litex/test/test_icap.py

#
# This file is part of LiteX.
#
# Copyright (c) 2019-2021 Florent Kermarrec <florent@enjoy-digital.fr>
# SPDX-License-Identifier: BSD-2-Clause

import unittest

from migen import *

from litex.soc.cores.icap import *

# References ---------------------------------------------------------------------------------------

iprog_sequence = [
    # csib rdwrb data
    "0 0 0xaa995566",
    "0 0 0x20000000",
    "0 0 0x20000000",
    "0 0 0x30008001",
    "0 0 0x0000000f",
    "0 0 0x20000000",
    "0 0 0x20000000",
    "0 0 0x30008001",
    "0 0 0x0000000d",
    "0 0 0x20000000",
    "0 0 0x20000000",
]

bootsts_sequence = [
    # csib rdwrb data
    "0 0 0xaa995566",
    "0 0 0x20000000",
    "0 0 0x20000000",
    "0 0 0x2802c001",
    "0 0 0x20000000",
    "0 0 0x20000000",
    "1 1 0x20000000",
    "0 1 0x20000000",
    "0 1 0x20000000",
    "0 1 0x20000000",
    "0 1 0x20000000",
    "0 0 0x30008001",
    "0 0 0x0000000d",
    "0 0 0x20000000",
    "0 0 0x20000000",
]

# Test ICAP ----------------------------------------------------------------------------------------

class TestICAP(unittest.TestCase):
    def test_icap_command_reload(self):
        def generator(dut):
            # Send IPROG Write Sequence.
            yield dut.addr.eq(ICAPRegisters.CMD)
            yield dut.write_data.eq(ICAPCMDs.IPROG)
            yield dut.write.eq(1)
            # Wait.
            while not (yield dut.done):
                yield
            yield dut.write.eq(0)

            # Delay
            for i in range(16):
                yield

            # Send BOOTSTS Read Sequence.
            yield dut.addr.eq(ICAPRegisters.BOOTSTS)
            yield dut.read.eq(1)
            # Wait.
            while not (yield dut.done):
                yield
            yield dut.read.eq(0)
            yield


        def check(dut):
            # Check IPROG Write Sequence.
            while (yield dut._i) != ICAP_SYNC:
                yield
            for ref_w in iprog_sequence:
                cur_w = f"{(yield dut._csib)} {(yield dut._rdwrb)} 0x{(yield dut._i):08x}"
                self.assertEqual(ref_w, cur_w)
                #print(cur_w)
                yield

            # Check BOOTSTS Read Sequence.
            while (yield dut._i) != ICAP_SYNC:
                yield
            for ref_w in bootsts_sequence:
                cur_w = f"{(yield dut._csib)} {(yield dut._rdwrb)} 0x{(yield dut._i):08x}"
                self.assertEqual(ref_w, cur_w)
                #print(cur_w)
                yield

        dut = ICAP(with_csr=False, simulation=True)
        clocks = {"sys": 10, "icap": 10}
        run_simulation(dut, [generator(dut), check(dut)], clocks, vcd_name="icap.vcd")

    def test_icap_bitstream_syntax(self):
        dut = ICAPBitstream(simulation=True)
test: add SPDX License identifier to header and specify file is part of LiteX. 2020-08-23 09:40:21 -04:00			`#`
			`# This file is part of LiteX.`
			`#`
cores/icap/ICAP: Add Register read capability. Useful to get some internal status, ex the IDCode or know if the executed bistream in a multiboot configuration is the operational or fallback one. 2021-10-04 11:22:57 -04:00			`# Copyright (c) 2019-2021 Florent Kermarrec <florent@enjoy-digital.fr>`
test: add SPDX License identifier to header and specify file is part of LiteX. 2020-08-23 09:40:21 -04:00			`# SPDX-License-Identifier: BSD-2-Clause`
cores: add ICAP core (tested with reconfiguration commands) 2019-07-05 12:30:34 -04:00
			`import unittest`

			`from migen import *`

cores/icap/ICAP: Rewrite using constants and cleanup. 2021-10-04 08:14:03 -04:00			`from litex.soc.cores.icap import *`
cores: add ICAP core (tested with reconfiguration commands) 2019-07-05 12:30:34 -04:00
cores/icap/ICAP: Add Register read capability. Useful to get some internal status, ex the IDCode or know if the executed bistream in a multiboot configuration is the operational or fallback one. 2021-10-04 11:22:57 -04:00			`# References ---------------------------------------------------------------------------------------`

test/test_icap: Add IPROG sequence check. 2021-10-04 08:41:38 -04:00			`iprog_sequence = [`
			`# csib rdwrb data`
			`"0 0 0xaa995566",`
			`"0 0 0x20000000",`
			`"0 0 0x20000000",`
			`"0 0 0x30008001",`
			`"0 0 0x0000000f",`
			`"0 0 0x20000000",`
			`"0 0 0x20000000",`
			`"0 0 0x30008001",`
			`"0 0 0x0000000d",`
			`"0 0 0x20000000",`
			`"0 0 0x20000000",`
			`]`
cores: add ICAP core (tested with reconfiguration commands) 2019-07-05 12:30:34 -04:00
cores/icap/ICAP: Add Register read capability. Useful to get some internal status, ex the IDCode or know if the executed bistream in a multiboot configuration is the operational or fallback one. 2021-10-04 11:22:57 -04:00			`bootsts_sequence = [`
			`# csib rdwrb data`
			`"0 0 0xaa995566",`
			`"0 0 0x20000000",`
			`"0 0 0x20000000",`
			`"0 0 0x2802c001",`
			`"0 0 0x20000000",`
			`"0 0 0x20000000",`
			`"1 1 0x20000000",`
			`"0 1 0x20000000",`
			`"0 1 0x20000000",`
			`"0 1 0x20000000",`
			`"0 1 0x20000000",`
			`"0 0 0x30008001",`
			`"0 0 0x0000000d",`
			`"0 0 0x20000000",`
			`"0 0 0x20000000",`
			`]`

