6f7c8ffdc87e3a983c724a06d4a8026131bda575
5 * https://bugs.libre-soc.org/show_bug.cgi?id=363
7 from nmigen
import Module
, Signal
, Cat
8 from nmigen
.back
.pysim
import Simulator
, Delay
, Settle
9 from nmutil
.formaltest
import FHDLTestCase
10 from nmigen
.cli
import rtlil
12 from soc
.decoder
.isa
.caller
import special_sprs
13 from soc
.decoder
.power_decoder
import create_pdecode
14 from soc
.decoder
.power_decoder2
import PowerDecode2
15 from soc
.decoder
.selectable_int
import SelectableInt
16 from soc
.decoder
.isa
.all
import ISA
17 from soc
.decoder
.power_enums
import SPR
, spr_dict
, Function
, XER_bits
18 from soc
.config
.test
.test_loadstore
import TestMemPspec
19 from soc
.config
.endian
import bigendian
21 from soc
.simple
.core
import NonProductionCore
22 from soc
.experiment
.compalu_multi
import find_ok
# hack
24 from soc
.fu
.compunits
.test
.test_compunit
import (setup_test_memory
,
27 # test with ALU data and Logical data
28 from soc
.fu
.alu
.test
.test_pipe_caller
import ALUTestCase
29 from soc
.fu
.logical
.test
.test_pipe_caller
import LogicalTestCase
30 from soc
.fu
.shift_rot
.test
.test_pipe_caller
import ShiftRotTestCase
31 from soc
.fu
.cr
.test
.test_pipe_caller
import CRTestCase
32 from soc
.fu
.branch
.test
.test_pipe_caller
import BranchTestCase
33 from soc
.fu
.ldst
.test
.test_pipe_caller
import LDSTTestCase
34 from soc
.regfile
.util
import spr_to_fast_reg
37 def setup_regs(pdecode2
, core
, test
):
39 # set up INT regfile, "direct" write (bypass rd/write ports)
40 intregs
= core
.regs
.int
43 yield intregs
.regs
[i
].reg
.eq(test
.regs
[i
])
45 yield intregs
.memory
._array
[i
].eq(test
.regs
[i
])
48 # set up CR regfile, "direct" write across all CRs
51 #cr = int('{:32b}'.format(cr)[::-1], 2)
52 print("setup cr reg", hex(cr
))
55 cri
= (cr
>> (i
*4)) & 0xf
56 #cri = int('{:04b}'.format(cri)[::-1], 2)
57 print("setup cr reg", hex(cri
), i
,
58 crregs
.regs
[i
].reg
.shape())
59 yield crregs
.regs
[i
].reg
.eq(cri
)
61 # set up XER. "direct" write (bypass rd/write ports)
63 print("setup sprs", test
.sprs
)
65 if 'XER' in test
.sprs
:
66 xer
= test
.sprs
['XER']
70 if isinstance(xer
, int):
71 xer
= SelectableInt(xer
, 64)
72 sobit
= xer
[XER_bits
['SO']].value
73 yield xregs
.regs
[xregs
.SO
].reg
.eq(sobit
)
74 cabit
= xer
[XER_bits
['CA']].value
75 ca32bit
= xer
[XER_bits
['CA32']].value
76 yield xregs
.regs
[xregs
.CA
].reg
.eq(Cat(cabit
, ca32bit
))
77 ovbit
= xer
[XER_bits
['OV']].value
78 ov32bit
= xer
[XER_bits
['OV32']].value
79 yield xregs
.regs
[xregs
.OV
].reg
.eq(Cat(ovbit
, ov32bit
))
80 print("setting XER so %d ca %d ca32 %d ov %d ov32 %d" %
81 (sobit
, cabit
, ca32bit
, ovbit
, ov32bit
))
83 yield xregs
.regs
[xregs
.SO
].reg
.eq(0)
84 yield xregs
.regs
[xregs
.OV
].reg
.eq(0)
85 yield xregs
.regs
[xregs
