litedram/test/phy_common.py

#
# This file is part of LiteDRAM.
#
# Copyright (c) 2021 Antmicro <www.antmicro.com>
# SPDX-License-Identifier: BSD-2-Clause

import re
import pprint
import itertools
from collections import defaultdict
from typing import Mapping, Sequence

from migen import *

from litex.gen.sim.core import run_simulation as _run_simulation

from litedram.phy import dfi
from litedram.phy.utils import bit, chunks

BOLD = '\033[1m'
HIGHLIGHT = '\033[91m'
CLEAR = '\033[0m'

def highlight(s, hl=True):
    return BOLD + (HIGHLIGHT if hl else '') + s + CLEAR


def run_simulation(dut, generators, clocks, debug_clocks=False, **kwargs):
    """Wrapper that can be used to easily debug clock configuration"""

    if not isinstance(generators, dict):
        assert "sys" in clocks
    else:
        for clk in generators:
            assert clk in clocks, clk

    if debug_clocks:
        class DUT(Module):
            def __init__(self, dut):
                self.submodules.dut = dut
                for clk in clocks:
                    setattr(self.clock_domains, "cd_{}".format(clk), ClockDomain(clk))
                    cd = getattr(self, 'cd_{}'.format(clk))
                    self.comb += cd.rst.eq(0)

                    s = Signal(4, name='dbg_{}'.format(clk))
                    sd = getattr(self.sync, clk)
                    sd += s.eq(s + 1)
        dut = DUT(dut)

    _run_simulation(dut, generators, clocks, **kwargs)


def dfi_data_to_dq(dq_i, dfi_phases, dfi_name, nphases, databits, burst):
    # e.g. for nphases=8 DDR (burst=16), data on DQ should go in a pattern:
    # dq0: p0.wrdata[0], p0.wrdata[16], p1.wrdata[0], p1.wrdata[16], ...
    # dq1: p0.wrdata[1], p0.wrdata[17], p1.wrdata[1], p1.wrdata[17], ...
    assert burst % nphases == 0
    for p in range(nphases):
        data = dfi_phases[p][dfi_name]
        for i in range(burst//nphases):
            yield bit(i*databits + dq_i, data)

def dq_pattern(i, dfi_data, dfi_name, **kwargs):
    return ''.join(str(v) for v in dfi_data_to_dq(i, dfi_data, dfi_name, **kwargs))


class PadsHistory(defaultdict):
    """Storage for hisotry of per-pad values with human-readable printing

    Keys are pad names and for each pad, the history of its values is represented as a string
    of '0' and '1'. Additionally 'x' is used for any value and ' ' is ignored.
    """
    def __init__(self):
        super().__init__(str)

    def format(self, hl_cycle=None, hl_signal=None, underline_cycle=False, key_strw=None, chunk_size=8):
        if key_strw is None:
            key_strw = max(len(k) for k in self)
        lines = []
        for k in self:
            vals = list(self[k])
            if hl_cycle is not None and hl_signal is not None:
                vals = [highlight(val, hl=hl_signal == k) if i == hl_cycle else val
                        for i, val in enumerate(vals)]
            hist = ' '.join(''.join(chunk) for chunk in chunks(vals, chunk_size))
            line = '{:{n}} {}'.format(k + ':', hist, n=key_strw+1)
            lines.append(line)
        if underline_cycle:
            assert hl_cycle is not None
            n = hl_cycle + hl_cycle//chunk_size
            line = ' ' * (key_strw+1) + ' ' + ' ' * n + '^'
            lines.append(line)
        if hl_signal is not None and hl_cycle is None:
            keys = list(self.keys())
            sig_i = keys.index(hl_signal)
            lines = ['{} {}'.format('>' if i == sig_i else ' ', line) for i, line in enumerate(lines)]
        return '\n'.join(lines)

    @staticmethod
    def width_for(histories):
        keys = itertools.chain.from_iterable(h.keys() for h in histories)
        return max(len(k) for k in keys)


class PadChecker:
    """Helper class for defining expected sequences on pads"""
    def __init__(self, pads, signals: Mapping[str, str]):
        # signals: {sig: values}, values: a string of '0'/'1'/'x'/' '
        signals = {clk: values.replace(' ', '') for clk, values in signals.items()}
        self.pads = pads
        self.signals = signals
        self.history = PadsHistory()  # registered values
        self.ref_history = PadsHistory()  # expected values

        assert all(v in '01x' for values in signals.values() for v in values)

        lengths = [len(vals) for vals in signals.values()]
        assert all(l == lengths[0] for l in lengths)

