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padata: update documentation
Remove references to unused functions, standardize language, update to
reflect new functionality, migrate to rst format, and fix all kernel-doc
warnings.
Fixes: 815613da6a
("kernel/padata.c: removed unused code")
Signed-off-by: Daniel Jordan <daniel.m.jordan@oracle.com>
Cc: Eric Biggers <ebiggers@kernel.org>
Cc: Herbert Xu <herbert@gondor.apana.org.au>
Cc: Jonathan Corbet <corbet@lwn.net>
Cc: Steffen Klassert <steffen.klassert@secunet.com>
Cc: linux-crypto@vger.kernel.org
Cc: linux-doc@vger.kernel.org
Cc: linux-kernel@vger.kernel.org
Signed-off-by: Daniel Jordan <daniel.m.jordan@oracle.com>
Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
This commit is contained in:
parent
3facced7ae
commit
bfcdcef8c8
@ -39,6 +39,7 @@ Core utilities
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../RCU/index
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gcc-plugins
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symbol-namespaces
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padata
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Interfaces for kernel debugging
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169
Documentation/core-api/padata.rst
Normal file
169
Documentation/core-api/padata.rst
Normal file
@ -0,0 +1,169 @@
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.. SPDX-License-Identifier: GPL-2.0
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=======================================
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The padata parallel execution mechanism
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=======================================
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:Date: December 2019
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Padata is a mechanism by which the kernel can farm jobs out to be done in
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parallel on multiple CPUs while retaining their ordering. It was developed for
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use with the IPsec code, which needs to be able to perform encryption and
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decryption on large numbers of packets without reordering those packets. The
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crypto developers made a point of writing padata in a sufficiently general
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fashion that it could be put to other uses as well.
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Usage
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=====
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Initializing
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------------
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The first step in using padata is to set up a padata_instance structure for
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overall control of how jobs are to be run::
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#include <linux/padata.h>
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struct padata_instance *padata_alloc_possible(const char *name);
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'name' simply identifies the instance.
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There are functions for enabling and disabling the instance::
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int padata_start(struct padata_instance *pinst);
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void padata_stop(struct padata_instance *pinst);
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These functions are setting or clearing the "PADATA_INIT" flag; if that flag is
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not set, other functions will refuse to work. padata_start() returns zero on
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success (flag set) or -EINVAL if the padata cpumask contains no active CPU
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(flag not set). padata_stop() clears the flag and blocks until the padata
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instance is unused.
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Finally, complete padata initialization by allocating a padata_shell::
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struct padata_shell *padata_alloc_shell(struct padata_instance *pinst);
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A padata_shell is used to submit a job to padata and allows a series of such
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jobs to be serialized independently. A padata_instance may have one or more
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padata_shells associated with it, each allowing a separate series of jobs.
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Modifying cpumasks
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------------------
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The CPUs used to run jobs can be changed in two ways, programatically with
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padata_set_cpumask() or via sysfs. The former is defined::
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int padata_set_cpumask(struct padata_instance *pinst, int cpumask_type,
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cpumask_var_t cpumask);
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Here cpumask_type is one of PADATA_CPU_PARALLEL or PADATA_CPU_SERIAL, where a
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parallel cpumask describes which processors will be used to execute jobs
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submitted to this instance in parallel and a serial cpumask defines which
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processors are allowed to be used as the serialization callback processor.
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cpumask specifies the new cpumask to use.
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There may be sysfs files for an instance's cpumasks. For example, pcrypt's
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live in /sys/kernel/pcrypt/<instance-name>. Within an instance's directory
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there are two files, parallel_cpumask and serial_cpumask, and either cpumask
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may be changed by echoing a bitmask into the file, for example::
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echo f > /sys/kernel/pcrypt/pencrypt/parallel_cpumask
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Reading one of these files shows the user-supplied cpumask, which may be
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different from the 'usable' cpumask.
