU reset'},
    ]
    options = {}
    annotations = [
        ['pe', 'Programming enable'],
        ['rsb0', 'Read signature byte 0'],
        ['rsb1', 'Read signature byte 1'],
        ['rsb2', 'Read signature byte 2'],
        ['ce', 'Chip erase'],
        ['rfb', 'Read fuse bits'],
        ['rhfb', 'Read high fuse bits'],
        ['refb', 'Read extended fuse bits'],
        ['warnings', 'Warnings'],
        ['dev', 'Device'],
    ]
    annotation_rows = (
        ('bits', 'Bits', ()),
        ('commands', 'Commands', tuple(range(7 + 1))),
        ('warnings', 'Warnings', (8,)),
        ('dev', 'Device', (9,)),
    )

    def __init__(self, **kwargs):
        self.state = 'IDLE'
        self.mosi_bytes, self.miso_bytes = [], []
        self.cmd_ss, self.cmd_es = 0, 0
        self.xx, self.yy, self.zz, self.mm = 0, 0, 0, 0
        self.device_ss = None

    def start(self):
        # self.out_python = self.register(srd.OUTPUT_PYTHON)
        self.out_ann = self.register(srd.OUTPUT_ANN)

    def putx(self, data):
        self.put(self.cmd_ss, self.cmd_es, self.out_ann, data)

    def handle_cmd_programming_enable(self, cmd, ret):
        # Programming enable.
        # Note: The chip doesn't send any ACK for 'Programming enable'.
        self.putx([0, ['Programming enable']])

        # Sanity check on reply.
        if ret[1:4] != [0xac, 0x53, cmd[2]]:
            self.putx([8, ['Warning: Unexpected bytes in reply!']])

    def handle_cmd_read_signature_byte_0x00(self, cmd, ret):
        # Signature byte 0x00: vendor code.
        self.vendor_code = ret[3]
        v = vendor_code[self.vendor_code]
        self.putx([1, ['Vendor code: 0x%02x (%s)' % (ret[3], v)]])

        # Store for later.
        self.xx = cmd[1] # Same as ret[2].
        self.yy = cmd[3]
        self.zz = ret[0]

        # Sanity check on reply.
        if ret[1] != 0x30 or ret[2] != cmd[1]:
            self.putx([8, ['Warning: Unexpected bytes in reply!']])

        # Sanity check for the vendor code.
        if self.vendor_code != VENDOR_CODE_ATMEL:
            self.putx([8, ['Warning: Vendor code was not 0x1e (Atmel)!']])

    def handle_cmd_read_signature_byte_0x01(self, cmd, ret):
        # Signature byte 0x01: part family and memory size.
        self.part_fam_flash_size = ret[3]
        self.putx([2, ['Part family / memory size: 0x%02x' % ret[3]]])

        # Store for later.
        self.mm = cmd[3]
        self.device_ss = self.cmd_ss

        # Sanity check on reply.
        if ret[1] != 0x30 or ret[2] != cmd[1] or ret[0] != self.yy:
            self.putx([8, ['Warning: Unexpected bytes in reply!']])

    def handle_cmd_read_signature_byte_0x02(self, cmd, ret):
        # Signature byte 0x02: part number.
        self.part_number = ret[3]
        self.putx([3, ['Part number: 0x%02x' % ret[3]]])

        p = part[(self.part_fam_flash_size, self.part_number)]
        data = [9, ['Device: Atmel %s' % p]]
        self.put(self.device_ss, self.cmd_es, self.out_ann, data)

        # Sanity check on reply.
        if ret[1] != 0x30 or ret[2] != self.xx or ret[0] != self.mm:
            self.putx([8, ['Warning: Unexpected bytes in reply!']])

        self.xx, self.yy, self.zz, self.mm = 0, 0, 0, 0

    def handle_cmd_chip_erase(self, cmd, ret):
        # Chip erase (erases both flash an EEPROM).
        # Upon successful chip erase, the lock bits will also be erased.
        # The only way to end a Chip Erase cycle is to release RESET#.
        self.putx([4, ['Chip erase']])

        # TODO: Check/handle RESET#.

        # Sanity check on reply.
        bit = (ret[2] & (1 << 7)) >> 7
        if ret[1] != 0xac or bit != 1 or ret[3] != cmd[2]:
            self.putx([8, ['Warning: Unexpected bytes in reply!']])

    def handle_cmd_read_fuse_bits(self, cmd, ret):
        # Read fuse bits.
        self.putx([5, ['Read fuse bits: 0x%02x' % ret[3]]])