    @property
    def length(self):
        values = list(self.signals.values())
        return len(values[0]) if values else 1

    def run(self):
        for i in range(self.length):
            for sig, vals in self.signals.items():
                # transform numbered signal names to pad indicies (e.g. dq1 -> dq[1])
                m = re.match(r'([a-zA-Z_]+)(\d+)', sig)
                pad = getattr(self.pads, m.group(1))[int(m.group(2))] if m else getattr(self.pads, sig)

                # save the value at current cycle
                val = vals[i]
                self.history[sig] += str((yield pad))
                self.ref_history[sig] += val
            yield

    def find_error(self, start=0):
        for i in range(start, self.length):
            for sig in self.history:
                val = self.history[sig][i]
                ref = self.ref_history[sig][i]
                if ref != 'x' and val != ref:
                    return (i, sig, val, ref)
        return None

    def summary(self, **kwargs):
        error = self.find_error()
        cycle, sig = None, None
        if error is not None:
            cycle, sig, val, ref = error
        lines = []
        lines.append(self.history.format(hl_cycle=cycle, hl_signal=sig, **kwargs))
        lines.append('vs ref:')
        lines.append(self.ref_history.format(hl_cycle=cycle, hl_signal=sig, **kwargs))
        return '\n'.join(lines)

    @staticmethod
    def assert_ok(test_case, clock_checkers, **kwargs):
        # clock_checkers: {clock: PadChecker(...), ...}
        errors = list(filter(None, [c.find_error() for c in clock_checkers.values()]))
        if errors:
            all_histories = [c.history for c in clock_checkers.values()]
            all_histories += [c.ref_history for c in clock_checkers.values()]
            key_strw = PadsHistory.width_for(all_histories)
            summaries = ['{}\n{}'.format(highlight(clock, hl=False), checker.summary(key_strw=key_strw, **kwargs))
                         for clock, checker in clock_checkers.items()]
            first_error = min(errors, key=lambda e: e[0])  # first error
            i, sig, val, ref = first_error
            msg = f'Cycle {i} Signal `{sig}`: {val} vs {ref}\n'
            test_case.assertEqual(val, ref, msg=msg + '\n'.join(summaries))


def dfi_names(cmd=True, wrdata=True, rddata=True):
    names = []
    if cmd:    names += [name for name, _, _ in dfi.phase_cmd_description(1, 1, 1)]
    if wrdata: names += [name for name, _, _ in dfi.phase_wrdata_description(16)]
    if rddata: names += [name for name, _, _ in dfi.phase_rddata_description(16)]
    return names

def dfi_reset_values(**kwargs):
    return {sig: 1 if sig.endswith("_n") else 0 for sig in dfi_names(**kwargs)}


class DFIPhaseValues(dict):
    """Dictionary {dfi_signal_name: value}"""
    def __init__(self, **kwargs):
        # widths are not important
        names = dfi_names()
        for sig in kwargs:
            assert sig in names
        super().__init__(**kwargs)


class DFISequencer:
    """Generator that drives DFI interface with given commands and stores any read data"""
    Cycle = int
    DFIPhase = int
    DFISequence = Sequence[Mapping[DFIPhase, DFIPhaseValues]]

    def __init__(self, sequence: DFISequence = []):
        # sequence: [{phase: {sig: value}}]
        self.sequence = []  # generated on DFI
        self.read_sequence = []  # read from DFI
        self.expected_sequence = []  # expected to read from DFI

        # split sequence into read/write
        for cycle in sequence:
            read = {}
            write = {}
            for p, phase in cycle.items():
                read[p] = DFIPhaseValues()
                write[p] = DFIPhaseValues()
                for sig, val in phase.items():
                    is_write = sig in dfi_names(rddata=False) + ["rddata_en"]
                    target = write[p] if is_write else read[p]
                    target[sig] = val
            self.sequence.append(write)
            self.expected_sequence.append(read)

    def add(self, dfi_cycle: Mapping[DFIPhase, DFIPhaseValues]):
        self.sequence.append(dfi_cycle)

    def _reset(self, dfi):
        for phase in dfi.phases:
            for sig, val in dfi_reset_values().items():
                yield getattr(phase, sig).eq(val)

