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authorAurelien Jacobs <aurel@gnuage.org>2015-06-06 22:05:06 +0200
committerUwe Hermann <uwe@hermann-uwe.de>2015-07-09 21:00:25 +0200
commite4302cbe5cb375a50bd9a30a8a2855d9fa6ab14d (patch)
tree02f0cb370ec8616364f1619fc8d6031f4d507754 /decoders/mdio/pd.py
parent295b78c7d971e1abd7021d88415523ad66a3e448 (diff)
downloadlibsigrokdecode-e4302cbe5cb375a50bd9a30a8a2855d9fa6ab14d.tar.gz
libsigrokdecode-e4302cbe5cb375a50bd9a30a8a2855d9fa6ab14d.zip
Add an MDIO/SMI decoder.
Diffstat (limited to 'decoders/mdio/pd.py')
-rw-r--r--decoders/mdio/pd.py260
1 files changed, 260 insertions, 0 deletions
diff --git a/decoders/mdio/pd.py b/decoders/mdio/pd.py
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+##
+## This file is part of the libsigrokdecode project.
+##
+## Copyright (C) 2014 Aurelien Jacobs <aurel@gnuage.org>
+##
+## 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
+
+class Decoder(srd.Decoder):
+ api_version = 2
+ id = 'mdio'
+ name = 'MDIO'
+ longname = 'Management Data Input/Output'
+ desc = 'Half-duplex sync serial bus for MII management between MAC and PHY.'
+ license = 'gplv2+'
+ inputs = ['logic']
+ outputs = ['mdio']
+ channels = (
+ {'id': 'mdc', 'name': 'MDC', 'desc': 'Clock'},
+ {'id': 'mdio', 'name': 'MDIO', 'desc': 'Data'},
+ )
+ annotations = (
+ ('mdio-data', 'MDIO data'),
+ ('mdio-bits', 'MDIO bits'),
+ ('errors', 'Human-readable errors'),
+ )
+ annotation_rows = (
+ ('mdio-data', 'MDIO data', (0,)),
+ ('mdio-bits', 'MDIO bits', (1,)),
+ ('other', 'Other', (2,)),
+ )
+
+ def __init__(self):
+ self.oldmdc = 0
+ self.ss_block = -1
+ self.samplenum = -1
+ self.oldpins = None
+ self.reset_decoder_state()
+
+ def start(self):
+ self.out_python = self.register(srd.OUTPUT_PYTHON)
+ self.out_ann = self.register(srd.OUTPUT_ANN)
+
+ def putw(self, data):
+ self.put(self.ss_block, self.samplenum, self.out_ann, data)
+
+ def putbit(self, mdio, start, stop):
+ # Bit annotations.
+ self.put(start, stop, self.out_ann, [1, ['%d' % mdio]])
+
+ def putdata(self):
+ # FIXME: Only pass data, no bits.
+ # Pass MDIO bits and then data to the next PD up the stack.
+ ss, es = self.mdiobits[-1][1], self.mdiobits[0][2]
+
+ # self.put(ss, es, self.out_python, ['BITS', self.mdiobits])
+ self.put(ss, es, self.out_python, ['DATA', self.mdiodata])
+
+ # Bit annotations.
+ for bit in self.mdiobits:
+ self.put(bit[1], bit[2], self.out_ann, [1, ['%d' % bit[0]]])
+
+ # Error annotation if an error happened.
+ if self.error:
+ self.put(self.ss_bit, self.es_error, self.out_ann, [2, [self.error]])
+ return
+
+ op = 'READ' if self.operation else 'WRITE'
+
+ # Dataword annotations.
