--- /dev/null
+##
+## This file is part of the sigrok project.
+##
+## Copyright (C) 2012 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
+##
+
+# LPC protocol decoder
+
+import sigrokdecode as srd
+
+# Annotation feed formats
+ANN_ASCII = 0
+
+# ...
+fields = {
+ 'START': { # LAD[3:0] values that are not listed are reserved.
+ 0b0000: 'Start of cycle for a target',
+ 0b0001: 'Reserved',
+ 0b0010: 'Grant for bus master 0',
+ 0b0011: 'Grant for bus master 1',
+ 0b0100: 'Reserved',
+ 0b0101: 'Reserved',
+ 0b0110: 'Reserved',
+ 0b0111: 'Reserved',
+ 0b1000: 'Reserved',
+ 0b1001: 'Reserved',
+ 0b1010: 'Reserved',
+ 0b1011: 'Reserved',
+ 0b1100: 'Reserved',
+ 0b1101: 'Start of cycle for a Firmware Memory Read cycle',
+ 0b1110: 'Start of cycle for a Firmware Memory Write cycle',
+ 0b1111: 'Stop/Abort (end of a cycle for a target)',
+ },
+ 'CT_DR': { # Bit 0 (LAD[0]) is unused.
+ 0b0000: 'I/O read',
+ 0b0010: 'I/O write',
+ 0b0100: 'Memory read',
+ 0b0110: 'Memory write',
+ 0b1000: 'DMA read',
+ 0b1010: 'DMA write',
+ 0b1100: 'Reserved',
+ 0b1110: 'Reserved',
+ },
+ 'SYNC': {
+ 0b0000: 'Ready',
+ 0b0001: 'Reserved',
+ 0b0010: 'Reserved',
+ 0b0011: 'Reserved',
+ 0b0100: 'Reserved',
+ 0b0101: 'Short wait',
+ 0b0110: 'Long wait',
+ 0b0111: 'Reserved',
+ 0b1000: 'Reserved',
+ 0b1001: 'Ready more (DMA only)',
+ 0b1010: 'Error',
+ 0b1011: 'Reserved',
+ 0b1100: 'Reserved',
+ 0b1101: 'Reserved',
+ 0b1110: 'Reserved',
+ 0b1111: 'Reserved',
+ },
+}
+
+class Decoder(srd.Decoder):
+ api_version = 1
+ id = 'lpc'
+ name = 'LPC'
+ longname = 'Low-Pin-Count'
+ desc = 'TODO.'
+ license = 'gplv2+'
+ inputs = ['logic']
+ outputs = ['lpc']
+ probes = [
+ {'id': 'lframe', 'name': 'LFRAME#', 'desc': 'TODO'},
+ {'id': 'lreset', 'name': 'LRESET#', 'desc': 'TODO'},
+ {'id': 'lclk', 'name': 'LCLK', 'desc': 'TODO'},
+ {'id': 'lad0', 'name': 'LAD[0]', 'desc': 'TODO'},
+ {'id': 'lad1', 'name': 'LAD[1]', 'desc': 'TODO'},
+ {'id': 'lad2', 'name': 'LAD[2]', 'desc': 'TODO'},
+ {'id': 'lad3', 'name': 'LAD[3]', 'desc': 'TODO'},
+ ]
+ optional_probes = [
+ {'id': 'ldrq', 'name': 'LDRQ#', 'desc': 'TODO'},
+ {'id': 'serirq', 'name': 'SERIRQ', 'desc': 'TODO'},
+ {'id': 'clkrun', 'name': 'CLKRUN#', 'desc': 'TODO'},
+ {'id': 'lpme', 'name': 'LPME#', 'desc': 'TODO'},
+ {'id': 'lpcpd', 'name': 'LPCPD#', 'desc': 'TODO'},
+ {'id': 'lsmi', 'name': 'LSMI#', 'desc': 'TODO'},
+ ]
+ options = {}
+ annotations = [
+ ['ASCII', 'TODO: description'],
+ ]
+
+ def __init__(self, **kwargs):
+ self.state = 'IDLE'
+ self.oldlclk = -1
+ self.samplenum = 0
+ self.clocknum = 0
+ self.lad = -1
+ self.addr = 0
+ self.cur_nibble = 0
+ self.cycle_type = -1
+ self.oldpins = (-1, -1, -1, -1, -1, -1, -1)
+
+ def start(self, metadata):
+ self.out_proto = self.add(srd.OUTPUT_PROTO, 'lpc')
+ self.out_ann = self.add(srd.OUTPUT_ANN, 'lpc')
+
+ def report(self):
+ pass
+
+ def handle_get_start(self, lad, lframe):
+ # LAD[3:0]: START field (1 clock cycle).
