litedram/test/test_wishbone.py

#
# This file is part of LiteDRAM.
#
# Copyright (c) 2018-2019 Florent Kermarrec <florent@enjoy-digital.fr>
# Copyright (c) 2020 Antmicro <www.antmicro.com>
# SPDX-License-Identifier: BSD-2-Clause

import unittest

from migen import *
from litex.gen.sim import run_simulation
from litex.soc.interconnect import wishbone

from litedram.frontend.wishbone import LiteDRAMWishbone2Native
from litedram.common import LiteDRAMNativePort

from test.common import DRAMMemory, MemoryTestDataMixin


class TestWishbone(MemoryTestDataMixin, unittest.TestCase):
    def wishbone_readback_test(self, pattern, mem_expected, wishbone, port, base_address=0):
        class DUT(Module):
            def __init__(self):
                self.port = port
                self.wb   = wishbone
                self.submodules += LiteDRAMWishbone2Native(
                    wishbone     = self.wb,
                    port         = self.port,
                    base_address = base_address)
                self.mem = DRAMMemory(port.data_width, len(mem_expected))

        def main_generator(dut):
            for adr, data in pattern:
                yield from dut.wb.write(adr, data)
                data_r = (yield from dut.wb.read(adr))
                self.assertEqual(data_r, data)

        dut = DUT()
        generators = [
            main_generator(dut),
            dut.mem.write_handler(dut.port),
            dut.mem.read_handler(dut.port),
        ]
        run_simulation(dut, generators, vcd_name='sim.vcd')
        self.assertEqual(dut.mem.mem, mem_expected)

    def test_wishbone_8bit(self):
        # Verify Wishbone with 8-bit data width.
        data = self.pattern_test_data["8bit"]
        wb   = wishbone.Interface(adr_width=30, data_width=8)
        port = LiteDRAMNativePort("both", address_width=30, data_width=8)
        self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)

    def test_wishbone_32bit(self):
        # Verify Wishbone with 32-bit data width.
        data = self.pattern_test_data["32bit"]
        wb   = wishbone.Interface(adr_width=30, data_width=32)
        port = LiteDRAMNativePort("both", address_width=30, data_width=32)
        self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)

    def test_wishbone_64bit(self):
        # Verify Wishbone with 64-bit data width.
        data = self.pattern_test_data["64bit"]
        wb   = wishbone.Interface(adr_width=30, data_width=64)
        port = LiteDRAMNativePort("both", address_width=30, data_width=64)
        self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)

    def test_wishbone_64bit_to_32bit(self):
        # Verify Wishbone with 64-bit data width down-converted to 32-bit data width.
        data = self.pattern_test_data["64bit_to_32bit"]
        wb   = wishbone.Interface(adr_width=30, data_width=64)
        port = LiteDRAMNativePort("both", address_width=30, data_width=32)
        self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)

    def test_wishbone_32bit_to_8bit(self):
        # Verify Wishbone with 32-bit data width down-converted to 8-bit data width.
        data = self.pattern_test_data["32bit_to_8bit"]
        wb   = wishbone.Interface(adr_width=30, data_width=32)
        port = LiteDRAMNativePort("both", address_width=30, data_width=8)
        self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)

    def test_wishbone_8bit_to_32bit(self):
        # Verify Wishbone with 8-bit data width up-converted to 32-bit data width.
        data = self.pattern_test_data["8bit_to_32bit"]
        wb   = wishbone.Interface(adr_width=30, data_width=8)
        port = LiteDRAMNativePort("both", address_width=30, data_width=32)
        self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)

    def test_wishbone_32bit_to_64bit(self):
        # Verify Wishbone with 32-bit data width up-converted to 64-bit data width.
        data = self.pattern_test_data["32bit_to_64bit"]
        wb   = wishbone.Interface(adr_width=30, data_width=32)
        port = LiteDRAMNativePort("both", address_width=30, data_width=64)
        self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)