+ if self.ss_preamble != -1:
+ self.put(self.ss_preamble, self.ss_start, self.out_ann, [0, ['PREAMBLE']])
+ self.put(self.ss_start, self.ss_operation, self.out_ann, [0, ['START']])
+ self.put(self.ss_operation, self.ss_phy, self.out_ann, [0, [op]])
+ self.put(self.ss_phy, self.ss_reg, self.out_ann, [0, ['PHY: %d' % self.phy]])
+ self.put(self.ss_reg, self.ss_turnaround, self.out_ann, [0, ['REG: %d' % self.reg]])
+ self.put(self.ss_turnaround, self.ss_data, self.out_ann, [0, ['TURNAROUND']])
+ self.put(self.ss_data, self.es_data, self.out_ann, [0, ['DATA: %04X' % self.data]])
+
+ def reset_decoder_state(self):
+ self.mdiodata = 0
+ self.mdiobits = []
+ self.bitcount = 0
+ self.ss_preamble = -1
+ self.ss_start = -1
+ self.ss_operation = -1
+ self.ss_phy = -1
+ self.ss_reg = -1
+ self.ss_turnaround = -1
+ self.ss_data = -1
+ self.phy = 0
+ self.phy_bits = 0
+ self.reg = 0
+ self.reg_bits = 0
+ self.data = 0
+ self.data_bits = 0
+ self.state = 'PREAMBLE'
+ self.error = None
+
+ def parse_preamble(self, mdio):
+ if self.ss_preamble == -1:
+ self.ss_preamble = self.samplenum
+ if mdio != 1:
+ self.error = 'Invalid preamble: could not find 32 consecutive bits set to 1'
+ self.state = 'ERROR'
+ elif self.bitcount == 31:
+ self.state = 'START'
+
+ def parse_start(self, mdio):
+ if self.ss_start == -1:
+ if mdio != 0:
+ self.error = 'Invalid start bits: should be 01'
+ self.state = 'ERROR'
+ else:
+ self.ss_start = self.samplenum
+ else:
+ if mdio != 1:
+ self.error = 'Invalid start bits: should be 01'
+ self.state = 'ERROR'
+ else:
+ self.state = 'OPERATION'
+
+ def parse_operation(self, mdio):
+ if self.ss_operation == -1:
+ self.ss_operation = self.samplenum
+ self.operation = mdio
+ else:
+ if mdio == self.operation:
+ self.error = 'Invalid operation bits'
+ self.state = 'ERROR'
+ else:
+ self.state = 'PHY'
+
+ def parse_phy(self, mdio):
+ if self.ss_phy == -1:
+ self.ss_phy = self.samplenum
+ self.phy_bits += 1
+ self.phy |= mdio << (5 - self.phy_bits)
+ if self.phy_bits == 5:
+ self.state = 'REG'
+
+ def parse_reg(self, mdio):
+ if self.ss_reg == -1:
+ self.ss_reg = self.samplenum
+ self.reg_bits += 1
+ self.reg |= mdio << (5 - self.reg_bits)
+ if self.reg_bits == 5:
+ self.state = 'TURNAROUND'
+
+ def parse_turnaround(self, mdio):
+ if self.ss_turnaround == -1:
+ if self.operation == 0 and mdio != 1:
+ self.error = 'Invalid turnaround bits'
+ self.state = 'ERROR'
+ else:
+ self.ss_turnaround = self.samplenum
+ else:
+ if mdio != 0:
+ self.error = 'Invalid turnaround bits'
+ self.state = 'ERROR'
+ else:
+ self.state = 'DATA'
+
+ def parse_data(self, mdio):
+ if self.ss_data == -1:
+ self.ss_data = self.samplenum
+ self.data_bits += 1
+ self.data |= mdio << (16 - self.data_bits)
+ if self.data_bits == 16:
+ self.es_data = self.samplenum + int((self.samplenum - self.ss_data) / 15)
+ self.state = 'DONE'
+
+ def parse_error(self, mdio):
+ if self.bitcount == 63:
+ self.es_error = self.samplenum + int((self.samplenum - self.ss_bit) / 63)
+ self.state = 'DONE'
+
+ def handle_bit(self, mdio):
+ # If this is the first bit of a command, save its sample number.
+ if self.bitcount == 0:
+ self.ss_bit = self.samplenum
+ # No preamble?
+ if mdio == 0:
+ self.state = 'START'
+
+ # Guesstimate the endsample for this bit (can be overridden below).
+ es = self.samplenum
+ if self.bitcount > 0:
+ es += self.samplenum - self.mdiobits[0][1]
+
+ self.mdiobits.insert(0, [mdio, self.samplenum, es])
+
+ if self.bitcount > 0:
+ self.bitsamples = (self.samplenum - self.ss_bit) / self.bitcount
+ self.mdiobits[1][2] = self.samplenum
+
+ if self.state == 'PREAMBLE':
+ self.parse_preamble(mdio)
+ elif self.state == 'START':
+ self.parse_start(mdio)
+ elif self.state == 'OPERATION':
+ self.parse_operation(mdio)
+ elif self.state == 'PHY':
+ self.parse_phy(mdio)
+ elif self.state == 'REG':
+ self.parse_reg(mdio)
+ elif self.state == 'TURNAROUND':
+ self.parse_turnaround(mdio)
+ elif self.state == 'DATA':
+ self.parse_data(mdio)
+ elif self.state == 'ERROR':
+ self.parse_error(mdio)
+
+ self.bitcount += 1
+ if self.state == 'DONE':
+ self.putdata()
+ self.reset_decoder_state()
+
+ def find_mdc_edge(self, mdc, mdio):
+ # Output the current error annotation if the clock stopped running
+ if self.state == 'ERROR' and self.samplenum - self.clocksample > (1.5 * self.bitsamples):
+ self.es_error = self.clocksample + int((self.clocksample - self.ss_bit) / self.bitcount)
+ self.putdata()
+ self.reset_decoder_state()
+
+ # Ignore sample if the clock pin hasn't changed.
+ if mdc == self.oldmdc:
+ return
+
+ self.oldmdc = mdc
+
+ if mdc == 0: # Sample on rising clock edge.
+ return
+
+ # Found the correct clock edge, now get/handle the bit(s).
+ self.clocksample = self.samplenum
+ self.handle_bit(mdio)
+
+ def decode(self, ss, es, data):
+ for (self.samplenum, pins) in data:
+ # Ignore identical samples early on (for performance reasons).
+ if self.oldpins == pins:
+ continue
+ self.oldpins, (mdc, mdio) = pins, pins
+
+ self.find_mdc_edge(mdc, mdio)