        # TODO: Decode fuse bits.
        # TODO: Sanity check on reply.

    def handle_cmd_read_fuse_high_bits(self, cmd, ret):
        # Read fuse high bits.
        self.putx([6, ['Read fuse high bits: 0x%02x' % ret[3]]])

        # TODO: Decode fuse bits.
        # TODO: Sanity check on reply.

    def handle_cmd_read_extended_fuse_bits(self, cmd, ret):
        # Read extended fuse bits.
        self.putx([7, ['Read extended fuse bits: 0x%02x' % ret[3]]])

        # TODO: Decode fuse bits.
        # TODO: Sanity check on reply.

    def handle_command(self, cmd, ret):
        if cmd[:2] == [0xac, 0x53]:
            self.handle_cmd_programming_enable(cmd, ret)
        elif cmd[0] == 0xac and (cmd[1] & (1 << 7)) == (1 << 7):
            self.handle_cmd_chip_erase(cmd, ret)
        elif cmd[:3] == [0x50, 0x00, 0x00]:
            self.handle_cmd_read_fuse_bits(cmd, ret)
        elif cmd[:3] == [0x58, 0x08, 0x00]:
            self.handle_cmd_read_fuse_high_bits(cmd, ret)
        elif cmd[:3] == [0x50, 0x08, 0x00]:
            self.handle_cmd_read_extended_fuse_bits(cmd, ret)
        elif cmd[0] == 0x30 and cmd[2] == 0x00:
            self.handle_cmd_read_signature_byte_0x00(cmd, ret)
        elif cmd[0] == 0x30 and cmd[2] == 0x01:
            self.handle_cmd_read_signature_byte_0x01(cmd, ret)
        elif cmd[0] == 0x30 and cmd[2] == 0x02:
            self.handle_cmd_read_signature_byte_0x02(cmd, ret)
        else:
            c = '%02x %02x %02x %02x' % tuple(cmd)
            r = '%02x %02x %02x %02x' % tuple(ret)
            self.putx([0, ['Unknown command: %s (reply: %s)!' % (c, r)]])

    def decode(self, ss, es, data):
        ptype, mosi, miso = data

        # For now, only use DATA and BITS packets.
        if ptype not in ('DATA', 'BITS'):
            return

        # Store the individual bit values and ss/es numbers. The next packet
        # is guaranteed to be a 'DATA' packet belonging to this 'BITS' one.
        if ptype == 'BITS':
            self.miso_bits, self.mosi_bits = miso, mosi
            return

        self.ss, self.es = ss, es

        if len(self.mosi_bytes) == 0:
            self.cmd_ss = ss

        # Append new bytes.
        self.mosi_bytes.append(mosi)
        self.miso_bytes.append(miso)

        # All commands consist of 4 bytes.
        if len(self.mosi_bytes) < 4:
            return

        self.cmd_es = es

        self.handle_command(self.mosi_bytes, self.miso_bytes)

