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kernel-ark/Documentation/filesystems/spufs/spufs.rst
Mauro Carvalho Chehab 299cd2747c docs: filesystems: convert spufs/spufs.txt to ReST 
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Signed-off-by: Mauro Carvalho Chehab <mchehab+huawei@kernel.org>
Link: https://lore.kernel.org/r/9ca05fad12390931bc7da0fa2502d1a450a4b87f.1588021877.git.mchehab+huawei@kernel.org
Signed-off-by: Jonathan Corbet <corbet@lwn.net>
2020-05-05 09:22:24 -06:00

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.. SPDX-License-Identifier: GPL-2.0
=====
spufs
=====
Name
====
spufs - the SPU file system
Description
===========
The SPU file system is used on PowerPC machines that implement the Cell
Broadband Engine Architecture in order to access Synergistic Processor
Units (SPUs).
The file system provides a name space similar to posix shared memory or
message queues. Users that have write permissions on the file system
can use spu_create(2) to establish SPU contexts in the spufs root.
Every SPU context is represented by a directory containing a predefined
set of files. These files can be used for manipulating the state of the
logical SPU. Users can change permissions on those files, but not actu-
ally add or remove files.
Mount Options
=============
uid=<uid>
set the user owning the mount point, the default is 0 (root).
gid=<gid>
set the group owning the mount point, the default is 0 (root).
Files
=====
The files in spufs mostly follow the standard behavior for regular sys-
tem calls like read(2) or write(2), but often support only a subset of
the operations supported on regular file systems. This list details the
supported operations and the deviations from the behaviour in the
respective man pages.
All files that support the read(2) operation also support readv(2) and
all files that support the write(2) operation also support writev(2).
All files support the access(2) and stat(2) family of operations, but
only the st_mode, st_nlink, st_uid and st_gid fields of struct stat
contain reliable information.
All files support the chmod(2)/fchmod(2) and chown(2)/fchown(2) opera-
tions, but will not be able to grant permissions that contradict the
possible operations, e.g. read access on the wbox file.
The current set of files is:
/mem
the contents of the local storage memory of the SPU. This can be
accessed like a regular shared memory file and contains both code and
data in the address space of the SPU. The possible operations on an
open mem file are:
read(2), pread(2), write(2), pwrite(2), lseek(2)
These operate as documented, with the exception that seek(2),
write(2) and pwrite(2) are not supported beyond the end of the
file. The file size is the size of the local storage of the SPU,
which normally is 256 kilobytes.
mmap(2)
Mapping mem into the process address space gives access to the
SPU local storage within the process address space. Only
MAP_SHARED mappings are allowed.
/mbox
The first SPU to CPU communication mailbox. This file is read-only and
can be read in units of 32 bits. The file can only be used in non-
blocking mode and it even poll() will not block on it. The possible
operations on an open mbox file are:
read(2)
If a count smaller than four is requested, read returns -1 and
sets errno to EINVAL. If there is no data available in the mail
box, the return value is set to -1 and errno becomes EAGAIN.
When data has been read successfully, four bytes are placed in
the data buffer and the value four is returned.
/ibox
The second SPU to CPU communication mailbox. This file is similar to
the first mailbox file, but can be read in blocking I/O mode, and the
poll family of system calls can be used to wait for it. The possible
operations on an open ibox file are:
read(2)
If a count smaller than four is requested, read returns -1 and
sets errno to EINVAL. If there is no data available in the mail
box and the file descriptor has been opened with O_NONBLOCK, the
return value is set to -1 and errno becomes EAGAIN.
If there is no data available in the mail box and the file
descriptor has been opened without O_NONBLOCK, the call will
block until the SPU writes to its interrupt mailbox channel.
When data has been read successfully, four bytes are placed in
the data buffer and the value four is returned.
poll(2)
Poll on the ibox file returns (POLLIN | POLLRDNORM) whenever
data is available for reading.
/wbox
The CPU to SPU communation mailbox. It is write-only and can be written
in units of 32 bits. If the mailbox is full, write() will block and
poll can be used to wait for it becoming empty again. The possible
operations on an open wbox file are: write(2) If a count smaller than
four is requested, write returns -1 and sets errno to EINVAL. If there
is no space available in the mail box and the file descriptor has been
opened with O_NONBLOCK, the return value is set to -1 and errno becomes
EAGAIN.
If there is no space available in the mail box and the file descriptor
has been opened without O_NONBLOCK, the call will block until the SPU
reads from its PPE mailbox channel. When data has been read success-
fully, four bytes are placed in the data buffer and the value four is
returned.
poll(2)
Poll on the ibox file returns (POLLOUT | POLLWRNORM) whenever
space is available for writing.
