* https://bugs.libre-soc.org/show_bug.cgi?id=363
"""
-from nmigen import Module, Signal, Cat
-from nmigen.back.pysim import Simulator, Delay, Settle
-from nmutil.formaltest import FHDLTestCase
-from nmigen.cli import rtlil
-import unittest
-from soc.decoder.isa.caller import special_sprs
-from soc.decoder.isa.all import ISA
-from soc.decoder.power_enums import Function, XER_bits
-from soc.config.endian import bigendian
-from soc.simple.issuer import TestIssuer
-from soc.experiment.compalu_multi import find_ok # hack
+# NOTE: to use cxxsim, export NMIGEN_SIM_MODE=cxxsim from the shell
+# Also, check out the cxxsim nmigen branch, and latest yosys from git
-from soc.config.test.test_loadstore import TestMemPspec
-from soc.simple.test.test_core import (setup_regs, check_regs,
- wait_for_busy_clear,
- wait_for_busy_hi)
-from soc.fu.compunits.test.test_compunit import (setup_test_memory,
- check_sim_memory)
-from soc.debug.dmi import DBGCore, DBGCtrl, DBGStat
+import unittest
+import sys
+from soc.simple.test.test_runner import TestRunner
# test with ALU data and Logical data
-#from soc.fu.alu.test.test_pipe_caller import ALUTestCase
-#from soc.fu.div.test.test_pipe_caller import DivTestCase
-#from soc.fu.logical.test.test_pipe_caller import LogicalTestCase
-#from soc.fu.shift_rot.test.test_pipe_caller import ShiftRotTestCase
-from soc.fu.cr.test.test_pipe_caller import CRTestCase
-#from soc.fu.branch.test.test_pipe_caller import BranchTestCase
-#from soc.fu.spr.test.test_pipe_caller import SPRTestCase
-from soc.fu.ldst.test.test_pipe_caller import LDSTTestCase
-from soc.simulator.test_sim import (GeneralTestCases, AttnTestCase)
-#from soc.simulator.test_helloworld_sim import HelloTestCases
-
-
-def setup_i_memory(imem, startaddr, instructions):
- mem = imem
- print("insn before, init mem", mem.depth, mem.width, mem,
- len(instructions))
- for i in range(mem.depth):
- yield mem._array[i].eq(0)
- yield Settle()
- startaddr //= 4 # instructions are 32-bit
- if mem.width == 32:
- mask = ((1 << 32)-1)
- for ins in instructions:
- if isinstance(ins, tuple):
- insn, code = ins
- else:
- insn, code = ins, ''
- insn = insn & 0xffffffff
- yield mem._array[startaddr].eq(insn)
- yield Settle()
- if insn != 0:
- print("instr: %06x 0x%x %s" % (4*startaddr, insn, code))
- startaddr += 1
- startaddr = startaddr & mask
- return
-
- # 64 bit
- mask = ((1 << 64)-1)
- for ins in instructions:
- if isinstance(ins, tuple):
- insn, code = ins
- else:
- insn, code = ins, ''
- insn = insn & 0xffffffff
- msbs = (startaddr >> 1) & mask
- val = yield mem._array[msbs]
- if insn != 0:
- print("before set", hex(4*startaddr),
- hex(msbs), hex(val), hex(insn))
- lsb = 1 if (startaddr & 1) else 0
- val = (val | (insn << (lsb*32)))
- val = val & mask
- yield mem._array[msbs].eq(val)
- yield Settle()
- if insn != 0:
- print("after set", hex(4*startaddr), hex(msbs), hex(val))
- print("instr: %06x 0x%x %s %08x" % (4*startaddr, insn, code, val))
- startaddr += 1
- startaddr = startaddr & mask
-
-
-def set_dmi(dmi, addr, data):
- yield dmi.req_i.eq(1)
- yield dmi.addr_i.eq(addr)
- yield dmi.din.eq(data)
- yield dmi.we_i.eq(1)
- while True:
- ack = yield dmi.ack_o
- if ack:
- break
- yield
- yield dmi.req_i.eq(0)
- yield dmi.addr_i.eq(0)
- yield dmi.din.eq(0)
- yield dmi.we_i.eq(0)
-
-
-class TestRunner(FHDLTestCase):
- def __init__(self, tst_data):
- super().__init__("run_all")
- self.test_data = tst_data
-
- def run_all(self):
- m = Module()
- comb = m.d.comb
- pc_i = Signal(32)
-
- pspec = TestMemPspec(ldst_ifacetype='test_bare_wb',
- imem_ifacetype='test_bare_wb',
- addr_wid=48,
- mask_wid=8,
- imem_reg_wid=64,
- reg_wid=64)
- m.submodules.issuer = issuer = TestIssuer(pspec)
- imem = issuer.imem._get_memory()
- core = issuer.core
- dmi = issuer.dbg.dmi
- pdecode2 = core.pdecode2
- l0 = core.l0
-
- comb += issuer.pc_i.data.eq(pc_i)
-
- # nmigen Simulation
- sim = Simulator(m)
- sim.add_clock(1e-6)
-
- def process():
-
- # start in stopped
- yield from set_dmi(dmi, DBGCore.CTRL, 1<<DBGCtrl.STOP)
- yield
- yield
-
- for test in self.test_data:
-
- # pull a reset
- yield from set_dmi(dmi, DBGCore.CTRL, 1<<DBGCtrl.RESET)
-
- # set up bigendian (TODO: don't do this, use MSR)
