1 from nmigen
import Module
, Signal
, ResetSignal
2 from nmigen
.back
.pysim
import Simulator
, Delay
, Settle
3 from nmutil
.formaltest
import FHDLTestCase
4 from nmigen
.cli
import rtlil
6 from soc
.decoder
.power_decoder
import (create_pdecode
)
7 from soc
.decoder
.power_decoder2
import (PowerDecode2
)
8 from soc
.decoder
.power_enums
import Function
9 from soc
.decoder
.isa
.all
import ISA
11 from soc
.experiment
.compalu_multi
import find_ok
# hack
14 def set_cu_input(cu
, idx
, data
):
15 rdop
= cu
.get_in_name(idx
)
16 yield cu
.src_i
[idx
].eq(data
)
18 rd_rel_o
= yield cu
.rd
.rel
[idx
]
19 print ("rd_rel %d wait HI" % idx
, rd_rel_o
, rdop
, hex(data
))
23 yield cu
.rd
.go
[idx
].eq(1)
26 rd_rel_o
= yield cu
.rd
.rel
[idx
]
29 print ("rd_rel %d wait HI" % idx
, rd_rel_o
)
31 yield cu
.rd
.go
[idx
].eq(0)
32 yield cu
.src_i
[idx
].eq(0)
35 def get_cu_output(cu
, idx
, code
):
36 wrmask
= yield cu
.wrmask
37 wrop
= cu
.get_out_name(idx
)
38 wrok
= cu
.get_out(idx
)
39 fname
= find_ok(wrok
.fields
)
40 wrok
= yield getattr(wrok
, fname
)
41 print ("wr_rel mask", repr(code
), idx
, wrop
, bin(wrmask
), fname
, wrok
)
42 assert wrmask
& (1<<idx
), \
43 "get_cu_output '%s': mask bit %d not set\n" \
44 "write-operand '%s' Data.ok likely not set (%s)" \
45 % (code
, idx
, wrop
, hex(wrok
))
47 wr_relall_o
= yield cu
.wr
.rel
48 wr_rel_o
= yield cu
.wr
.rel
[idx
]
49 print ("wr_rel %d wait" % idx
, hex(wr_relall_o
), wr_rel_o
)
53 yield cu
.wr
.go
[idx
].eq(1)
55 result
= yield cu
.dest
[idx
]
57 yield cu
.wr
.go
[idx
].eq(0)
58 print ("result", repr(code
), idx
, wrop
, wrok
, hex(result
))
63 def set_cu_inputs(cu
, inp
):
64 for idx
, data
in inp
.items():
65 yield from set_cu_input(cu
, idx
, data
)
68 def set_operand(cu
, dec2
, sim
):
69 yield from cu
.oper_i
.eq_from_execute1(dec2
.e
)
70 yield cu
.issue_i
.eq(1)
72 yield cu
.issue_i
.eq(0)
76 def get_cu_outputs(cu
, code
):
78 wrmask
= yield cu
.wrmask
79 print ("get_cu_outputs", cu
.n_dst
, wrmask
)
80 if not wrmask
: # no point waiting (however really should doublecheck wr.rel)
82 # wait for at least one result
84 wr_rel_o
= yield cu
.wr
.rel
88 for i
in range(cu
.n_dst
):
89 wr_rel_o
= yield cu
.wr
.rel
[i
]
91 result
= yield from get_cu_output(cu
, i
, code
)
92 wrop
= cu
.get_out_name(i
)
93 print ("output", i
, wrop
, hex(result
))
98 def get_inp_indexed(cu
, inp
):
100 for i
in range(cu
.n_src
):
101 wrop
= cu
.get_in_name(i
)
106 def setup_test_memory(l0
, sim
):
108 print ("before, init mem", mem
.depth
, mem
.width
, mem
)
109 for i
in range(mem
.depth
):
110 data
= sim
.mem
.ld(i
*8, 8, False)
111 print ("init ", i
, hex(data
))
112 yield mem
._array
[i
].eq(data
)
114 for k
, v
in sim
.mem
.mem
.items():
115 print (" %6x %016x" % (k
, v
))
116 print ("before, nmigen mem dump")
117 for i
in range(mem
.depth
):
118 actual_mem
= yield mem
._array
[i
]
119 print (" %6i %016x" % (i
, actual_mem
))
122 def check_sim_memory(dut
, l0
, sim
, code
):
124 print ("sim mem dump")
125 for k
, v
in sim
.mem
.mem
.items():
126 print (" %6x %016x" % (k
, v
))
127 print ("nmigen mem dump")
128 for i
in range(mem
.depth
):
129 actual_mem
= yield mem
._array
[i
]
130 print (" %6i %016x" % (i
, actual_mem
))
132 for i
in range(mem
.depth
):
133 expected_mem
= sim
.mem
.ld(i
*8, 8, False)
134 actual_mem
= yield mem
._array
[i
]
135 dut
.assertEqual(expected_mem
, actual_mem
,
136 "%s %d %x %x" % (code
, i
,
137 expected_mem
, actual_mem
))
139 class TestRunner(FHDLTestCase
):
140 def __init__(self
, test_data
, fukls
, iodef