    def test_wishbone_32bit_to_128bit(self):
        # Verify Wishbone with 32-bit data width up-converted to 128-bit data width.
        data = self.pattern_test_data["32bit_to_128bit"]
        wb   = wishbone.Interface(adr_width=30, data_width=32)
        port = LiteDRAMNativePort("both", address_width=30, data_width=128)
        self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)

    def test_wishbone_32bit_to_256bit(self):
        # Verify Wishbone with 32-bit data width up-converted to 128-bit data width.
        data = self.pattern_test_data["32bit_to_256bit"]
        wb   = wishbone.Interface(adr_width=30, data_width=32)
        port = LiteDRAMNativePort("both", address_width=30, data_width=256)
        self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)

    def test_wishbone_32bit_base_address(self):
        # Verify Wishbone with 32-bit data width and non-zero base address.
        data   = self.pattern_test_data["32bit"]
        wb     = wishbone.Interface(adr_width=30, data_width=32)
        port   = LiteDRAMNativePort("both", address_width=30, data_width=32)
        origin = 0x10000000
        # add offset (in data words)
        pattern = [(adr + origin//(32//8), data) for adr, data in data["pattern"]]
        self.wishbone_readback_test(pattern, data["expected"], wb, port, base_address=origin)

    def test_wishbone_64bit_to_32bit_base_address(self):
        # Verify Wishbone with 64-bit data width down-converted to 32-bit data width and non-zero base address.
        data    = self.pattern_test_data["64bit_to_32bit"]
        wb      = wishbone.Interface(adr_width=30, data_width=64)
        port    = LiteDRAMNativePort("both", address_width=30, data_width=32)
        origin  = 0x10000000
        pattern = [(adr + origin//(64//8), data) for adr, data in data["pattern"]]
        self.wishbone_readback_test(pattern, data["expected"], wb, port, base_address=origin)

    def test_wishbone_32bit_to_8bit_base_address(self):
        # Verify Wishbone with 32-bit data width down-converted to 8-bit data width and non-zero base address.
        data    = self.pattern_test_data["32bit_to_8bit"]
        wb      = wishbone.Interface(adr_width=30, data_width=32)
        port    = LiteDRAMNativePort("both", address_width=30, data_width=8)
        origin  = 0x10000000
        pattern = [(adr + origin//(32//8), data) for adr, data in data["pattern"]]
        self.wishbone_readback_test(pattern, data["expected"], wb, port, base_address=origin)
add SPDX License identifier to header and specify file is part of LiteDRAM. 2020-08-23 09:52:08 -04:00			`#`
			`# This file is part of LiteDRAM.`
			`#`
			`# Copyright (c) 2018-2019 Florent Kermarrec <florent@enjoy-digital.fr>`
			`# Copyright (c) 2020 Antmicro <www.antmicro.com>`
			`# SPDX-License-Identifier: BSD-2-Clause`
test: add basic wishbone test 2020-03-19 10:59:39 -04:00
			`import unittest`

			`from migen import *`
			`from litex.gen.sim import run_simulation`
			`from litex.soc.interconnect import wishbone`

			`from litedram.frontend.wishbone import LiteDRAMWishbone2Native`
			`from litedram.common import LiteDRAMNativePort`

test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`from test.common import DRAMMemory, MemoryTestDataMixin`
test: add basic wishbone test 2020-03-19 10:59:39 -04:00

test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`class TestWishbone(MemoryTestDataMixin, unittest.TestCase):`
			`def wishbone_readback_test(self, pattern, mem_expected, wishbone, port, base_address=0):`
test: add basic wishbone test 2020-03-19 10:59:39 -04:00			`class DUT(Module):`
			`def __init__(self):`
			`self.port = port`
test: cleanup/uniformize things between tests. 2020-04-13 13:38:29 -04:00			`self.wb = wishbone`
test/test_wishbone: add comments/cleanup. 2020-04-14 15:48:44 -04:00			`self.submodules += LiteDRAMWishbone2Native(`
			`wishbone = self.wb,`
			`port = self.port,`
			`base_address = base_address)`
test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`self.mem = DRAMMemory(port.data_width, len(mem_expected))`
test: add basic wishbone test 2020-03-19 10:59:39 -04:00
			`def main_generator(dut):`
			`for adr, data in pattern:`
			`yield from dut.wb.write(adr, data)`
			`data_r = (yield from dut.wb.read(adr))`
			`self.assertEqual(data_r, data)`

