[libsigrokdecode.git] / decoders / sdcard_spi / 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

# Normal commands (CMD)
cmd_names = {
    0:  'GO_IDLE_STATE',
    1:  'SEND_OP_COND',
    6:  'SWITCH_FUNC',
    8:  'SEND_IF_COND',
    9:  'SEND_CSD',
    10: 'SEND_CID',
    12: 'STOP_TRANSMISSION',
    13: 'SEND_STATUS',
    16: 'SET_BLOCKLEN',
    17: 'READ_SINGLE_BLOCK',
    18: 'READ_MULTIPLE_BLOCK',
    24: 'WRITE_BLOCK',
    25: 'WRITE_MULTIPLE_BLOCK',
    27: 'PROGRAM_CSD',
    28: 'SET_WRITE_PROT',
    29: 'CLR_WRITE_PROT',
    30: 'SEND_WRITE_PROT',
    32: 'ERASE_WR_BLK_START_ADDR',
    33: 'ERASE_WR_BLK_END_ADDR',
    38: 'ERASE',
    42: 'LOCK_UNLOCK',
    55: 'APP_CMD',
    56: 'GEN_CMD',
    58: 'READ_OCR',
    59: 'CRC_ON_OFF',
    # CMD60-63: Reserved for manufacturer
}

# Application-specific commands (ACMD)
acmd_names = {
    13: 'SD_STATUS',
    18: 'Reserved for SD security applications',
    22: 'SEND_NUM_WR_BLOCKS',
    23: 'SET_WR_BLK_ERASE_COUNT',
    25: 'Reserved for SD security applications',
    26: 'Reserved for SD security applications',
    38: 'Reserved for SD security applications',
    41: 'SD_SEND_OP_COND',
    42: 'SET_CLR_CARD_DETECT',
    43: 'Reserved for SD security applications',
    44: 'Reserved for SD security applications',
    45: 'Reserved for SD security applications',
    46: 'Reserved for SD security applications',
    47: 'Reserved for SD security applications',
    48: 'Reserved for SD security applications',
    49: 'Reserved for SD security applications',
    51: 'SEND_SCR',
}

class Decoder(srd.Decoder):
    api_version = 2
    id = 'sdcard_spi'
    name = 'SD card (SPI mode)'
    longname = 'Secure Digital card (SPI mode)'
    desc = 'Secure Digital card (SPI mode) low-level protocol.'
    license = 'gplv2+'
    inputs = ['spi']
    outputs = ['sdcard_spi']
    annotations = \
        tuple(('cmd%d' % i, 'CMD%d' % i) for i in range(64)) + \
        tuple(('acmd%d' % i, 'ACMD%d' % i) for i in range(64)) + ( \
        ('r1', 'R1 reply'),
        ('r1b', 'R1B reply'),
        ('r2', 'R2 reply'),
        ('r3', 'R3 reply'),
        ('r7', 'R7 reply'),
        ('bits', 'Bits'),
        ('bit-warnings', 'Bit warnings'),
    )
    annotation_rows = (
        ('bits', 'Bits', (134, 135)),
        ('cmd-reply', 'Commands/replies', tuple(range(134))),
    )

    def __init__(self, **kwargs):
        self.state = 'IDLE'
        self.ss, self.es = 0, 0
        self.ss_bit, self.es_bit = 0, 0
        self.ss_cmd, self.es_cmd = 0, 0
        self.cmd_token = []
        self.cmd_token_bits = []
        self.is_acmd = False # Indicates CMD vs. ACMD
        self.blocklen = 0
        self.read_buf = []
        self.cmd_str = ''

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

    def putx(self, data):
        self.put(self.ss_cmd, self.es_cmd, self.out_ann, data)

    def putc(self, cmd, desc):
        self.putx([cmd, ['%s: %s' % (self.cmd_str, desc)]])

    def putb(self, data):
        self.put(self.ss_bit, self.es_bit, self.out_ann, data)

    def cmd_name(self, cmd):
        c = acmd_names if self.is_acmd else cmd_names
        return c.get(cmd, 'Unknown')

    def handle_command_token(self, mosi, miso):
        # Command tokens (6 bytes) are sent (MSB-first) by the host.
        #
        # Format:
        #  - CMD[47:47]: Start bit (always 0)
        #  - CMD[46:46]: Transmitter bit (1 == host)
        #  - CMD[45:40]: Command index (BCD; valid: 0-63)
        #  - CMD[39:08]: Argument
        #  - CMD[07:01]: CRC7
        #  - CMD[00:00]: End bit (always 1)

        if len(self.cmd_token) == 0:
            self.ss_cmd = self.ss

        self.cmd_token.append(mosi)
        self.cmd_token_bits.append(self.mosi_bits)