.CA
].reg
.eq(0)
87 # setting both fast and slow SPRs from test data
89 fregs
= core
.regs
.fast
91 for sprname
, val
in test
.sprs
.items():
92 if isinstance(val
, SelectableInt
):
94 if isinstance(sprname
, int):
95 sprname
= spr_dict
[sprname
].SPR
98 fast
= spr_to_fast_reg(sprname
)
100 # match behaviour of SPRMap in power_decoder2.py
101 for i
, x
in enumerate(SPR
):
102 if sprname
== x
.name
:
103 yield sregs
[i
].reg
.eq(val
)
104 print("setting slow SPR %d (%s) to %x" %
107 yield fregs
.regs
[fast
].reg
.eq(val
)
108 print("setting fast reg %d (%s) to %x" %
109 (fast
, sprname
, val
))
111 # allow changes to settle before reporting on XER
115 so
= yield xregs
.regs
[xregs
.SO
].reg
116 ov
= yield xregs
.regs
[xregs
.OV
].reg
117 ca
= yield xregs
.regs
[xregs
.CA
].reg
118 oe
= yield pdecode2
.e
.do
.oe
.oe
119 oe_ok
= yield pdecode2
.e
.do
.oe
.oe_ok
121 print("before: so/ov-32/ca-32", so
, bin(ov
), bin(ca
))
122 print("oe:", oe
, oe_ok
)
125 def check_regs(dut
, sim
, core
, test
, code
):
129 if core
.regs
.int.unary
:
130 rval
= yield core
.regs
.int.regs
[i
].reg
132 rval
= yield core
.regs
.int.memory
._array
[i
]
134 print("int regs", list(map(hex, intregs
)))
136 simregval
= sim
.gpr
[i
].asint()
137 dut
.assertEqual(simregval
, intregs
[i
],
138 "int reg %d not equal %s" % (i
, repr(code
)))
143 rval
= yield core
.regs
.cr
.regs
[i
].reg
145 print("cr regs", list(map(hex, crregs
)))
148 cri
= sim
.crl
[7-i
].get_range().value
149 print("cr reg", i
, hex(cri
), i
, hex(rval
))
150 # XXX https://bugs.libre-soc.org/show_bug.cgi?id=363
151 dut
.assertEqual(cri
, rval
,
152 "cr reg %d not equal %s" % (i
, repr(code
)))
155 xregs
= core
.regs
.xer
156 so
= yield xregs
.regs
[xregs
.SO
].reg
157 ov
= yield xregs
.regs
[xregs
.OV
].reg
158 ca
= yield xregs
.regs
[xregs
.CA
].reg
160 print("sim SO", sim
.spr
['XER'][XER_bits
['SO']])
161 e_so
= sim
.spr
['XER'][XER_bits
['SO']].value
162 e_ov
= sim
.spr
['XER'][XER_bits
['OV']].value
163 e_ov32
= sim
.spr
['XER'][XER_bits
['OV32']].value
164 e_ca
= sim
.spr
['XER'][XER_bits
['CA']].value
165 e_ca32
= sim
.spr
['XER'][XER_bits
['CA32']].value
167 e_ov
= e_ov |
(e_ov32
<< 1)
168 e_ca
= e_ca |
(e_ca32
<< 1)
170 print("after: so/ov-32/ca-32", so
, bin(ov
), bin(ca
))
171 dut
.assertEqual(e_so
, so
, "so mismatch %s" % (repr(code
)))
172 dut
.assertEqual(e_ov
, ov
, "ov mismatch %s" % (repr(code
)))
173 dut
.assertEqual(e_ca
, ca
, "ca mismatch %s" % (repr(code
)))
175 # Check the PC as well
176 state
= core
.regs
.state
177 pc
= yield state
.r_ports
['cia'].data_o
178 e_pc
= sim
.pc
.CIA
.value
179 dut
.assertEqual(e_pc
, pc
)
182 def wait_for_busy_hi(cu
):
184 busy_o
= yield cu
.busy_o
185 terminate_o
= yield cu
.core_terminate_o
187 print("busy/terminate:", busy_o
, terminate_o
)
189 print("!busy", busy_o
