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|
#
# Copyright 2018 Ettus Research, a National Instruments Company
#
# SPDX-License-Identifier: GPL-3.0-or-later
#
"""
E320 implementation module
"""
from __future__ import print_function
import bisect
import copy
import re
import threading
from six import iteritems, itervalues
from usrp_mpm.components import ZynqComponents
from usrp_mpm.dboard_manager import Neon
from usrp_mpm.gpsd_iface import GPSDIfaceExtension
from usrp_mpm.mpmtypes import SID
from usrp_mpm.mpmutils import assert_compat_number, str2bool
from usrp_mpm.periph_manager import PeriphManagerBase
from usrp_mpm.rpc_server import no_rpc
from usrp_mpm.sys_utils import dtoverlay
from usrp_mpm.sys_utils.sysfs_thermal import read_thermal_sensor_value, read_thermal_sensors_value
from usrp_mpm.sys_utils.udev import get_spidev_nodes
from usrp_mpm.xports import XportMgrUDP, XportMgrLiberio
from usrp_mpm.periph_manager.e320_periphs import MboardRegsControl
E320_DEFAULT_INT_CLOCK_FREQ = 20e6
E320_DEFAULT_EXT_CLOCK_FREQ = 10e6
E320_DEFAULT_CLOCK_SOURCE = 'internal'
E320_DEFAULT_TIME_SOURCE = 'internal'
E320_DEFAULT_ENABLE_GPS = True
E320_DEFAULT_ENABLE_FPGPIO = True
E320_FPGA_COMPAT = (3, 1)
E320_MONITOR_THREAD_INTERVAL = 1.0 # seconds
E320_DBOARD_SLOT_IDX = 0
###############################################################################
# Transport managers
###############################################################################
class E320XportMgrUDP(XportMgrUDP):
"E320-specific UDP configuration"
xbar_dev = "/dev/crossbar0"
iface_config = {
'sfp0': {
'label': 'misc-enet-regs',
'xbar': 0,
'xbar_port': 0,
'ctrl_src_addr': 0,
}
}
class E320XportMgrLiberio(XportMgrLiberio):
" E320-specific Liberio configuration "
max_chan = 6
xbar_dev = "/dev/crossbar0"
xbar_port = 1
###############################################################################
# Main Class
###############################################################################
class e320(ZynqComponents, PeriphManagerBase):
"""
Holds E320 specific attributes and methods
"""
#########################################################################
# Overridables
#
# See PeriphManagerBase for documentation on these fields
#########################################################################
description = "E300-Series Device"
pids = {0xe320: 'e320'}
mboard_eeprom_addr = "e0004000.i2c"
mboard_eeprom_offset = 0
mboard_eeprom_max_len = 256
mboard_info = {"type": "e3xx",
"product": "e320"
}
mboard_max_rev = 2 # RevB
mboard_sensor_callback_map = {
'ref_locked': 'get_ref_lock_sensor',
'gps_locked': 'get_gps_lock_sensor',
'fan': 'get_fan_sensor',
'temp_fpga' : 'get_fpga_temp_sensor',
'temp_internal' : 'get_internal_temp_sensor',
'temp_rf_channelA' : 'get_rf_channelA_temp_sensor',
'temp_rf_channelB' : 'get_rf_channelB_temp_sensor',
'temp_main_power' : 'get_main_power_temp_sensor',
}
max_num_dboards = 1
# We're on a Zynq target, so the following two come from the Zynq standard
# device tree overlay (tree/arch/arm/boot/dts/zynq-7000.dtsi)
dboard_spimaster_addrs = ["e0006000.spi", "e0007000.spi"]
# E320-specific settings
# Label for the mboard UIO
mboard_regs_label = "mboard-regs"
# Override the list of updateable components
updateable_components = {
'fpga': {
'callback': "update_fpga",
'path': '/lib/firmware/{}.bin',
'reset': True,
},
'dts': {
'callback': "update_dts",
'path': '/lib/firmware/{}.dts',
'output': '/lib/firmware/{}.dtbo',
'reset': False,
},
}
@staticmethod
def list_required_dt_overlays(device_info):
"""
Lists device tree overlays that need to be applied before this class can
be used. List of strings.