        # All command tokens are 6 bytes long.
        if len(self.cmd_token) < 6:
            return

        self.es_cmd = self.es

        t = self.cmd_token

        # CMD or ACMD?
        s = 'ACMD' if self.is_acmd else 'CMD'

        def tb(byte, bit):
            return self.cmd_token_bits[5 - byte][bit]

        # Bits[47:47]: Start bit (always 0)
        bit, self.ss_bit, self.es_bit = tb(5, 7)[0], tb(5, 7)[1], tb(5, 7)[2]
        if bit == 0:
            self.putb([134, ['Start bit: %d' % bit]])
        else:
            self.putb([135, ['Start bit: %s (Warning: Must be 0!)' % bit]])

        # Bits[46:46]: Transmitter bit (1 == host)
        bit, self.ss_bit, self.es_bit = tb(5, 6)[0], tb(5, 6)[1], tb(5, 6)[2]
        if bit == 1:
            self.putb([134, ['Transmitter bit: %d' % bit]])
        else:
            self.putb([135, ['Transmitter bit: %d (Warning: Must be 1!)' % bit]])

        # Bits[45:40]: Command index (BCD; valid: 0-63)
        cmd = self.cmd_index = t[0] & 0x3f
        self.ss_bit, self.es_bit = tb(5, 5)[1], tb(5, 0)[2]
        self.putb([134, ['Command: %s%d (%s)' % (s, cmd, self.cmd_name(cmd))]])

        # Bits[39:8]: Argument
        self.arg = (t[1] << 24) | (t[2] << 16) | (t[3] << 8) | t[4]
        self.ss_bit, self.es_bit = tb(4, 7)[1], tb(1, 0)[2]
        self.putb([134, ['Argument: 0x%04x' % self.arg]])

        # Bits[7:1]: CRC7
        # TODO: Check CRC7.
        crc = t[5] >> 1
        self.ss_bit, self.es_bit = tb(0, 7)[1], tb(0, 1)[2]
        self.putb([134, ['CRC7: 0x%01x' % crc]])

        # Bits[0:0]: End bit (always 1)
        bit, self.ss_bit, self.es_bit = tb(0, 0)[0], tb(0, 0)[1], tb(0, 0)[2]
        self.putb([134, ['End bit: %d' % bit]])
        if bit == 1:
            self.putb([134, ['End bit: %d' % bit]])
        else:
            self.putb([135, ['End bit: %d (Warning: Must be 1!)' % bit]])

        # Handle command.
        if cmd in (0, 1, 9, 16, 17, 41, 49, 55, 59):
            self.state = 'HANDLE CMD%d' % cmd
            self.cmd_str = '%s%d (%s)' % (s, cmd, self.cmd_name(cmd))
        else:
            self.state = 'HANDLE CMD999'
            a = '%s%d: %02x %02x %02x %02x %02x %02x' % ((s, cmd) + tuple(t))
            self.putx([cmd, [a]])

    def handle_cmd0(self):
        # CMD0: GO_IDLE_STATE
        self.putc(0, 'Reset the SD card')
        self.state = 'GET RESPONSE R1'

    def handle_cmd1(self):
        # CMD1: SEND_OP_COND
        self.putc(1, 'Send HCS info and activate the card init process')
        hcs = (self.arg & (1 << 30)) >> 30
        self.ss_bit = self.cmd_token_bits[5 - 4][6][1]
        self.es_bit = self.cmd_token_bits[5 - 4][6][2]
        self.putb([134, ['HCS: %d' % hcs]])
        self.state = 'GET RESPONSE R1'

    def handle_cmd9(self):
        # CMD9: SEND_CSD (128 bits / 16 bytes)
        self.putc(9, 'Ask card to send its card specific data (CSD)')
        if len(self.read_buf) == 0:
            self.ss_cmd = self.ss
        self.read_buf.append(self.miso)
        # FIXME
        ### if len(self.read_buf) < 16:
        if len(self.read_buf) < 16 + 4:
            return
        self.es_cmd = self.es
        self.read_buf = self.read_buf[4:] # TODO: Document or redo.
        self.putx([9, ['CSD: %s' % self.read_buf]])
        # TODO: Decode all bits.
        self.read_buf = []
        ### self.state = 'GET RESPONSE R1'
        self.state = 'IDLE'

    def handle_cmd10(self):
        # CMD10: SEND_CID (128 bits / 16 bytes)
        self.putc(10, 'Ask card to send its card identification (CID)')
        self.read_buf.append(self.miso)
        if len(self.read_buf) < 16:
            return
        self.putx([10, ['CID: %s' % self.read_buf]])
        # TODO: Decode all bits.
        self.read_buf = []
        self.state = 'GET RESPONSE R1'

