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fasm2frames.py
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fasm2frames.py
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#!/usr/bin/env python3
# -*- coding: utf-8 -*-
#
# Copyright (C) 2017-2020 The Project X-Ray Authors.
#
# Use of this source code is governed by a ISC-style
# license that can be found in the LICENSE file or at
# https://opensource.org/licenses/ISC
#
# SPDX-License-Identifier: ISC
from __future__ import print_function
import fasm
import argparse
import json
import os
import os.path
import csv
from collections import defaultdict
from prjxray import fasm_assembler, util
from prjxray.db import Database
from prjxray.roi import Roi
from prjxray.util import OpenSafeFile
import sys
def eprint(*args, **kwargs):
print(*args, file=sys.stderr, **kwargs)
class FASMSyntaxError(SyntaxError):
pass
def dump_frames_verbose(frames):
print()
print("Frames: %d" % len(frames))
for addr in sorted(frames.keys()):
words = frames[addr]
print(
'0x%08X ' % addr + ', '.join(['0x%08X' % w for w in words]) +
'...')
def dump_frames_sparse(frames):
print()
print("Frames: %d" % len(frames))
for addr in sorted(frames.keys()):
words = frames[addr]
# Skip frames without filled words
for w in words:
if w:
break
else:
continue
print('Frame @ 0x%08X' % addr)
for i, w in enumerate(words):
if w:
print(' % 3d: 0x%08X' % (i, w))
def dump_frm(f, frames):
'''Write a .frm file given a list of frames, each containing a list of 101 32 bit words'''
for addr in sorted(frames.keys()):
words = frames[addr]
f.write(
'0x%08X ' % addr + ','.join(['0x%08X' % w for w in words]) + '\n')
def find_pudc_b(db):
""" Find PUDC_B pin func in grid, and return the tile and site prefix.
The PUDC_B pin is a special 7-series pin that controls unused pin pullup.
If the PUDC_B is unused, it is configured as an input with a PULLUP.
"""
grid = db.grid()
pudc_b_tile_site = None
for tile in grid.tiles():
gridinfo = grid.gridinfo_at_tilename(tile)
for site, pin_function in gridinfo.pin_functions.items():
if 'PUDC_B' in pin_function:
assert pudc_b_tile_site == None, (
pudc_b_tile_site, (tile, site))
iob_y = int(site[-1]) % 2
pudc_b_tile_site = (tile, 'IOB_Y{}'.format(iob_y))
return pudc_b_tile_site
def get_iob_sites(db, tile_name):
"""
Yields prjxray site names for given IOB tile name
"""
grid = db.grid()
gridinfo = grid.gridinfo_at_tilename(tile_name)
for site in gridinfo.sites:
site_y = int(site[-1]) % 2
yield "IOB_Y{}".format(site_y)
def run(
db_root,
part,
filename_in,
f_out,
sparse=False,
roi=None,
debug=False,
emit_pudc_b_pullup=False):
db = Database(db_root, part)
assembler = fasm_assembler.FasmAssembler(db)
set_features = set()
def feature_callback(feature):
set_features.add(feature)
assembler.set_feature_callback(feature_callback)
# Build mapping of tile to IO bank
tile_to_bank = {}
bank_to_tile = defaultdict(lambda: set())
if part is not None:
with OpenSafeFile(os.path.join(db_root, part, "package_pins.csv"), "r") as fp:
reader = csv.DictReader(fp)
package_pins = [l for l in reader]
with OpenSafeFile(os.path.join(db_root, part, "part.json"), "r") as fp:
part_data = json.load(fp)
for bank, loc in part_data["iobanks"].items():
tile = "HCLK_IOI3_" + loc
bank_to_tile[bank].add(tile)
tile_to_bank[tile] = bank
for pin in package_pins:
bank_to_tile[pin["bank"]].add(pin["tile"])
tile_to_bank[pin["tile"]] = pin["bank"]
if emit_pudc_b_pullup:
pudc_b_in_use = False
pudc_b_tile_site = find_pudc_b(db)
def check_for_pudc_b(set_feature):
feature_callback(set_feature)
parts = set_feature.feature.split('.')