			`dut = DUT()`
			`generators = [`
			`main_generator(dut),`
			`dut.mem.write_handler(dut.port),`
			`dut.mem.read_handler(dut.port),`
			`]`
frontend/adaptation: combine read/write port up-converters and extend tests 2020-05-07 04:08:21 -04:00			`run_simulation(dut, generators, vcd_name='sim.vcd')`
test: add basic wishbone test 2020-03-19 10:59:39 -04:00			`self.assertEqual(dut.mem.mem, mem_expected)`

test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`def test_wishbone_8bit(self):`
test/test_wishbone: add comments/cleanup. 2020-04-14 15:48:44 -04:00			`# Verify Wishbone with 8-bit data width.`
test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`data = self.pattern_test_data["8bit"]`
test: cleanup/uniformize things between tests. 2020-04-13 13:38:29 -04:00			`wb = wishbone.Interface(adr_width=30, data_width=8)`
test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`port = LiteDRAMNativePort("both", address_width=30, data_width=8)`
			`self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)`

			`def test_wishbone_32bit(self):`
test/test_wishbone: add comments/cleanup. 2020-04-14 15:48:44 -04:00			`# Verify Wishbone with 32-bit data width.`
test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`data = self.pattern_test_data["32bit"]`
test: cleanup/uniformize things between tests. 2020-04-13 13:38:29 -04:00			`wb = wishbone.Interface(adr_width=30, data_width=32)`
test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`port = LiteDRAMNativePort("both", address_width=30, data_width=32)`
			`self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)`

			`def test_wishbone_64bit(self):`
test/test_wishbone: add comments/cleanup. 2020-04-14 15:48:44 -04:00			`# Verify Wishbone with 64-bit data width.`
test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`data = self.pattern_test_data["64bit"]`
test: cleanup/uniformize things between tests. 2020-04-13 13:38:29 -04:00			`wb = wishbone.Interface(adr_width=30, data_width=64)`
test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`port = LiteDRAMNativePort("both", address_width=30, data_width=64)`
			`self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)`

			`def test_wishbone_64bit_to_32bit(self):`
test/test_wishbone: add comments/cleanup. 2020-04-14 15:48:44 -04:00			`# Verify Wishbone with 64-bit data width down-converted to 32-bit data width.`
test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`data = self.pattern_test_data["64bit_to_32bit"]`
test: cleanup/uniformize things between tests. 2020-04-13 13:38:29 -04:00			`wb = wishbone.Interface(adr_width=30, data_width=64)`
test: add basic wishbone test 2020-03-19 10:59:39 -04:00			`port = LiteDRAMNativePort("both", address_width=30, data_width=32)`
test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)`

			`def test_wishbone_32bit_to_8bit(self):`
test/test_wishbone: add comments/cleanup. 2020-04-14 15:48:44 -04:00			`# Verify Wishbone with 32-bit data width down-converted to 8-bit data width.`
test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`data = self.pattern_test_data["32bit_to_8bit"]`
test: cleanup/uniformize things between tests. 2020-04-13 13:38:29 -04:00			`wb = wishbone.Interface(adr_width=30, data_width=32)`
test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`port = LiteDRAMNativePort("both", address_width=30, data_width=8)`
			`self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)`

frontend/wishbone: simplify by reusing LiteDRAMNativePortConverter 2020-05-13 06:45:46 -04:00			`def test_wishbone_8bit_to_32bit(self):`
			`# Verify Wishbone with 8-bit data width up-converted to 32-bit data width.`
			`data = self.pattern_test_data["8bit_to_32bit"]`
			`wb = wishbone.Interface(adr_width=30, data_width=8)`
			`port = LiteDRAMNativePort("both", address_width=30, data_width=32)`
			`self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)`

