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#
# Copyright 2017 Ettus Research, a National Instruments Company
#
# SPDX-License-Identifier: GPL-3.0-or-later
#
"""
Access to UIO mapped memory.
"""
import os
from contextlib import contextmanager
from builtins import object
import pyudev
import usrp_mpm.libpyusrp_periphs as lib
from usrp_mpm.mpmlog import get_logger
UIO_SYSFS_BASE_DIR = '/sys/class/uio'
UIO_DEV_BASE_DIR = '/dev'
@contextmanager
def open_uio(label=None, path=None, length=None, read_only=True, offset=None):
"""Convenience function for creating a UIO object.
Use this like you would open() for a file"""
uio_obj = UIO(label, path, length, read_only, offset)
uio_obj.open()
yield uio_obj
uio_obj.close()
def get_all_uio_devs():
"""
Return a list of all uio devices. Will look something like
['uio0', 'uio1', ...].
"""
try:
context = pyudev.Context()
paths = [os.path.split(device.device_node)[-1]
for device in context.list_devices(subsystem="uio")]
return paths
except OSError:
# Typically means UIO devices
return []
def get_uio_map_info(uio_dev, map_num):
"""
Returns all the map info for a given UIO device and map number.
Example: If uio_dev is 'uio0', and map_num is 0, it will list all files
in /sys/class/uio/uio0/maps/map0/ and create a dictionary with filenames
as keys and content as value.
Numbers are casted to numbers automatically. Strings remain strings.
"""
map_info = {}
map_info_path = os.path.join(
UIO_SYSFS_BASE_DIR, uio_dev, 'maps', 'map{0}'.format(map_num)
)
for info_file in os.listdir(map_info_path):
map_info_value = open(os.path.join(map_info_path, info_file), 'r').read().strip()
try:
map_info[info_file] = int(map_info_value, 0)
except ValueError:
map_info[info_file] = map_info_value
return map_info
def find_uio_device(label, logger=None):
"""
Given a label, returns a tuple (uio_device, map_info).
uio_device is something like '/dev/uio0'. map_info is a dictionary with
information regarding the UIO device read from the map info sysfs dir.
Note: We assume a single map (map0) for all UIO devices here.
"""
uio_devices = get_all_uio_devs()
if logger:
logger.trace("Found the following UIO devices: `{0}'".format(','.join(uio_devices)))
for uio_device in uio_devices:
map0_info = get_uio_map_info(uio_device, 0)
if logger:
logger.trace("{0} has map info: {1}".format(uio_device, map0_info))
if map0_info.get('name') == label:
if logger:
logger.trace("Device matches label: `{0}'".format(uio_device))
return os.path.join(UIO_DEV_BASE_DIR, uio_device), map0_info
if logger:
logger.warning("Found no matching UIO device for label `{0}'".format(label))
return None, None
class UIO(object):
"""
Provides peek/poke interfaces for uio-mapped memory.
This object will not, by default, open the associated UIO device. To
actually open the device, you have two options:
- Use the instantiation of this class as a context manager (using a `with`
statement), like this:
>>> with UIO(path="/dev/uio0") as uio0:
>>> uio0.peek32(addr)
>>> uio0.poke32(addr, value)
- Manually call open() and close():
>>> uio0 = UIO(path="/dev/uio0")
>>> uio0.open()
>>> uio0.peek32(addr)
>>> uio0.poke32(addr, value)
>>> uio0.close()
Arguments:
label -- Label of the UIO device. The label is set in the device tree
overlay
path -- Path to UIO device, e.g. '/dev/uio0'. This is ignored if 'label' is
provided.
length -- Number of bytes in the address space (is passed to mmap.mmap).
This is usually automatically determined. No need to set it.
Unless you really know what you're doing.
read_only -- Boolean; True == ro, False == rw
offset -- Passed to mmap.mmap.
This is usually automatically determined. No need to set it.
Unless you really know what you're doing.
"""
def __init__(self, label=None, path=None, length=None, read_only=True, offset=None):
self.log = get_logger('UIO')
if label is None:
self._path = path
self.log.trace("Using UIO device `{0}'".format(path))
uio_device = os.path.split(path)[-1]
self.log.trace("Getting map info for UIO device `{0}'".format(uio_device))
map_info = get_uio_map_info(uio_device, 0)
# Python can't tell the size of a uio device by itself
assert length is not None
else:
self.log.trace("Using UIO device by label `{0}'".format(label))
self._path, map_info = find_uio_device(label, self.log)
offset = offset or map_info['offset'] # If we ever support multiple maps, check if this is correct...
assert offset == 0 # ...and then remove this line
length = length or map_info['size']
self.log.trace("UIO device is being opened read-{0}.".format("only" if read_only else "write"))
if self._path is None:
self.log.error("Could not find a UIO device for label {0}".format(label))
raise RuntimeError("Could not find a UIO device for label {0}".format(label))
self._read_only = read_only
# Our UIO objects are managed in C++ land, which gives us more granular control over
# opening and closing
self._uio = lib.types.mmap_regs_iface(self._path, length, offset, self._read_only, False)
# Reference counter for safely __enter__ and __exit__-ing
self._ref_count = 0
def __enter__(self):
return self.open()
def __exit__(self, exc_type, exc_value, traceback):
self.close()
return exc_type is None
def open(self):
"""Actually open the UIO device.
You need to call this before doing peeks and pokes. See also close().
If you're using the UIO object as a context manager, it will open the
file automatically.
"""
if self._ref_count == 0:
self._uio.open()
self._ref_count += 1
return self
def close(self):
"""Close a UIO device.
UIO devices can be problematic with regards to file descriptor leakage,
so it is recommended to close a UIO device when it is no longer needed.
"""
self._ref_count -= 1
if self._ref_count == 0:
self._uio.close()
def peek32(self, addr):
"""
Returns the 32-bit value starting at address addr as an integer
"""
return self._uio.peek32(addr)
def poke32(self, addr, val):
"""
Writes the 32-bit value val to address starting at addr.
Will throw if read_only was set to True.
A value that exceeds 32 bits will be truncated to 32 bits.
"""
assert not self._read_only
return self._uio.poke32(addr, val)
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