Are applied in order.
eeprom_md -- Dictionary of info read out from the mboard EEPROM
device_args -- Arbitrary dictionary of info, typically user-defined
"""
return [device_info['product']]
###########################################################################
# Ctor and device initialization tasks
###########################################################################
def __init__(self, args):
super(e320, self).__init__(args)
if not self._device_initialized:
# Don't try and figure out what's going on. Just give up.
return
self._tear_down = False
self._status_monitor_thread = None
self._ext_clock_freq = E320_DEFAULT_EXT_CLOCK_FREQ
self._clock_source = None
self._time_source = None
self._available_endpoints = list(range(256))
self._gpsd = None
self.dboard = self.dboards[E320_DBOARD_SLOT_IDX]
from functools import partial
for sensor_name, sensor_cb_name in self.mboard_sensor_callback_map.items():
if sensor_name[:5] == 'temp_':
setattr(self, sensor_cb_name, partial(self.get_temp_sensor, sensor_name))
try:
self._init_peripherals(args)
except Exception as ex:
self.log.error("Failed to initialize motherboard: %s", str(ex))
self._initialization_status = str(ex)
self._device_initialized = False
def _init_dboards(self, _, override_dboard_pids, default_args):
"""
Initialize all the daughterboards
(dboard_infos) -- N/A
override_dboard_pids -- List of dboard PIDs to force
default_args -- Default args
"""
# Override the base class's implementation in order to avoid initializing our one "dboard"
# in the same way that, for example, N310's dboards are initialized. Specifically,
# - skip dboard EEPROM setup (we don't have one)
# - change the way we handle SPI devices
if override_dboard_pids:
self.log.warning("Overriding daughterboard PIDs with: {}"
.format(override_dboard_pids))
raise NotImplementedError("Can't override dboard pids")
# The DBoard PID is the same as the MBoard PID
db_pid = list(self.pids.keys())[0]
# Set up the SPI nodes
spi_nodes = []
for spi_addr in self.dboard_spimaster_addrs:
for spi_node in get_spidev_nodes(spi_addr):
bisect.insort(spi_nodes, spi_node)
self.log.trace("Found spidev nodes: {0}".format(spi_nodes))
if not spi_nodes:
self.log.warning("No SPI nodes for dboard %d.", E320_DBOARD_SLOT_IDX)
dboard_info = {
'eeprom_md': self.mboard_info,
'eeprom_rawdata': self._eeprom_rawdata,
'pid': db_pid,
'spi_nodes': spi_nodes,
'default_args': default_args,
}
# This will actually instantiate the dboard class:
self.dboards.append(Neon(E320_DBOARD_SLOT_IDX, **dboard_info))
self.log.info("Found %d daughterboard(s).", len(self.dboards))
def _check_fpga_compat(self):
" Throw an exception if the compat numbers don't match up "
actual_compat = self.mboard_regs_control.get_compat_number()
self.log.debug("Actual FPGA compat number: {:d}.{:d}".format(
actual_compat[0], actual_compat[1]
))
assert_compat_number(
E320_FPGA_COMPAT,
self.mboard_regs_control.get_compat_number(),
component="FPGA",
fail_on_old_minor=True,
log=self.log
)
def _init_ref_clock_and_time(self, default_args):
"""
Initialize clock and time sources. After this function returns, the
reference signals going to the FPGA are valid.
"""
self._ext_clock_freq = float(
default_args.get('ext_clock_freq', E320_DEFAULT_EXT_CLOCK_FREQ)
)
if not self.dboards:
self.log.warning(
"No dboards found, skipping setting clock and time source "
"configuration."
)
self._clock_source = E320_DEFAULT_CLOCK_SOURCE
self._time_source = E320_DEFAULT_TIME_SOURCE
else:
self.set_clock_source(
default_args.get('clock_source', E320_DEFAULT_CLOCK_SOURCE)
)
self.set_time_source(
default_args.get('time_source', E320_DEFAULT_TIME_SOURCE)
)
def _monitor_status(self):
"""
Status monitoring thread: This should be executed in a thread. It will
continuously monitor status of the following peripherals:
- GPS lock
"""
self.log.trace("Launching monitor loop...")
cond = threading.Condition()
cond.acquire()
while not self._tear_down:
gps_locked = self.get_gps_lock_sensor()['value'] == 'true'
# Now wait
if cond.wait_for(
lambda: self._tear_down,
E320_MONITOR_THREAD_INTERVAL):
break
cond.release()
self.log.trace("Terminating monitor loop.")
def _init_peripherals(self, args):
"""
Turn on all peripherals. This may throw an error on failure, so make
sure to catch it.