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Padata maintains two pairs of cpumasks internally, the user-supplied cpumasks
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and the 'usable' cpumasks. (Each pair consists of a parallel and a serial
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cpumask.) The user-supplied cpumasks default to all possible CPUs on instance
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allocation and may be changed as above. The usable cpumasks are always a
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subset of the user-supplied cpumasks and contain only the online CPUs in the
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user-supplied masks; these are the cpumasks padata actually uses. So it is
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legal to supply a cpumask to padata that contains offline CPUs. Once an
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offline CPU in the user-supplied cpumask comes online, padata is going to use
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it.
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Changing the CPU masks are expensive operations, so it should not be done with
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great frequency.
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Running A Job
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-------------
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Actually submitting work to the padata instance requires the creation of a
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padata_priv structure, which represents one job::
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struct padata_priv {
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/* Other stuff here... */
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void (*parallel)(struct padata_priv *padata);
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void (*serial)(struct padata_priv *padata);
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};
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This structure will almost certainly be embedded within some larger
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structure specific to the work to be done. Most of its fields are private to
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padata, but the structure should be zeroed at initialisation time, and the
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parallel() and serial() functions should be provided. Those functions will
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be called in the process of getting the work done as we will see
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momentarily.
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The submission of the job is done with::
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int padata_do_parallel(struct padata_shell *ps,
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struct padata_priv *padata, int *cb_cpu);
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The ps and padata structures must be set up as described above; cb_cpu
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points to the preferred CPU to be used for the final callback when the job is
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done; it must be in the current instance's CPU mask (if not the cb_cpu pointer
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is updated to point to the CPU actually chosen). The return value from
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padata_do_parallel() is zero on success, indicating that the job is in
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progress. -EBUSY means that somebody, somewhere else is messing with the
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instance's CPU mask, while -EINVAL is a complaint about cb_cpu not being in the
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serial cpumask, no online CPUs in the parallel or serial cpumasks, or a stopped
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instance.
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Each job submitted to padata_do_parallel() will, in turn, be passed to
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exactly one call to the above-mentioned parallel() function, on one CPU, so
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true parallelism is achieved by submitting multiple jobs. parallel() runs with
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software interrupts disabled and thus cannot sleep. The parallel()
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function gets the padata_priv structure pointer as its lone parameter;
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information about the actual work to be done is probably obtained by using
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container_of() to find the enclosing structure.
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Note that parallel() has no return value; the padata subsystem assumes that
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parallel() will take responsibility for the job from this point. The job
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need not be completed during this call, but, if parallel() leaves work
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outstanding, it should be prepared to be called again with a new job before
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the previous one completes.
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Serializing Jobs
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----------------
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When a job does complete, parallel() (or whatever function actually finishes
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the work) should inform padata of the fact with a call to::
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void padata_do_serial(struct padata_priv *padata);
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At some point in the future, padata_do_serial() will trigger a call to the
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serial() function in the padata_priv structure. That call will happen on
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the CPU requested in the initial call to padata_do_parallel(); it, too, is
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run with local software interrupts disabled.
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Note that this call may be deferred for a while since the padata code takes
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pains to ensure that jobs are completed in the order in which they were
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submitted.
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Destroying
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----------
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Cleaning up a padata instance predictably involves calling the three free
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functions that correspond to the allocation in reverse::
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void padata_free_shell(struct padata_shell *ps);
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void padata_stop(struct padata_instance *pinst);
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void padata_free(struct padata_instance *pinst);
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It is the user's responsibility to ensure all outstanding jobs are complete
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before any of the above are called.
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Interface
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=========
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.. kernel-doc:: include/linux/padata.h
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.. kernel-doc:: kernel/padata.c
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@ -1,139 +0,0 @@
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=======================================
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The padata parallel execution mechanism
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=======================================
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:Last updated: for 2.6.36
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Padata is a mechanism by which the kernel can farm work out to be done in
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parallel on multiple CPUs while retaining the ordering of tasks. It was
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developed for use with the IPsec code, which needs to be able to perform
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encryption and decryption on large numbers of packets without reordering
|
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those packets. The crypto developers made a point of writing padata in a
|
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sufficiently general fashion that it could be put to other uses as well.
