From: Andrey Miroshnikov Date: Mon, 29 Nov 2021 16:44:04 +0000 (+0000) Subject: Returned code I removed, fixed my test case, added example test from cesar. Can't... X-Git-Url: https://git.libre-soc.org/?p=pinmux.git;a=commitdiff_plain;h=0f5e9d3241043e2439f39b98bfa496e1169dcd75 Returned code I removed, fixed my test case, added example test from cesar. Can't figure out signal names to drive. --- diff --git a/src/spec/testing_stage1.py b/src/spec/testing_stage1.py index db7e7ce..141463e 100644 --- a/src/spec/testing_stage1.py +++ b/src/spec/testing_stage1.py @@ -17,7 +17,7 @@ import sys #from soc.bus.sram import SRAM #from nmigen import Memory -from nmigen.sim import Simulator, Delay, Settle, Tick +from nmigen.sim import Simulator, Delay, Settle, Tick, Passive from nmutil.util import wrap @@ -332,10 +332,32 @@ vl = rtlil.convert(top, ports=top.ports()) with open("test_jtag_blinker.il", "w") as f: f.write(vl) -if True: +if False: # XXX these modules are all being added *AFTER* the build process links # everything together. the expectation that this would work is... - # unrealistic. ordering, clearly, is important. + # unrealistic. ordering, clearly, is important. + + # dut = JTAG(test_pinset(), wb_data_wid=64, domain="sync") + top.jtag.stop = False + # rather than the client access the JTAG bus directly + # create an alternative that the client sets + class Dummy: pass + cdut = Dummy() + cdut.cbus = JTAGInterface() + + # set up client-server on port 44843-something + top.jtag.s = JTAGServer() + cdut.c = JTAGClient() + top.jtag.s.get_connection() + #else: + # print ("running server only as requested, use openocd remote to test") + # sys.stdout.flush() + # top.jtag.s.get_connection(None) # block waiting for connection + + # take copy of ir_width and scan_len + cdut._ir_width = top.jtag._ir_width + cdut.scan_len = top.jtag.scan_len + p = ASICPlatform (resources, top.jtag) p.build(top) # this is what needs to gets treated as "top", after "main module" top @@ -351,14 +373,52 @@ if True: def test_case0(): print("Starting sanity test case!") - yield top.gpio_0__gpio_0__i__io.eq(0) + yield top.gpio_0__gpio0__o__o.eq(0) + yield top.gpio_0__gpio0__o__core__o.eq(0) + yield top.gpio_0__gpio1__o.eq(0) yield +# Code borrowed from cesar, runs, but shouldn't actually work because of +# self. statements and non-existent signal names. +def test_case1(): + print("Example test case") + yield Passive() + while True: + # Settle() is needed to give a quick response to + # the zero delay case + yield Settle() + # wait for rel_o to become active + while not (yield self.rel_o): + yield + yield Settle() + # read the transaction parameters + assert self.expecting, "an unexpected result was produced" + delay = (yield self.delay) + expected = (yield self.expected) + # wait for `delay` cycles + for _ in range(delay): + yield + # activate go_i for one cycle + yield self.go_i.eq(1) + yield self.count.eq(self.count + 1) + yield + # check received data against the expected value + result = (yield self.port) + assert result == expected,\ + f"expected {expected}, received {result}" + yield self.go_i.eq(0) + yield self.port.eq(0) sim = Simulator(top) sim.add_clock(1e-6, domain="sync") # standard clock -sim.add_sync_process(test_case0()) +#sim.add_sync_process(wrap(jtag_srv(top))) #? jtag server +#if len(sys.argv) != 2 or sys.argv[1] != 'server': +#sim.add_sync_process(wrap(jtag_sim(cdut, top.jtag))) # actual jtag tester +#sim.add_sync_process(wrap(dmi_sim(top.jtag))) # handles (pretends to be) DMI + +sim.add_sync_process(wrap(test_case1())) +sim.add_sync_process(wrap(test_case0())) with sim.write_vcd("blinker_test.vcd"): sim.run()