Peripherals are initialized in the order of least likely to fail, to most
likely.
"""
# Sanity checks
assert self.mboard_info.get('product') in self.pids.values(), \
"Device product could not be determined!"
# Init Mboard Regs
self.mboard_regs_control = MboardRegsControl(
self.mboard_regs_label, self.log)
self.mboard_regs_control.get_git_hash()
self.mboard_regs_control.get_build_timestamp()
self._check_fpga_compat()
self._update_fpga_type()
self.crossbar_base_port = self.mboard_regs_control.get_xbar_baseport()
# Init peripherals
self.enable_gps(
enable=str2bool(
args.get('enable_gps', E320_DEFAULT_ENABLE_GPS)
)
)
self.enable_fp_gpio(
enable=args.get(
'enable_fp_gpio',
E320_DEFAULT_ENABLE_FPGPIO
)
)
# Init clocking
self._init_ref_clock_and_time(args)
# Init GPSd iface and GPS sensors
self._init_gps_sensors()
# Init CHDR transports
self._xport_mgrs = {
'udp': E320XportMgrUDP(self.log.getChild('UDP'), args),
'liberio': E320XportMgrLiberio(self.log.getChild('liberio')),
}
# Spawn status monitoring thread
self.log.trace("Spawning status monitor thread...")
self._status_monitor_thread = threading.Thread(
target=self._monitor_status,
name="E320StatusMonitorThread",
daemon=True,
)
self._status_monitor_thread.start()
# Init complete.
self.log.debug("mboard info: {}".format(self.mboard_info))
def _init_gps_sensors(self):
"Init and register the GPSd Iface and related sensor functions"
self.log.trace("Initializing GPSd interface")
self._gpsd = GPSDIfaceExtension()
new_methods = self._gpsd.extend(self)
for method_name in new_methods:
try:
# Extract the sensor name from the getter
sensor_name = re.search(r"get_(.*)_sensor", method_name).group(1)
# Register it with the MB sensor framework
self.mboard_sensor_callback_map[sensor_name] = method_name
self.log.trace("Adding %s sensor function", sensor_name)
except AttributeError:
# re.search will return None is if can't find the sensor name
self.log.warning("Error while registering sensor function: %s", method_name)
###########################################################################
# Session init and deinit
###########################################################################
def init(self, args):
"""
Calls init() on the parent class, and then programs the Ethernet
dispatchers accordingly.
"""
if not self._device_initialized:
self.log.warning(
"Cannot run init(), device was never fully initialized!")
return False
if args.get("clock_source", "") != "":
self.set_clock_source(args.get("clock_source"))
if args.get("time_source", "") != "":
self.set_time_source(args.get("time_source"))
result = super(e320, self).init(args)
for xport_mgr in itervalues(self._xport_mgrs):
xport_mgr.init(args)
return result
def deinit(self):
"""
Clean up after a UHD session terminates.
"""
if not self._device_initialized:
self.log.warning(
"Cannot run deinit(), device was never fully initialized!")
return
super(e320, self).deinit()
for xport_mgr in itervalues(self._xport_mgrs):
xport_mgr.deinit()
self.log.trace("Resetting SID pool...")
self._available_endpoints = list(range(256))
def tear_down(self):
"""
Tear down all members that need to be specially handled before
deconstruction.
For E320, this means the overlay.
"""
self.log.trace("Tearing down E320 device...")
self._tear_down = True
if self._device_initialized:
self._status_monitor_thread.join(3 * E320_MONITOR_THREAD_INTERVAL)
if self._status_monitor_thread.is_alive():
self.log.error("Could not terminate monitor thread! This could result in resource leaks.")
active_overlays = self.list_active_overlays()
self.log.trace("E320 has active device tree overlays: {}".format(
active_overlays
))
for overlay in active_overlays:
dtoverlay.rm_overlay(overlay)
###########################################################################
# Transport API
###########################################################################
def request_xport(
self,
dst_address,
suggested_src_address,
xport_type
):
"""
See PeriphManagerBase.request_xport() for docs.
"""
# Try suggested address first, then just pick the first available one:
src_address = suggested_src_address
if src_address not in self._available_endpoints:
if not self._available_endpoints:
raise RuntimeError(
"Depleted pool of SID endpoints for this device!")
else:
src_address = self._available_endpoints[0]
sid = SID(src_address << 16 | dst_address)
# Note: This SID may change its source address!
self.log.trace(
"request_xport(dst=0x%04X, suggested_src_address=0x%04X, xport_type=%s): " \
"operating on temporary SID: %s",
dst_address, suggested_src_address, str(xport_type), str(sid))
# FIXME token!
assert self.mboard_info['rpc_connection'] in ('remote', 'local')
if self.mboard_info['rpc_connection'] == 'remote':
return self._xport_mgrs['udp'].request_xport(
sid,
xport_type,
)
elif self.mboard_info['rpc_connection'] == 'local':
return self._xport_mgrs['liberio'].request_xport(
sid,
xport_type,
)
def commit_xport(self, xport_info):
"""
See PeriphManagerBase.commit_xport() for docs.
Reminder: All connections are incoming, i.e. "send" or "TX" means
remote device to local device, and "receive" or "RX" means this local
device to remote device. "Remote device" can be, for example, a UHD
session.
"""
## Go, go, go
assert self.mboard_info['rpc_connection'] in ('remote', 'local')
sid = SID(xport_info['send_sid'])
self._available_endpoints.remove(sid.src_ep)
self.log.debug("Committing transport for SID %s, xport info: %s",
str(sid), str(xport_info))
if self.mboard_info['rpc_connection'] == 'remote':
return self._xport_mgrs['udp'].commit_xport(sid, xport_info)
elif self.mboard_info['rpc_connection'] == 'local':
return self._xport_mgrs['liberio'].commit_xport(sid, xport_info)
###########################################################################
# Device info
###########################################################################
def get_device_info_dyn(self):
"""
Append the device info with current IP addresses.
"""
if not self._device_initialized:
return {}
device_info = self._xport_mgrs['udp'].get_xport_info()
device_info.update({
'fpga_version': "{}.{}".format(
*self.mboard_regs_control.get_compat_number()),
'fpga': self.updateable_components.get('fpga', {}).get('type',""),
})
return device_info
###########################################################################
# Clock/Time API
###########################################################################
def get_clock_sources(self):
" Lists all available clock sources. "
self.log.trace("Listing available clock sources...")
return ('external', 'internal', 'gpsdo')
def get_clock_source(self):
" Returns the currently selected clock source "
return self._clock_source
def set_clock_source(self, *args):
"""
Switch reference clock.
Throws if clock_source is not a valid value.
"""
clock_source = args[0]
assert clock_source in self.get_clock_sources()
self.log.debug("Setting clock source to `{}'".format(clock_source))
if clock_source == self.get_clock_source():
self.log.trace("Nothing to do -- clock source already set.")
return
self._clock_source = clock_source
ref_clk_freq = self.get_ref_clock_freq()
self.mboard_regs_control.set_clock_source(clock_source, ref_clk_freq)
self.log.debug("Reference clock frequency is: {} MHz".format(
ref_clk_freq/1e6
))
self.dboard.update_ref_clock_freq(ref_clk_freq)
def set_ref_clock_freq(self, freq):
"""
Tell our USRP what the frequency of the external reference clock is.
Will throw if it's not a valid value.
