class Dionysus(Olympus):
"""Dionysus
Concrete Class that implements Dionysus specific communication functions
"""
def __init__(self, idVendor=0x0403, idProduct=0x8530, debug = False):
Olympus.__init__(self, debug)
self.vendor = idVendor
self.product = idProduct
self.dev = Ftdi()
self._open_dev()
self.name = "Dionysus"
def __del__(self):
self.dev.close()
def _open_dev(self):
"""_open_dev
Open an FTDI communication channel
Args:
Nothing
Returns:
Nothing
Raises:
Exception
"""
frequency = 30.0E6
#Latency can go down t 2 but when set there is a small chance that there is a crash
latency = 4
self.dev.open(self.vendor, self.product, 0)
# Drain input buffer
self.dev.purge_buffers()
# Reset
# Enable MPSSE mode
self.dev.set_bitmode(0x00, Ftdi.BITMODE_SYNCFF)
# Configure clock
frequency = self.dev._set_frequency(frequency)
# Set latency timer
self.dev.set_latency_timer(latency)
# Set chunk size
self.dev.write_data_set_chunksize(0x10000)
self.dev.read_data_set_chunksize(0x10000)
self.dev.set_flowctrl('hw')
self.dev.purge_buffers()
def read(self, device_id, address, length = 1, mem_device = False):
"""read
read data from the Olympus image
Args:
device_id: Device identification number, found in the DRT
address: Address of the register/memory to read
mem_device: True if the device is on the memory bus
length: Number of 32 bit words to read from the FPGA
Returns:
A byte array containing the raw data returned from Olympus
Raises:
OlympusCommError
"""
read_data = Array('B')
write_data = Array('B', [0xCD, 0x02])
if mem_device:
if self.debug:
print "memory device"
write_data = Array ('B', [0xCD, 0x12])
fmt_string = "%06X" % (length)
write_data.fromstring(fmt_string.decode('hex'))
offset_string = "00"
if not mem_device:
offset_string = "%02X" % device_id
write_data.fromstring(offset_string.decode('hex'))
addr_string = "%06X" % address
write_data.fromstring(addr_string.decode('hex'))
if self.debug:
print "data read string: " + str(write_data)
self.dev.purge_buffers()
self.dev.write_data(write_data)
timeout = time.time() + self.read_timeout
rsp = Array('B')
while time.time() < timeout:
response = self.dev.read_data(1)
if len(response) > 0:
rsp = Array('B')
rsp.fromstring(response)
if rsp[0] == 0xDC:
if self.debug:
print "Got a response"
break
if len(rsp) > 0:
if rsp[0] != 0xDC:
if self.debug:
print "Response not found"
raise OlympusCommError("Did not find identification byte (0xDC): %s" % str(rsp))
else:
if self.debug:
print "No Response found"
raise OlympusCommError("Timeout while waiting for a response")
#I need to watch out for the modem status bytes
read_count = 0
response = Array('B')
rsp = Array('B')
timeout = time.time() + self.read_timeout
while (time.time() < timeout) and (read_count < (length * 4 + 8)):
response = self.dev.read_data((length * 4 + 8 ) - read_count)
temp = Array('B')
temp.fromstring(response)
#print "temp: %s", str(temp)
if (len(temp) > 0):
rsp += temp
read_count = len(rsp)
if self.debug:
print "read length = %d, total length = %d" % (len(rsp), (length * 4 + 8))
print "time left on timeout: %d" % (timeout - time.time())
if self.debug:
print "response length: " + str(length * 4 + 8)
print "response status:\n\t" + str(rsp[:8])
print "response data:\n" + str(rsp[8:])
return rsp[8:]
def write(self, device_id, address, data=None, mem_device = False):
"""write
Write data to an Olympus image
Args:
device_id: Device identification number, found in the DRT
address: Address of the register/memory to read
mem_device: True if the device is on the memory bus
data: Array of raw bytes to send to the device
Returns:
Nothing
Raises:
OlympusCommError
"""
