from functools import wraps
from soc.decoder.orderedset import OrderedSet
-from soc.decoder.selectable_int import SelectableInt, selectconcat
+from soc.decoder.selectable_int import (FieldSelectableInt, SelectableInt,
+ selectconcat)
+from soc.decoder.power_enums import spr_dict, XER_bits
+from soc.decoder.helpers import exts
from collections import namedtuple
import math
instruction_info = namedtuple('instruction_info',
- 'func read_regs uninit_regs write_regs op_fields form asmregs')
+ 'func read_regs uninit_regs write_regs ' + \
+ 'special_regs op_fields form asmregs')
+
+special_sprs = {
+ 'LR': 8,
+ 'CTR': 9,
+ 'TAR': 815,
+ 'XER': 1,
+ 'VRSAVE': 256}
def create_args(reglist, extra=None):
self.NIA = self.CIA + SelectableInt(4, 64)
def update(self, namespace):
- self.CIA = self.NIA
+ self.CIA = namespace['NIA'].narrow(64)
self.NIA = self.CIA + SelectableInt(4, 64)
namespace['CIA'] = self.CIA
namespace['NIA'] = self.NIA
+class SPR(dict):
+ def __init__(self, dec2, initial_sprs={}):
+ self.sd = dec2
+ dict.__init__(self)
+ self.update(initial_sprs)
+
+ def __getitem__(self, key):
+ # if key in special_sprs get the special spr, otherwise return key
+ if isinstance(key, SelectableInt):
+ key = key.value
+ key = special_sprs.get(key, key)
+ if key in self:
+ return dict.__getitem__(self, key)
+ else:
+ info = spr_dict[key]
+ dict.__setitem__(self, key, SelectableInt(0, info.length))
+ return dict.__getitem__(self, key)
+
+ def __setitem__(self, key, value):
+ if isinstance(key, SelectableInt):
+ key = key.value
+ key = special_sprs.get(key, key)
+ dict.__setitem__(self, key, value)
+
+ def __call__(self, ridx):
+ return self[ridx]
+
+
+
class ISACaller:
# decoder2 - an instance of power_decoder2
# regfile - a list of initial values for the registers
- def __init__(self, decoder2, regfile):
+ def __init__(self, decoder2, regfile, initial_sprs={}, initial_cr=0):
self.gpr = GPR(decoder2, regfile)
self.mem = Mem()
self.pc = PC()
+ self.spr = SPR(decoder2, initial_sprs)
# TODO, needed here:
- # 4.4.4 III p971 SPR (same as GPR except for SPRs - best done as a dict
# FPR (same as GPR except for FP nums)
- # 4.2.2 p124 FPSCR
- # 2.3.1 CR (and sub-fields CR0..CR6)
- # 2.3.2 LR (SPR #8)
- # 2.3.3 CTR (SPR #9)
- # 2.3.4 TAR (SPR #815)
- # 3.2.2 p45 XER (SPR #0)
- # 3.2.3 p46 p232 VRSAVE (SPR #256)
+ # 4.2.2 p124 FPSCR (definitely "separate" - not in SPR)
+ # note that mffs, mcrfs, mtfsf "manage" this FPSCR
+ # 2.3.1 CR (and sub-fields CR0..CR6 - CR0 SO comes from XER.SO)
+ # note that mfocrf, mfcr, mtcr, mtocrf, mcrxrx "manage" CRs
+ # -- Done
+ # 2.3.2 LR (actually SPR #8) -- Done
+ # 2.3.3 CTR (actually SPR #9) -- Done
+ # 2.3.4 TAR (actually SPR #815)
+ # 3.2.2 p45 XER (actually SPR #1) -- Done
+ # 3.2.3 p46 p232 VRSAVE (actually SPR #256)
+
+ # create CR then allow portions of it to be "selectable" (below)
+ self._cr = SelectableInt(initial_cr, 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.namespace = {'GPR': self.gpr,
'MEM': self.mem,
+ 'SPR': self.spr,
'memassign': self.memassign,
'NIA': self.pc.NIA,
'CIA': self.pc.CIA,
+ 'CR': self.cr,
+ 'undefined': self.undefined,
+ 'mode_is_64bit': True,
+ 'SO': XER_bits['SO']
}
- self.decoder = decoder2
+ # field-selectable versions of Condition Register TODO check bitranges?
+ self.crl = []
+ for i in range(8):
+ bits = tuple(range(i*4, (i+1)*4))# errr... maybe?