			`# Test ICAP ----------------------------------------------------------------------------------------`

cores: add ICAP core (tested with reconfiguration commands) 2019-07-05 12:30:34 -04:00			`class TestICAP(unittest.TestCase):`
soc/cores/icap: simplify ICAPBitstream (untested) 2019-10-01 15:30:14 -04:00			`def test_icap_command_reload(self):`
cores: add ICAP core (tested with reconfiguration commands) 2019-07-05 12:30:34 -04:00			`def generator(dut):`
cores/icap/ICAP: Add Register read capability. Useful to get some internal status, ex the IDCode or know if the executed bistream in a multiboot configuration is the operational or fallback one. 2021-10-04 11:22:57 -04:00			`# Send IPROG Write Sequence.`
cores/icap/ICAP: Rewrite using constants and cleanup. 2021-10-04 08:14:03 -04:00			`yield dut.addr.eq(ICAPRegisters.CMD)`
cores/icap/ICAP: Add Register read capability. Useful to get some internal status, ex the IDCode or know if the executed bistream in a multiboot configuration is the operational or fallback one. 2021-10-04 11:22:57 -04:00			`yield dut.write_data.eq(ICAPCMDs.IPROG)`
			`yield dut.write.eq(1)`
			`# Wait.`
			`while not (yield dut.done):`
			`yield`
			`yield dut.write.eq(0)`

			`# Delay`
			`for i in range(16):`
cores: add ICAP core (tested with reconfiguration commands) 2019-07-05 12:30:34 -04:00			`yield`
cores/icap/ICAP: Add Register read capability. Useful to get some internal status, ex the IDCode or know if the executed bistream in a multiboot configuration is the operational or fallback one. 2021-10-04 11:22:57 -04:00
			`# Send BOOTSTS Read Sequence.`
			`yield dut.addr.eq(ICAPRegisters.BOOTSTS)`
			`yield dut.read.eq(1)`
			`# Wait.`
			`while not (yield dut.done):`
			`yield`
			`yield dut.read.eq(0)`
cores: add ICAP core (tested with reconfiguration commands) 2019-07-05 12:30:34 -04:00			`yield`
cores/icap/ICAP: Add Register read capability. Useful to get some internal status, ex the IDCode or know if the executed bistream in a multiboot configuration is the operational or fallback one. 2021-10-04 11:22:57 -04:00
test/test_icap: Add IPROG sequence check. 2021-10-04 08:41:38 -04:00
			`def check(dut):`
cores/icap/ICAP: Add Register read capability. Useful to get some internal status, ex the IDCode or know if the executed bistream in a multiboot configuration is the operational or fallback one. 2021-10-04 11:22:57 -04:00			`# Check IPROG Write Sequence.`
test/test_icap: Add IPROG sequence check. 2021-10-04 08:41:38 -04:00			`while (yield dut._i) != ICAP_SYNC:`
			`yield`
			`for ref_w in iprog_sequence:`
			`cur_w = f"{(yield dut._csib)} {(yield dut._rdwrb)} 0x{(yield dut._i):08x}"`
			`self.assertEqual(ref_w, cur_w)`
cores/icap/ICAP: Rewrite using with an FSM instead of Timeline (will be easier to extend). 2021-10-04 09:06:03 -04:00			`#print(cur_w)`
cores: add ICAP core (tested with reconfiguration commands) 2019-07-05 12:30:34 -04:00			`yield`

cores/icap/ICAP: Add Register read capability. Useful to get some internal status, ex the IDCode or know if the executed bistream in a multiboot configuration is the operational or fallback one. 2021-10-04 11:22:57 -04:00			`# Check BOOTSTS Read Sequence.`
			`while (yield dut._i) != ICAP_SYNC:`
			`yield`
			`for ref_w in bootsts_sequence:`
			`cur_w = f"{(yield dut._csib)} {(yield dut._rdwrb)} 0x{(yield dut._i):08x}"`
			`self.assertEqual(ref_w, cur_w)`
			`#print(cur_w)`
			`yield`
test/test_icap: Add IPROG sequence check. 2021-10-04 08:41:38 -04:00
test/test_icap: update. 2020-10-07 06:36:08 -04:00			`dut = ICAP(with_csr=False, simulation=True)`
cores/icap/ICAP: Rewrite using constants and cleanup. 2021-10-04 08:14:03 -04:00			`clocks = {"sys": 10, "icap": 10}`
test/test_icap: Add IPROG sequence check. 2021-10-04 08:41:38 -04:00			`run_simulation(dut, [generator(dut), check(dut)], clocks, vcd_name="icap.vcd")`
soc/cores/icap: simplify ICAPBitstream (untested) 2019-10-01 15:30:14 -04:00
			`def test_icap_bitstream_syntax(self):`
			`dut = ICAPBitstream(simulation=True)`