+
+ # The last value of LAD[3:0] before LFRAME# gets de-asserted is what
+ # the peripherals must use. However, the host can keep LFRAME# asserted
+ # multiple clocks, and we output all START fields that occur, even
+ # though the peripherals are supposed to ignore all but the last one.
+ s = fields['START'][lad]
+ self.put(0, 0, self.out_ann, [0, [s]])
+
+ # Output a warning if LAD[3:0] changes while LFRAME# is low.
+ # TODO
+ if (self.lad != -1 and self.lad != lad):
+ self.put(0, 0, self.out_ann,
+ [0, ['Warning: LAD[3:0] changed while '
+ 'LFRAME# was asserted']])
+
+ # LFRAME# is asserted (low). Wait until it gets de-asserted again
+ # (the host is allowed to keep it asserted multiple clocks).
+ if lframe != 1:
+ return
+
+ self.start_field = self.lad
+ self.state = 'GET CT/DR'
+
+ def handle_get_ct_dr(self, lad, lad_bits):
+ # LAD[3:0]: Cycle type / direction field (1 clock cycle).
+
+ self.cycle_type = fields['CT_DR'][lad]
+
+ # TODO: Warning/error on invalid cycle types.
+ if self.cycle_type == 'Reserved':
+ self.put(0, 0, self.out_ann,
+ [0, ['Warning: Invalid cycle type (%s)' % lad_bits]])
+
+ # ...
+ self.put(0, 0, self.out_ann, [0, ['Cycle type: %s' % self.cycle_type]])
+
+ self.state = 'GET ADDR'
+ self.addr = 0
+ self.cur_nibble = 0
+
+ def handle_get_addr(self, lad, lad_bits):
+ # LAD[3:0]: ADDR field (4/8/0 clock cycles).
+
+ # I/O cycles: 4 ADDR clocks. Memory cycles: 8 ADDR clocks.
+ # DMA cycles: no ADDR clocks at all.
+ if self.cycle_type in ('I/O read', 'I/O write'):
+ addr_nibbles = 4 # Address is 16bits.
+ elif self.cycle_type in ('Memory read', 'Memory write'):
+ addr_nibbles = 8 # Address is 32bits.
+ else:
+ addr_nibbles = 0 # TODO: How to handle later on?
+
+ # Data is driven MSN-first.
+ offset = ((addr_nibbles - 1) - self.cur_nibble) * 4
+ self.addr |= (lad << offset)
+
+ # Continue if we haven't seen all ADDR cycles, yet.
+ # TODO: Off-by-one?
+ if (self.cur_nibble < addr_nibbles - 1):
+ self.cur_nibble += 1
+ return
+
+ self.put(0, 0, self.out_ann, [0, ['Address: %s' % hex(self.addr)]])
+
+ self.state = 'GET TAR'
+ self.tar_count = 0
+
+ def handle_get_tar(self, lad, lad_bits):
+ # LAD[3:0]: First TAR (turn-around) field (2 clock cycles).
+
+ self.put(0, 0, self.out_ann, [0, ['TAR, cycle %d: %s'
+ % (self.tarcount, lad_bits)]])
+
+ # On the first TAR clock cycle LAD[3:0] is driven to 1111 by
+ # either the host or peripheral. On the second clock cycle,
+ # the host or peripheral tri-states LAD[3:0], but its value
+ # should still be 1111, due to pull-ups on the LAD lines.
+ if lad_bits != '1111':
+ self.put(0, 0, self.out_ann,
+ [0, ['Warning: TAR, cycle %d: %s (expected 1111)'
+ % (self.tarcount, lad_bits)]])
+
+ if (self.tarcount != 2):
+ self.tarcount += 1
+ return
+
+ self.state = 'GET SYNC'
+
+ def handle_get_sync(self, lad, lad_bits):
+ # LAD[3:0]: SYNC field (1-n clock cycles).