+ _cr = FieldSelectableInt(self.cr, bits)
+ self.crl.append(_cr)
+ self.namespace["CR%d" % i] = _cr
+
+ self.decoder = decoder2.dec
+ self.dec2 = decoder2
def memassign(self, ea, sz, val):
self.mem.memassign(ea, sz, val)
# then "yield" fields only from op_fields rather than hard-coded
# list, here.
fields = self.decoder.sigforms[formname]
- for name in fields._fields:
- if name not in ["RA", "RB", "RT"]:
+ for name in op_fields:
+ if name == 'spr':
+ sig = getattr(fields, name.upper())
+ else:
sig = getattr(fields, name)
- val = yield sig
+ val = yield sig
+ if name in ['BF', 'BFA']:
+ self.namespace[name] = val
+ else:
self.namespace[name] = SelectableInt(val, sig.width)
+ self.namespace['XER'] = self.spr['XER']
+ self.namespace['CA'] = self.spr['XER'][XER_bits['CA']].value
+
+ def handle_carry_(self, inputs, outputs):
+ inv_a = yield self.dec2.e.invert_a
+ if inv_a:
+ inputs[0] = ~inputs[0]
+
+ imm_ok = yield self.dec2.e.imm_data.ok
+ if imm_ok:
+ imm = yield self.dec2.e.imm_data.data
+ inputs.append(SelectableInt(imm, 64))
+ assert len(outputs) >= 1
+ output = outputs[0]
+ gts = [(x > output) for x in inputs]
+ print(gts)
+ cy = 1 if any(gts) else 0
+ self.spr['XER'][XER_bits['CA']] = cy
+
+
+ # 32 bit carry
+ gts = [(x[32:64] > output[32:64]) == SelectableInt(1, 1)
+ for x in inputs]
+ cy32 = 1 if any(gts) else 0
+ self.spr['XER'][XER_bits['CA32']] = cy32
+
+ def handle_overflow(self, inputs, outputs):
+ inv_a = yield self.dec2.e.invert_a
+ if inv_a:
+ inputs[0] = ~inputs[0]
+
+ imm_ok = yield self.dec2.e.imm_data.ok
+ if imm_ok:
+ imm = yield self.dec2.e.imm_data.data
+ inputs.append(SelectableInt(imm, 64))
+ assert len(outputs) >= 1
+ if len(inputs) >= 2:
+ output = outputs[0]
+ input_sgn = [exts(x.value, x.bits) < 0 for x in inputs]
+ output_sgn = exts(output.value, output.bits) < 0
+ ov = 1 if input_sgn[0] == input_sgn[1] and \
+ output_sgn != input_sgn[0] else 0
+
+ self.spr['XER'][XER_bits['OV']] = ov
+ so = self.spr['XER'][XER_bits['SO']]
+ so = so | ov
+ self.spr['XER'][XER_bits['SO']] = so
+
+
+
+ def handle_comparison(self, outputs):
+ out = outputs[0]
+ out = exts(out.value, out.bits)
+ zero = SelectableInt(out == 0, 1)
+ positive = SelectableInt(out > 0, 1)
+ negative = SelectableInt(out < 0, 1)
+ SO = self.spr['XER'][XER_bits['SO']]
+ cr_field = selectconcat(negative, positive, zero, SO)
+ self.crl[0].eq(cr_field)
+
+ def set_pc(self, pc_val):
+ self.namespace['NIA'] = SelectableInt(pc_val, 64)
+ self.pc.update(self.namespace)
+
+
def call(self, name):
# TODO, asmregs is from the spec, e.g. add RT,RA,RB
# see http://bugs.libre-riscv.org/show_bug.cgi?id=282
info = self.instrs[name]
yield from self.prep_namespace(info.form, info.op_fields)
- input_names = create_args(info.read_regs | info.uninit_regs)
+ # preserve order of register names
+ input_names = create_args(list(info.read_regs) + list(info.uninit_regs))
print(input_names)
+ # main registers (RT, RA ...)
inputs = []
for name in input_names:
regnum = yield getattr(self.decoder, name)
self.namespace[regname] = regnum
print('reading reg %d' % regnum)
inputs.append(self.gpr(regnum))
+
+ # "special" registers
+ for special in info.special_regs:
+ if special in special_sprs:
+ inputs.append(self.spr[special])
+ else:
+ inputs.append(self.namespace[special])
+
print(inputs)
results = info.func(self, *inputs)
print(results)
+ carry_en = yield self.dec2.e.output_carry
+ if carry_en:
+ yield from self.handle_carry_(inputs, results)
+ ov_en = yield self.dec2.e.oe
+ if ov_en:
+ yield from self.handle_overflow(inputs, results)
+ rc_en = yield self.dec2.e.rc.data
+ if rc_en:
+ self.handle_comparison(results)
+
+ # any modified return results?
if info.write_regs:
output_names = create_args(info.write_regs)
for name, output in zip(output_names, results):
- regnum = yield getattr(self.decoder, name)
- print('writing reg %d' % regnum)
- if output.bits > 64:
- output = SelectableInt(output.value, 64)
- self.gpr[regnum] = output
+ if isinstance(output, int):
+ output = SelectableInt(output, 256)
+ if name in info.special_regs:
+ print('writing special %s' % name, output)
+ if name in special_sprs:
+ self.spr[name] = output
+ else:
+ self.namespace[name].eq(output)
+ else:
+ regnum = yield getattr(self.decoder, name)
+ print('writing reg %d %s' % (regnum, str(output)))
+ if output.bits > 64:
+ output = SelectableInt(output.value, 64)
+ self.gpr[regnum] = output
+
+ # update program counter
self.pc.update(self.namespace)
context = args[0].namespace
saved_values = func_globals.copy() # Shallow copy of dict.
func_globals.update(context)
-
result = func(*args, **kwargs)
+ args[0].namespace = func_globals
#exec (func.__code__, func_globals)
#finally: