litedram/test/test_dma.py

#
# This file is part of LiteDRAM.
#
# Copyright (c) 2020 Antmicro <www.antmicro.com>
# SPDX-License-Identifier: BSD-2-Clause

import unittest

from migen import *

from litex.gen.sim import *

from litedram.common import *
from litedram.frontend.dma import *

from test.common import *


class DMAWriterDriver:
    def __init__(self, dma):
        self.dma = dma

    def write(self, pattern):
        yield self.dma.sink.valid.eq(1)
        for adr, data in pattern:
            yield self.dma.sink.address.eq(adr)
            yield self.dma.sink.data.eq(data)
            while not (yield self.dma.sink.ready):
                yield
            yield
        yield self.dma.sink.valid.eq(0)

    @staticmethod
    def wait_complete(port, n):
        for _ in range(n):
            while not (yield port.wdata.ready):
                yield
            yield


class DMAReaderDriver:
    def __init__(self, dma):
        self.dma  = dma
        self.data = []

    def read(self, address_list):
        n_last = len(self.data)
        yield self.dma.sink.valid.eq(1)
        for adr in address_list:
            yield self.dma.sink.address.eq(adr)
            while not (yield self.dma.sink.ready):
                yield
            while (yield self.dma.sink.ready):
                yield
        yield self.dma.sink.valid.eq(0)
        while len(self.data) < n_last + len(address_list):
            yield

    @passive
    def read_handler(self):
        yield self.dma.source.ready.eq(1)
        while True:
            if (yield self.dma.source.valid):
                self.data.append((yield self.dma.source.data))
            yield


class TestDMA(MemoryTestDataMixin, unittest.TestCase):

    # LiteDRAMDMAWriter ----------------------------------------------------------------------------

    def dma_writer_test(self, pattern, mem_expected, data_width, **kwargs):
        class DUT(Module):
            def __init__(self):
                self.port = LiteDRAMNativeWritePort(address_width=32, data_width=data_width)
                self.submodules.dma = LiteDRAMDMAWriter(self.port, **kwargs)

        dut = DUT()
        driver = DMAWriterDriver(dut.dma)
        mem = DRAMMemory(data_width, len(mem_expected))

        generators = [
            driver.write(pattern),
            driver.wait_complete(dut.port, len(pattern)),
            mem.write_handler(dut.port),
        ]
        run_simulation(dut, generators)
        self.assertEqual(mem.mem, mem_expected)

    def test_dma_writer_single(self):
        # Verify DMAWriter with a single 32-bit data.
        pattern            = [(0x04, 0xdeadc0de)]
        mem_expected       = [0] * 32
        mem_expected[0x04] = 0xdeadc0de
        self.dma_writer_test(pattern, mem_expected, data_width=32)

    def test_dma_writer_multiple(self):
        # Verify DMAWriter with multiple 32-bit datas.
        data = self.pattern_test_data["32bit"]
        self.dma_writer_test(data["pattern"], data["expected"], data_width=32)

    def test_dma_writer_sequential(self):
        # Verify DMAWriter with sequential 32-bit datas.
        data = self.pattern_test_data["32bit_sequential"]
        self.dma_writer_test(data["pattern"], data["expected"], data_width=32)

    def test_dma_writer_long_sequential(self):
        # Verify DMAWriter with long sequential 32-bit datas.
        data = self.pattern_test_data["32bit_long_sequential"]
        self.dma_writer_test(data["pattern"], data["expected"], data_width=32)

    def test_dma_writer_no_fifo(self):
        # Verify DMAWriter without FIFO.
        data = self.pattern_test_data["32bit_long_sequential"]
        self.dma_writer_test(data["pattern"], data["expected"], data_width=32, fifo_depth=1)

    def test_dma_writer_fifo_buffered(self):
        # Verify DMAWriter with a buffered FIFO.
        data = self.pattern_test_data["32bit_long_sequential"]
        self.dma_writer_test(data["pattern"], data["expected"], data_width=32, fifo_buffered=True)

    def test_dma_writer_duplicates(self):
        # Verify DMAWriter with a duplicate addresses.
        data = self.pattern_test_data["32bit_duplicates"]
        self.dma_writer_test(data["pattern"], data["expected"], data_width=32)