"""
# Other frequencies have not been tested
assert freq in (10e6, 20e6)
self.log.debug("We've been told the external reference clock " \
"frequency is {} MHz.".format(freq / 1e6))
if self._ext_clock_freq == freq:
self.log.trace("New external reference clock frequency " \
"assignment matches previous assignment. Ignoring " \
"update command.")
return
self._ext_clock_freq = freq
if self.get_clock_source() == 'external':
for slot, dboard in enumerate(self.dboards):
if hasattr(dboard, 'update_ref_clock_freq'):
self.log.trace(
"Updating reference clock on dboard %d to %f MHz...",
slot, freq/1e6
)
dboard.update_ref_clock_freq(freq)
def get_ref_clock_freq(self):
" Returns the currently active reference clock frequency"
clock_source = self.get_clock_source()
if clock_source == "internal" or clock_source == "gpsdo":
return E320_DEFAULT_INT_CLOCK_FREQ
elif clock_source == "external":
return self._ext_clock_freq
def get_time_sources(self):
" Returns list of valid time sources "
return ['internal', 'external', 'gpsdo']
def get_time_source(self):
" Return the currently selected time source "
return self._time_source
def set_time_source(self, time_source):
" Set a time source "
assert time_source in self.get_time_sources()
if time_source == self.get_time_source():
self.log.trace("Nothing to do -- time source already set.")
return
self._time_source = time_source
self.mboard_regs_control.set_time_source(time_source, self.get_ref_clock_freq())
###########################################################################
# Hardware peripheral controls
###########################################################################
def set_fp_gpio_master(self, value):
"""set driver for front panel GPIO
Arguments:
value {unsigned} -- value is a single bit bit mask of 12 pins GPIO
"""
self.mboard_regs_control.set_fp_gpio_master(value)
def get_fp_gpio_master(self):
"""get "who" is driving front panel gpio
The return value is a bit mask of 8 pins GPIO.
0: means the pin is driven by PL
1: means the pin is driven by PS
"""
return self.mboard_regs_control.get_fp_gpio_master()
def set_fp_gpio_radio_src(self, value):
"""set driver for front panel GPIO
Arguments:
value {unsigned} -- value is 2-bit bit mask of 8 pins GPIO
00: means the pin is driven by radio 0
01: means the pin is driven by radio 1
"""
self.mboard_regs_control.set_fp_gpio_radio_src(value)
def get_fp_gpio_radio_src(self):
"""get which radio is driving front panel gpio
The return value is 2-bit bit mask of 8 pins GPIO.
00: means the pin is driven by radio 0
01: means the pin is driven by radio 1
"""
return self.mboard_regs_control.get_fp_gpio_radio_src()
def enable_gps(self, enable):
"""
Turn power to the GPS (CLK_GPS_PWR_EN) off or on.
"""
self.mboard_regs_control.enable_gps(enable)
def enable_fp_gpio(self, enable):
"""
Turn power to the front panel GPIO off or on and set voltage
to 3.3V.
"""
self.log.trace("{} power to front-panel GPIO".format(
"Enabling" if enable else "Disabling"
))
self.mboard_regs_control.enable_fp_gpio(enable)
def set_fp_gpio_voltage(self, value):
"""
Set Front Panel GPIO voltage (3.3 Volts)
"""
self.log.trace("Setting front-panel GPIO voltage to {:3.1f} V".format(value))
self.mboard_regs_control.set_fp_gpio_voltage(value)
def get_fp_gpio_voltage(self):
"""
Get Front Panel GPIO voltage (1.8, 2.5 or 3.3 Volts)
"""
value = self.mboard_regs_control.get_fp_gpio_voltage()
self.log.trace("Current front-panel GPIO voltage {:3.1f} V".format(value))
return value
def set_channel_mode(self, channel_mode):
"Set channel mode in FPGA and select which tx channel to use"
self.mboard_regs_control.set_channel_mode(channel_mode)
###########################################################################
# Sensors
###########################################################################
def get_ref_lock_sensor(self):
"""
Get refclk lock from CLK_MUX_OUT signal from ADF4002
"""
self.log.trace("Querying ref lock status from adf4002.")
lock_status = self.mboard_regs_control.get_refclk_lock()
return {
'name': 'ref_locked',
'type': 'BOOLEAN',
'unit': 'locked' if lock_status else 'unlocked',
'value': str(lock_status).lower(),
}
def get_temp_sensor(self, sensor_name):
"""
Get temperature sensor reading of the E320.