, funit
):
141 super().__init
__("run_all")
142 self
.test_data
= test_data
150 instruction
= Signal(32)
152 pdecode
= create_pdecode()
154 m
.submodules
.pdecode2
= pdecode2
= PowerDecode2(pdecode
)
155 if self
.funit
== Function
.LDST
:
156 from soc
.experiment
.l0_cache
import TstL0CacheBuffer
157 m
.submodules
.l0
= l0
= TstL0CacheBuffer(n_units
=1, regwid
=64,
159 pi
= l0
.l0
.dports
[0].pi
160 m
.submodules
.cu
= cu
= self
.fukls(pi
, awid
=3)
161 m
.d
.comb
+= cu
.ad
.go
.eq(cu
.ad
.rel
) # link addr-go direct to rel
162 m
.d
.comb
+= cu
.st
.go
.eq(cu
.st
.rel
) # link store-go direct to rel
164 m
.submodules
.cu
= cu
= self
.fukls()
166 comb
+= pdecode2
.dec
.raw_opcode_in
.eq(instruction
)
172 yield cu
.issue_i
.eq(0)
175 for test
in self
.test_data
:
177 program
= test
.program
178 self
.subTest(test
.name
)
179 print ("test", test
.name
, test
.mem
)
180 sim
= ISA(pdecode2
, test
.regs
, test
.sprs
, test
.cr
, test
.mem
,
182 gen
= program
.generate_instructions()
183 instructions
= list(zip(gen
, program
.assembly
.splitlines()))
186 if self
.funit
== Function
.LDST
:
187 yield from setup_test_memory(l0
, sim
)
189 index
= sim
.pc
.CIA
.value
//4
190 while index
< len(instructions
):
191 ins
, code
= instructions
[index
]
193 print("0x{:X}".format(ins
& 0xffffffff))
196 # ask the decoder to decode this binary data (endian'd)
197 yield pdecode2
.dec
.bigendian
.eq(0) # little / big?
198 yield instruction
.eq(ins
) # raw binary instr.
200 fn_unit
= yield pdecode2
.e
.fn_unit
201 fuval
= self
.funit
.value
202 self
.assertEqual(fn_unit
& fuval
, fuval
)
204 # set operand and get inputs
205 yield from set_operand(cu
, pdecode2
, sim
)
206 iname
= yield from self
.iodef
.get_cu_inputs(pdecode2
, sim
)
207 inp
= get_inp_indexed(cu
, iname
)
209 # reset read-operand mask
210 rdmask
= pdecode2
.rdflags(cu
)
211 #print ("hardcoded rdmask", cu.rdflags(pdecode2.e))
212 #print ("decoder rdmask", rdmask)
213 yield cu
.rdmaskn
.eq(~rdmask
)
215 # reset write-operand mask
216 for idx
in range(cu
.n_dst
):
217 wrok
= cu
.get_out(idx
)
218 fname
= find_ok(wrok
.fields
)
219 yield getattr(wrok
, fname
).eq(0)
224 rd_rel_o
= yield cu
.rd
.rel
225 wr_rel_o
= yield cu
.wr
.rel
226 print ("before inputs, rd_rel, wr_rel: ",
227 bin(rd_rel_o
), bin(wr_rel_o
))
228 assert wr_rel_o
== 0, "wr.rel %s must be zero. "\
229 "previous instr not written all regs\n"\
231 (bin(wr_rel_o
), cu
.rwid
[1])
232 yield from set_cu_inputs(cu
, inp
)
233 rd_rel_o
= yield cu
.rd
.rel
234 wr_rel_o
= yield cu
.wr
.rel
235 wrmask
= yield cu
.wrmask
236 print ("after inputs, rd_rel, wr_rel, wrmask: ",
237 bin(rd_rel_o
), bin(wr_rel_o
), bin(wrmask
))
239 # call simulated operation
240 opname
= code
.split(' ')[0]
241 yield from sim
.call(opname
)
242 index
= sim
.pc
.CIA
.value
//4
245 # get all outputs (one by one, just "because")
246 res
= yield from get_cu_outputs(cu
, code
)
247 wrmask
= yield cu
.wrmask
248 rd_rel_o
= yield cu
.rd
.rel
249 wr_rel_o
= yield cu
.wr
.rel
250 print ("after got outputs, rd_rel, wr_rel, wrmask: ",
251 bin(rd_rel_o
), bin(wr_rel_o
), bin(wrmask
))
253 # wait for busy to go low
255 busy_o
= yield cu
.busy_o
256 print ("busy", busy_o
)
261 yield from self
.iodef
.check_cu_outputs(res
, pdecode2
,
264 # sigh. hard-coded. test memory
265 if self
.funit
== Function
.LDST
:
266 yield from check_sim_memory(self
, l0
, sim
, code
)
269 sim
.add_sync_process(process
)
271 name
= self
.funit
.name
.lower()
272 with sim
.write_vcd("%s_simulator.vcd" % name
,
273 "%s_simulator.gtkw" % name
,