        self.mosi_bytes = []
        self.miso_bytes = []
Commit	Line	Data
3bd76451	1	##
50bd5d25	2	## This file is part of the libsigrokdecode project.
3bd76451	3	##
ad30cb46	4	## Copyright (C) 2012-2014 Uwe Hermann <uwe@hermann-uwe.de>
3bd76451 UH	5	##
	6	## This program is free software; you can redistribute it and/or modify
	7	## it under the terms of the GNU General Public License as published by
	8	## the Free Software Foundation; either version 2 of the License, or
	9	## (at your option) any later version.
	10	##
	11	## This program is distributed in the hope that it will be useful,
	12	## but WITHOUT ANY WARRANTY; without even the implied warranty of
	13	## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	14	## GNU General Public License for more details.
	15	##
	16	## You should have received a copy of the GNU General Public License
	17	## along with this program; if not, write to the Free Software
	18	## Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
	19	##
	20
3bd76451	21	import sigrokdecode as srd
77adad94	22	from .parts import *
3bd76451 UH	23
	24	VENDOR_CODE_ATMEL = 0x1e
	25
	26	class Decoder(srd.Decoder):
	27	api_version = 1
	28	id = 'avr_isp'
	29	name = 'AVR ISP'
d523eae6	30	longname = 'AVR In-System Programming'
3bd76451 UH	31	desc = 'Protocol for in-system programming Atmel AVR MCUs.'
	32	license = 'gplv2+'
	33	inputs = ['spi', 'logic']
	34	outputs = ['avr_isp']
	35	probes = []
	36	optional_probes = [
	37	{'id': 'reset', 'name': 'RESET#', 'desc': 'Target AVR MCU reset'},
	38	]
	39	options = {}
	40	annotations = [
ad30cb46 UH	41	['pe', 'Programming enable'],
	42	['rsb0', 'Read signature byte 0'],
	43	['rsb1', 'Read signature byte 1'],
	44	['rsb2', 'Read signature byte 2'],
	45	['ce', 'Chip erase'],
	46	['rfb', 'Read fuse bits'],
	47	['rhfb', 'Read high fuse bits'],
	48	['refb', 'Read extended fuse bits'],
	49	['warnings', 'Warnings'],
38ab4ed0	50	['dev', 'Device'],
3bd76451	51	]
3b001341 UH	52	annotation_rows = (
	53	('bits', 'Bits', ()),
	54	('commands', 'Commands', tuple(range(7 + 1))),
	55	('warnings', 'Warnings', (8,)),
38ab4ed0	56	('dev', 'Device', (9,)),
3b001341	57	)
3bd76451 UH	58
	59	def __init__(self, **kwargs):
	60	self.state = 'IDLE'
	61	self.mosi_bytes, self.miso_bytes = [], []
	62	self.cmd_ss, self.cmd_es = 0, 0
	63	self.xx, self.yy, self.zz, self.mm = 0, 0, 0, 0
38ab4ed0	64	self.device_ss = None
3bd76451	65
8915b346	66	def start(self):
c515eed7	67	# self.out_python = self.register(srd.OUTPUT_PYTHON)
be465111	68	self.out_ann = self.register(srd.OUTPUT_ANN)
3bd76451	69
3bd76451 UH	70	def putx(self, data):
	71	self.put(self.cmd_ss, self.cmd_es, self.out_ann, data)
	72
	73	def handle_cmd_programming_enable(self, cmd, ret):
	74	# Programming enable.
	75	# Note: The chip doesn't send any ACK for 'Programming enable'.
	76	self.putx([0, ['Programming enable']])
	77
	78	# Sanity check on reply.
	79	if ret[1:4] != [0xac, 0x53, cmd[2]]:
ad30cb46	80	self.putx([8, ['Warning: Unexpected bytes in reply!']])
3bd76451 UH	81
	82	def handle_cmd_read_signature_byte_0x00(self, cmd, ret):
	83	# Signature byte 0x00: vendor code.
	84	self.vendor_code = ret[3]
	85	v = vendor_code[self.vendor_code]
ad30cb46	86	self.putx([1, ['Vendor code: 0x%02x (%s)' % (ret[3], v)]])
3bd76451 UH	87
	88	# Store for later.
	89	self.xx = cmd[1] # Same as ret[2].
	90	self.yy = cmd[3]
	91	self.zz = ret[0]
	92
	93	# Sanity check on reply.
	94	if ret[1] != 0x30 or ret[2] != cmd[1]:
ad30cb46	95	self.putx([8, ['Warning: Unexpected bytes in reply!']])
3bd76451 UH	96
	97	# Sanity check for the vendor code.
	98	if self.vendor_code != VENDOR_CODE_ATMEL:
ad30cb46	99	self.putx([8, ['Warning: Vendor code was not 0x1e (Atmel)!']])
3bd76451 UH	100
	101	def handle_cmd_read_signature_byte_0x01(self, cmd, ret):
	102	# Signature byte 0x01: part family and memory size.
	103	self.part_fam_flash_size = ret[3]
ad30cb46	104	self.putx([2, ['Part family / memory size: 0x%02x' % ret[3]]])
3bd76451 UH	105
	106	# Store for later.
	107	self.mm = cmd[3]
38ab4ed0	108	self.device_ss = self.cmd_ss
3bd76451 UH	109
