#!/usr/bin/env python3 import pytrellis import database import argparse import json from os import path location_types = dict() type_at_location = dict() tiletype_names = dict() parser = argparse.ArgumentParser(description="import ECP5 routing and bels from Project Trellis") group = parser.add_mutually_exclusive_group() group.add_argument("-b", "--binary", action="store_true") group.add_argument("-c", "--c_file", action="store_true") parser.add_argument("device", type=str, help="target device") parser.add_argument("outfile", type=argparse.FileType('w'), help="output filename") parser.add_argument("-p", "--portspins", type=str, help="path to portpins.inc") args = parser.parse_args() def is_global(loc): return loc.x == -2 and loc.y == -2 # Get the index for a tiletype def get_tiletype_index(name): if name in tiletype_names: return tiletype_names[name] idx = len(tiletype_names) tiletype_names[name] = idx return idx portpins = dict() class BinaryBlobAssembler: def __init__(self, cname, endianness, nodebug=False): assert endianness in ["le", "be"] self.cname = cname self.endianness = endianness self.finalized = False self.data = bytearray() self.comments = dict() self.labels = dict() self.exports = set() self.labels_byaddr = dict() self.ltypes_byaddr = dict() self.strings = dict() self.refs = dict() self.nodebug = nodebug def l(self, name, ltype=None, export=False): assert not self.finalized assert name not in self.labels assert len(self.data) not in self.labels_byaddr self.labels[name] = len(self.data) if ltype is not None: self.ltypes_byaddr[len(self.data)] = ltype self.labels_byaddr[len(self.data)] = name if export: assert ltype is not None self.exports.add(len(self.data)) def r(self, name, comment): assert not self.finalized assert len(self.data) % 4 == 0 assert len(self.data) not in self.refs if self.nodebug: comment = None if name is not None: self.refs[len(self.data)] = (name, comment) self.data.append(0) self.data.append(0) self.data.append(0) self.data.append(0) if (name is None) and (comment is not None): self.comments[len(self.data)] = comment + " (null reference)" def s(self, s, comment): assert not self.finalized if self.nodebug: comment = None if s not in self.strings: index = len(self.strings) self.strings[s] = index else: index = self.strings[s] if comment is not None: self.r("str%d" % index, '%s: "%s"' % (comment, s)) else: self.r("str%d" % index, None) def u8(self, v, comment): assert not self.finalized if self.nodebug: comment = None self.data.append(v) if comment is not None: self.comments[len(self.data)] = comment def u16(self, v, comment): assert not self.finalized assert len(self.data) % 2 == 0 if self.nodebug: comment = None if self.endianness == "le": self.data.append(v & 255) self.data.append((v >> 8) & 255) elif self.endianness == "be": self.data.append((v >> 8) & 255) self.data.append(v & 255) else: assert 0 if comment is not None: self.comments[len(self.data)] = comment def s16(self, v, comment): assert not self.finalized assert len(self.data) % 2 == 0 if self.nodebug: comment = None c2val = (((-v) ^ 0xffff) + 1) if v < 0 else v if self.endianness == "le": self.data.append(c2val & 255) self.data.append((c2val >> 8) & 255) elif self.endianness == "be": self.data.append((c2val >> 8) & 255) self.data.append(c2val & 255) else: assert 0 if comment is not None: self.comments[len(self.data)] = comment def u32(self, v, comment): assert not self.finalized assert len(self.data) % 4 == 0 if self.nodebug: comment = None if self.endianness == "le": self.data.append(v & 255) self.data.append((v >> 8) & 255) self.data.append((v >> 16) & 255) self.data.append((v >> 24) & 255) elif self.endianness == "be": self.data.append((v >> 24) & 255) self.data.append((v >> 16) & 255) self.data.append((v >> 8) & 255) self.data.append(v & 255) else: assert 0 if comment is