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The first step in using padata is to set up a padata_instance structure for
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overall control of how tasks are to be run::
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#include <linux/padata.h>
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struct padata_instance *padata_alloc(const char *name,
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const struct cpumask *pcpumask,
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const struct cpumask *cbcpumask);
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'name' simply identifies the instance.
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The pcpumask describes which processors will be used to execute work
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submitted to this instance in parallel. The cbcpumask defines which
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processors are allowed to be used as the serialization callback processor.
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The workqueue wq is where the work will actually be done; it should be
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a multithreaded queue, naturally.
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To allocate a padata instance with the cpu_possible_mask for both
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cpumasks this helper function can be used::
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struct padata_instance *padata_alloc_possible(struct workqueue_struct *wq);
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Note: Padata maintains two kinds of cpumasks internally. The user supplied
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cpumasks, submitted by padata_alloc/padata_alloc_possible and the 'usable'
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cpumasks. The usable cpumasks are always a subset of active CPUs in the
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user supplied cpumasks; these are the cpumasks padata actually uses. So
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it is legal to supply a cpumask to padata that contains offline CPUs.
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Once an offline CPU in the user supplied cpumask comes online, padata
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is going to use it.
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There are functions for enabling and disabling the instance::
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int padata_start(struct padata_instance *pinst);
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void padata_stop(struct padata_instance *pinst);
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These functions are setting or clearing the "PADATA_INIT" flag;
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if that flag is not set, other functions will refuse to work.
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padata_start returns zero on success (flag set) or -EINVAL if the
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padata cpumask contains no active CPU (flag not set).
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padata_stop clears the flag and blocks until the padata instance
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is unused.
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The list of CPUs to be used can be adjusted with these functions::
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int padata_set_cpumasks(struct padata_instance *pinst,
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cpumask_var_t pcpumask,
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cpumask_var_t cbcpumask);
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int padata_set_cpumask(struct padata_instance *pinst, int cpumask_type,
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cpumask_var_t cpumask);
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int padata_add_cpu(struct padata_instance *pinst, int cpu, int mask);
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int padata_remove_cpu(struct padata_instance *pinst, int cpu, int mask);
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Changing the CPU masks are expensive operations, though, so it should not be
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done with great frequency.
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It's possible to change both cpumasks of a padata instance with
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padata_set_cpumasks by specifying the cpumasks for parallel execution (pcpumask)
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and for the serial callback function (cbcpumask). padata_set_cpumask is used to
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change just one of the cpumasks. Here cpumask_type is one of PADATA_CPU_SERIAL,
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PADATA_CPU_PARALLEL and cpumask specifies the new cpumask to use.
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To simply add or remove one CPU from a certain cpumask the functions
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padata_add_cpu/padata_remove_cpu are used. cpu specifies the CPU to add or
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remove and mask is one of PADATA_CPU_SERIAL, PADATA_CPU_PARALLEL.
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Actually submitting work to the padata instance requires the creation of a
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padata_priv structure::
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struct padata_priv {
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/* Other stuff here... */
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void (*parallel)(struct padata_priv *padata);
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void (*serial)(struct padata_priv *padata);
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};
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This structure will almost certainly be embedded within some larger
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structure specific to the work to be done. Most of its fields are private to
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padata, but the structure should be zeroed at initialisation time, and the
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parallel() and serial() functions should be provided. Those functions will
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be called in the process of getting the work done as we will see
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momentarily.
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The submission of work is done with::
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int padata_do_parallel(struct padata_instance *pinst,
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struct padata_priv *padata, int cb_cpu);
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The pinst and padata structures must be set up as described above; cb_cpu
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specifies which CPU will be used for the final callback when the work is
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done; it must be in the current instance's CPU mask. The return value from
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padata_do_parallel() is zero on success, indicating that the work is in
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progress. -EBUSY means that somebody, somewhere else is messing with the
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instance's CPU mask, while -EINVAL is a complaint about cb_cpu not being
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in that CPU mask or about a not running instance.
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Each task submitted to padata_do_parallel() will, in turn, be passed to
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exactly one call to the above-mentioned parallel() function, on one CPU, so
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true parallelism is achieved by submitting multiple tasks. parallel() runs with
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software interrupts disabled and thus cannot sleep. The parallel()
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function gets the padata_priv structure pointer as its lone parameter;
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information about the actual work to be done is probably obtained by using
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container_of() to find the enclosing structure.
