## ## This file is part of the libsigrokdecode project. ## ## Copyright (C) 2012-2020 Uwe Hermann ## Copyright (C) 2019 Zhiyuan Wan ## Copyright (C) 2019 Kongou Hikari ## ## 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, see . ## import sigrokdecode as srd from common.srdhelper import SrdStrEnum ''' OUTPUT_PYTHON format: Packet: [, ] : - 'NEW STATE': 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': 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 bitstrings are a list consisting of two items. The first is a sequence of '1' and '0' characters (the right-most character is the LSB. Example: '01110001', where 1 is the LSB). The second item is a list of ss/es values for each bit that is in the bitstring. ''' s = 'TEST-LOGIC-RESET RUN-TEST/IDLE \ SELECT-DR-SCAN CAPTURE-DR UPDATE-DR PAUSE-DR SHIFT-DR EXIT1-DR EXIT2-DR \ SELECT-IR-SCAN CAPTURE-IR UPDATE-IR PAUSE-IR SHIFT-IR EXIT1-IR EXIT2-IR' St = SrdStrEnum.from_str('St', s) jtag_states = [s.value for s in St] cjtag_states = [ 'CJTAG-EC', 'CJTAG-SPARE', 'CJTAG-TPDEL', 'CJTAG-TPREV', 'CJTAG-TPST', 'CJTAG-RDYC', 'CJTAG-DLYC', 'CJTAG-SCNFMT', 'CJTAG-CP', 'CJTAG-OAC', 'OSCAN1', '4-WIRE', ] class Decoder(srd.Decoder): api_version = 3 id = 'cjtag' name = 'cJTAG' longname = 'Compact Joint Test Action Group (IEEE 1149.7)' desc = 'Protocol for testing, debugging, and flashing ICs.' license = 'gplv2+' inputs = ['logic'] outputs = ['jtag'] tags = ['Debug/trace'] channels = ( {'id': 'tckc', 'name': 'TCKC', 'desc': 'Test clock'}, {'id': 'tmsc', 'name': 'TMSC', 'desc': 'Test mode select'}, ) annotations = \ tuple([tuple([s.lower(), s]) for s in jtag_states]) + \ tuple([tuple([s.lower(), s]) for s in cjtag_states]) + ( \ ('bit-tdi', 'Bit (TDI)'), ('bit-tdo', 'Bit (TDO)'), ('bitstring-tdi', 'Bitstring (TDI)'), ('bitstring-tdo', 'Bitstring (TDO)'), ('bit-tms', 'Bit (TMS)'), ) annotation_rows = ( ('bits-tdi', 'Bits (TDI)', (28,)), ('bits-tdo', 'Bits (TDO)', (29,)), ('bitstrings-tdi', 'Bitstrings (TDI)', (30,)), ('bitstrings-tdo', 'Bitstrings (TDO)', (31,)), ('bits-tms', 'Bits (TMS)', (32,)), ('cjtag-states', 'CJTAG states', tuple(range(len(jtag_states), len(jtag_states + cjtag_states)))), ('jtag-states', 'JTAG states', tuple(range(len(jtag_states)))), ) def __init__(self): self.reset() def reset(self): # self.state = St.TEST_LOGIC_RESET self.state = St.RUN_TEST_IDLE self.cjtagstate = '4-WIRE' self.oldcjtagstate = None self.escape_edges = 0 self.oaclen = 0 self.oldtms = 0 self.oacp = 0 self.oscan1cycle = 0 self.oldstate = None self.bits_tdi = [] self.bits_tdo = [] self.bits_samplenums_tdi = [] self.bits_samplenums_tdo = [] self.ss_item = self.es_item = None self.ss_bitstring = self.es_bitstring = None self.saved_item = None self.first = True self.first_bit = True 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.ss_item, self.es_item, self.out_ann, data) def putp(self, data): self.put(self.ss_item, self.es_item, self.out_python, data) def