	110	# Sanity check on reply.
	111	if ret[1] != 0x30 or ret[2] != cmd[1] or ret[0] != self.yy:
ad30cb46	112	self.putx([8, ['Warning: Unexpected bytes in reply!']])
3bd76451 UH	113
	114	def handle_cmd_read_signature_byte_0x02(self, cmd, ret):
	115	# Signature byte 0x02: part number.
	116	self.part_number = ret[3]
ad30cb46	117	self.putx([3, ['Part number: 0x%02x' % ret[3]]])
3bd76451	118
3bd76451	119	p = part[(self.part_fam_flash_size, self.part_number)]
38ab4ed0 UH	120	data = [9, ['Device: Atmel %s' % p]]
38ab4ed0 UH	121	self.put(self.device_ss, self.cmd_es, self.out_ann, data)
3bd76451 UH	122
	123	# Sanity check on reply.
	124	if ret[1] != 0x30 or ret[2] != self.xx or ret[0] != self.mm:
ad30cb46	125	self.putx([8, ['Warning: Unexpected bytes in reply!']])
3bd76451 UH	126
	127	self.xx, self.yy, self.zz, self.mm = 0, 0, 0, 0
	128
	129	def handle_cmd_chip_erase(self, cmd, ret):
1fd698dc UH	130	# Chip erase (erases both flash an EEPROM).
	131	# Upon successful chip erase, the lock bits will also be erased.
	132	# The only way to end a Chip Erase cycle is to release RESET#.
ad30cb46	133	self.putx([4, ['Chip erase']])
3bd76451	134
1fd698dc UH	135	# TODO: Check/handle RESET#.
	136
	137	# Sanity check on reply.
	138	bit = (ret[2] & (1 << 7)) >> 7
	139	if ret[1] != 0xac or bit != 1 or ret[3] != cmd[2]:
ad30cb46	140	self.putx([8, ['Warning: Unexpected bytes in reply!']])
1fd698dc	141
3bd76451 UH	142	def handle_cmd_read_fuse_bits(self, cmd, ret):
3bd76451 UH	143	# Read fuse bits.
ad30cb46	144	self.putx([5, ['Read fuse bits: 0x%02x' % ret[3]]])
3bd76451 UH	145
	146	# TODO: Decode fuse bits.
	147	# TODO: Sanity check on reply.
	148
	149	def handle_cmd_read_fuse_high_bits(self, cmd, ret):
	150	# Read fuse high bits.
ad30cb46	151	self.putx([6, ['Read fuse high bits: 0x%02x' % ret[3]]])
3bd76451 UH	152
	153	# TODO: Decode fuse bits.
	154	# TODO: Sanity check on reply.
	155
	156	def handle_cmd_read_extended_fuse_bits(self, cmd, ret):
	157	# Read extended fuse bits.
ad30cb46	158	self.putx([7, ['Read extended fuse bits: 0x%02x' % ret[3]]])
3bd76451 UH	159
	160	# TODO: Decode fuse bits.
	161	# TODO: Sanity check on reply.
	162
	163	def handle_command(self, cmd, ret):
	164	if cmd[:2] == [0xac, 0x53]:
	165	self.handle_cmd_programming_enable(cmd, ret)
	166	elif cmd[0] == 0xac and (cmd[1] & (1 << 7)) == (1 << 7):
	167	self.handle_cmd_chip_erase(cmd, ret)
	168	elif cmd[:3] == [0x50, 0x00, 0x00]:
	169	self.handle_cmd_read_fuse_bits(cmd, ret)
	170	elif cmd[:3] == [0x58, 0x08, 0x00]:
	171	self.handle_cmd_read_fuse_high_bits(cmd, ret)
	172	elif cmd[:3] == [0x50, 0x08, 0x00]:
	173	self.handle_cmd_read_extended_fuse_bits(cmd, ret)
	174	elif cmd[0] == 0x30 and cmd[2] == 0x00:
	175	self.handle_cmd_read_signature_byte_0x00(cmd, ret)
	176	elif cmd[0] == 0x30 and cmd[2] == 0x01:
	177	self.handle_cmd_read_signature_byte_0x01(cmd, ret)
	178	elif cmd[0] == 0x30 and cmd[2] == 0x02:
	179	self.handle_cmd_read_signature_byte_0x02(cmd, ret)
	180	else:
	181	c = '%02x %02x %02x %02x' % tuple(cmd)
	182	r = '%02x %02x %02x %02x' % tuple(ret)
	183	self.putx([0, ['Unknown command: %s (reply: %s)!' % (c, r)]])
	184
	185	def decode(self, ss, es, data):
	186	ptype, mosi, miso = data
	187
ad30cb46 UH	188	# For now, only use DATA and BITS packets.
ad30cb46 UH	189	if ptype not in ('DATA', 'BITS'):
3bd76451 UH	190	return
3bd76451 UH	191
ad30cb46 UH	192	# Store the individual bit values and ss/es numbers. The next packet
	193	# is guaranteed to be a 'DATA' packet belonging to this 'BITS' one.
	194	if ptype == 'BITS':
	195	self.miso_bits, self.mosi_bits = miso, mosi
	196	return
3bd76451 UH	197
	198	self.ss, self.es = ss, es
	199
011ed1a3 UH	200	if len(self.mosi_bytes) == 0:
	201	self.cmd_ss = ss
	202
3bd76451 UH	203	# Append new bytes.
	204	self.mosi_bytes.append(mosi)
	205	self.miso_bytes.append(miso)
	206
3bd76451 UH	207	# All commands consist of 4 bytes.
	208	if len(self.mosi_bytes) < 4:
	209	return
	210
	211	self.cmd_es = es
	212
	213	self.handle_command(self.mosi_bytes, self.miso_bytes)
	214
	215	self.mosi_bytes = []
	216	self.miso_bytes = []
	217