+
+ self.sync_val = lad_bits
+ self.cycle_type = fields['SYNC'][lad]
+
+ # TODO: Warnings if reserved value are seen?
+ if self.cycle_type == 'Reserved':
+ self.put(0, 0, self.out_ann, [0, ['Warning: SYNC, cycle %d: %s '
+ '(reserved value)' % (self.synccount, self.sync_val)]])
+
+ self.put(0, 0, self.out_ann, [0, ['SYNC, cycle %d: %s'
+ % (self.synccount, self.sync_val)]])
+
+ # TODO
+
+ self.state = 'GET DATA'
+ self.cycle_count = 0
+
+ def handle_get_data(self, lad, lad_bits):
+ # LAD[3:0]: DATA field (2 clock cycles).
+
+ if (self.cycle_count == 0):
+ self.databyte = lad
+ elif (self.cycle_count == 1):
+ self.databyte |= (lad << 4)
+ else:
+ pass # TODO: Error?
+
+ if (self.cycle_count != 2):
+ self.cycle_count += 1
+ return
+
+ self.put(0, 0, self.out_ann, [0, ['DATA: %s' % hex(self.databyte)]])
+
+ self.state = 'GET TAR2'
+
+ def handle_get_tar2(self, lad, lad_bits):
+ # LAD[3:0]: Second TAR field (2 clock cycles).
+
+ self.put(0, 0, self.out_ann, [0, ['TAR, cycle %d: %s'
+ % (self.tarcount, lad_bits)]])
+
+ # On the first TAR clock cycle LAD[3:0] is driven to 1111 by
+ # either the host or peripheral. On the second clock cycle,
+ # the host or peripheral tri-states LAD[3:0], but its value
+ # should still be 1111, due to pull-ups on the LAD lines.
+ if lad_bits != '1111':
+ self.put(0, 0, self.out_ann,
+ [0, ['Warning: TAR, cycle %d: %s (expected 1111)'
+ % (self.tarcount, lad_bits)]])
+
+ if (self.tarcount != 2):
+ self.tarcount += 1
+ return
+
+ self.state = 'GET SYNC'
+
+ # TODO: At which edge of the clock is data latched? Falling?
+ def decode(self, ss, es, data):
+ for (samplenum, pins) in data:
+
+ # If none of the pins changed, there's nothing to do.
+ if self.oldpins == pins:
+ continue
+
+ # Store current pin values for the next round.
+ self.oldpins = pins
+
+ # Get individual pin values into local variables.
+ # TODO: Handle optional pins.
+ (lframe, lreset, lclk, lad0, lad1, lad2, lad3) = pins
+
+ # Only look at the signals upon falling LCLK edges.
+ # TODO: Rising?
+ ## if not (self.oldlclk == 1 and lclk == 0)
+ ## self.oldlclk = lclk
+ ## continue
+
+ # Store LAD[3:0] bit values (one nibble) in local variables.
+ # Most (but not all states needs this).
+ if self.state != 'IDLE':
+ lad = (lad3 << 3) | (lad2 << 2) | (lad1 << 1) | lad0
+ lad_bits = bin(lad)[2:]
+
+ # State machine
+ if self.state == 'IDLE':
+ # A valid LPC cycle starts with LFRAME# being asserted (low).
+ # TODO?
+ if lframe != 0:
+ continue
+ self.state = 'GET START'
+ self.lad = -1
+ # self.clocknum = 0
+ elif self.state == 'GET START':
+ handle_get_start(lad, lad_bits, lframe)
+ elif self.state == 'GET CT/DR':
+ handle_get_ct_dr(lad, lad_bits)
+ elif self.state == 'GET ADDR':
+ handle_get_addr(lad, lad_bits)
+ elif self.state == 'GET TAR':
+ handle_get_tar(lad, lad_bits)
+ elif self.state == 'GET SYNC':
+ handle_get_sync(lad, lad_bits)
+ elif self.state == 'GET DATA':
+ handle_get_data(lad, lad_bits)
+ elif self.state == 'GET TAR2':
+ handle_get_tar2(lad, lad_bits)
+ else:
+ raise Exception('Invalid state: %s' % self.state)
+
projects / libsigrokdecode.git / commitdiff