"""
temp_sensor_map = {
"temp_internal" : 0,
"temp_rf_channelA" : 1,
"temp_fpga" : 2,
"temp_rf_channelB" : 3,
"temp_main_power" : 4
}
self.log.trace("Reading temperature.")
return_val = '-1'
sensor = temp_sensor_map[sensor_name]
try:
raw_val = read_thermal_sensors_value('cros-ec-thermal', 'temp')[sensor]
return_val = str(raw_val / 1000)
except ValueError:
self.log.warning("Error when converting temperature value")
except KeyError:
self.log.warning("Can't read temp on thermal_zone".format(sensor))
return {
'name': sensor_name,
'type': 'REALNUM',
'unit': 'C',
'value': return_val
}
def get_gps_lock_sensor(self):
"""
Get lock status of GPS as a sensor dict
"""
gps_locked = bool(self.mboard_regs_control.get_gps_locked_val())
return {
'name': 'gps_lock',
'type': 'BOOLEAN',
'unit': 'locked' if gps_locked else 'unlocked',
'value': str(gps_locked).lower(),
}
def get_fan_sensor(self):
"""
Return a sensor dictionary containing the RPM of the cooling device/fan0
"""
self.log.trace("Reading cooling device.")
return_val = '-1'
try:
raw_val = read_thermal_sensor_value('Fan', 'cur_state')
return_val = str(raw_val)
except ValueError:
self.log.warning("Error when converting fan speed value")
except KeyError:
self.log.warning("Can't read cur_state on Fan")
return {
'name': 'cooling fan',
'unit': 'rpm',
'type': 'INTEGER',
'value': return_val
}
###########################################################################
# EEPROMs
###########################################################################
def get_mb_eeprom(self):
"""
Return a dictionary with EEPROM contents.
All key/value pairs are string -> string.
We don't actually return the EEPROM contents, instead, we return the
mboard info again. This filters the EEPROM contents to what we think
the user wants to know/see.
"""
return self.mboard_info
def set_mb_eeprom(self, eeprom_vals):
"""
See PeriphManagerBase.set_mb_eeprom() for docs.
"""
self.log.warn("Called set_mb_eeprom(), but not implemented!")
raise NotImplementedError
def get_db_eeprom(self, dboard_idx):
"""
See PeriphManagerBase.get_db_eeprom() for docs.
"""
if dboard_idx != E320_DBOARD_SLOT_IDX:
self.log.warn("Trying to access invalid dboard index {}. "
"Using the only dboard.".format(dboard_idx))
db_eeprom_data = copy.copy(self.dboard.device_info)
for blob_id, blob in iteritems(self.dboard.get_user_eeprom_data()):
if blob_id in db_eeprom_data:
self.log.warn("EEPROM user data contains invalid blob ID "
"%s", blob_id)
else:
db_eeprom_data[blob_id] = blob
return db_eeprom_data
def set_db_eeprom(self, dboard_idx, eeprom_data):
"""
Write new EEPROM contents with eeprom_map.
Arguments:
dboard_idx -- Slot index of dboard (can only be E320_DBOARD_SLOT_IDX)
eeprom_data -- Dictionary of EEPROM data to be written. It's up to the
specific device implementation on how to handle it.
"""
if dboard_idx != E320_DBOARD_SLOT_IDX:
self.log.warn("Trying to access invalid dboard index {}. "
"Using the only dboard.".format(dboard_idx))
safe_db_eeprom_user_data = {}
for blob_id, blob in iteritems(eeprom_data):
if blob_id in self.dboard.device_info:
error_msg = "Trying to overwrite read-only EEPROM " \
"entry `{}'!".format(blob_id)
self.log.error(error_msg)
raise RuntimeError(error_msg)
if not isinstance(blob, str) and not isinstance(blob, bytes):
error_msg = "Blob data for ID `{}' is not a " \
"string!".format(blob_id)
self.log.error(error_msg)
raise RuntimeError(error_msg)
assert isinstance(blob, str)
safe_db_eeprom_user_data[blob_id] = blob.encode('ascii')
self.dboard.set_user_eeprom_data(safe_db_eeprom_user_data)
###########################################################################
# Component updating
###########################################################################
# Note: Component updating functions defined by ZynqComponents
@no_rpc
def _update_fpga_type(self):
"""Update the fpga type stored in the updateable components"""
fpga_type = self.mboard_regs_control.get_fpga_type()
self.log.debug("Updating mboard FPGA type info to {}".format(fpga_type))
self.updateable_components['fpga']['type'] = fpga_type
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