##
## This file is part of the libsigrokdecode project.
##
-## Copyright (C) 2012-2013 Uwe Hermann <uwe@hermann-uwe.de>
+## Copyright (C) 2012-2015 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
'''
OUTPUT_PYTHON format:
-JTAG packet:
-[<packet-type>, <data>]
+Packet:
+[<ptype>, <pdata>]
-<packet-type> is one of:
- - 'NEW STATE': <data> is the new state of the JTAG state machine.
+<ptype>:
+ - 'NEW STATE': <pdata> is the new state of the JTAG state machine.
Valid values: 'TEST-LOGIC-RESET', 'RUN-TEST/IDLE', 'SELECT-DR-SCAN',
'CAPTURE-DR', 'SHIFT-DR', 'EXIT1-DR', 'PAUSE-DR', 'EXIT2-DR', 'UPDATE-DR',
'SELECT-IR-SCAN', 'CAPTURE-IR', 'SHIFT-IR', 'EXIT1-IR', 'PAUSE-IR',
'EXIT2-IR', 'UPDATE-IR'.
+ - 'IR TDI BIT': Bit that was clocked into the IR register.
+ - 'IR TDO BIT': Bit that was clocked out of the IR register.
+ - 'DR TDI BIT': Bit that was clocked into the DR register.
+ - 'DR TDO BIT': Bit that was clocked out of the DR register.
- 'IR TDI': Bitstring that was clocked into the IR register.
- 'IR TDO': Bitstring that was clocked out of the IR register.
- 'DR TDI': Bitstring that was clocked into the DR register.
- 'DR TDO': Bitstring that was clocked out of the DR register.
- - ...
+All bits are either '1' or '0' characters.
All bitstrings are a sequence of '1' and '0' characters. The right-most
character in the bitstring is the LSB. Example: '01110001' (1 is LSB).
'''
'SHIFT-IR', 'EXIT1-IR', 'EXIT2-IR',
]
-def get_annotation_classes():
- l = []
- for s in jtag_states:
- l.append([s.lower(), s])
- return l
-
class Decoder(srd.Decoder):
- api_version = 1
+ api_version = 2
id = 'jtag'
name = 'JTAG'
longname = 'Joint Test Action Group (IEEE 1149.1)'
license = 'gplv2+'
inputs = ['logic']
outputs = ['jtag']
- probes = [
+ channels = (
{'id': 'tdi', 'name': 'TDI', 'desc': 'Test data input'},
{'id': 'tdo', 'name': 'TDO', 'desc': 'Test data output'},
{'id': 'tck', 'name': 'TCK', 'desc': 'Test clock'},
{'id': 'tms', 'name': 'TMS', 'desc': 'Test mode select'},
- ]
- optional_probes = [
+ )
+ optional_channels = (
{'id': 'trst', 'name': 'TRST#', 'desc': 'Test reset'},
{'id': 'srst', 'name': 'SRST#', 'desc': 'System reset'},
{'id': 'rtck', 'name': 'RTCK', 'desc': 'Return clock signal'},
- ]
- options = {}
- annotations = get_annotation_classes()
+ )
+ annotations = tuple([tuple([s.lower(), s]) for s in jtag_states])
def __init__(self, **kwargs):
# self.state = 'TEST-LOGIC-RESET'
elif self.state == 'UPDATE-IR':
self.state = 'SELECT-DR-SCAN' if (tms) else 'RUN-TEST/IDLE'
- else:
- raise Exception('Invalid state: %s' % self.state)
-
def handle_rising_tck_edge(self, tdi, tdo, tck, tms):
# Rising TCK edges always advance the state machine.
self.advance_state_machine(tms)
- if self.first == True:
+ if self.first:
# Save the start sample and item for later (no output yet).
self.ss_item = self.samplenum
self.first = False
if self.state.startswith('SHIFT-') and self.oldstate == self.state:
self.bits_tdi.insert(0, tdi)
self.bits_tdo.insert(0, tdo)
- # TODO: ANN/PROTO output.
- # self.putx([0, ['TDI add: ' + str(tdi)]])
- # self.putp([0, ['TDO add: ' + str(tdo)]])
+ self.putx([0, [self.state[-2:] + ' TDI BIT: ' + str(tdi)]])
+ self.putx([0, [self.state[-2:] + ' TDO BIT: ' + str(tdo)]])
+ self.putp([self.state[-2:] + ' TDI BIT', str(tdi)])
+ self.putp([self.state[-2:] + ' TDO BIT', str(tdo)])
# Output all TDI/TDO bits if we just switched from SHIFT-* to EXIT1-*.
if self.oldstate.startswith('SHIFT-') and \
b = ''.join(map(str, self.bits_tdi))
h = ' (0x%x' % int('0b' + b, 2) + ')'
s = t + ': ' + b + h + ', ' + str(len(self.bits_tdi)) + ' bits'
- # self.putx([0, [s]])
- # self.putp([t, b])
+ self.putx([0, [s]])
+ self.putp([t, b])
self.bits_tdi = []
t = self.state[-2:] + ' TDO'
b = ''.join(map(str, self.bits_tdo))
h = ' (0x%x' % int('0b' + b, 2) + ')'
s = t + ': ' + b + h + ', ' + str(len(self.bits_tdo)) + ' bits'
- # self.putx([0, [s]])
- # self.putp([t, b])
+ self.putx([0, [s]])
+ self.putp([t, b])
self.bits_tdo = []
def decode(self, ss, es, data):
self.oldpins = pins
# Get individual pin values into local variables.
- # Unused probes will have a value of > 1.
+ # Unused channels will have a value of > 1.
(tdi, tdo, tck, tms, trst, srst, rtck) = pins
# We only care about TCK edges (either rising or falling).
# Store start/end sample for later usage.
self.ss, self.es = ss, es
- # self.putx([0, ['tdi:%s, tdo:%s, tck:%s, tms:%s' \
- # % (tdi, tdo, tck, tms)]])
-
if (self.oldtck == 0 and tck == 1):
self.handle_rising_tck_edge(tdi, tdo, tck, tms)
self.oldtck = tck
-