, terminate_o
)
193 def set_issue(core
, dec2
, sim
):
194 yield core
.issue_i
.eq(1)
196 yield core
.issue_i
.eq(0)
197 yield from wait_for_busy_hi(core
)
200 def wait_for_busy_clear(cu
):
202 busy_o
= yield cu
.busy_o
203 terminate_o
= yield cu
.core_terminate_o
205 print("busy/terminate:", busy_o
, terminate_o
)
211 class TestRunner(FHDLTestCase
):
212 def __init__(self
, tst_data
):
213 super().__init
__("run_all")
214 self
.test_data
= tst_data
219 instruction
= Signal(32)
222 pspec
= TestMemPspec(ldst_ifacetype
='testpi',
228 m
.submodules
.core
= core
= NonProductionCore(pspec
)
229 pdecode2
= core
.pdecode2
232 comb
+= core
.raw_opcode_i
.eq(instruction
)
233 comb
+= core
.ivalid_i
.eq(ivalid_i
)
235 # temporary hack: says "go" immediately for both address gen and ST
236 ldst
= core
.fus
.fus
['ldst0']
237 m
.d
.comb
+= ldst
.ad
.go
.eq(ldst
.ad
.rel
) # link addr-go direct to rel
238 m
.d
.comb
+= ldst
.st
.go
.eq(ldst
.st
.rel
) # link store-go direct to rel
245 yield core
.issue_i
.eq(0)
248 for test
in self
.test_data
:
250 program
= test
.program
251 self
.subTest(test
.name
)
252 sim
= ISA(pdecode2
, test
.regs
, test
.sprs
, test
.cr
, test
.mem
,
255 gen
= program
.generate_instructions()
256 instructions
= list(zip(gen
, program
.assembly
.splitlines()))
258 yield from setup_test_memory(l0
, sim
)
259 yield from setup_regs(core
, test
)
261 index
= sim
.pc
.CIA
.value
//4
262 while index
< len(instructions
):
263 ins
, code
= instructions
[index
]
265 print("instruction: 0x{:X}".format(ins
& 0xffffffff))
268 # ask the decoder to decode this binary data (endian'd)
269 yield core
.bigendian_i
.eq(bigendian
) # little / big?
270 yield instruction
.eq(ins
) # raw binary instr.
273 # fn_unit = yield pdecode2.e.fn_unit
274 #fuval = self.funit.value
275 #self.assertEqual(fn_unit & fuval, fuval)
277 # set operand and get inputs
278 yield from set_issue(core
, pdecode2
, sim
)
281 yield from wait_for_busy_clear(core
)
286 # call simulated operation
287 opname
= code
.split(' ')[0]
288 yield from sim
.call(opname
)
289 index
= sim
.pc
.CIA
.value
//4
292 yield from check_regs(self
, sim
, core
, test
, code
)
295 yield from check_sim_memory(self
, l0
, sim
, code
)
297 sim
.add_sync_process(process
)
298 with sim
.write_vcd("core_simulator.vcd", "core_simulator.gtkw",
303 if __name__
== "__main__":
304 unittest
.main(exit
=False)
305 suite
= unittest
.TestSuite()
306 suite
.addTest(TestRunner(LDSTTestCase().test_data
))
307 suite
.addTest(TestRunner(CRTestCase().test_data
))
308 suite
.addTest(TestRunner(ShiftRotTestCase().test_data
))
309 suite
.addTest(TestRunner(LogicalTestCase().test_data
))
310 suite
.addTest(TestRunner(ALUTestCase().test_data
))
311 suite
.addTest(TestRunner(BranchTestCase().test_data
))
313 runner
= unittest
.TextTestRunner()