Exemplo n.º 1
0
def flash(bios_flash_offset):
    # Create FTDI <--> SPI Flash proxy bitstream and load it.
    # -------------------------------------------------------
    platform = tec0117.Platform()
    flash    = platform.request("spiflash", 0)
    bus      = platform.request("spiflash", 1)
    module = Module()
    module.comb += [
        flash.clk.eq(bus.clk),
        flash.cs_n.eq(bus.cs_n),
        flash.mosi.eq(bus.mosi),
        bus.miso.eq(flash.miso),
    ]
    platform.build(module)
    prog = platform.create_programmer()
    prog.load_bitstream("build/impl/pnr/project.fs")

    # Flash Image through proxy Bitstream.
    # ------------------------------------
    from spiflash.serialflash import SerialFlashManager
    dev = SerialFlashManager.get_flash_device("ftdi://ftdi:2232/2")
    dev.TIMINGS["chip"] = (4, 60) # Chip is too slow
    print("Erasing flash...")
    dev.erase(0, -1)
    with open("build/trenz_tec0117/software/bios/bios.bin", "rb") as f:
        bios = f.read()
    print("Programming flash...")
    dev.write(bios_flash_offset, bios)
Exemplo n.º 2
0
def flash(offset, path):
    from spiflash.serialflash import SerialFlashManager
    platform = tec0117.Platform()
    flash = platform.request("spiflash", 0)
    bus = platform.request("spiflash", 1)

    module = Module()
    module.comb += [
        flash.clk.eq(bus.clk),
        flash.cs_n.eq(bus.cs_n),
        flash.mosi.eq(bus.mosi),
        bus.miso.eq(flash.miso),
    ]

    platform.build(module)
    prog = platform.create_programmer()
    prog.load_bitstream('build/impl/pnr/project.fs')

    dev = SerialFlashManager.get_flash_device("ftdi://ftdi:2232/2")
    dev.TIMINGS['chip'] = (4, 60)  # chip is too slow
    print("Erasing flash...")
    dev.erase(0, -1)

    with open(path, 'rb') as f:
        bios = f.read()

    print("Programming flash...")
    dev.write(offset, bios)
Exemplo n.º 3
0
 def test_flashdevice_1_name(self):
     """Retrieve device name
     """
     self.flash = SerialFlashManager.get_flash_device(self.ftdi_url, 0,
                                                      self.frequency)
     print("Flash device: %s @ SPI freq %0.1f MHz" %
           (self.flash, self.flash.spi_frequency/1E6))
Exemplo n.º 4
0
def flash(bios_flash_offset):
    # Prepare Flash image.
    # --------------------
    bitstream = open("build/tec0117/gateware/impl/pnr/project.bin", "rb")
    bios = open("build/tec0117/software/bios/bios.bin", "rb")
    image = open("build/tec0117/image.bin", "wb")
    # Copy Bitstream at 0.
    blength = 0
    while True:
        b = bitstream.read(1)
        if not b:
            break
        else:
            image.write(b)
            blength += 1
    # Check Bitstream/BIOS overlap.
    if blength > bios_flash_offset:
        raise ValueError(
            f"Bitstream/BIOS overlap 0x{blength:08x} vs 0x{bios_flash_offset:08x}, increase BIOS Flash offset."
        )
    # Fill Gap between Bitstream/BIOS with zeroes.
    for i in range(bios_flash_offset - blength):
        image.write(0x00.to_bytes(1, "big"))
    # Copy BIOS at bios_flash_offset
    while True:
        b = bios.read(1)
        if not b:
            break
        else:
            image.write(b)

    # Create FTDI <--> SPI Flash proxy bitstream and load it.
    # -------------------------------------------------------
    platform = tec0117.Platform()
    flash = platform.request("spiflash", 0)
    bus = platform.request("spiflash", 1)
    module = Module()
    module.comb += [
        flash.clk.eq(bus.clk),
        flash.cs_n.eq(bus.cs_n),
        flash.mosi.eq(bus.mosi),
        bus.miso.eq(flash.miso),
    ]
    platform.build(module)
    prog = platform.create_programmer()
    prog.load_bitstream("build/impl/pnr/project.fs")

