selectconcat)
from soc.decoder.power_enums import (spr_dict, spr_byname, XER_bits,
insns, MicrOp)
-from soc.decoder.helpers import exts, gtu, ltu
+from soc.decoder.helpers import exts, gtu, ltu, undefined
from soc.consts import PIb, MSRb # big-endian (PowerISA versions)
from collections import namedtuple
return x
+REG_SORT_ORDER = {
+ # TODO (lkcl): adjust other registers that should be in a particular order
+ # probably CA, CA32, and CR
+ "RT": 0,
+ "RA": 0,
+ "RB": 0,
+ "RS": 0,
+ "CR": 0,
+ "LR": 0,
+ "CTR": 0,
+ "TAR": 0,
+ "CA": 0,
+ "CA32": 0,
+ "MSR": 0,
+
+ "overflow": 1,
+}
+
+
def create_args(reglist, extra=None):
- args = OrderedSet()
- for reg in reglist:
- args.add(reg)
- args = list(args)
- if extra:
- args = [extra] + args
- return args
+ retval = list(OrderedSet(reglist))
+ retval.sort(key=lambda reg: REG_SORT_ORDER[reg])
+ if extra is not None:
+ return [extra] + retval
+ return retval
class Mem:
namespace['NIA'] = self.NIA
+# Simple-V: see https://libre-soc.org/openpower/sv
+# also soc.sv.svp64 SVP64Rec
+class SVSTATE:
+ def __init__(self, init=0):
+ self.spr = SelectableInt(init, 32)
+ # fields of SVSTATE, see https://libre-soc.org/openpower/sv/sprs/
+ self.mmode = FieldSelectableInt(self.spr, [0])
+ self.mask = FieldSelectableInt(self.spr, tuple(range(1,4)))
+ self.elwidth = FieldSelectableInt(self.spr, tuple(range(4,6)))
+ self.ewsrc = FieldSelectableInt(self.spr, tuple(range(6,8)))
+ self.subvl = FieldSelectableInt(self.spr, tuple(range(8,10)))
+ self.extra = FieldSelectableInt(self.spr, tuple(range(10,19)))
+ self.mode = FieldSelectableInt(self.spr, tuple(range(19,24)))
+
+
class SPR(dict):
def __init__(self, dec2, initial_sprs={}):
self.sd = dec2
if isinstance(key, int):
key = spr_dict[key].SPR
key = special_sprs.get(key, key)
- if key == 'HSRR0': # HACK!
+ if key == 'HSRR0': # HACK!
key = 'SRR0'
- if key == 'HSRR1': # HACK!
+ if key == 'HSRR1': # HACK!
key = 'SRR1'
if key in self:
res = dict.__getitem__(self, key)
key = spr_dict[key].SPR
print("spr key", key)
key = special_sprs.get(key, key)
- if key == 'HSRR0': # HACK!
+ if key == 'HSRR0': # HACK!
self.__setitem__('SRR0', value)
- if key == 'HSRR1': # HACK!
+ if key == 'HSRR1': # HACK!
self.__setitem__('SRR1', value)
print("setting spr", key, value)
dict.__setitem__(self, key, value)
# respect_pc - tracks the program counter. requires initial_insns
def __init__(self, decoder2, regfile, initial_sprs=None, initial_cr=0,
initial_mem=None, initial_msr=0,
+ initial_svstate=0,
initial_insns=None, respect_pc=False,
disassembly=None,
initial_pc=0,
self.mem = Mem(row_bytes=8, initial_mem=initial_mem)
self.imem = Mem(row_bytes=4, initial_mem=initial_insns)
self.pc = PC()
+ self.svstate = SVSTATE(initial_svstate)
self.spr = SPR(decoder2, initial_sprs)
self.msr = SelectableInt(initial_msr, 64) # underlying reg
#self.cr = FieldSelectableInt(self._cr, list(range(32, 64)))
# "undefined", just set to variable-bit-width int (use exts "max")
- self.undefined = SelectableInt(0, 256) # TODO, not hard-code 256!