			`def test_wishbone_32bit_to_64bit(self):`
			`# Verify Wishbone with 32-bit data width up-converted to 64-bit data width.`
			`data = self.pattern_test_data["32bit_to_64bit"]`
			`wb = wishbone.Interface(adr_width=30, data_width=32)`
			`port = LiteDRAMNativePort("both", address_width=30, data_width=64)`
			`self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)`

test: check converters at higher data width ratios 2021-09-01 08:19:51 -04:00			`def test_wishbone_32bit_to_128bit(self):`
			`# Verify Wishbone with 32-bit data width up-converted to 128-bit data width.`
			`data = self.pattern_test_data["32bit_to_128bit"]`
			`wb = wishbone.Interface(adr_width=30, data_width=32)`
			`port = LiteDRAMNativePort("both", address_width=30, data_width=128)`
			`self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)`

			`def test_wishbone_32bit_to_256bit(self):`
			`# Verify Wishbone with 32-bit data width up-converted to 128-bit data width.`
			`data = self.pattern_test_data["32bit_to_256bit"]`
			`wb = wishbone.Interface(adr_width=30, data_width=32)`
			`port = LiteDRAMNativePort("both", address_width=30, data_width=256)`
			`self.wishbone_readback_test(data["pattern"], data["expected"], wb, port)`

test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`def test_wishbone_32bit_base_address(self):`
test/test_wishbone: add comments/cleanup. 2020-04-14 15:48:44 -04:00			`# Verify Wishbone with 32-bit data width and non-zero base address.`
test: cleanup/uniformize things between tests. 2020-04-13 13:38:29 -04:00			`data = self.pattern_test_data["32bit"]`
			`wb = wishbone.Interface(adr_width=30, data_width=32)`
			`port = LiteDRAMNativePort("both", address_width=30, data_width=32)`
test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`origin = 0x10000000`
			`# add offset (in data words)`
			`pattern = [(adr + origin//(32//8), data) for adr, data in data["pattern"]]`
test/test_wishbone: add comments/cleanup. 2020-04-14 15:48:44 -04:00			`self.wishbone_readback_test(pattern, data["expected"], wb, port, base_address=origin)`
test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00
			`def test_wishbone_64bit_to_32bit_base_address(self):`
test/test_wishbone: add comments/cleanup. 2020-04-14 15:48:44 -04:00			`# Verify Wishbone with 64-bit data width down-converted to 32-bit data width and non-zero base address.`
test: cleanup/uniformize things between tests. 2020-04-13 13:38:29 -04:00			`data = self.pattern_test_data["64bit_to_32bit"]`
			`wb = wishbone.Interface(adr_width=30, data_width=64)`
			`port = LiteDRAMNativePort("both", address_width=30, data_width=32)`
			`origin = 0x10000000`
test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`pattern = [(adr + origin//(64//8), data) for adr, data in data["pattern"]]`
test/test_wishbone: add comments/cleanup. 2020-04-14 15:48:44 -04:00			`self.wishbone_readback_test(pattern, data["expected"], wb, port, base_address=origin)`
test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00
			`def test_wishbone_32bit_to_8bit_base_address(self):`
test/test_wishbone: add comments/cleanup. 2020-04-14 15:48:44 -04:00			`# Verify Wishbone with 32-bit data width down-converted to 8-bit data width and non-zero base address.`
test: cleanup/uniformize things between tests. 2020-04-13 13:38:29 -04:00			`data = self.pattern_test_data["32bit_to_8bit"]`
			`wb = wishbone.Interface(adr_width=30, data_width=32)`
			`port = LiteDRAMNativePort("both", address_width=30, data_width=8)`
			`origin = 0x10000000`
test: add wishbone tests with data width mismatch 2020-03-20 09:15:33 -04:00			`pattern = [(adr + origin//(32//8), data) for adr, data in data["pattern"]]`
test/test_wishbone: add comments/cleanup. 2020-04-14 15:48:44 -04:00			`self.wishbone_readback_test(pattern, data["expected"], wb, port, base_address=origin)`