length = len(data) / 4
# ID 01 NN NN NN OO AA AA AA DD DD DD DD
# ID = ID BYTE (0xCD)
# 01 = Write Command
# NN = Size of write (3 bytes)
# OO = Offset of device
# AA = Address (4 bytes)
# DD = Data (4 bytes)
#create an array with the identification byte (0xCD)
#and code for write (0x01)
data_out = Array('B', [0xCD, 0x01])
if mem_device:
if self.debug:
print "memory device"
data_out = Array ('B', [0xCD, 0x11])
"""
print "write command:\n\t" + str(data_out[:9])
for i in range (0, len(data_out)):
print str(hex(data_out[i])) + ", ",
print " "
"""
#append the length into the frist 32 bits
fmt_string = "%06X" % (length)
data_out.fromstring(fmt_string.decode('hex'))
offset_string = "00"
if not mem_device:
offset_string = "%02X" % device_id
data_out.fromstring(offset_string.decode('hex'))
addr_string = "%06X" % address
data_out.fromstring(addr_string.decode('hex'))
data_out.extend(data)
"""
#if (self.debug):
print "data write string:\n"
print "write command:\n\t" + str(data_out[:9])
for i in range (0, 9):
print str(hex(data_out[i])) + ", ",
print " "
"""
#print "write data:\n" + str(data_out[9:])
#avoid the akward stale bug
self.dev.purge_buffers()
self.dev.write_data(data_out)
rsp = Array('B')
timeout = time.time() + self.read_timeout
while time.time() < timeout:
response = self.dev.read_data(1)
if len(response) > 0:
rsp = Array('B')
rsp.fromstring(response)
if rsp[0] == 0xDC:
if self.debug:
print "Got a response"
break
if (len(rsp) > 0):
if rsp[0] != 0xDC:
if self.debug:
print "Response not found"
raise OlympusCommError("Did not find identification byte (0xDC): %s" % str(rsp))
else:
if self.debug:
print "No Response"
raise OlympusCommError("Timeout while waiting for a response")
response = self.dev.read_data(8)
rsp = Array('B')
rsp.fromstring(response)
if self.debug:
print "Response: " + str(rsp)
def ping(self):
"""ping
Pings the Olympus image
Args:
Nothing
Returns:
Nothing
Raises:
OlympusCommError
"""
data = Array('B')
data.extend([0XCD, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00]);
if self.debug:
print "Sending ping...",
self.dev.write_data(data)
rsp = Array('B')
temp = Array('B')
timeout = time.time() + self.read_timeout
while time.time() < timeout:
response = self.dev.read_data(5)
if self.debug:
print ".",
rsp = Array('B')
rsp.fromstring(response)
temp.extend(rsp)
if 0xDC in rsp:
if self.debug:
print "Got a response"
print "Response: %s" % str(temp)
break
if not 0xDC in rsp:
if self.debug:
print "ID byte not found in response"
print "temp: " + str(temp)
raise OlympusCommError("Ping response did not contain ID: %s" % str(temp))
index = rsp.index(0xDC) + 1
read_data = Array('B')
read_data.extend(rsp[index:])
num = 3 - index
read_data.fromstring(self.dev.read_data(num))
if self.debug:
print "Success!"
return
def reset(self):
"""reset
Software reset the Olympus FPGA Master, this may not actually reset the
entire FPGA image
Args:
Nothing
Returns:
Nothing
Raises:
OlympusCommError: A failure of communication is detected
"""
data = Array('B')
data.extend([0XCD, 0x03, 0x00, 0x00, 0x00]);
if self.debug:
print "Sending reset..."
self.dev.purge_buffers()
self.dev.write_data(data)
def dump_core(self):
"""dump_core
reads the state of the wishbone master prior to a reset, useful for
debugging
Args:
Nothing
Returns:
Array of 32-bit values to be parsed by core_analyzer
Raises:
AssertionError: This function must be overriden by a board specific
implementation
OlympusCommError: A failure of communication is detected
"""
data = Array('B')
data.extend([0xCD, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00]);
print "Sending core dump request..."