/mbox_stat, /ibox_stat, /wbox_stat
Read-only files that contain the length of the current queue, i.e. how
many words can be read from mbox or ibox or how many words can be
written to wbox without blocking. The files can be read only in 4-byte
units and return a big-endian binary integer number. The possible
operations on an open ``*box_stat`` file are:
read(2)
If a count smaller than four is requested, read returns -1 and
sets errno to EINVAL. Otherwise, a four byte value is placed in
the data buffer, containing the number of elements that can be
read from (for mbox_stat and ibox_stat) or written to (for
wbox_stat) the respective mail box without blocking or resulting
in EAGAIN.
/npc, /decr, /decr_status, /spu_tag_mask, /event_mask, /srr0
Internal registers of the SPU. The representation is an ASCII string
with the numeric value of the next instruction to be executed. These
can be used in read/write mode for debugging, but normal operation of
programs should not rely on them because access to any of them except
npc requires an SPU context save and is therefore very inefficient.
The contents of these files are:
=================== ===================================
npc Next Program Counter
decr SPU Decrementer
decr_status Decrementer Status
spu_tag_mask MFC tag mask for SPU DMA
event_mask Event mask for SPU interrupts
srr0 Interrupt Return address register
=================== ===================================
The possible operations on an open npc, decr, decr_status,
spu_tag_mask, event_mask or srr0 file are:
read(2)
When the count supplied to the read call is shorter than the
required length for the pointer value plus a newline character,
subsequent reads from the same file descriptor will result in
completing the string, regardless of changes to the register by
a running SPU task. When a complete string has been read, all
subsequent read operations will return zero bytes and a new file
descriptor needs to be opened to read the value again.
write(2)
A write operation on the file results in setting the register to
the value given in the string. The string is parsed from the
beginning to the first non-numeric character or the end of the
buffer. Subsequent writes to the same file descriptor overwrite
the previous setting.
/fpcr
This file gives access to the Floating Point Status and Control Regis-
ter as a four byte long file. The operations on the fpcr file are:
read(2)
If a count smaller than four is requested, read returns -1 and
sets errno to EINVAL. Otherwise, a four byte value is placed in
the data buffer, containing the current value of the fpcr regis-
ter.
write(2)
If a count smaller than four is requested, write returns -1 and
sets errno to EINVAL. Otherwise, a four byte value is copied
from the data buffer, updating the value of the fpcr register.
/signal1, /signal2
The two signal notification channels of an SPU. These are read-write
files that operate on a 32 bit word. Writing to one of these files
triggers an interrupt on the SPU. The value written to the signal
files can be read from the SPU through a channel read or from host user
space through the file. After the value has been read by the SPU, it
is reset to zero. The possible operations on an open signal1 or sig-
nal2 file are:
read(2)
If a count smaller than four is requested, read returns -1 and
sets errno to EINVAL. Otherwise, a four byte value is placed in
the data buffer, containing the current value of the specified
signal notification register.
write(2)
If a count smaller than four is requested, write returns -1 and
sets errno to EINVAL. Otherwise, a four byte value is copied
from the data buffer, updating the value of the specified signal
notification register. The signal notification register will
either be replaced with the input data or will be updated to the
bitwise OR or the old value and the input data, depending on the
contents of the signal1_type, or signal2_type respectively,
file.
/signal1_type, /signal2_type
These two files change the behavior of the signal1 and signal2 notifi-
cation files. The contain a numerical ASCII string which is read as
either "1" or "0". In mode 0 (overwrite), the hardware replaces the
contents of the signal channel with the data that is written to it. in
mode 1 (logical OR), the hardware accumulates the bits that are subse-
quently written to it. The possible operations on an open signal1_type
or signal2_type file are:
read(2)
When the count supplied to the read call is shorter than the
required length for the digit plus a newline character, subse-
quent reads from the same file descriptor will result in com-
pleting the string. When a complete string has been read, all
subsequent read operations will return zero bytes and a new file
descriptor needs to be opened to read the value again.
write(2)
A write operation on the file results in setting the register to
the value given in the string. The string is parsed from the
beginning to the first non-numeric character or the end of the
buffer. Subsequent writes to the same file descriptor overwrite
the previous setting.
Examples
========
/etc/fstab entry
none /spu spufs gid=spu 0 0
Authors
=======
Arnd Bergmann <arndb@de.ibm.com>, Mark Nutter <mnutter@us.ibm.com>,
Ulrich Weigand <Ulrich.Weigand@de.ibm.com>
See Also
========
capabilities(7), close(2), spu_create(2), spu_run(2), spufs(7)
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