if parts[0] == pudc_b_tile_site[0] and parts[
1] == pudc_b_tile_site[1]:
nonlocal pudc_b_in_use
pudc_b_in_use = True
if pudc_b_tile_site is not None:
assembler.set_feature_callback(check_for_pudc_b)
extra_features = []
if roi:
with OpenSafeFile(roi) as f:
roi_j = json.load(f)
x1 = roi_j['info']['GRID_X_MIN']
x2 = roi_j['info']['GRID_X_MAX']
y1 = roi_j['info']['GRID_Y_MIN']
y2 = roi_j['info']['GRID_Y_MAX']
assembler.mark_roi_frames(Roi(db=db, x1=x1, x2=x2, y1=y1, y2=y2))
if 'required_features' in roi_j:
extra_features = list(
fasm.parse_fasm_string('\n'.join(roi_j['required_features'])))
# Get required extra features for the part
required_features = db.get_required_fasm_features(part)
extra_features += list(
fasm.parse_fasm_string('\n'.join(required_features)))
assembler.parse_fasm_filename(filename_in, extra_features=extra_features)
if emit_pudc_b_pullup and not pudc_b_in_use and pudc_b_tile_site is not None:
# Enable IN-only and PULLUP on PUDC_B IOB.
#
# TODO: The following FASM string only works on Artix 50T and Zynq 10
# fabrics. It is known to be wrong for the K70T fabric, but it is
# unclear how to know which IOSTANDARD to use.
missing_features = []
for line in fasm.parse_fasm_string("""
{tile}.{site}.LVCMOS12_LVCMOS15_LVCMOS18_LVCMOS25_LVCMOS33_LVTTL_SSTL135_SSTL15.IN_ONLY
{tile}.{site}.LVCMOS25_LVCMOS33_LVTTL.IN
{tile}.{site}.PULLTYPE.PULLUP
""".format(
tile=pudc_b_tile_site[0],
site=pudc_b_tile_site[1],
)):
assembler.add_fasm_line(line, missing_features)
if missing_features:
raise fasm_assembler.FasmLookupError('\n'.join(missing_features))
if part is not None:
# Make a set of all used IOB tiles and sites. Look for the "STEPDOWN"
# feature. If one is set for an IOB then set it for all other IOBs of
# the same bank.
stepdown_tags = defaultdict(lambda: set())
stepdown_banks = set()
used_iob_sites = set()
for set_feature in set_features:
if set_feature.value == 0:
continue
feature = set_feature.feature
parts = feature.split(".")
if len(parts) >= 3:
tile, site, tag = feature.split(".", maxsplit=2)
if "IOB33" in tile:
used_iob_sites.add((
tile,
site,
))
# Store STEPDOWN related tags.
if "STEPDOWN" in tag:
bank = tile_to_bank[tile]
stepdown_banks.add(bank)
stepdown_tags[bank].add(tag)
# Set the feature for unused IOBs, loop over all banks which were
# observed to have the STEPDOWN feature set.
missing_features = []
for bank in stepdown_banks:
for tile in bank_to_tile[bank]:
# This is an IOB33 tile. Set the STEPDOWN feature in it but
# only if it is unused.
if "IOB33" in tile:
for site in get_iob_sites(db, tile):
if (tile, site) in used_iob_sites:
continue
for tag in stepdown_tags[bank]:
feature = "{}.{}.{}".format(tile, site, tag)
for line in fasm.parse_fasm_string(feature):
assembler.add_fasm_line(line, missing_features)
# This is a HCLK_IOI3 tile, set the stepdown feature for it
# too.
if "HCLK_IOI3" in tile:
feature = "{}.STEPDOWN".format(tile)
for line in fasm.parse_fasm_string(feature):
assembler.add_fasm_line(line, missing_features)
if missing_features:
raise fasm_assembler.FasmLookupError('\n'.join(missing_features))
frames = assembler.get_frames(sparse=sparse)
if debug:
dump_frames_sparse(frames)
dump_frm(f_out, frames)
def main():
parser = argparse.ArgumentParser(
description=
'Convert FPGA configuration description ("FPGA assembly") into binary frame equivalent'
)
util.db_root_arg(parser)
util.part_arg(parser)
parser.add_argument(
'--sparse', action='store_true', help="Don't zero fill all frames")
parser.add_argument(
'--roi',
help="ROI design.json file defining which tiles are within the ROI.")
parser.add_argument(
'--emit_pudc_b_pullup',
help="Emit an IBUF and PULLUP on the PUDC_B pin if unused",
action='store_true')
parser.add_argument(
'--debug', action='store_true', help="Print debug dump")
parser.add_argument('fn_in', help='Input FPGA assembly (.fasm) file')
parser.add_argument(
'fn_out',
default='/dev/stdout',
nargs='?',
help='Output FPGA frame (.frm) file')
args = parser.parse_args()
run(
db_root=args.db_root,
part=args.part,
filename_in=args.fn_in,
f_out=open(args.fn_out, 'w'),
sparse=args.sparse,
roi=args.roi,
debug=args.debug,
emit_pudc_b_pullup=args.emit_pudc_b_pullup)
if __name__ == '__main__':
main()