    # Flash Image through proxy Bitstream.
    # ------------------------------------
    from spiflash.serialflash import SerialFlashManager
    dev = SerialFlashManager.get_flash_device("ftdi://ftdi:2232/2")
    dev.TIMINGS["chip"] = (4, 60)  # Chip is too slow
    print("Erasing flash...")
    dev.erase(0, -1)
    with open("build/tec0117/image.bin", "rb") as f:
        image = f.read()
    print("Programming flash...")
    dev.write(0, image)
Exemplo n.º 5
0
 def test_flashdevice_2_read_bandwidth(self):
     """Read the whole device to get READ bandwith
     """
     self.flash = SerialFlashManager.get_flash_device(self.ftdi_url, 0,
                                                      self.frequency)
     delta = now()
     data = self.flash.read(0, len(self.flash))
     delta = now()-delta
     length = len(data)
     self._report_bw('Read', length, delta)
Exemplo n.º 6
0
 def test_flashdevice_3_small_rw(self):
     """Short R/W test
     """
     self.flash = SerialFlashManager.get_flash_device(self.ftdi_url, 0,
                                                      self.frequency)
     self.flash.unlock()
     self.flash.erase(0x007000, 4096)
     data = self.flash.read(0x007020, 128)
     ref = bytes([0xff] * 128)
     self.assertEqual(data, ref)
     test = 'This is a serial SPI flash test.' * 3
     ref2 = bytearray(test.encode('ascii'))
     self.flash.write(0x007020, ref2)
     data = self.flash.read(0x007020, 128)
     ref2.extend(ref)
     ref2 = ref2[:128]
     self.assertEqual(data, ref2)
Exemplo n.º 7
0
 def setUp(self):
     # FTDI device should be tweak to your actual setup
     self.flash = SerialFlashManager.get_flash_device(0x403, 0x6010, 1)
Exemplo n.º 8
0
 def test_flashdevice_4_long_rw(self):
     """Long R/W test
     """
     # Max size to perform the test on
     size = 1 << 20
     # Whether to test with random value, or contiguous values to ease debug
     randomize = True
     # Fill in the whole flash with a monotonic increasing value, that is
     # the current flash 32-bit address, then verify the sequence has been
     # properly read back
     # limit the test to 1MiB to keep the test duration short, but performs
     # test at the end of the flash to verify that high addresses may be
     # reached
     self.flash = SerialFlashManager.get_flash_device(self.ftdi_url, 0,
                                                      self.frequency)
     length = min(len(self.flash), size)
     start = len(self.flash)-length
     print("Erase %s from flash @ 0x%06x (may take a while...)" %
           (pretty_size(length), start))
     delta = now()
     self.flash.unlock()
     self.flash.erase(start, length, True)
     delta = now()-delta
     self._report_bw('Erased', length, delta)
     if str(self.flash).startswith('SST'):
         # SST25 flash devices are tremendously slow at writing (one or two
         # bytes per SPI request MAX...). So keep the test sequence short
         # enough
         length = 16 << 10
     print("Build test sequence")
     if not randomize:
         buf = bytearray()
         for address in range(0, length, 4):
             buf.extend(spack('>I', address))
         # Expect to run on x86 or ARM (little endian), so swap the values
         # to ease debugging
     else:
         seed(0)
         buf = bytearray()
         buf.extend((randint(0, 255) for _ in range(0, length)))
     print("Writing %s to flash (may take a while...)" %
           pretty_size(len(buf)))
     delta = now()
     self.flash.write(start, buf)
     delta = now()-delta
     length = len(buf)
     self._report_bw('Wrote', length, delta)
     wmd = sha1()
     wmd.update(buf)
     refdigest = wmd.hexdigest()
     print("Reading %s from flash" % pretty_size(length))
     delta = now()
     back = self.flash.read(start, length)
     delta = now()-delta
     self._report_bw('Read', length, delta)
     # print "Dump flash"
     # print hexdump(back.tobytes())
     print("Verify flash")
     rmd = sha1()
     rmd.update(back)
     newdigest = rmd.hexdigest()
     print("Reference:", refdigest)
     print("Retrieved:", newdigest)
     if refdigest != newdigest:
         errcount = 0
         for pos in range(len(buf)):
             if buf[pos] != back[pos]:
                 print('Invalid byte @ offset 0x%06x: 0x%02x / 0x%02x' %
                       (pos, buf[pos], back[pos]))
                 errcount += 1
                 # Stop report after 16 errors
                 if errcount >= 32:
                     break
         raise self.fail('Data comparison mismatch')
Exemplo n.º 9
0
 def setUp(self):
     freq = float(environ.get('SPI_FREQUENCY', 12E6))
     self.flash = SerialFlashManager.get_flash_device(self.ftdi_url, 0,
                                                      freq)
Exemplo n.º 10
0
 def setUp(self):
     # FTDI device should be tweak to your actual setup
     self.flash = SerialFlashManager.get_flash_device(0x403, 0x6010, 1)