    # LiteDRAMDMAReader ----------------------------------------------------------------------------

    def dma_reader_test(self, pattern, mem_expected, data_width, **kwargs):
        class DUT(Module):
            def __init__(self):
                self.port = LiteDRAMNativeReadPort(address_width=32, data_width=data_width)
                self.submodules.dma = LiteDRAMDMAReader(self.port, **kwargs)

        dut    = DUT()
        driver = DMAReaderDriver(dut.dma)
        mem    = DRAMMemory(data_width, len(mem_expected), init=mem_expected)

        generators = [
            driver.read([adr for adr, data in pattern]),
            driver.read_handler(),
            mem.read_handler(dut.port),
        ]
        run_simulation(dut, generators)
        self.assertEqual(driver.data, [data for adr, data in pattern])

    def test_dma_reader_single(self):
        # Verify DMAReader with a single 32-bit data.
        pattern            = [(0x04, 0xdeadc0de)]
        mem_expected       = [0] * 32
        mem_expected[0x04] = 0xdeadc0de
        self.dma_reader_test(pattern, mem_expected, data_width=32)

    def test_dma_reader_multiple(self):
        # Verify DMAReader with multiple 32-bit datas.
        data = self.pattern_test_data["32bit"]
        self.dma_reader_test(data["pattern"], data["expected"], data_width=32)

    def test_dma_reader_sequential(self):
        # Verify DMAReader with sequential 32-bit datas.
        data = self.pattern_test_data["32bit_sequential"]
        self.dma_reader_test(data["pattern"], data["expected"], data_width=32)

    def test_dma_reader_long_sequential(self):
        # Verify DMAReader with long sequential 32-bit datas.
        data = self.pattern_test_data["32bit_long_sequential"]
        self.dma_reader_test(data["pattern"], data["expected"], data_width=32)

    def test_dma_reader_no_fifo(self):
        # Verify DMAReader without FIFO.
        data = self.pattern_test_data["32bit_long_sequential"]
        self.dma_reader_test(data["pattern"], data["expected"], data_width=32, fifo_depth=1)

    def test_dma_reader_fifo_buffered(self):
        # Verify DMAReader with a buffered FIFO.
        data = self.pattern_test_data["32bit_long_sequential"]
        self.dma_reader_test(data["pattern"], data["expected"], data_width=32, fifo_buffered=True)
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) 2020 Antmicro <www.antmicro.com>`
			`# SPDX-License-Identifier: BSD-2-Clause`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00
			`import unittest`

			`from migen import *`

			`from litex.gen.sim import *`

			`from litedram.common import *`
			`from litedram.frontend.dma import *`

			`from test.common import *`


			`class DMAWriterDriver:`
			`def __init__(self, dma):`
			`self.dma = dma`

			`def write(self, pattern):`
			`yield self.dma.sink.valid.eq(1)`
			`for adr, data in pattern:`
			`yield self.dma.sink.address.eq(adr)`
			`yield self.dma.sink.data.eq(data)`
			`while not (yield self.dma.sink.ready):`
			`yield`
			`yield`
			`yield self.dma.sink.valid.eq(0)`

			`@staticmethod`
			`def wait_complete(port, n):`
			`for _ in range(n):`
			`while not (yield port.wdata.ready):`
			`yield`
			`yield`


			`class DMAReaderDriver:`
			`def __init__(self, dma):`
test: cleanup/uniformize things between tests. 2020-04-13 13:38:29 -04:00			`self.dma = dma`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00			`self.data = []`