    def handle_cmd16(self):
        # CMD16: SET_BLOCKLEN
        self.blocklen = self.arg
        # TODO: Sanity check on block length.
        self.putc(16, 'Set the block length to %d bytes' % self.blocklen)
        self.state = 'GET RESPONSE R1'

    def handle_cmd17(self):
        # CMD17: READ_SINGLE_BLOCK
        self.putc(17, 'Read a block from address 0x%04x' % self.arg)
        if len(self.read_buf) == 0:
            self.ss_cmd = self.ss
        self.read_buf.append(self.miso)
        if len(self.read_buf) < self.blocklen + 2: # FIXME
            return
        self.es_cmd = self.es
        self.read_buf = self.read_buf[2:] # FIXME
        self.putx([17, ['Block data: %s' % self.read_buf]])
        self.read_buf = []
        self.state = 'GET RESPONSE R1'

    def handle_cmd49(self):
        self.state = 'GET RESPONSE R1'

    def handle_cmd55(self):
        # CMD55: APP_CMD
        self.putc(55, 'Next command is an application-specific command')
        self.is_acmd = True
        self.state = 'GET RESPONSE R1'

    def handle_cmd59(self):
        # CMD59: CRC_ON_OFF
        crc_on_off = self.arg & (1 << 0)
        s = 'on' if crc_on_off == 1 else 'off'
        self.putc(59, 'Turn the SD card CRC option %s' % s)
        self.state = 'GET RESPONSE R1'

    def handle_acmd41(self):
        # ACMD41: SD_SEND_OP_COND
        self.putc(64 + 41, 'Send HCS info and activate the card init process')
        self.state = 'GET RESPONSE R1'

    def handle_cmd999(self):
        self.state = 'GET RESPONSE R1'

    def handle_cid_register(self):
        # Card Identification (CID) register, 128bits

        cid = self.cid

        # Manufacturer ID: CID[127:120] (8 bits)
        mid = cid[15]

        # OEM/Application ID: CID[119:104] (16 bits)
        oid = (cid[14] << 8) | cid[13]

        # Product name: CID[103:64] (40 bits)
        pnm = 0
        for i in range(12, 8 - 1, -1):
            pnm <<= 8
            pnm |= cid[i]

        # Product revision: CID[63:56] (8 bits)
        prv = cid[7]

        # Product serial number: CID[55:24] (32 bits)
        psn = 0
        for i in range(6, 3 - 1, -1):
            psn <<= 8
            psn |= cid[i]

        # RESERVED: CID[23:20] (4 bits)

        # Manufacturing date: CID[19:8] (12 bits)
        # TODO

        # CRC7 checksum: CID[7:1] (7 bits)
        # TODO

        # Not used, always 1: CID[0:0] (1 bit)
        # TODO

    def handle_response_r1(self, res):
        # The R1 response token format (1 byte).
        # Sent by the card after every command except for SEND_STATUS.

        self.ss_cmd, self.es_cmd = self.miso_bits[7][1], self.miso_bits[0][2]
        self.putx([65, ['R1: 0x%02x' % res]])

        def putbit(bit, data):
            b = self.miso_bits[bit]
            self.ss_bit, self.es_bit = b[1], b[2]
            self.putb([134, data])

        # Bit 0: 'In idle state' bit
        s = '' if (res & (1 << 0)) else 'not '
        putbit(0, ['Card is %sin idle state' % s])

        # Bit 1: 'Erase reset' bit
        s = '' if (res & (1 << 1)) else 'not '
        putbit(1, ['Erase sequence %scleared' % s])

        # Bit 2: 'Illegal command' bit
        s = 'I' if (res & (1 << 2)) else 'No i'
        putbit(2, ['%sllegal command detected' % s])

        # Bit 3: 'Communication CRC error' bit
        s = 'failed' if (res & (1 << 3)) else 'was successful'
        putbit(3, ['CRC check of last command %s' % s])

        # Bit 4: 'Erase sequence error' bit
        s = 'E' if (res & (1 << 4)) else 'No e'
        putbit(4, ['%srror in the sequence of erase commands' % s])

        # Bit 5: 'Address error' bit
        s = 'M' if (res & (1 << 4)) else 'No m'
        putbit(5, ['%sisaligned address used in command' % s])

        # Bit 6: 'Parameter error' bit
        s = '' if (res & (1 << 4)) else 'not '
        putbit(6, ['Command argument %soutside allowed range' % s])