putx_bs(self, data): self.put(self.ss_bitstring, self.es_bitstring, self.out_ann, data) def putp_bs(self, data): self.put(self.ss_bitstring, self.es_bitstring, self.out_python, data) def advance_state_machine(self, tms): self.oldstate = self.state if self.cjtagstate.startswith('CJTAG-'): self.oacp += 1 if self.oacp > 4 and self.oaclen == 12: self.cjtagstate = 'CJTAG-EC' if self.oacp == 8 and tms == 0: self.oaclen = 36 if self.oacp > 8 and self.oaclen == 36: self.cjtagstate = 'CJTAG-SPARE' if self.oacp > 13 and self.oaclen == 36: self.cjtagstate = 'CJTAG-TPDEL' if self.oacp > 16 and self.oaclen == 36: self.cjtagstate = 'CJTAG-TPREV' if self.oacp > 18 and self.oaclen == 36: self.cjtagstate = 'CJTAG-TPST' if self.oacp > 23 and self.oaclen == 36: self.cjtagstate = 'CJTAG-RDYC' if self.oacp > 25 and self.oaclen == 36: self.cjtagstate = 'CJTAG-DLYC' if self.oacp > 27 and self.oaclen == 36: self.cjtagstate = 'CJTAG-SCNFMT' if self.oacp > 8 and self.oaclen == 12: self.cjtagstate = 'CJTAG-CP' if self.oacp > 32 and self.oaclen == 36: self.cjtagstate = 'CJTAG-CP' if self.oacp > self.oaclen: self.cjtagstate = 'OSCAN1' self.oscan1cycle = 1 # Because Nuclei cJTAG device asserts a reset during cJTAG # online activating. self.state = St.TEST_LOGIC_RESET return # Intro "tree" if self.state == St.TEST_LOGIC_RESET: self.state = St.TEST_LOGIC_RESET if (tms) else St.RUN_TEST_IDLE elif self.state == St.RUN_TEST_IDLE: self.state = St.SELECT_DR_SCAN if (tms) else St.RUN_TEST_IDLE # DR "tree" elif self.state == St.SELECT_DR_SCAN: self.state = St.SELECT_IR_SCAN if (tms) else St.CAPTURE_DR elif self.state == St.CAPTURE_DR: self.state = St.EXIT1_DR if (tms) else St.SHIFT_DR elif self.state == St.SHIFT_DR: self.state = St.EXIT1_DR if (tms) else St.SHIFT_DR elif self.state == St.EXIT1_DR: self.state = St.UPDATE_DR if (tms) else St.PAUSE_DR elif self.state == St.PAUSE_DR: self.state = St.EXIT2_DR if (tms) else St.PAUSE_DR elif self.state == St.EXIT2_DR: self.state = St.UPDATE_DR if (tms) else St.SHIFT_DR elif self.state == St.UPDATE_DR: self.state = St.SELECT_DR_SCAN if (tms) else St.RUN_TEST_IDLE # IR "tree" elif self.state == St.SELECT_IR_SCAN: self.state = St.TEST_LOGIC_RESET if (tms) else St.CAPTURE_IR elif self.state == St.CAPTURE_IR: self.state = St.EXIT1_IR if (tms) else St.SHIFT_IR elif self.state == St.SHIFT_IR: self.state = St.EXIT1_IR if (tms) else St.SHIFT_IR elif self.state == St.EXIT1_IR: self.state = St.UPDATE_IR if (tms) else St.PAUSE_IR elif self.state == St.PAUSE_IR: self.state = St.EXIT2_IR if (tms) else St.PAUSE_IR elif self.state == St.EXIT2_IR: self.state = St.UPDATE_IR if (tms) else St.SHIFT_IR elif self.state == St.UPDATE_IR: self.state = St.SELECT_DR_SCAN if (tms) else St.RUN_TEST_IDLE def handle_rising_tckc_edge(self, tdi, tdo, tck, tms): # Rising TCK edges always advance the state machine. self.advance_state_machine(tms) if self.first: # Save the start sample and item for later (no output yet). self.ss_item = self.samplenum self.first = False else: # Output the saved item (from the last CLK edge to the current). self.es_item = self.samplenum # Output the old state (from last rising TCK edge to current one). self.putx([jtag_states.index(self.oldstate.value), [self.oldstate.value]]) self.putp(['NEW STATE', self.state.value]) self.putx([len(jtag_states) + cjtag_states.index(self.oldcjtagstate), [self.oldcjtagstate]]) if (self.oldcjtagstate.startswith('CJTAG-')): self.putx([32, [str(self.oldtms)]]) self.oldtms = tms # Upon SHIFT-*/EXIT1-* collect the current TDI/TDO values. if self.oldstate.value.startswith('SHIFT-') or \ self.oldstate.value.startswith('EXIT1-'): if self.first_bit: self.ss_bitstring = self.samplenum self.first_bit = False else: self.putx([28, [str(self.bits_tdi[0])]]) self.putx([29, [str(self.bits_tdo[0])]]) # Use self.samplenum as ES of the previous bit. self.bits_samplenums_tdi[0][1] = self.samplenum self.bits_samplenums_tdo[0][1] = self.samplenum self.bits_tdi.insert(0, tdi) self.bits_tdo.insert(0, tdo) # Use self.samplenum as SS of the current bit. self.bits_samplenums_tdi.insert(0, [self.samplenum, -1]) self.bits_samplenums_tdo.insert(0, [self.samplenum, -1]) # Output all TDI/TDO bits if we just switched to UPDATE-*. if self.state.value.startswith('UPDATE-'): self.es_bitstring = self.samplenum t = self.state.value[-2:] + ' TDI' b = ''.join(map(str, self.bits_tdi[1:])) h = ' (0x%x' % int('0b0' + b, 2) + ')' s = t + ': ' + b + h + ', ' + str(len(self.bits_tdi[1:])) + ' bits' self.putx_bs([30, [s]]) self.putp_bs([t, [b, self.bits_samplenums_tdi[1:]]]) self.bits_tdi = [] self.bits_samplenums_tdi = [] t = self.state.value[-2:] + ' TDO' b = ''.join(map(str, self.bits_tdo[1:])) h = ' (0x%x' % int('0b0' + b, 2) + ')' s = t + ': ' + b + h + ', ' + str(len(self.bits_tdo[1:])) + ' bits' self.putx_bs([31, [s]]) self.putp_bs([t, [b, self.bits_samplenums_tdo[1:]]]) self.bits_tdo = [] self.bits_samplenums_tdo = [] self.first_bit = True self.ss_bitstring = self.samplenum self.ss_item = self.samplenum def handle_tmsc_edge(self): self.escape_edges += 1 def handle_tapc_state(self): self.oldcjtagstate = self.cjtagstate if self.escape_edges >= 8: self.cjtagstate = '4-WIRE' if self.escape_edges == 6: self.cjtagstate = 'CJTAG-OAC' self.oacp = 0 self.oaclen = 12 self.escape_edges = 0 def decode(self): tdi = tms = tdo = 0 while True: # Wait for a rising edge on TCKC. tckc, tmsc = self.wait({0: 'r'}) self.handle_tapc_state() if self.cjtagstate == 'OSCAN1': if self.oscan1cycle == 0: # nTDI tdi = 1 if (tmsc == 0) else 0 self.oscan1cycle = 1 elif self.oscan1cycle == 1: # TMS tms = tmsc self.oscan1cycle = 2 elif self.oscan1cycle == 2: # TDO tdo = tmsc self.handle_rising_tckc_edge(tdi, tdo, tckc, tms) self.oscan1cycle = 0 else: self.handle_rising_tckc_edge(None, None, tckc, tmsc) while (tckc == 1): tckc, tmsc_n = self.wait([{0: 'f'}, {1: 'e'}]) if tmsc_n != tmsc: tmsc = tmsc_n self.handle_tmsc_edge()