    def assert_ok(self, test_case):
        # expected: should contain only input signals
        names = ["rddata", "rddata_valid"]
        for cyc, (read, expected) in enumerate(zip(self.read_sequence, self.expected_sequence)):
            for p in expected:
                for sig in expected[p]:
                    assert sig in names, f"`{sig}` is not DFI input signal"
                    val = read[p][sig]
                    ref = expected[p][sig]
                    if sig in ["wrdata", "rddata"]:
                        err = f"Cycle {cyc} signal `{sig}`: 0x{val:08x} vs 0x{ref:08x}"
                    else:
                        err = f"Cycle {cyc} signal `{sig}`: {val:} vs {ref}"
                    err += "\nread: \n{}".format(pprint.pformat(self.read_sequence))
                    err += "\nexpected: \n{}".format(pprint.pformat(self.expected_sequence))
                    test_case.assertEqual(val, ref, msg=err)

    def generator(self, dfi):
        names = dfi_names(cmd=True, wrdata=True, rddata=False) + ["rddata_en"]
        for per_phase in self.sequence:
            # reset in case of any previous changes
            (yield from self._reset(dfi))
            # set values
            for phase, values in per_phase.items():
                for sig, val in values.items():
                    assert sig in names, f"`{sig}` is not DFI output signal"
                    yield getattr(dfi.phases[phase], sig).eq(val)
            yield
        (yield from self._reset(dfi))
        yield

    def reader(self, dfi):
        yield  # do not include data read on start (a.k.a. cycle=-1)
        for _ in range(len(self.expected_sequence)):
            phases = {}
            for i, p in enumerate(dfi.phases):
                values = DFIPhaseValues(rddata_en=(yield p.rddata_en), rddata=(yield p.rddata),
                                        rddata_valid=(yield p.rddata_valid))
                phases[i] = values
            self.read_sequence.append(phases)
            yield

    @staticmethod
    def input_generator(dfi, sequence: DFISequence):
        names = dfi_names(cmd=True, wrdata=True, rddata=False) + ["rddata_en"]
        for per_phase in sequence:
            # set values
            for phase, values in per_phase.items():
                for sig, val in values.items():
                    assert sig not in names, f"`{sig}` is not DFI input signal"
                    yield getattr(dfi.phases[phase], sig).eq(val)
            yield
            # reset values
            for phase, values in per_phase.items():
                for sig in values.keys():
                    yield getattr(dfi.phases[phase], sig).eq(0)
        yield
phy/lpddr4: extract common test helpers for use when testing other PHYs 2021-05-28 09:57:36 -04:00			`#`
			`# This file is part of LiteDRAM.`
			`#`
			`# Copyright (c) 2021 Antmicro <www.antmicro.com>`
			`# SPDX-License-Identifier: BSD-2-Clause`

			`import re`
			`import pprint`
			`import itertools`
			`from collections import defaultdict`
			`from typing import Mapping, Sequence`

test/lpddr4: move run_simulation wrapper to phy_common.py 2021-05-31 05:00:17 -04:00			`from migen import *`

test/phy_common: simplify calls to run_simulation 2021-06-02 06:17:28 -04:00			`from litex.gen.sim.core import run_simulation as _run_simulation`

phy/lpddr4: extract common test helpers for use when testing other PHYs 2021-05-28 09:57:36 -04:00			`from litedram.phy import dfi`
test/lpddr4: move dfi_data_to_dq to common code 2021-06-02 06:28:54 -04:00			`from litedram.phy.utils import bit, chunks`
phy/lpddr4: extract common test helpers for use when testing other PHYs 2021-05-28 09:57:36 -04:00
			`BOLD = '\033[1m'`
			`HIGHLIGHT = '\033[91m'`
			`CLEAR = '\033[0m'`

			`def highlight(s, hl=True):`
			`return BOLD + (HIGHLIGHT if hl else '') + s + CLEAR`


test/lpddr4: move run_simulation wrapper to phy_common.py 2021-05-31 05:00:17 -04:00			`def run_simulation(dut, generators, clocks, debug_clocks=False, **kwargs):`
			`"""Wrapper that can be used to easily debug clock configuration"""`

			`if not isinstance(generators, dict):`
			`assert "sys" in clocks`
			`else:`
			`for clk in generators:`
			`assert clk in clocks, clk`