self.dev.purge_buffers()
self.dev.write_data(data)
core_dump = Array('L')
wait_time = 5
timeout = time.time() + wait_time
temp = Array ('B')
while time.time() < timeout:
response = self.dev.read_data(1)
rsp = Array('B')
rsp.fromstring(response)
temp.extend(rsp)
if 0xDC in rsp:
print "Got a response"
break
if not 0xDC in rsp:
print "Response not found"
raise OlympusCommError("Response Not Found")
rsp = Array('B')
read_total = 4
read_count = len(rsp)
#get the number of items from the address
timeout = time.time() + wait_time
while (time.time() < timeout) and (read_count < read_total):
response = self.dev.read_data(read_total - read_count)
temp = Array('B')
temp.fromstring(response)
if (len(temp) > 0):
rsp += temp
read_count = len(rsp)
print "Length of read: %d" % len(rsp)
print "Data: %s" % str(rsp)
count = ( rsp[1] << 16 | rsp[2] << 8 | rsp[3]) * 4
print "Number of core registers: %d" % (count / 4)
#get the core dump data
timeout = time.time() + wait_time
read_total = count
read_count = 0
temp = Array ('B')
rsp = Array('B')
while (time.time() < timeout) and (read_count < read_total):
response = self.dev.read_data(read_total - read_count)
temp = Array('B')
temp.fromstring(response)
if (len(temp) > 0):
rsp += temp
read_count = len(rsp)
print "Length read: %d" % (len(rsp) / 4)
print "Data: %s" % str(rsp)
core_data = Array('L')
for i in range (0, count, 4):
print "count: %d" % i
core_data.append(rsp[i] << 24 | rsp[i + 1] << 16 | rsp[i + 2] << 8 | rsp[i + 3])
#if self.debug:
print "core data: " + str(core_data)
return core_data
def wait_for_interrupts(self, wait_time = 1):
"""wait_for_interrupts
listen for interrupts for the specified amount of time
Args:
wait_time: the amount of time in seconds to wait for an interrupt
Returns:
True: Interrupts were detected
False: No interrupts detected
Raises:
Nothing
"""
timeout = time.time() + wait_time
temp = Array ('B')
while time.time() < timeout:
response = self.dev.read_data(1)
rsp = Array('B')
rsp.fromstring(response)
temp.extend(rsp)
if 0xDC in rsp:
if self.debug:
print "Got a response"
break
if not 0xDC in rsp:
if self.debug:
print "Response not found"
return False
read_total = 9
read_count = len(rsp)
#print "read_count: %s" % str(rsp)
while (time.time() < timeout) and (read_count < read_total):
response = self.dev.read_data(read_total - read_count)
temp = Array('B')
temp.fromstring(response)
#print "temp: %s", str(temp)
if (len(temp) > 0):
rsp += temp
read_count = len(rsp)
#print "read_count: %s" % str(rsp)
index = rsp.index(0xDC) + 1
read_data = Array('B')
read_data.extend(rsp[index:])
#print "read_data: " + str(rsp)
self.interrupts = read_data[-4] << 24 | read_data[-3] << 16 | read_data[-2] << 8 | read_data[-1]
if self.debug:
print "interrupts: " + str(self.interrupts)
return True
def comm_debug(self):
"""comm_debug
A function that the end user will probably not interract with
This is here to simply debug a communication medium
Args:
Nothing
Returns:
Nothing
Raises:
Nothing
"""
#self.dev.set_dtr_rts(True, True)
#self.dev.set_dtr(False)
print "CTS: " + str(self.dev.get_cts())
# print "DSR: " + str(self.dev.get_dsr())
s1 = self.dev.modem_status()
print "S1: " + str(s1)
class FifoController (object):
SYNC_FIFO_INTERFACE = 1
SYNC_FIFO_INDEX = 0
def __init__(self, idVendor, idProduct):
self.vendor = idVendor
self.product = idProduct
self.f = Ftdi()
def set_sync_fifo(self, frequency=30.0E6, latency=2):
"""Configure the interface for synchronous FIFO mode"""