        # Bit 7: Always set to 0
        putbit(7, ['Bit 7 (always 0)'])

        self.state = 'IDLE'

    def handle_response_r1b(self, res):
        # TODO
        pass

    def handle_response_r2(self, res):
        # TODO
        pass

    def handle_response_r3(self, res):
        # TODO
        pass

    # Note: Response token formats R4 and R5 are reserved for SDIO.

    # TODO: R6?

    def handle_response_r7(self, res):
        # TODO
        pass

    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

        # State machine.
        if self.state == 'IDLE':
            # Ignore stray 0xff bytes, some devices seem to send those!?
            if mosi == 0xff: # TODO?
                return
            self.state = 'GET COMMAND TOKEN'
            self.handle_command_token(mosi, miso)
        elif self.state == 'GET COMMAND TOKEN':
            self.handle_command_token(mosi, miso)
        elif self.state.startswith('HANDLE CMD'):
            self.miso, self.mosi = miso, mosi
            # Call the respective handler method for the command.
            a, cmdstr = 'a' if self.is_acmd else '', self.state[10:].lower()
            handle_cmd = getattr(self, 'handle_%scmd%s' % (a, cmdstr))
            handle_cmd()
            self.cmd_token = []
            self.cmd_token_bits = []
            # Leave ACMD mode again after the first command after CMD55.
            if self.is_acmd and cmdstr != '55':
                self.is_acmd = False
        elif self.state.startswith('GET RESPONSE'):
            # Ignore stray 0xff bytes, some devices seem to send those!?
            if miso == 0xff: # TODO?
                return

            # Call the respective handler method for the response.
            s = 'handle_response_%s' % self.state[13:].lower()
            handle_response = getattr(self, s)
            handle_response(miso)