			`if debug_clocks:`
			`class DUT(Module):`
			`def __init__(self, dut):`
			`self.submodules.dut = dut`
			`for clk in clocks:`
			`setattr(self.clock_domains, "cd_{}".format(clk), ClockDomain(clk))`
			`cd = getattr(self, 'cd_{}'.format(clk))`
			`self.comb += cd.rst.eq(0)`

			`s = Signal(4, name='dbg_{}'.format(clk))`
			`sd = getattr(self.sync, clk)`
			`sd += s.eq(s + 1)`
			`dut = DUT(dut)`

			`_run_simulation(dut, generators, clocks, **kwargs)`


test/lpddr4: move dfi_data_to_dq to common code 2021-06-02 06:28:54 -04:00			`def dfi_data_to_dq(dq_i, dfi_phases, dfi_name, nphases, databits, burst):`
			`# e.g. for nphases=8 DDR (burst=16), data on DQ should go in a pattern:`
			`# dq0: p0.wrdata[0], p0.wrdata[16], p1.wrdata[0], p1.wrdata[16], ...`
			`# dq1: p0.wrdata[1], p0.wrdata[17], p1.wrdata[1], p1.wrdata[17], ...`
			`assert burst % nphases == 0`
			`for p in range(nphases):`
			`data = dfi_phases[p][dfi_name]`
			`for i in range(burst//nphases):`
			`yield bit(i*databits + dq_i, data)`

			`def dq_pattern(i, dfi_data, dfi_name, **kwargs):`
			`return ''.join(str(v) for v in dfi_data_to_dq(i, dfi_data, dfi_name, **kwargs))`


phy/lpddr4: extract common test helpers for use when testing other PHYs 2021-05-28 09:57:36 -04:00			`class PadsHistory(defaultdict):`
			`"""Storage for hisotry of per-pad values with human-readable printing`

			`Keys are pad names and for each pad, the history of its values is represented as a string`
			`of '0' and '1'. Additionally 'x' is used for any value and ' ' is ignored.`
			`"""`
			`def __init__(self):`
			`super().__init__(str)`

test/phy_common: make chunk size in PadsHistory summary configurable 2021-06-18 10:01:54 -04:00			`def format(self, hl_cycle=None, hl_signal=None, underline_cycle=False, key_strw=None, chunk_size=8):`
phy/lpddr4: extract common test helpers for use when testing other PHYs 2021-05-28 09:57:36 -04:00			`if key_strw is None:`
			`key_strw = max(len(k) for k in self)`
			`lines = []`
			`for k in self:`
			`vals = list(self[k])`
			`if hl_cycle is not None and hl_signal is not None:`
			`vals = [highlight(val, hl=hl_signal == k) if i == hl_cycle else val`
			`for i, val in enumerate(vals)]`
test/phy_common: make chunk size in PadsHistory summary configurable 2021-06-18 10:01:54 -04:00			`hist = ' '.join(''.join(chunk) for chunk in chunks(vals, chunk_size))`
phy/lpddr4: extract common test helpers for use when testing other PHYs 2021-05-28 09:57:36 -04:00			`line = '{:{n}} {}'.format(k + ':', hist, n=key_strw+1)`
			`lines.append(line)`
			`if underline_cycle:`
			`assert hl_cycle is not None`
test/phy_common: make chunk size in PadsHistory summary configurable 2021-06-18 10:01:54 -04:00			`n = hl_cycle + hl_cycle//chunk_size`
phy/lpddr4: extract common test helpers for use when testing other PHYs 2021-05-28 09:57:36 -04:00			`line = ' ' * (key_strw+1) + ' ' + ' ' * n + '^'`
			`lines.append(line)`
			`if hl_signal is not None and hl_cycle is None:`
			`keys = list(self.keys())`
			`sig_i = keys.index(hl_signal)`
			`lines = ['{} {}'.format('>' if i == sig_i else ' ', line) for i, line in enumerate(lines)]`
			`return '\n'.join(lines)`

			`@staticmethod`
			`def width_for(histories):`
			`keys = itertools.chain.from_iterable(h.keys() for h in histories)`
			`return max(len(k) for k in keys)`


			`class PadChecker:`
			`"""Helper class for defining expected sequences on pads"""`
			`def __init__(self, pads, signals: Mapping[str, str]):`
			`# signals: {sig: values}, values: a string of '0'/'1'/'x'/' '`
test/lpddr4: move run_simulation wrapper to phy_common.py 2021-05-31 05:00:17 -04:00			`signals = {clk: values.replace(' ', '') for clk, values in signals.items()}`
phy/lpddr4: extract common test helpers for use when testing other PHYs 2021-05-28 09:57:36 -04:00			`self.pads = pads`
			`self.signals = signals`
			`self.history = PadsHistory() # registered values`
			`self.ref_history = PadsHistory() # expected values`