not None: self.comments[len(self.data)] = comment def finalize(self): assert not self.finalized for s, index in sorted(self.strings.items()): self.l("str%d" % index, "char") for c in s: self.data.append(ord(c)) self.data.append(0) self.finalized = True cursor = 0 while cursor < len(self.data): if cursor in self.refs: v = self.labels[self.refs[cursor][0]] - cursor if self.endianness == "le": self.data[cursor + 0] = (v & 255) self.data[cursor + 1] = ((v >> 8) & 255) self.data[cursor + 2] = ((v >> 16) & 255) self.data[cursor + 3] = ((v >> 24) & 255) elif self.endianness == "be": self.data[cursor + 0] = ((v >> 24) & 255) self.data[cursor + 1] = ((v >> 16) & 255) self.data[cursor + 2] = ((v >> 8) & 255) self.data[cursor + 3] = (v & 255) else: assert 0 cursor += 4 else: cursor += 1 def write_verbose_c(self, f, ctype="const unsigned char"): assert self.finalized print("%s %s[%d] = {" % (ctype, self.cname, len(self.data)), file=f) cursor = 0 bytecnt = 0 while cursor < len(self.data): if cursor in self.comments: if bytecnt == 0: print(" ", end="", file=f) print(" // %s" % self.comments[cursor], file=f) bytecnt = 0 if cursor in self.labels_byaddr: if bytecnt != 0: print(file=f) if cursor in self.exports: print("#define %s ((%s*)(%s+%d))" % ( self.labels_byaddr[cursor], self.ltypes_byaddr[cursor], self.cname, cursor), file=f) else: print(" // [%d] %s" % (cursor, self.labels_byaddr[cursor]), file=f) bytecnt = 0 if cursor in self.refs: if bytecnt != 0: print(file=f) print(" ", end="", file=f) print(" %-4s" % ("%d," % self.data[cursor + 0]), end="", file=f) print(" %-4s" % ("%d," % self.data[cursor + 1]), end="", file=f) print(" %-4s" % ("%d," % self.data[cursor + 2]), end="", file=f) print(" %-4s" % ("%d," % self.data[cursor + 3]), end="", file=f) print(" // [%d] %s (reference to %s)" % (cursor, self.refs[cursor][1], self.refs[cursor][0]), file=f) bytecnt = 0 cursor += 4 else: if bytecnt == 0: print(" ", end="", file=f) print(" %-4s" % ("%d," % self.data[cursor]), end=("" if bytecnt < 15 else "\n"), file=f) bytecnt = (bytecnt + 1) & 15 cursor += 1 if bytecnt != 0: print(file=f) print("};", file=f) def write_compact_c(self, f, ctype="const unsigned char"): assert self.finalized print("%s %s[%d] = {" % (ctype, self.cname, len(self.data)), file=f) column = 0 for v in self.data: if column == 0: print(" ", end="", file=f) column += 2 s = "%d," % v print(s, end="", file=f) column += len(s) if column > 75: print(file=f) column = 0 if column != 0: print(file=f) for cursor in self.exports: print("#define %s ((%s*)(%s+%d))" % ( self.labels_byaddr[cursor], self.ltypes_byaddr[cursor], self.cname, cursor), file=f) print("};", file=f) def write_uint64_c(self, f, ctype="const uint64_t"): assert self.finalized print("%s %s[%d] = {" % (ctype, self.cname, (len(self.data) + 7) // 8), file=f) column = 0 for i in range((len(self.data) + 7) // 8): v0 = self.data[8 * i + 0] if 8 * i + 0 < len(self.data) else 0 v1 = self.data[8 * i + 1] if 8 * i + 1 < len(self.data) else 0 v2 = self.data[8 * i + 2] if 8 * i + 2 < len(self.data) else 0 v3 = self.data[8 * i + 3] if 8 * i + 3 < len(self.data) else 0 v4 = self.data[8 * i + 4] if 8 * i + 4 < len(self.data) else 0 v5 = self.data[8 * i + 5] if 8 * i + 5 < len(self.data) else 0 v6 = self.data[8 * i + 6] if 8 * i + 6 < len(self.data) else 0 v7 = self.data[8 * i + 7] if 8 * i + 7 < len(self.data) else 0 if self.endianness == "le": v = v0 << 0 v |= v1 << 8 v |= v2 << 16 v |= v3 << 24 v |= v4 << 32 v |= v5 << 40 v |= v6 << 48 v |= v7 << 56 elif self.endianness == "be": v = v7 << 0 v |= v6 << 8 v |= v5 << 16 v |= v4 << 24 v |= v3 << 32 v |= v2 << 40 v |= v1 << 48 v |= v0 << 56 else: assert 0 if column == 3: print(" 0x%016x," % v, file=f) column = 0 else: if column == 0: print(" ", end="", file=f) print(" 0x%016x," % v, end="", file=f) column += 1 if column != 0: print("", file=f) print("};", file=f) def write_string_c(self, f, ctype="const char"): assert self.finalized assert self.data[len(self.data) - 1] == 0 print("%s %s[%d] =" % (ctype, self.cname, len(self.data)), file=f) print(" \"", end="", file=f) column = 0 for i in range(len(self.data) - 1): if (self.data[i] < 32) or (self.data[i] > 126): print("\\%03o" % self.data[i], end="", file=f) column += 4 elif self.data[i] == ord('"') or self.data[i] == ord('\\'): print("\\" + chr(self.data[i]), end="", file=f) column += 2 else: print(chr(self.data[i]), end="", file=f) column += 1 if column > 70 and (i != len(self.data) - 2): print("\"\n \"", end="", file=f) column = 0 print("\";", file=f) def write_binary(self, f): assert self.finalized assert self.data[len(self.data) - 1] == 0 f.buffer.write(self.data) bel_types = { "NONE": 0, "SLICE": 1, "PIO": 2 } def get_bel_index(ddrg, loc, name): loctype = ddrg.locationTypes[ddrg.typeAtLocation[loc]] idx = 0 for bel in loctype.bels: if ddrg.to_str(bel.name) == name: return idx idx += 1 assert loc.y == max_row # Only missing IO should be special pins at bottom of device return None packages = {} pindata = [] def process_pio_db(ddrg, device): piofile = path.join(database.get_db_root(), "ECP5", dev_names[device], "iodb.json") with open(piofile, 'r') as f: piodb = json.load(f) for pkgname, pkgdata in sorted(piodb["packages"].items()): pins = [] for name, pinloc in sorted(pkgdata.items()): x = pinloc["col"] y = pinloc["row"] loc = pytrellis.Location(x, y) pio = "PIO" + pinloc["pio"] bel_idx = get_bel_index(ddrg, loc, pio) if bel_idx is not None: pins.append((name, loc, bel_idx)) packages[pkgname] = pins for metaitem in piodb["pio_metadata"]: x = metaitem["col"] y = metaitem["row"] loc = pytrellis.Location(x, y) pio = "PIO" + metaitem["pio"] bank = metaitem["bank"] if "function" in metaitem: pinfunc = metaitem["function"] else: pinfunc = None bel_idx = get_bel_index(ddrg, loc, pio) if bel_idx is not None: pindata.append((loc, bel_idx, bank, pinfunc)) def write_database(dev_name, ddrg, endianness): def write_loc(loc, sym_name): bba.s16(loc.x, "%s.x" % sym_name) bba.s16(loc.y, "%s.y" % sym_name) bba = BinaryBlobAssembler("chipdb_blob_%s" % dev_name, endianness) bba.r("chip_info", "chip_info") loctypes = list([_.key() for _ in ddrg.locationTypes]) for idx in range(len(loctypes)): loctype = ddrg.locationTypes[loctypes[idx]] if len(loctype.arcs) > 0: bba.l("loc%d_pips" % idx, "PipInfoPOD") for arc in loctype.arcs: write_loc(arc.srcWire.rel, "src") write_loc(arc.sinkWire.rel, "dst") bba.u32(arc.srcWire.id, "src_idx") bba.u32(arc.sinkWire.id, "dst_idx") bba.u32(arc.delay, "delay") # TODO:delay bba.u16(get_tiletype_index(ddrg.to_str(arc.tiletype)), "tile_type") bba.u8(int(arc.cls), "pip_type") bba.u8(0, "padding") if len(loctype.wires) > 0: for wire_idx in range(len(loctype.wires)): wire = loctype.wires[wire_idx] if len(wire.arcsDownhill) > 0: bba.l("loc%d_wire%d_downpips" % (idx, wire_idx), "PipLocatorPOD") for dp in wire.arcsDownhill: write_loc(dp.rel, "rel_loc") bba.u32(dp.id, "index") if len(wire.arcsUphill) > 0: bba.l("loc%d_wire%d_uppips" % (idx, wire_idx), "PipLocatorPOD") for up in wire.arcsUphill: write_loc(up.rel, "rel_loc") bba.u32(up.id, "index") if len(wire.belPins) > 0: bba.l("loc%d_wire%d_belpins" % (idx, wire_idx), "BelPortPOD") for bp in wire.belPins: write_loc(bp.bel.rel, "rel_bel_loc") bba.u32(bp.bel.id, "bel_index") bba.u32(portpins[ddrg.to_str(bp.pin)], "port") bba.l("loc%d_wires" % idx, "WireInfoPOD") for wire_idx in range(len(loctype.wires)): wire = loctype.wires[wire_idx] bba.s(ddrg.to_str(wire.name), "name") bba.u32(len(wire.arcsUphill), "num_uphill") bba.u32(len(wire.arcsDownhill), "num_downhill") bba.r("loc%d_wire%d_uppips" % (idx, wire_idx) if len(wire.arcsUphill) > 0 else None, "pips_uphill") bba.r("loc%d_wire%d_downpips" % (idx, wire_idx) if