            self.state = 'IDLE'
Commit	Line	Data
47ec18f5	1	##
50bd5d25	2	## This file is part of the libsigrokdecode project.
47ec18f5	3	##
1b3109bc	4	## Copyright (C) 2012-2014 Uwe Hermann <uwe@hermann-uwe.de>
47ec18f5 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
47ec18f5 UH	21	import sigrokdecode as srd
47ec18f5 UH	22
ce71bf0e UH	23	# Normal commands (CMD)
ce71bf0e UH	24	cmd_names = {
47ec18f5 UH	25	0: 'GO_IDLE_STATE',
	26	1: 'SEND_OP_COND',
	27	6: 'SWITCH_FUNC',
	28	8: 'SEND_IF_COND',
	29	9: 'SEND_CSD',
	30	10: 'SEND_CID',
	31	12: 'STOP_TRANSMISSION',
	32	13: 'SEND_STATUS',
	33	16: 'SET_BLOCKLEN',
	34	17: 'READ_SINGLE_BLOCK',
	35	18: 'READ_MULTIPLE_BLOCK',
	36	24: 'WRITE_BLOCK',
	37	25: 'WRITE_MULTIPLE_BLOCK',
	38	27: 'PROGRAM_CSD',
	39	28: 'SET_WRITE_PROT',
	40	29: 'CLR_WRITE_PROT',
	41	30: 'SEND_WRITE_PROT',
	42	32: 'ERASE_WR_BLK_START_ADDR',
	43	33: 'ERASE_WR_BLK_END_ADDR',
	44	38: 'ERASE',
	45	42: 'LOCK_UNLOCK',
	46	55: 'APP_CMD',
	47	56: 'GEN_CMD',
	48	58: 'READ_OCR',
	49	59: 'CRC_ON_OFF',
	50	# CMD60-63: Reserved for manufacturer
ce71bf0e	51	}
47ec18f5	52
ce71bf0e UH	53	# Application-specific commands (ACMD)
ce71bf0e UH	54	acmd_names = {
47ec18f5 UH	55	13: 'SD_STATUS',
	56	18: 'Reserved for SD security applications',
	57	22: 'SEND_NUM_WR_BLOCKS',
	58	23: 'SET_WR_BLK_ERASE_COUNT',
	59	25: 'Reserved for SD security applications',
	60	26: 'Reserved for SD security applications',
	61	38: 'Reserved for SD security applications',
	62	41: 'SD_SEND_OP_COND',
	63	42: 'SET_CLR_CARD_DETECT',
	64	43: 'Reserved for SD security applications',
	65	44: 'Reserved for SD security applications',
	66	45: 'Reserved for SD security applications',
	67	46: 'Reserved for SD security applications',
	68	47: 'Reserved for SD security applications',
	69	48: 'Reserved for SD security applications',
	70	49: 'Reserved for SD security applications',
	71	51: 'SEND_SCR',
	72	}
	73
	74	class Decoder(srd.Decoder):
12851357	75	api_version = 2
47ec18f5 UH	76	id = 'sdcard_spi'
	77	name = 'SD card (SPI mode)'
	78	longname = 'Secure Digital card (SPI mode)'
	79	desc = 'Secure Digital card (SPI mode) low-level protocol.'
	80	license = 'gplv2+'
	81	inputs = ['spi']
	82	outputs = ['sdcard_spi']
ce71bf0e UH	83	annotations = \
	84	tuple(('cmd%d' % i, 'CMD%d' % i) for i in range(64)) + \
	85	tuple(('acmd%d' % i, 'ACMD%d' % i) for i in range(64)) + ( \
da9bcbd9 BV	86	('r1', 'R1 reply'),
	87	('r1b', 'R1B reply'),
	88	('r2', 'R2 reply'),
	89	('r3', 'R3 reply'),
	90	('r7', 'R7 reply'),
	91	('bits', 'Bits'),
	92	('bit-warnings', 'Bit warnings'),
	93	)
86f68514	94	annotation_rows = (
ce71bf0e UH	95	('bits', 'Bits', (134, 135)),
ce71bf0e UH	96	('cmd-reply', 'Commands/replies', tuple(range(134))),
86f68514	97	)
47ec18f5 UH	98
	99	def __init__(self, **kwargs):
	100	self.state = 'IDLE'
1b3109bc	101	self.ss, self.es = 0, 0
486b19ce UH	102	self.ss_bit, self.es_bit = 0, 0
486b19ce UH	103	self.ss_cmd, self.es_cmd = 0, 0
47ec18f5	104	self.cmd_token = []
d4ad1cb4	105	self.cmd_token_bits = []
47ec18f5 UH	106	self.is_acmd = False # Indicates CMD vs. ACMD
	107	self.blocklen = 0
	108	self.read_buf = []
d780f007	109	self.cmd_str = ''
47ec18f5	110
8915b346	111	def start(self):
be465111	112	self.out_ann = self.register(srd.OUTPUT_ANN)
47ec18f5	113
47ec18f5	114	def putx(self, data):
486b19ce	115	self.put(self.ss_cmd, self.es_cmd, self.out_ann, data)
47ec18f5	116
d780f007 UH	117	def putc(self, cmd, desc):
	118	self.putx([cmd, ['%s: %s' % (self.cmd_str, desc)]])
	119
1b3109bc	120	def putb(self, data):
486b19ce	121	self.put(self.ss_bit, self.es_bit, self.out_ann, data)
1b3109bc	122
ce71bf0e UH	123	def cmd_name(self, cmd):
	124	c = acmd_names if self.is_acmd else cmd_names
	125	return c.get(cmd, 'Unknown')
	126