			`def read(self, address_list):`
			`n_last = len(self.data)`
			`yield self.dma.sink.valid.eq(1)`
			`for adr in address_list:`
			`yield self.dma.sink.address.eq(adr)`
			`while not (yield self.dma.sink.ready):`
			`yield`
			`while (yield self.dma.sink.ready):`
			`yield`
			`yield self.dma.sink.valid.eq(0)`
			`while len(self.data) < n_last + len(address_list):`
			`yield`

			`@passive`
			`def read_handler(self):`
			`yield self.dma.source.ready.eq(1)`
			`while True:`
			`if (yield self.dma.source.valid):`
			`self.data.append((yield self.dma.source.data))`
			`yield`


			`class TestDMA(MemoryTestDataMixin, unittest.TestCase):`

			`# LiteDRAMDMAWriter ----------------------------------------------------------------------------`

			`def dma_writer_test(self, pattern, mem_expected, data_width, **kwargs):`
			`class DUT(Module):`
			`def __init__(self):`
			`self.port = LiteDRAMNativeWritePort(address_width=32, data_width=data_width)`
			`self.submodules.dma = LiteDRAMDMAWriter(self.port, **kwargs)`

			`dut = DUT()`
			`driver = DMAWriterDriver(dut.dma)`
			`mem = DRAMMemory(data_width, len(mem_expected))`

			`generators = [`
			`driver.write(pattern),`
			`driver.wait_complete(dut.port, len(pattern)),`
			`mem.write_handler(dut.port),`
			`]`
			`run_simulation(dut, generators)`
			`self.assertEqual(mem.mem, mem_expected)`

			`def test_dma_writer_single(self):`
test/test_dma: add comments. 2020-04-14 13:51:31 -04:00			`# Verify DMAWriter with a single 32-bit data.`
test: cleanup/uniformize things between tests. 2020-04-13 13:38:29 -04:00			`pattern = [(0x04, 0xdeadc0de)]`
			`mem_expected = [0] * 32`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00			`mem_expected[0x04] = 0xdeadc0de`
			`self.dma_writer_test(pattern, mem_expected, data_width=32)`

			`def test_dma_writer_multiple(self):`
test/test_dma: add comments. 2020-04-14 13:51:31 -04:00			`# Verify DMAWriter with multiple 32-bit datas.`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00			`data = self.pattern_test_data["32bit"]`
			`self.dma_writer_test(data["pattern"], data["expected"], data_width=32)`

			`def test_dma_writer_sequential(self):`
test/test_dma: add comments. 2020-04-14 13:51:31 -04:00			`# Verify DMAWriter with sequential 32-bit datas.`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00			`data = self.pattern_test_data["32bit_sequential"]`
			`self.dma_writer_test(data["pattern"], data["expected"], data_width=32)`

			`def test_dma_writer_long_sequential(self):`
test/test_dma: add comments. 2020-04-14 13:51:31 -04:00			`# Verify DMAWriter with long sequential 32-bit datas.`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00			`data = self.pattern_test_data["32bit_long_sequential"]`
			`self.dma_writer_test(data["pattern"], data["expected"], data_width=32)`

			`def test_dma_writer_no_fifo(self):`
test/test_dma: add comments. 2020-04-14 13:51:31 -04:00			`# Verify DMAWriter without FIFO.`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00			`data = self.pattern_test_data["32bit_long_sequential"]`
test/test_dma: add comments. 2020-04-14 13:51:31 -04:00			`self.dma_writer_test(data["pattern"], data["expected"], data_width=32, fifo_depth=1)`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00
			`def test_dma_writer_fifo_buffered(self):`
test/test_dma: add comments. 2020-04-14 13:51:31 -04:00			`# Verify DMAWriter with a buffered FIFO.`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00			`data = self.pattern_test_data["32bit_long_sequential"]`
test/test_dma: add comments. 2020-04-14 13:51:31 -04:00			`self.dma_writer_test(data["pattern"], data["expected"], data_width=32, fifo_buffered=True)`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00
			`def test_dma_writer_duplicates(self):`
test/test_dma: add comments. 2020-04-14 13:51:31 -04:00			`# Verify DMAWriter with a duplicate addresses.`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00			`data = self.pattern_test_data["32bit_duplicates"]`
			`self.dma_writer_test(data["pattern"], data["expected"], data_width=32)`