len(wire.arcsDownhill) > 0 else None, "pips_downhill") bba.u32(len(wire.belPins), "num_bel_pins") bba.r("loc%d_wire%d_belpins" % (idx, wire_idx) if len(wire.belPins) > 0 else None, "bel_pins") if len(loctype.bels) > 0: for bel_idx in range(len(loctype.bels)): bel = loctype.bels[bel_idx] bba.l("loc%d_bel%d_wires" % (idx, bel_idx), "BelWirePOD") for pin in bel.wires: write_loc(pin.wire.rel, "rel_wire_loc") bba.u32(pin.wire.id, "wire_index") bba.u32(portpins[ddrg.to_str(pin.pin)], "port") bba.u32(int(pin.dir), "dir") bba.l("loc%d_bels" % idx, "BelInfoPOD") for bel_idx in range(len(loctype.bels)): bel = loctype.bels[bel_idx] bba.s(ddrg.to_str(bel.name), "name") bba.u32(bel_types[ddrg.to_str(bel.type)], "type") bba.u32(bel.z, "z") bba.u32(len(bel.wires), "num_bel_wires") bba.r("loc%d_bel%d_wires" % (idx, bel_idx), "bel_wires") bba.l("locations", "LocationTypePOD") for idx in range(len(loctypes)): loctype = ddrg.locationTypes[loctypes[idx]] bba.u32(len(loctype.bels), "num_bels") bba.u32(len(loctype.wires), "num_wires") bba.u32(len(loctype.arcs), "num_pips") bba.r("loc%d_bels" % idx if len(loctype.bels) > 0 else None, "bel_data") bba.r("loc%d_wires" % idx if len(loctype.wires) > 0 else None, "wire_data") bba.r("loc%d_pips" % idx if len(loctype.arcs) > 0 else None, "pips_data") bba.l("location_types", "int32_t") for y in range(0, max_row+1): for x in range(0, max_col+1): bba.u32(loctypes.index(ddrg.typeAtLocation[pytrellis.Location(x, y)]), "loctype") for package, pkgdata in sorted(packages.items()): bba.l("package_data_%s" % package, "PackagePinPOD") for pin in pkgdata: name, loc, bel_idx = pin bba.s(name, "name") write_loc(loc, "abs_loc") bba.u32(bel_idx, "bel_index") bba.l("package_data", "PackageInfoPOD") for package, pkgdata in sorted(packages.items()): bba.s(package, "name") bba.u32(len(pkgdata), "num_pins") bba.r("package_data_%s" % package, "pin_data") bba.l("pio_info", "PIOInfoPOD") for pin in pindata: loc, bel_idx, bank, func = pin write_loc(loc, "abs_loc") bba.u32(bel_idx, "bel_index") if func is not None: bba.s(func, "function_name") else: bba.r(None, "function_name") bba.u16(bank, "bank") bba.u16(0, "padding") bba.l("tiletype_names", "RelPtr") for tt in tiletype_names: bba.s(tt, "name") bba.l("chip_info") bba.u32(max_col + 1, "width") bba.u32(max_row + 1, "height") bba.u32((max_col + 1) * (max_row + 1), "num_tiles") bba.u32(len(location_types), "num_location_types") bba.u32(len(packages), "num_packages") bba.u32(len(pindata), "num_pios") bba.r("locations", "locations") bba.r("location_types", "location_type") bba.r("tiletype_names", "tiletype_names") bba.r("package_data", "package_info") bba.r("pio_info", "pio_info") bba.finalize() return bba dev_names = {"25k": "LFE5U-25F", "45k": "LFE5U-45F", "85k": "LFE5U-85F"} def main(): global max_row, max_col pytrellis.load_database(database.get_db_root()) args = parser.parse_args() # Read port pin file with open(args.portspins) as f: for line in f: line = line.replace("(", " ") line = line.replace(")", " ") line = line.split() if len(line) == 0: continue assert len(line) == 2 assert line[0] == "X" idx = len(portpins) + 1 portpins[line[1]] = idx print("Initialising chip...") chip = pytrellis.Chip(dev_names[args.device]) print("Building routing graph...") ddrg = pytrellis.make_dedup_chipdb(chip) max_row = chip.get_max_row() max_col = chip.get_max_col() process_pio_db(ddrg, args.device) print("{} unique location types".format(len(ddrg.locationTypes))) bba = write_database(args.device, ddrg, "le") if args.c_file: print('#include "nextpnr.h"', file=args.outfile) print('NEXTPNR_NAMESPACE_BEGIN', file=args.outfile) if args.binary: bba.write_binary(args.outfile) if args.c_file: bba.write_string_c(args.outfile) if args.c_file: print('NEXTPNR_NAMESPACE_END', file=args.outfile) if __name__ == "__main__": main()