47ec18f5 UH	127	def handle_command_token(self, mosi, miso):
	128	# Command tokens (6 bytes) are sent (MSB-first) by the host.
	129	#
	130	# Format:
	131	# - CMD[47:47]: Start bit (always 0)
	132	# - CMD[46:46]: Transmitter bit (1 == host)
	133	# - CMD[45:40]: Command index (BCD; valid: 0-63)
	134	# - CMD[39:08]: Argument
	135	# - CMD[07:01]: CRC7
	136	# - CMD[00:00]: End bit (always 1)
	137
1b3109bc	138	if len(self.cmd_token) == 0:
486b19ce	139	self.ss_cmd = self.ss
1b3109bc	140
47ec18f5	141	self.cmd_token.append(mosi)
d4ad1cb4	142	self.cmd_token_bits.append(self.mosi_bits)
47ec18f5 UH	143
	144	# All command tokens are 6 bytes long.
	145	if len(self.cmd_token) < 6:
	146	return
	147
486b19ce	148	self.es_cmd = self.es
1b3109bc	149
47ec18f5 UH	150	t = self.cmd_token
	151
	152	# CMD or ACMD?
	153	s = 'ACMD' if self.is_acmd else 'CMD'
47ec18f5	154
d4ad1cb4	155	def tb(byte, bit):
c82620fc	156	return self.cmd_token_bits[5 - byte][bit]
d4ad1cb4 UH	157
d4ad1cb4 UH	158	# Bits[47:47]: Start bit (always 0)
486b19ce	159	bit, self.ss_bit, self.es_bit = tb(5, 7)[0], tb(5, 7)[1], tb(5, 7)[2]
21e7a67e	160	if bit == 0:
ce71bf0e	161	self.putb([134, ['Start bit: %d' % bit]])
21e7a67e	162	else:
ce71bf0e	163	self.putb([135, ['Start bit: %s (Warning: Must be 0!)' % bit]])
47ec18f5	164
d4ad1cb4	165	# Bits[46:46]: Transmitter bit (1 == host)
486b19ce	166	bit, self.ss_bit, self.es_bit = tb(5, 6)[0], tb(5, 6)[1], tb(5, 6)[2]
21e7a67e	167	if bit == 1:
ce71bf0e	168	self.putb([134, ['Transmitter bit: %d' % bit]])
21e7a67e	169	else:
ce71bf0e	170	self.putb([135, ['Transmitter bit: %d (Warning: Must be 1!)' % bit]])
47ec18f5	171
d4ad1cb4	172	# Bits[45:40]: Command index (BCD; valid: 0-63)
49176fec	173	cmd = self.cmd_index = t[0] & 0x3f
486b19ce	174	self.ss_bit, self.es_bit = tb(5, 5)[1], tb(5, 0)[2]
ce71bf0e	175	self.putb([134, ['Command: %s%d (%s)' % (s, cmd, self.cmd_name(cmd))]])
47ec18f5	176
d4ad1cb4	177	# Bits[39:8]: Argument
47ec18f5	178	self.arg = (t[1] << 24) \| (t[2] << 16) \| (t[3] << 8) \| t[4]
486b19ce	179	self.ss_bit, self.es_bit = tb(4, 7)[1], tb(1, 0)[2]
ce71bf0e	180	self.putb([134, ['Argument: 0x%04x' % self.arg]])
47ec18f5	181
0b5fc074 UH	182	# Bits[7:1]: CRC7
0b5fc074 UH	183	# TODO: Check CRC7.
d4ad1cb4	184	crc = t[5] >> 1
486b19ce	185	self.ss_bit, self.es_bit = tb(0, 7)[1], tb(0, 1)[2]
ce71bf0e	186	self.putb([134, ['CRC7: 0x%01x' % crc]])
d4ad1cb4 UH	187
d4ad1cb4 UH	188	# Bits[0:0]: End bit (always 1)
486b19ce	189	bit, self.ss_bit, self.es_bit = tb(0, 0)[0], tb(0, 0)[1], tb(0, 0)[2]
ce71bf0e	190	self.putb([134, ['End bit: %d' % bit]])
21e7a67e	191	if bit == 1:
ce71bf0e	192	self.putb([134, ['End bit: %d' % bit]])
21e7a67e	193	else:
ce71bf0e	194	self.putb([135, ['End bit: %d (Warning: Must be 1!)' % bit]])
47ec18f5 UH	195
	196	# Handle command.
	197	if cmd in (0, 1, 9, 16, 17, 41, 49, 55, 59):
	198	self.state = 'HANDLE CMD%d' % cmd
ce71bf0e	199	self.cmd_str = '%s%d (%s)' % (s, cmd, self.cmd_name(cmd))
0b5fc074 UH	200	else:
	201	self.state = 'HANDLE CMD999'
	202	a = '%s%d: %02x %02x %02x %02x %02x %02x' % ((s, cmd) + tuple(t))
d780f007	203	self.putx([cmd, [a]])
47ec18f5	204
d780f007	205	def handle_cmd0(self):
47ec18f5	206	# CMD0: GO_IDLE_STATE
d780f007	207	self.putc(0, 'Reset the SD card')
47ec18f5 UH	208	self.state = 'GET RESPONSE R1'
	209
	210	def handle_cmd1(self):
	211	# CMD1: SEND_OP_COND
d780f007	212	self.putc(1, 'Send HCS info and activate the card init process')
47ec18f5	213	hcs = (self.arg & (1 << 30)) >> 30
486b19ce UH	214	self.ss_bit = self.cmd_token_bits[5 - 4][6][1]
486b19ce UH	215	self.es_bit = self.cmd_token_bits[5 - 4][6][2]
ce71bf0e	216	self.putb([134, ['HCS: %d' % hcs]])
47ec18f5 UH	217	self.state = 'GET RESPONSE R1'
	218
	219	def handle_cmd9(self):
	220	# CMD9: SEND_CSD (128 bits / 16 bytes)