+ #self.undefined = SelectableInt(0, 256) # TODO, not hard-code 256!
self.namespace = {}
self.namespace.update(self.spr)
'CIA': self.pc.CIA,
'CR': self.cr,
'MSR': self.msr,
- 'undefined': self.undefined,
+ 'undefined': undefined,
'mode_is_64bit': True,
'SO': XER_bits['SO']
})
gts.append(gt)
print(gts)
cy = 1 if any(gts) else 0
- print ("CA", cy, gts)
+ print("CA", cy, gts)
if not (1 & already_done):
self.spr['XER'][XER_bits['CA']] = cy
# ARGH... different for OP_ADD... *sigh*...
op = yield self.dec2.e.do.insn_type
if op == MicrOp.OP_ADD.value:
- res32 = (output.value & (1<<32)) != 0
- a32 = (inputs[0].value & (1<<32)) != 0
+ res32 = (output.value & (1 << 32)) != 0
+ a32 = (inputs[0].value & (1 << 32)) != 0
if len(inputs) >= 2:
- b32 = (inputs[1].value & (1<<32)) != 0
+ b32 = (inputs[1].value & (1 << 32)) != 0
else:
b32 = False
cy32 = res32 ^ a32 ^ b32
- print ("CA32 ADD", cy32)
+ print("CA32 ADD", cy32)
else:
gts = []
for x in inputs:
gt = (gtu(x[32:64], output[32:64])) == SelectableInt(1, 1)
gts.append(gt)
cy32 = 1 if any(gts) else 0
- print ("CA32", cy32, gts)
+ print("CA32", cy32, gts)
if not (2 & already_done):
self.spr['XER'][XER_bits['CA32']] = cy32
def handle_overflow(self, inputs, outputs, div_overflow):
- inv_a = yield self.dec2.e.do.invert_in
- if inv_a:
- inputs[0] = ~inputs[0]
+ if hasattr(self.dec2.e.do, "invert_in"):
+ inv_a = yield self.dec2.e.do.invert_in
+ if inv_a:
+ inputs[0] = ~inputs[0]
imm_ok = yield self.dec2.e.do.imm_data.ok
if imm_ok:
def handle_comparison(self, outputs):
out = outputs[0]
assert isinstance(out, SelectableInt), \
- "out zero not a SelectableInt %s" % repr(outputs)
+ "out zero not a SelectableInt %s" % repr(outputs)
print("handle_comparison", out.bits, hex(out.value))
# TODO - XXX *processor* in 32-bit mode
# https://bugs.libre-soc.org/show_bug.cgi?id=424
rc_en = False
rc_ok = False
# grrrr have to special-case MUL op (see DecodeOE)
- print("ov %d en %d rc %d en %d op %d" % \
- (ov_ok, ov_en, rc_ok, rc_en, int_op))
+ print("ov %d en %d rc %d en %d op %d" %
+ (ov_ok, ov_en, rc_ok, rc_en, int_op))
if int_op in [MicrOp.OP_MUL_H64.value, MicrOp.OP_MUL_H32.value]:
print("mul op")
if rc_en & rc_ok:
asmop += "."
else:
- if not asmop.endswith("."): # don't add "." to "andis."
+ if not asmop.endswith("."): # don't add "." to "andis."
if rc_en & rc_ok:
asmop += "."
if hasattr(self.dec2.e.do, "lk"):
illegal = name != asmop
if illegal:
- print ("illegal", name, asmop)
+ print("illegal", name, asmop)
self.TRAP(0x700, PIb.ILLEG)
self.namespace['NIA'] = self.trap_nia
self.pc.update(self.namespace)
already_done |= 2
print("carry already done?", bin(already_done))
- if hasattr(self.dec2.e.do, "outout_carry"):
+ if hasattr(self.dec2.e.do, "output_carry"):
carry_en = yield self.dec2.e.do.output_carry
else:
carry_en = False