# Open an FTDI interface
# self.f.open(self.vendor, self.product, self.SYNC_FIFO_INTERFACE, self.SYNC_FIFO_INDEX, None, None)
self.f.open(self.vendor, self.product, 0)
# Drain input buffer
self.f.purge_buffers()
# Reset
# Enable MPSSE mode
self.f.set_bitmode(0x00, Ftdi.BITMODE_SYNCFF)
# Configure clock
frequency = self.f._set_frequency(frequency)
# Set latency timer
self.f.set_latency_timer(latency)
# Set chunk size
self.f.write_data_set_chunksize(0x10000)
self.f.read_data_set_chunksize(0x10000)
self.f.set_flowctrl('hw')
# Configure I/O
# self.write_data(Array('B', [Ftdi.SET_BITS_LOW, 0x00, 0x00]))
# Disable loopback
# self.write_data(Array('B', [Ftdi.LOOPBACK_END]))
# self.validate_mpsse()
# Drain input buffer
self.f.purge_buffers()
# Return the actual frequency
return frequency
def set_async_fifo(self, frequency=6.0E6, latency=2):
"""Configure the interface for synchronous FIFO mode"""
# Open an FTDI interface
self.f.open(self.vendor, self.product, self.SYNC_FIFO_INTERFACE, self.SYNC_FIFO_INDEX, None, None)
# Set latency timer
self.f.set_latency_timer(latency)
# Set chunk size
self.f.write_data_set_chunksize(512)
self.f.read_data_set_chunksize(512)
# Drain input buffer
self.f.purge_buffers()
# Enable MPSSE mode
self.f.set_bitmode(0x00, Ftdi.BITMODE_BITBANG)
# Configure clock
frequency = self.f._set_frequency(frequency)
# Configure I/O
# self.write_data(Array('B', [Ftdi.SET_BITS_LOW, 0x00, 0x00]))
# Disable loopback
# self.write_data(Array('B', [Ftdi.LOOPBACK_END]))
# self.validate_mpsse()
# Drain input buffer
self.f.purge_buffers()
# Return the actual frequency
return frequency
class FifoController(object):
SYNC_FIFO_INTERFACE = 1
SYNC_FIFO_INDEX = 0
def __init__(self, idVendor, idProduct):
self.vendor = idVendor
self.product = idProduct
self.f = Ftdi()
def set_sync_fifo(self, frequency=30.0E6, latency=2):
"""Configure the interface for synchronous FIFO mode"""
# Open an FTDI interface
# self.f.open(self.vendor, self.product, self.SYNC_FIFO_INTERFACE, self.SYNC_FIFO_INDEX, None, None)
self.f.open(self.vendor, self.product, 0)
# Drain input buffer
self.f.purge_buffers()
# Reset
# Enable MPSSE mode
self.f.set_bitmode(0x00, Ftdi.BITMODE_SYNCFF)
# Configure clock
frequency = self.f._set_frequency(frequency)
# Set latency timer
self.f.set_latency_timer(latency)
# Set chunk size
self.f.write_data_set_chunksize(0x10000)
self.f.read_data_set_chunksize(0x10000)
self.f.set_flowctrl('hw')
# Configure I/O
# self.write_data(Array('B', [Ftdi.SET_BITS_LOW, 0x00, 0x00]))
# Disable loopback
# self.write_data(Array('B', [Ftdi.LOOPBACK_END]))
# self.validate_mpsse()
# Drain input buffer
self.f.purge_buffers()
# Return the actual frequency
return frequency
def set_async_fifo(self, frequency=6.0E6, latency=2):
"""Configure the interface for synchronous FIFO mode"""
# Open an FTDI interface
self.f.open(self.vendor, self.product, self.SYNC_FIFO_INTERFACE,
self.SYNC_FIFO_INDEX, None, None)
# Set latency timer
self.f.set_latency_timer(latency)
# Set chunk size
self.f.write_data_set_chunksize(512)
self.f.read_data_set_chunksize(512)
# Drain input buffer
self.f.purge_buffers()
# Enable MPSSE mode
self.f.set_bitmode(0x00, Ftdi.BITMODE_BITBANG)
# Configure clock
frequency = self.f._set_frequency(frequency)
# Configure I/O
# self.write_data(Array('B', [Ftdi.SET_BITS_LOW, 0x00, 0x00]))
# Disable loopback
# self.write_data(Array('B', [Ftdi.LOOPBACK_END]))
# self.validate_mpsse()
# Drain input buffer
self.f.purge_buffers()
# Return the actual frequency
return frequency