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Note that parallel() has no return value; the padata subsystem assumes that
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parallel() will take responsibility for the task from this point. The work
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need not be completed during this call, but, if parallel() leaves work
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outstanding, it should be prepared to be called again with a new job before
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the previous one completes. When a task does complete, parallel() (or
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whatever function actually finishes the job) should inform padata of the
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fact with a call to::
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void padata_do_serial(struct padata_priv *padata);
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At some point in the future, padata_do_serial() will trigger a call to the
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serial() function in the padata_priv structure. That call will happen on
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the CPU requested in the initial call to padata_do_parallel(); it, too, is
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run with local software interrupts disabled.
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Note that this call may be deferred for a while since the padata code takes
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pains to ensure that tasks are completed in the order in which they were
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submitted.
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The one remaining function in the padata API should be called to clean up
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when a padata instance is no longer needed::
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void padata_free(struct padata_instance *pinst);
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This function will busy-wait while any remaining tasks are completed, so it
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might be best not to call it while there is work outstanding.
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@ -19,7 +19,7 @@
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#define PADATA_CPU_PARALLEL 0x02
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/**
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* struct padata_priv - Embedded to the users data structure.
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* struct padata_priv - Represents one job
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*
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* @list: List entry, to attach to the padata lists.
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* @pd: Pointer to the internal control structure.
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@ -42,7 +42,7 @@ struct padata_priv {
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};
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/**
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* struct padata_list
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* struct padata_list - one per work type per CPU
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*
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* @list: List head.
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* @lock: List lock.
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@ -70,9 +70,6 @@ struct padata_serial_queue {
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*
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* @parallel: List to wait for parallelization.
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* @reorder: List to wait for reordering after parallel processing.
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* @serial: List to wait for serialization after reordering.
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* @pwork: work struct for parallelization.
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* @swork: work struct for serialization.
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* @work: work struct for parallelization.
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* @num_obj: Number of objects that are processed by this cpu.
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*/
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@ -98,11 +95,11 @@ struct padata_cpumask {
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* struct parallel_data - Internal control structure, covers everything
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* that depends on the cpumask in use.
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*
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* @sh: padata_shell object.
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* @ps: padata_shell object.
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* @pqueue: percpu padata queues used for parallelization.
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* @squeue: percpu padata queues used for serialuzation.
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* @refcnt: Number of objects holding a reference on this parallel_data.
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* @max_seq_nr: Maximal used sequence number.
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* @seq_nr: Sequence number of the parallelized data object.
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* @processed: Number of already processed objects.
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* @cpu: Next CPU to be processed.
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* @cpumask: The cpumasks in use for parallel and serial workers.
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@ -119,7 +116,7 @@ struct parallel_data {
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int cpu;
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struct padata_cpumask cpumask;
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struct work_struct reorder_work;
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spinlock_t lock ____cacheline_aligned;
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spinlock_t ____cacheline_aligned lock;
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};
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/**
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@ -142,7 +139,7 @@ struct padata_shell {
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/**
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* struct padata_instance - The overall control structure.
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*
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* @cpu_notifier: cpu hotplug notifier.
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* @node: Used by CPU hotplug.
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* @parallel_wq: The workqueue used for parallel work.
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* @serial_wq: The workqueue used for serial work.
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* @pslist: List of padata_shell objects attached to this instance.
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|
@ -2,7 +2,7 @@
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/*
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* padata.c - generic interface to process data streams in parallel
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*
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* See Documentation/padata.txt for an api documentation.
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* See Documentation/core-api/padata.rst for more information.
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*
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* Copyright (C) 2008, 2009 secunet Security Networks AG
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* Copyright (C) 2008, 2009 Steffen Klassert <steffen.klassert@secunet.com>
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@ -99,6 +99,8 @@ static void padata_parallel_worker(struct work_struct *parallel_work)
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* The parallelization callback function will run with BHs off.