			`# LiteDRAMDMAReader ----------------------------------------------------------------------------`

			`def dma_reader_test(self, pattern, mem_expected, data_width, **kwargs):`
			`class DUT(Module):`
			`def __init__(self):`
			`self.port = LiteDRAMNativeReadPort(address_width=32, data_width=data_width)`
			`self.submodules.dma = LiteDRAMDMAReader(self.port, **kwargs)`

test: cleanup/uniformize things between tests. 2020-04-13 13:38:29 -04:00			`dut = DUT()`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00			`driver = DMAReaderDriver(dut.dma)`
test: cleanup/uniformize things between tests. 2020-04-13 13:38:29 -04:00			`mem = DRAMMemory(data_width, len(mem_expected), init=mem_expected)`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00
			`generators = [`
			`driver.read([adr for adr, data in pattern]),`
			`driver.read_handler(),`
			`mem.read_handler(dut.port),`
			`]`
			`run_simulation(dut, generators)`
			`self.assertEqual(driver.data, [data for adr, data in pattern])`

			`def test_dma_reader_single(self):`
test/test_dma: add comments. 2020-04-14 13:51:31 -04:00			`# Verify DMAReader with a single 32-bit data.`
test: cleanup/uniformize things between tests. 2020-04-13 13:38:29 -04:00			`pattern = [(0x04, 0xdeadc0de)]`
			`mem_expected = [0] * 32`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00			`mem_expected[0x04] = 0xdeadc0de`
			`self.dma_reader_test(pattern, mem_expected, data_width=32)`

			`def test_dma_reader_multiple(self):`
test/test_dma: add comments. 2020-04-14 13:51:31 -04:00			`# Verify DMAReader with multiple 32-bit datas.`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00			`data = self.pattern_test_data["32bit"]`
			`self.dma_reader_test(data["pattern"], data["expected"], data_width=32)`

			`def test_dma_reader_sequential(self):`
test/test_dma: add comments. 2020-04-14 13:51:31 -04:00			`# Verify DMAReader with sequential 32-bit datas.`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00			`data = self.pattern_test_data["32bit_sequential"]`
			`self.dma_reader_test(data["pattern"], data["expected"], data_width=32)`

			`def test_dma_reader_long_sequential(self):`
test/test_dma: add comments. 2020-04-14 13:51:31 -04:00			`# Verify DMAReader with long sequential 32-bit datas.`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00			`data = self.pattern_test_data["32bit_long_sequential"]`
			`self.dma_reader_test(data["pattern"], data["expected"], data_width=32)`

			`def test_dma_reader_no_fifo(self):`
test/test_dma: add comments. 2020-04-14 13:51:31 -04:00			`# Verify DMAReader without FIFO.`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00			`data = self.pattern_test_data["32bit_long_sequential"]`
test/test_dma: add comments. 2020-04-14 13:51:31 -04:00			`self.dma_reader_test(data["pattern"], data["expected"], data_width=32, fifo_depth=1)`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00
			`def test_dma_reader_fifo_buffered(self):`
test/test_dma: add comments. 2020-04-14 13:51:31 -04:00			`# Verify DMAReader with a buffered FIFO.`
test: move DMA specific tests to test_dma.py 2020-03-19 04:13:28 -04:00			`data = self.pattern_test_data["32bit_long_sequential"]`
test/test_dma: add comments. 2020-04-14 13:51:31 -04:00			`self.dma_reader_test(data["pattern"], data["expected"], data_width=32, fifo_buffered=True)`