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-rw-r--r--mpm/python/usrp_mpm/dboard_manager/magnesium.py102
1 files changed, 100 insertions, 2 deletions
diff --git a/mpm/python/usrp_mpm/dboard_manager/magnesium.py b/mpm/python/usrp_mpm/dboard_manager/magnesium.py
index 1b87368da..7ee840761 100644
--- a/mpm/python/usrp_mpm/dboard_manager/magnesium.py
+++ b/mpm/python/usrp_mpm/dboard_manager/magnesium.py
@@ -22,15 +22,19 @@ from __future__ import print_function
import os
import struct
import time
-from six import iteritems
+import threading
+from six import iterkeys, iteritems
from . import lib # Pulls in everything from C++-land
from .base import DboardManagerBase
from .. import nijesdcore
from ..uio import UIO
from ..mpmlog import get_logger
from .lmk_mg import LMK04828Mg
+from usrp_mpm.periph_manager.udev import get_eeprom_paths
from usrp_mpm.cores import ClockSynchronizer
from ..sysfs_gpio import SysFSGPIO
+from usrp_mpm.bfrfs import BufferFS
+
def create_spidev_iface(dev_node):
"""
Create a regs iface from a spidev node
@@ -162,6 +166,14 @@ class Magnesium(DboardManagerBase):
}
# Map I2C channel to slot index
i2c_chan_map = {0: 'i2c-9', 1: 'i2c-10'}
+ user_eeprom = {
+ 2: { # RevC
+ 'label': "e0004000.i2c",
+ 'offset': 1024,
+ 'max_size': 32786 - 1024,
+ 'alignment': 1024,
+ },
+ }
# DAC is initialized to midscale automatically on power-on: 16-bit DAC, so midpoint
# is at 2^15 = 32768. However, the linearity of the DAC is best just below that
@@ -209,7 +221,8 @@ class Magnesium(DboardManagerBase):
super(Magnesium, self).__init__(slot_idx, **kwargs)
self.log = get_logger("Magnesium-{}".format(slot_idx))
self.log.trace("Initializing Magnesium daughterboard, slot index {}".format(self.slot_idx))
-
+ self.rev = int(self.device_info['rev'])
+ self.log.trace("This is a rev: {}".format(chr(65 + self.rev)))
self.ref_clock_freq = 10e6 # TODO: make this not fixed
self._power_on()
self.log.debug("Loading C++ drivers...")
@@ -222,6 +235,32 @@ class Magnesium(DboardManagerBase):
for mykfuncname in [x for x in dir(self.mykonos) if not x.startswith("_") and callable(getattr(self.mykonos, x))]:
self.log.trace("adding {}".format(mykfuncname))
setattr(self, mykfuncname, self._get_mykonos_function(mykfuncname))
+ self.eeprom_fs, self.eeprom_path = self._init_user_eeprom(
+ self.user_eeprom[self.rev]
+ )
+
+ def _init_user_eeprom(self, eeprom_info):
+ """
+ Reads out user-data EEPROM, and intializes a BufferFS object from that.
+ """
+ self.log.trace("Initializing EEPROM user data...")
+ eeprom_paths = get_eeprom_paths(eeprom_info.get('label'))
+ self.log.trace("Found the following EEPROM paths: `{}'".format(
+ eeprom_paths))
+ eeprom_path = eeprom_paths[self.slot_idx]
+ self.log.trace("Selected EEPROM path: `{}'".format(eeprom_path))
+ user_eeprom_offset = eeprom_info.get('offset', 0)
+ self.log.trace("Selected EEPROM offset: %d", user_eeprom_offset)
+ user_eeprom_data = open(eeprom_path, 'rb').read()[user_eeprom_offset:]
+ self.log.trace("Total EEPROM size is: %d bytes", len(user_eeprom_data))
+ # FIXME verify EEPROM sectors
+ return BufferFS(
+ user_eeprom_data,
+ max_size=eeprom_info.get('max_size'),
+ alignment=eeprom_info.get('alignment', 1024),
+ log=self.log
+ ), eeprom_path
+
def init(self, args):
"""
@@ -434,6 +473,65 @@ class Magnesium(DboardManagerBase):
print(("%08X" % radio_regs.peek32(i + j)), end=' ')
print("")
+ def get_user_eeprom_data(self):
+ """
+ Return a dict of blobs stored in the user data section of the EEPROM.
+ """
+ return {
+ blob_id: self.eeprom_fs.get_blob(blob_id)
+ for blob_id in iterkeys(self.eeprom_fs.entries)
+ }
+
+ def set_user_eeprom_data(self, eeprom_data):
+ """
+ Update the local EEPROM with the data from eeprom_data.
+
+ The actual writing to EEPROM can take some time, and is thus kicked
+ into a background task. Don't call set_user_eeprom_data() quickly in
+ succession. Also, while the background task is running, reading the
+ EEPROM is unavailable and MPM won't be able to reboot until it's
+ completed.
+ However, get_user_eeprom_data() will immediately return the correct
+ data after this method returns.
+ """
+ for blob_id, blob in iteritems(eeprom_data):
+ self.eeprom_fs.set_blob(blob_id, blob)
+ self.log.trace("Writing EEPROM info to `{}'".format(self.eeprom_path))
+ eeprom_offset = self.user_eeprom[self.rev]['offset']
+ def _write_to_eeprom_task(path, offset, data, log):
+ " Writer task: Actually write to file "
+ # Note: This can be sped up by only writing sectors that actually
+ # changed. To do so, this function would need to read out the
+ # current state of the file, do some kind of diff, and then seek()
+ # to the different sectors. When very large blobs are being
+ # written, it doesn't actually help all that much, of course,
+ # because in that case, we'd anyway be changing most of the EEPROM.
+ with open(path, 'r+b') as eeprom_file:
+ log.trace("Seeking forward to `{}'".format(offset))
+ eeprom_file.seek(eeprom_offset)
+ log.trace("Writing a total of {} bytes.".format(
+ len(self.eeprom_fs.buffer)))
+ eeprom_file.write(data)
+ log.trace("EEPROM write complete.")
+ thread_id = "eeprom_writer_task_{}".format(self.slot_idx)
+ if any([x.name == thread_id for x in threading.enumerate()]):
+ # Should this be fatal?
+ self.log.warn("Another EEPROM writer thread is already active!")
+ writer_task = threading.Thread(
+ target=_write_to_eeprom_task,
+ args=(
+ self.eeprom_path,
+ eeprom_offset,
+ self.eeprom_fs.buffer,
+ self.log
+ ),
+ name=thread_id,
+ )
+ writer_task.start()
+ # Now return and let the copy finish on its own. The thread will detach
+ # and MPM this process won't terminate until the thread is complete.
+ # This does not stop anyone from killing this process (and the thread)
+ # while the EEPROM write is happening, though.
class DboardClockControl(object):