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* Note: Every object which is parallelized by padata_do_parallel
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* must be seen by padata_do_serial.
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*
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* Return: 0 on success or else negative error code.
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*/
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int padata_do_parallel(struct padata_shell *ps,
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struct padata_priv *padata, int *cb_cpu)
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@ -163,14 +165,12 @@ EXPORT_SYMBOL(padata_do_parallel);
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/*
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* padata_find_next - Find the next object that needs serialization.
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*
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* Return values are:
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*
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* A pointer to the control struct of the next object that needs
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* serialization, if present in one of the percpu reorder queues.
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*
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* NULL, if the next object that needs serialization will
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* be parallel processed by another cpu and is not yet present in
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* the cpu's reorder queue.
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* Return:
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* * A pointer to the control struct of the next object that needs
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* serialization, if present in one of the percpu reorder queues.
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* * NULL, if the next object that needs serialization will
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* be parallel processed by another cpu and is not yet present in
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* the cpu's reorder queue.
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*/
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static struct padata_priv *padata_find_next(struct parallel_data *pd,
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bool remove_object)
|
||||
@ -582,13 +582,14 @@ out_replace:
|
||||
}
|
||||
|
||||
/**
|
||||
* padata_set_cpumask: Sets specified by @cpumask_type cpumask to the value
|
||||
* equivalent to @cpumask.
|
||||
*
|
||||
* padata_set_cpumask - Sets specified by @cpumask_type cpumask to the value
|
||||
* equivalent to @cpumask.
|
||||
* @pinst: padata instance
|
||||
* @cpumask_type: PADATA_CPU_SERIAL or PADATA_CPU_PARALLEL corresponding
|
||||
* to parallel and serial cpumasks respectively.
|
||||
* @cpumask: the cpumask to use
|
||||
*
|
||||
* Return: 0 on success or negative error code
|
||||
*/
|
||||
int padata_set_cpumask(struct padata_instance *pinst, int cpumask_type,
|
||||
cpumask_var_t cpumask)
|
||||
@ -626,6 +627,8 @@ EXPORT_SYMBOL(padata_set_cpumask);
|
||||
* padata_start - start the parallel processing
|
||||
*
|
||||
* @pinst: padata instance to start
|
||||
*
|
||||
* Return: 0 on success or negative error code
|
||||
*/
|
||||
int padata_start(struct padata_instance *pinst)
|
||||
{
|
||||
@ -880,6 +883,8 @@ static struct kobj_type padata_attr_type = {
|
||||
* @name: used to identify the instance
|
||||
* @pcpumask: cpumask that will be used for padata parallelization
|
||||
* @cbcpumask: cpumask that will be used for padata serialization
|
||||
*
|
||||
* Return: new instance on success, NULL on error
|
||||
*/
|
||||
static struct padata_instance *padata_alloc(const char *name,
|
||||
const struct cpumask *pcpumask,
|
||||
@ -967,6 +972,8 @@ err:
|
||||
* parallel workers.
|
||||
*
|
||||
* @name: used to identify the instance
|
||||
*
|
||||
* Return: new instance on success, NULL on error
|
||||
*/
|
||||
struct padata_instance *padata_alloc_possible(const char *name)
|
||||
{
|
||||
@ -977,7 +984,7 @@ EXPORT_SYMBOL(padata_alloc_possible);
|
||||
/**
|
||||
* padata_free - free a padata instance
|
||||
*
|
||||
* @padata_inst: padata instance to free
|
||||
* @pinst: padata instance to free
|
||||
*/
|
||||
void padata_free(struct padata_instance *pinst)
|
||||
{
|
||||
@ -989,6 +996,8 @@ EXPORT_SYMBOL(padata_free);
|
||||
* padata_alloc_shell - Allocate and initialize padata shell.
|
||||
*
|
||||
* @pinst: Parent padata_instance object.
|
||||
*
|
||||
* Return: new shell on success, NULL on error
|
||||
*/
|
||||
struct padata_shell *padata_alloc_shell(struct padata_instance *pinst)
|
||||
{
|
||||
|
Loading…
Reference in New Issue
Block a user