d780f007	221	self.putc(9, 'Ask card to send its card specific data (CSD)')
1b3109bc	222	if len(self.read_buf) == 0:
486b19ce	223	self.ss_cmd = self.ss
47ec18f5 UH	224	self.read_buf.append(self.miso)
	225	# FIXME
	226	### if len(self.read_buf) < 16:
	227	if len(self.read_buf) < 16 + 4:
	228	return
486b19ce	229	self.es_cmd = self.es
35b380b1	230	self.read_buf = self.read_buf[4:] # TODO: Document or redo.
361c1e76	231	self.putx([9, ['CSD: %s' % self.read_buf]])
47ec18f5 UH	232	# TODO: Decode all bits.
	233	self.read_buf = []
	234	### self.state = 'GET RESPONSE R1'
	235	self.state = 'IDLE'
	236
	237	def handle_cmd10(self):
	238	# CMD10: SEND_CID (128 bits / 16 bytes)
d780f007	239	self.putc(10, 'Ask card to send its card identification (CID)')
47ec18f5 UH	240	self.read_buf.append(self.miso)
	241	if len(self.read_buf) < 16:
	242	return
361c1e76	243	self.putx([10, ['CID: %s' % self.read_buf]])
47ec18f5 UH	244	# TODO: Decode all bits.
	245	self.read_buf = []
	246	self.state = 'GET RESPONSE R1'
	247
	248	def handle_cmd16(self):
	249	# CMD16: SET_BLOCKLEN
0b5fc074	250	self.blocklen = self.arg
47ec18f5	251	# TODO: Sanity check on block length.
d780f007	252	self.putc(16, 'Set the block length to %d bytes' % self.blocklen)
47ec18f5 UH	253	self.state = 'GET RESPONSE R1'
	254
	255	def handle_cmd17(self):
	256	# CMD17: READ_SINGLE_BLOCK
d780f007	257	self.putc(17, 'Read a block from address 0x%04x' % self.arg)
1b3109bc	258	if len(self.read_buf) == 0:
486b19ce	259	self.ss_cmd = self.ss
47ec18f5	260	self.read_buf.append(self.miso)
47ec18f5 UH	261	if len(self.read_buf) < self.blocklen + 2: # FIXME
47ec18f5 UH	262	return
486b19ce	263	self.es_cmd = self.es
47ec18f5	264	self.read_buf = self.read_buf[2:] # FIXME
361c1e76	265	self.putx([17, ['Block data: %s' % self.read_buf]])
47ec18f5 UH	266	self.read_buf = []
	267	self.state = 'GET RESPONSE R1'
	268
47ec18f5 UH	269	def handle_cmd49(self):
	270	self.state = 'GET RESPONSE R1'
	271
	272	def handle_cmd55(self):
	273	# CMD55: APP_CMD
d780f007	274	self.putc(55, 'Next command is an application-specific command')
47ec18f5 UH	275	self.is_acmd = True
	276	self.state = 'GET RESPONSE R1'
	277
	278	def handle_cmd59(self):
	279	# CMD59: CRC_ON_OFF
	280	crc_on_off = self.arg & (1 << 0)
	281	s = 'on' if crc_on_off == 1 else 'off'
d780f007	282	self.putc(59, 'Turn the SD card CRC option %s' % s)
0b5fc074 UH	283	self.state = 'GET RESPONSE R1'
0b5fc074 UH	284
ce71bf0e UH	285	def handle_acmd41(self):
	286	# ACMD41: SD_SEND_OP_COND
	287	self.putc(64 + 41, 'Send HCS info and activate the card init process')
	288	self.state = 'GET RESPONSE R1'
	289
0b5fc074	290	def handle_cmd999(self):
47ec18f5 UH	291	self.state = 'GET RESPONSE R1'
	292
	293	def handle_cid_register(self):
	294	# Card Identification (CID) register, 128bits
	295
	296	cid = self.cid
	297
	298	# Manufacturer ID: CID[127:120] (8 bits)
	299	mid = cid[15]
	300
	301	# OEM/Application ID: CID[119:104] (16 bits)
	302	oid = (cid[14] << 8) \| cid[13]
	303
	304	# Product name: CID[103:64] (40 bits)
	305	pnm = 0
	306	for i in range(12, 8 - 1, -1):
	307	pnm <<= 8
	308	pnm \|= cid[i]
	309
	310	# Product revision: CID[63:56] (8 bits)
	311	prv = cid[7]
	312
	313	# Product serial number: CID[55:24] (32 bits)
	314	psn = 0
	315	for i in range(6, 3 - 1, -1):
	316	psn <<= 8
	317	psn \|= cid[i]
	318
	319	# RESERVED: CID[23:20] (4 bits)
	320
	321	# Manufacturing date: CID[19:8] (12 bits)
	322	# TODO
	323
	324	# CRC7 checksum: CID[7:1] (7 bits)
	325	# TODO
	326
	327	# Not used, always 1: CID[0:0] (1 bit)
	328	# TODO
	329
	330	def handle_response_r1(self, res):
	331	# The R1 response token format (1 byte).
	332	# Sent by the card after every command except for SEND_STATUS.
	333
486b19ce	334	self.ss_cmd, self.es_cmd = self.miso_bits[7][1], self.miso_bits[0][2]