- yield issuer.core_bigendian_i.eq(bigendian)
- yield Settle()
+from openpower.test.alu.alu_cases import ALUTestCase
+from openpower.test.div.div_cases import DivTestCases
+from openpower.test.logical.logical_cases import LogicalTestCase
+from openpower.test.shift_rot.shift_rot_cases import ShiftRotTestCase
+from openpower.test.cr.cr_cases import CRTestCase
+# from soc.fu.branch.test.test_pipe_caller import BranchTestCase
+# from soc.fu.spr.test.test_pipe_caller import SPRTestCase
+from openpower.test.ldst.ldst_cases import LDSTTestCase
+from openpower.simulator.test_sim import (GeneralTestCases, AttnTestCase)
+# from openpower.simulator.test_helloworld_sim import HelloTestCases
- yield
- yield
- yield
- yield
- print(test.name)
- program = test.program
- self.subTest(test.name)
- print("regs", test.regs)
- print("sprs", test.sprs)
- print("cr", test.cr)
- print("mem", test.mem)
- print("msr", test.msr)
- print("assem", program.assembly)
- gen = list(program.generate_instructions())
- insncode = program.assembly.splitlines()
- instructions = list(zip(gen, insncode))
- sim = ISA(pdecode2, test.regs, test.sprs, test.cr, test.mem,
- test.msr,
- initial_insns=gen, respect_pc=True,
- disassembly=insncode,
- bigendian=bigendian)
-
- pc = 0 # start address
- counter = 0 # test to pause/start
-
- yield from setup_i_memory(imem, pc, instructions)
- yield from setup_test_memory(l0, sim)
- yield from setup_regs(core, test)
-
- yield pc_i.eq(pc)
- yield issuer.pc_i.ok.eq(1)
-
- print("instructions", instructions)
-
- index = sim.pc.CIA.value//4
- while index < len(instructions):
- ins, code = instructions[index]
-
- print("instruction: 0x{:X}".format(ins & 0xffffffff))
- print(index, code)
-
- if counter == 0:
- # start the core
- yield
- yield from set_dmi(dmi, DBGCore.CTRL, 1<<DBGCtrl.START)
- yield issuer.pc_i.ok.eq(0) # no change PC after this
- yield
- yield
-
- counter = counter + 1
-
- # wait until executed
- yield from wait_for_busy_hi(core)
- yield from wait_for_busy_clear(core)
-
- terminated = yield issuer.dbg.terminated_o
- print("terminated", terminated)
-
- print("sim", code)
- # call simulated operation
- opname = code.split(' ')[0]
- yield from sim.call(opname)
- yield Settle()
- index = sim.pc.CIA.value//4
-
- # register check
- yield from check_regs(self, sim, core, test, code)
-
- # Memory check
- yield from check_sim_memory(self, l0, sim, code)
-
- terminated = yield issuer.dbg.terminated_o
- if terminated:
- break
-
- sim.add_sync_process(process)
- with sim.write_vcd("issuer_simulator.vcd",
- traces=[]):
- sim.run()
+if __name__ == "__main__":
+ svp64 = True
+ if len(sys.argv) == 2:
+ if sys.argv[1] == 'nosvp64':
+ svp64 = False
+ sys.argv.pop()
+ print ("SVP64 test mode enabled", svp64)
-if __name__ == "__main__":
unittest.main(exit=False)
suite = unittest.TestSuite()
- # suite.addTest(TestRunner(HelloTestCases.test_data))
- # suite.addTest(TestRunner(DivTestCase.test_data))
- # suite.addTest(TestRunner(AttnTestCase.test_data))
- suite.addTest(TestRunner(GeneralTestCases.test_data))
- # suite.addTest(TestRunner(LDSTTestCase().test_data))
- # suite.addTest(TestRunner(CRTestCase().test_data))
- # suite.addTest(TestRunner(ShiftRotTestCase.test_data))
- # suite.addTest(TestRunner(LogicalTestCase.test_data))
- # suite.addTest(TestRunner(ALUTestCase.test_data))
- # suite.addTest(TestRunner(BranchTestCase.test_data))
- # suite.addTest(TestRunner(SPRTestCase.test_data))
+ # suite.addTest(TestRunner(HelloTestCases.test_data, svp64=svp64))
+ suite.addTest(TestRunner(DivTestCases().test_data, svp64=svp64))
+ # suite.addTest(TestRunner(AttnTestCase.test_data, svp64=svp64))
+ suite.addTest(TestRunner(GeneralTestCases.test_data, svp64=svp64))
+ #suite.addTest(TestRunner(LDSTTestCase().test_data, svp64=svp64))
+ #suite.addTest(TestRunner(CRTestCase().test_data, svp64=svp64))
+ #suite.addTest(TestRunner(ShiftRotTestCase().test_data, svp64=svp64))
+ #suite.addTest(TestRunner(LogicalTestCase().test_data, svp64=svp64))
+ suite.addTest(TestRunner(ALUTestCase().test_data, svp64=svp64))
+ # suite.addTest(TestRunner(BranchTestCase.test_data, svp64=svp64))
+ # suite.addTest(TestRunner(SPRTestCase.test_data, svp64=svp64))
runner = unittest.TextTestRunner()
runner.run(suite)