			`assert all(v in '01x' for values in signals.values() for v in values)`

			`lengths = [len(vals) for vals in signals.values()]`
			`assert all(l == lengths[0] for l in lengths)`

			`@property`
			`def length(self):`
			`values = list(self.signals.values())`
			`return len(values[0]) if values else 1`

			`def run(self):`
			`for i in range(self.length):`
			`for sig, vals in self.signals.items():`
			`# transform numbered signal names to pad indicies (e.g. dq1 -> dq[1])`
			`m = re.match(r'([a-zA-Z_]+)(\d+)', sig)`
			`pad = getattr(self.pads, m.group(1))[int(m.group(2))] if m else getattr(self.pads, sig)`

			`# save the value at current cycle`
			`val = vals[i]`
			`self.history[sig] += str((yield pad))`
			`self.ref_history[sig] += val`
			`yield`

			`def find_error(self, start=0):`
			`for i in range(start, self.length):`
			`for sig in self.history:`
			`val = self.history[sig][i]`
			`ref = self.ref_history[sig][i]`
			`if ref != 'x' and val != ref:`
			`return (i, sig, val, ref)`
			`return None`

			`def summary(self, **kwargs):`
			`error = self.find_error()`
			`cycle, sig = None, None`
			`if error is not None:`
			`cycle, sig, val, ref = error`
			`lines = []`
			`lines.append(self.history.format(hl_cycle=cycle, hl_signal=sig, **kwargs))`
			`lines.append('vs ref:')`
			`lines.append(self.ref_history.format(hl_cycle=cycle, hl_signal=sig, **kwargs))`
			`return '\n'.join(lines)`

			`@staticmethod`
test/phy_common: make chunk size in PadsHistory summary configurable 2021-06-18 10:01:54 -04:00			`def assert_ok(test_case, clock_checkers, **kwargs):`
phy/lpddr4: extract common test helpers for use when testing other PHYs 2021-05-28 09:57:36 -04:00			`# clock_checkers: {clock: PadChecker(...), ...}`
			`errors = list(filter(None, [c.find_error() for c in clock_checkers.values()]))`
			`if errors:`
			`all_histories = [c.history for c in clock_checkers.values()]`
			`all_histories += [c.ref_history for c in clock_checkers.values()]`
			`key_strw = PadsHistory.width_for(all_histories)`
test/phy_common: make chunk size in PadsHistory summary configurable 2021-06-18 10:01:54 -04:00			`summaries = ['{}\n{}'.format(highlight(clock, hl=False), checker.summary(key_strw=key_strw, **kwargs))`
phy/lpddr4: extract common test helpers for use when testing other PHYs 2021-05-28 09:57:36 -04:00			`for clock, checker in clock_checkers.items()]`
			`first_error = min(errors, key=lambda e: e[0]) # first error`
			`i, sig, val, ref = first_error`
			msg = f'Cycle {i} Signal `{sig}`: {val} vs {ref}\n'
			`test_case.assertEqual(val, ref, msg=msg + '\n'.join(summaries))`


			`def dfi_names(cmd=True, wrdata=True, rddata=True):`
			`names = []`
			`if cmd: names += [name for name, _, _ in dfi.phase_cmd_description(1, 1, 1)]`
			`if wrdata: names += [name for name, _, _ in dfi.phase_wrdata_description(16)]`
			`if rddata: names += [name for name, _, _ in dfi.phase_rddata_description(16)]`
			`return names`

phy/utils: DFI rate converter for creating PHY wrappers at slower clocks 2021-07-23 08:59:55 -04:00			`def dfi_reset_values(**kwargs):`
			`return {sig: 1 if sig.endswith("_n") else 0 for sig in dfi_names(**kwargs)}`

phy/lpddr4: extract common test helpers for use when testing other PHYs 2021-05-28 09:57:36 -04:00
			`class DFIPhaseValues(dict):`
			`"""Dictionary {dfi_signal_name: value}"""`
			`def __init__(self, **kwargs):`
			`# widths are not important`
			`names = dfi_names()`
			`for sig in kwargs:`
			`assert sig in names`
			`super().__init__(**kwargs)`


			`class DFISequencer:`
			`"""Generator that drives DFI interface with given commands and stores any read data"""`
			`Cycle = int`
			`DFIPhase = int`
			`DFISequence = Sequence[Mapping[DFIPhase, DFIPhaseValues]]`

			`def __init__(self, sequence: DFISequence = []):`
			`# sequence: [{phase: {sig: value}}]`
			`self.sequence = [] # generated on DFI`
			`self.read_sequence = [] # read from DFI`
			`self.expected_sequence = [] # expected to read from DFI`

			`# split sequence into read/write`
			`for cycle in sequence:`
			`read = {}`
			`write = {}`
			`for p, phase in cycle.items():`
			`read[p] = DFIPhaseValues()`
			`write[p] = DFIPhaseValues()`
			`for sig, val in phase.items():`
			`is_write = sig in dfi_names(rddata=False) + ["rddata_en"]`
			`target = write[p] if is_write else read[p]`
			`target[sig] = val`
			`self.sequence.append(write)`
			`self.expected_sequence.append(read)`

			`def add(self, dfi_cycle: Mapping[DFIPhase, DFIPhaseValues]):`
			`self.sequence.append(dfi_cycle)`

			`def _reset(self, dfi):`
			`for phase in dfi.phases:`
phy/utils: DFI rate converter for creating PHY wrappers at slower clocks 2021-07-23 08:59:55 -04:00			`for sig, val in dfi_reset_values().items():`
phy/lpddr4: extract common test helpers for use when testing other PHYs 2021-05-28 09:57:36 -04:00			`yield getattr(phase, sig).eq(val)`

			`def assert_ok(self, test_case):`
			`# expected: should contain only input signals`
			`names = ["rddata", "rddata_valid"]`
			`for cyc, (read, expected) in enumerate(zip(self.read_sequence, self.expected_sequence)):`
			`for p in expected:`
			`for sig in expected[p]:`
			assert sig in names, f"`{sig}` is not DFI input signal"
			`val = read[p][sig]`
			`ref = expected[p][sig]`
			`if sig in ["wrdata", "rddata"]:`
			err = f"Cycle {cyc} signal `{sig}`: 0x{val:08x} vs 0x{ref:08x}"
			`else:`
			err = f"Cycle {cyc} signal `{sig}`: {val:} vs {ref}"
			`err += "\nread: \n{}".format(pprint.pformat(self.read_sequence))`
			`err += "\nexpected: \n{}".format(pprint.pformat(self.expected_sequence))`
			`test_case.assertEqual(val, ref, msg=err)`

			`def generator(self, dfi):`
			`names = dfi_names(cmd=True, wrdata=True, rddata=False) + ["rddata_en"]`
			`for per_phase in self.sequence:`
			`# reset in case of any previous changes`
			`(yield from self._reset(dfi))`
			`# set values`
			`for phase, values in per_phase.items():`
			`for sig, val in values.items():`
			assert sig in names, f"`{sig}` is not DFI output signal"
			`yield getattr(dfi.phases[phase], sig).eq(val)`
			`yield`
			`(yield from self._reset(dfi))`
			`yield`

			`def reader(self, dfi):`
			`yield # do not include data read on start (a.k.a. cycle=-1)`
			`for _ in range(len(self.expected_sequence)):`
			`phases = {}`
			`for i, p in enumerate(dfi.phases):`
			`values = DFIPhaseValues(rddata_en=(yield p.rddata_en), rddata=(yield p.rddata),`
			`rddata_valid=(yield p.rddata_valid))`
			`phases[i] = values`
			`self.read_sequence.append(phases)`
			`yield`
phy/utils: DFI rate converter for creating PHY wrappers at slower clocks 2021-07-23 08:59:55 -04:00
			`@staticmethod`
			`def input_generator(dfi, sequence: DFISequence):`
			`names = dfi_names(cmd=True, wrdata=True, rddata=False) + ["rddata_en"]`
			`for per_phase in sequence:`
			`# set values`
			`for phase, values in per_phase.items():`
			`for sig, val in values.items():`
			assert sig not in names, f"`{sig}` is not DFI input signal"
			`yield getattr(dfi.phases[phase], sig).eq(val)`
			`yield`
			`# reset values`
			`for phase, values in per_phase.items():`
			`for sig in values.keys():`
			`yield getattr(dfi.phases[phase], sig).eq(0)`
			`yield`