361c1e76	335	self.putx([65, ['R1: 0x%02x' % res]])
47ec18f5	336
a74855de	337	def putbit(bit, data):
c82620fc	338	b = self.miso_bits[bit]
486b19ce	339	self.ss_bit, self.es_bit = b[1], b[2]
ce71bf0e	340	self.putb([134, data])
47ec18f5	341
a74855de	342	# Bit 0: 'In idle state' bit
47ec18f5	343	s = '' if (res & (1 << 0)) else 'not '
a74855de	344	putbit(0, ['Card is %sin idle state' % s])
47ec18f5	345
a74855de	346	# Bit 1: 'Erase reset' bit
47ec18f5	347	s = '' if (res & (1 << 1)) else 'not '
a74855de	348	putbit(1, ['Erase sequence %scleared' % s])
47ec18f5	349
a74855de	350	# Bit 2: 'Illegal command' bit
47ec18f5	351	s = 'I' if (res & (1 << 2)) else 'No i'
a74855de	352	putbit(2, ['%sllegal command detected' % s])
47ec18f5	353
a74855de	354	# Bit 3: 'Communication CRC error' bit
47ec18f5	355	s = 'failed' if (res & (1 << 3)) else 'was successful'
a74855de	356	putbit(3, ['CRC check of last command %s' % s])
47ec18f5	357
a74855de	358	# Bit 4: 'Erase sequence error' bit
47ec18f5	359	s = 'E' if (res & (1 << 4)) else 'No e'
a74855de	360	putbit(4, ['%srror in the sequence of erase commands' % s])
47ec18f5	361
a74855de	362	# Bit 5: 'Address error' bit
47ec18f5	363	s = 'M' if (res & (1 << 4)) else 'No m'
a74855de	364	putbit(5, ['%sisaligned address used in command' % s])
47ec18f5	365
a74855de	366	# Bit 6: 'Parameter error' bit
47ec18f5	367	s = '' if (res & (1 << 4)) else 'not '
a74855de UH	368	putbit(6, ['Command argument %soutside allowed range' % s])
	369
	370	# Bit 7: Always set to 0
	371	putbit(7, ['Bit 7 (always 0)'])
47ec18f5 UH	372
	373	self.state = 'IDLE'
	374
	375	def handle_response_r1b(self, res):
	376	# TODO
	377	pass
	378
	379	def handle_response_r2(self, res):
	380	# TODO
	381	pass
	382
	383	def handle_response_r3(self, res):
	384	# TODO
	385	pass
	386
	387	# Note: Response token formats R4 and R5 are reserved for SDIO.
	388
	389	# TODO: R6?
	390
	391	def handle_response_r7(self, res):
	392	# TODO
	393	pass
	394
	395	def decode(self, ss, es, data):
	396	ptype, mosi, miso = data
	397
d4ad1cb4 UH	398	# For now, only use DATA and BITS packets.
	399	if ptype not in ('DATA', 'BITS'):
	400	return
	401
	402	# Store the individual bit values and ss/es numbers. The next packet
	403	# is guaranteed to be a 'DATA' packet belonging to this 'BITS' one.
	404	if ptype == 'BITS':
	405	self.miso_bits, self.mosi_bits = miso, mosi
47ec18f5 UH	406	return
47ec18f5 UH	407
1b3109bc	408	self.ss, self.es = ss, es
47ec18f5 UH	409
	410	# State machine.
	411	if self.state == 'IDLE':
	412	# Ignore stray 0xff bytes, some devices seem to send those!?
	413	if mosi == 0xff: # TODO?
	414	return
	415	self.state = 'GET COMMAND TOKEN'
	416	self.handle_command_token(mosi, miso)
	417	elif self.state == 'GET COMMAND TOKEN':
	418	self.handle_command_token(mosi, miso)
	419	elif self.state.startswith('HANDLE CMD'):
	420	self.miso, self.mosi = miso, mosi
	421	# Call the respective handler method for the command.
ce71bf0e UH	422	a, cmdstr = 'a' if self.is_acmd else '', self.state[10:].lower()
ce71bf0e UH	423	handle_cmd = getattr(self, 'handle_%scmd%s' % (a, cmdstr))
47ec18f5	424	handle_cmd()
0b5fc074 UH	425	self.cmd_token = []
0b5fc074 UH	426	self.cmd_token_bits = []
ce71bf0e UH	427	# Leave ACMD mode again after the first command after CMD55.
	428	if self.is_acmd and cmdstr != '55':
	429	self.is_acmd = False
47ec18f5 UH	430	elif self.state.startswith('GET RESPONSE'):
	431	# Ignore stray 0xff bytes, some devices seem to send those!?
	432	if miso == 0xff: # TODO?
	433	return
	434
	435	# Call the respective handler method for the response.
	436	s = 'handle_response_%s' % self.state[13:].lower()
47ec18f5 UH	437	handle_response = getattr(self, s)
	438	handle_response(miso)
	439
	440	self.state = 'IDLE'