+from soc.fu.ldst.test.test_pipe_caller import LDSTTestCase
+from soc.regfile.util import spr_to_fast_reg
+
+
+def setup_regs(pdecode2, core, test):
+
+ # set up INT regfile, "direct" write (bypass rd/write ports)
+ intregs = core.regs.int
+ for i in range(32):
+ if intregs.unary:
+ yield intregs.regs[i].reg.eq(test.regs[i])
+ else:
+ yield intregs.memory._array[i].eq(test.regs[i])
+ yield Settle()
+
+ # set up CR regfile, "direct" write across all CRs
+ cr = test.cr
+ crregs = core.regs.cr
+ #cr = int('{:32b}'.format(cr)[::-1], 2)
+ print("setup cr reg", hex(cr))
+ for i in range(8):
+ #j = 7-i
+ cri = (cr >> (i*4)) & 0xf
+ #cri = int('{:04b}'.format(cri)[::-1], 2)
+ print("setup cr reg", hex(cri), i,
+ crregs.regs[i].reg.shape())
+ yield crregs.regs[i].reg.eq(cri)
+
+ # set up XER. "direct" write (bypass rd/write ports)
+ xregs = core.regs.xer
+ print("setup sprs", test.sprs)
+ xer = None
+ if 'XER' in test.sprs:
+ xer = test.sprs['XER']
+ if 1 in test.sprs:
+ xer = test.sprs[1]
+ if xer is not None:
+ if isinstance(xer, int):
+ xer = SelectableInt(xer, 64)
+ sobit = xer[XER_bits['SO']].value
+ yield xregs.regs[xregs.SO].reg.eq(sobit)
+ cabit = xer[XER_bits['CA']].value
+ ca32bit = xer[XER_bits['CA32']].value
+ yield xregs.regs[xregs.CA].reg.eq(Cat(cabit, ca32bit))
+ ovbit = xer[XER_bits['OV']].value
+ ov32bit = xer[XER_bits['OV32']].value
+ yield xregs.regs[xregs.OV].reg.eq(Cat(ovbit, ov32bit))
+ print("setting XER so %d ca %d ca32 %d ov %d ov32 %d" %
+ (sobit, cabit, ca32bit, ovbit, ov32bit))
+ else:
+ yield xregs.regs[xregs.SO].reg.eq(0)
+ yield xregs.regs[xregs.OV].reg.eq(0)
+ yield xregs.regs[xregs.CA].reg.eq(0)
+
+ # setting both fast and slow SPRs from test data
+
+ fregs = core.regs.fast
+ sregs = core.regs.spr
+ for sprname, val in test.sprs.items():
+ if isinstance(val, SelectableInt):
+ val = val.value
+ if isinstance(sprname, int):
+ sprname = spr_dict[sprname].SPR
+ if sprname == 'XER':
+ continue
+ fast = spr_to_fast_reg(sprname)
+ if fast is None:
+ # match behaviour of SPRMap in power_decoder2.py
+ for i, x in enumerate(SPR):
+ if sprname == x.name:
+ yield sregs[i].reg.eq(val)
+ print("setting slow SPR %d (%s) to %x" %
+ (i, sprname, val))
+ else:
+ yield fregs.regs[fast].reg.eq(val)
+ print("setting fast reg %d (%s) to %x" %
+ (fast, sprname, val))
+
+ # allow changes to settle before reporting on XER
+ yield Settle()
+
+ # XER
+ so = yield xregs.regs[xregs.SO].reg
+ ov = yield xregs.regs[xregs.OV].reg
+ ca = yield xregs.regs[xregs.CA].reg
+ oe = yield pdecode2.e.do.oe.oe
+ oe_ok = yield pdecode2.e.do.oe.oe_ok
+
+ print("before: so/ov-32/ca-32", so, bin(ov), bin(ca))
+ print("oe:", oe, oe_ok)
+
+
+def check_regs(dut, sim, core, test, code):
+ # int regs
+ intregs = []
+ for i in range(32):
+ if core.regs.int.unary:
+ rval = yield core.regs.int.regs[i].reg
+ else:
+ rval = yield core.regs.int.memory._array[i]
+ intregs.append(rval)
+ print("int regs", list(map(hex, intregs)))
+ for i in range(32):
+ simregval = sim.gpr[i].asint()
+ dut.assertEqual(simregval, intregs[i],
+ "int reg %d not equal %s" % (i, repr(code)))
+
+ # CRs
+ crregs = []
+ for i in range(8):
+ rval = yield core.regs.cr.regs[i].reg
+ crregs.append(rval)
+ print("cr regs", list(map(hex, crregs)))
+ for i in range(8):
+ rval = crregs[i]
+ cri = sim.crl[7-i].get_range().value
+ print("cr reg", i, hex(cri), i, hex(rval))
+ # XXX https://bugs.libre-soc.org/show_bug.cgi?id=363
+ dut.assertEqual(cri, rval,
+ "cr reg %d not equal %s" % (i, repr(code)))
+
+ # XER
+ xregs = core.regs.xer
+ so = yield xregs.regs[xregs.SO].reg
+ ov = yield xregs.regs[xregs.OV].reg
+ ca = yield xregs.regs[xregs.CA].reg
+
+ print("sim SO", sim.spr['XER'][XER_bits['SO']])
+ e_so = sim.spr['XER'][XER_bits['SO']].value
+ e_ov = sim.spr['XER'][XER_bits['OV']].value
+ e_ov32 = sim.spr['XER'][XER_bits['OV32']].value
+ e_ca = sim.spr['XER'][XER_bits['CA']].value
+ e_ca32 = sim.spr['XER'][XER_bits['CA32']].value
+
+ e_ov = e_ov | (e_ov32 << 1)
+ e_ca = e_ca | (e_ca32 << 1)
+
+ print("after: so/ov-32/ca-32", so, bin(ov), bin(ca))
+ dut.assertEqual(e_so, so, "so mismatch %s" % (repr(code)))
+ dut.assertEqual(e_ov, ov, "ov mismatch %s" % (repr(code)))
+ dut.assertEqual(e_ca, ca, "ca mismatch %s" % (repr(code)))
+
+
+def wait_for_busy_hi(cu):
+ while True:
+ busy_o = yield cu.busy_o
+ terminate_o = yield cu.core_terminate_o
+ if busy_o:
+ print("busy/terminate:", busy_o, terminate_o)
+ break
+ print("!busy", busy_o, terminate_o)
+ yield