core: subrecord with signals for the core
i: Signal(1), present only for IOType.In and IOType.InTriOut.
Signal input to core with pad input value.
- o: Signal(1), present only for IOType.Out, IOType.TriOut and IOType.InTriOut.
+ o: Signal(1), present only for IOType.Out, IOType.TriOut and
+ IOType.InTriOut.
Signal output from core with the pad output value.
oe: Signal(1), present only for IOType.TriOut and IOType.InTriOut.
Signal output from core with the pad output enable value.
pad: subrecord with for the pad
i: Signal(1), present only for IOType.In and IOType.InTriOut
Output from pad with pad input value for core.
- o: Signal(1), present only for IOType.Out, IOType.TriOut and IOType.InTriOut.
+ o: Signal(1), present only for IOType.Out, IOType.TriOut and
+ IOType.InTriOut.
Input to pad with pad output value.
oe: Signal(1), present only for IOType.TriOut and IOType.InTriOut.
Input to pad with pad output enable value.
return Layout((("core", sigs), ("pad", sigs)))
def __init__(self, *, iotype, name=None, src_loc_at=0):
- super().__init__(self.__class__.layout(iotype), name=name, src_loc_at=src_loc_at+1)
+ super().__init__(self.__class__.layout(iotype), name=name,
+ src_loc_at=src_loc_at+1)
self._iotype = iotype
tdi, capture, shift, update, bypass,
name):
self.name = name
- if not isinstance(manufacturer_id, Const) and len(manufacturer_id) != 11:
+ if (not isinstance(manufacturer_id, Const) and
+ len(manufacturer_id) != 11):
raise ValueError("manufacturer_id has to be Const of length 11")
if not isinstance(part_number, Const) and len(manufacturer_id) != 16:
raise ValueError("part_number has to be Const of length 16")
version=Const(0, 4),
name=None, src_loc_at=0
):
- assert((ir_width is None) or (isinstance(ir_width, int) and ir_width >= 2))
+ assert((ir_width is None) or (isinstance(ir_width, int) and
+ ir_width >= 2))
assert(len(version) == 4)
if name is None:
self._part_number = part_number
self._version = version
- self._ircodes = [0, 1, 2] # Already taken codes, all ones added at the end
+ self._ircodes = [0, 1, 2] # Already taken codes, all ones added at end
self._ios = []
self._srs = []
ir_max = max(self._ircodes) + 1 # One extra code needed with all ones
ir_width = len("{:b}".format(ir_max))
if self._ir_width is not None:
- assert self._ir_width >= ir_width, "Specified JTAG IR width not big enough for allocated shiift registers"
+ assert self._ir_width >= ir_width, "Specified JTAG IR width " \
+ "not big enough for allocated shiift registers"
ir_width = self._ir_width
# TODO: Make commands numbers configurable
# ID block
select_id = fsm.isdr & ((ir == cmd_idcode) | (ir == cmd_bypass))
m.submodules._idblock = idblock = _IDBypassBlock(
- manufacturer_id=self._manufacturer_id, part_number=self._part_number,
+ manufacturer_id=self._manufacturer_id,
+ part_number=self._part_number,
version=self._version, tdi=self.bus.tdi,
capture=(select_id & fsm.capture),
shift=(select_id & fsm.shift),
preload = (ir == cmd_preload)
select_io = fsm.isdr & (sample | preload)
m.d.comb += [
- io_capture.eq(sample & fsm.capture), # Don't capture if not sample (like for PRELOAD)
+ io_capture.eq(sample & fsm.capture), # Don't capture if not sample
+ # (like for PRELOAD)
io_shift.eq(select_io & fsm.shift),
io_update.eq(select_io & fsm.update),
io_bd2io.eq(ir == cmd_extest),
return io_sr[-1]
- def add_shiftreg(self, *, ircode, length, domain="sync", name=None, src_loc_at=0):
+ def add_shiftreg(self, *, ircode, length, domain="sync", name=None,
+ src_loc_at=0):
"""Add a shift register to the JTAG interface
Parameters:
- - ircode: code(s) for the IR; int or sequence of ints. In the latter case this
- shiftreg is shared between different IR codes.
+ - ircode: code(s) for the IR; int or sequence of ints. In the latter
+ case this shiftreg is shared between different IR codes.
- length: the length of the shift register
- domain: the domain on which the signal will be used"""
ir_it = ircodes = (ircode,)
for _ircode in ir_it:
if not isinstance(_ircode, int) or _ircode <= 0:
- raise ValueError("IR code '{}' is not an int greater than 0".format(_ircode))
+ raise ValueError("IR code '{}' is not an int "
+ "greater than 0".format(_ircode))
if _ircode in self._ircodes:
raise ValueError("IR code '{}' already taken".format(_ircode))
if name is None:
name = "sr{}".format(len(self._srs))
- sr = ShiftReg(sr_length=length, cmds=len(ircodes), name=name, src_loc_at=src_loc_at+1)
+ sr = ShiftReg(sr_length=length, cmds=len(ircodes), name=name,
+ src_loc_at=src_loc_at+1)
self._srs.append((ircodes, domain, sr))
return sr
sr_update.eq((isir != 0) & update),
]
- # update signal is on the JTAG clockdomain, sr.oe is on `domain` clockdomain
- # latch update in `domain` clockdomain and see when it has falling edge.
+ # update signal is on the JTAG clockdomain, sr.oe is on `domain`
+ # clockdomain latch update in `domain` clockdomain and see when
+ # it has falling edge.
# At that edge put isir in sr.oe for one `domain` clockdomain
update_core = Signal(name=sr.name+"_update_core")
update_core_prev = Signal(name=sr.name+"_update_core_prev")
m.d[domain] += [
- update_core.eq(sr_update), # This is CDC from JTAG domain to given domain
+ update_core.eq(sr_update), # This is CDC from JTAG domain
+ # to given domain
update_core_prev.eq(update_core)
]
with m.If(update_core_prev & ~update_core):
with m.Else():
m.d.comb += self.bus.tdo.eq(tdo_jtag)
else:
- # Always connect tdo_jtag to
+ # Always connect tdo_jtag to
m.d.comb += self.bus.tdo.eq(tdo_jtag)
- def add_wishbone(self, *, ircodes, address_width, data_width, granularity=None, domain="sync",
+ def add_wishbone(self, *, ircodes, address_width, data_width,
+ granularity=None, domain="sync",
name=None, src_loc_at=0):
"""Add a wishbone interface
- In order to allow high JTAG clock speed, data will be cached. This means that if data is
- output the value of the next address will be read automatically.
+ In order to allow high JTAG clock speed, data will be cached.
+ This means that if data is output the value of the next address
+ will be read automatically.
Parameters:
-----------
)
wb = WishboneInterface(data_width=data_width, addr_width=address_width,
- granularity=granularity, features={"stall", "lock", "err", "rty"},
+ granularity=granularity,
+ features={"stall", "lock", "err", "rty"},
name=name, src_loc_at=src_loc_at+1)
self._wbs.append((sr_addr, sr_data, wb, domain))
m.next = "READACK"
with m.State("READACK"):
with m.If(wb.ack):
- # Store read data in sr_data.i and keep it there til next read
+ # Store read data in sr_data.i
+ # and keep it there til next read
m.d[domain] += sr_data.i.eq(wb.dat_r)
m.next = "IDLE"
with m.State("WRITEREAD"):