Commit Graph

27 Commits

Author SHA1 Message Date
Brian Behlendorf 9b51f21841 Remove TQ_SLEEP -> KM_SLEEP mapping
When the taskq code was originally written it seemed like a good
idea to simply map TQ_SLEEP to KM_SLEEP.  Unfortunately, this
assumed that the TQ_* flags would never confict with any of the
Linux GFP_* flags.  When adding the TQ_PUSHPAGE support in commit
cd5ca4b this invariant was accidentally broken.

Therefore to support TQ_PUSHPAGE, which is needed for Linux, and
prevent any further confusion I have removed this direct mapping.
The TQ_SLEEP, TQ_NOSLEEP, and TQ_PUSHPAGE are no longer defined
in terms of their KM_* counterparts.  Instead a simple mapping
function is introduce to convert TQ_* -> KM_* where needed.

Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
Issue #171
2012-09-12 11:41:42 -07:00
Brian Behlendorf 330fe010e4 Revert "Switch KM_SLEEP to KM_PUSHPAGE"
This reverts commit cd5ca4b2f8
due to conflicts in the higher TQ_ bits which caused incorrect
behavior.

Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
2012-09-12 10:07:48 -07:00
Brian Behlendorf cd5ca4b2f8 Switch KM_SLEEP to KM_PUSHPAGE
Under certain circumstances the following functions may be called
in a context where KM_SLEEP is unsafe and can result in a deadlocked
system.  To avoid this problem the unconditional KM_SLEEPs are
converted to KM_PUSHPAGEs.  This will prevent them from attempting
to initiate any I/O during direct reclaim.

Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
2012-08-27 12:00:55 -07:00
Brian Behlendorf d47e664ad4 Revert "Add TASKQ_NORECLAIM flag"
This reverts commit 372c257233.  The
use of the PF_MEMALLOC flag was always a hack to work around memory
reclaim deadlocks.  Those issues are believed to be resolved so this
workaround can be safely reverted.

Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
2012-08-27 12:00:42 -07:00
Prakash Surya 05b8f50c33 Update a comment to reflect new taskq internals
As of the removal of the taskq work list made in commit:

    commit 2c02b71b14
    Author: Prakash Surya <surya1@llnl.gov>
    Date:   Mon Dec 5 17:32:48 2011 -0800

        Replace tq_work_list and tq_threads in taskq_t

        To lay the ground work for introducing the taskq_dispatch_prealloc()
        interface, the tq_work_list and tq_threads fields had to be replaced
        with new alternatives in the taskq_t structure.

the comment above taskq_wait_check has been incorrect. This change is an
attempt at bringing that description more in line with the current
implementation. Essentially, references to the old task work list had to
be updated to reference the new taskq thread active list.

Signed-off-by: Prakash Surya <surya1@llnl.gov>
Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
Issue #65
2012-04-30 10:49:15 -07:00
Ned Bass 3c6ed5410b Taskq locking optimizations
Testing has shown that tq->tq_lock can be highly contended when a
large number of small work items are dispatched.  The lock hold time
is reduced by the following changes:

1) Use exclusive threads in the work_waitq

When a single work item is dispatched we only need to wake a single
thread to service it.  The current implementation uses non-exclusive
threads so all threads are woken when the dispatcher calls wake_up().
If a large number of threads are in the queue this overhead can become
non-negligible.

2) Conditionally add/remove threads from work waitq

Taskq threads need only add themselves to the work wait queue if
there are no pending work items.

Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
Issue #32
2012-01-19 14:42:49 -08:00
Ned Bass 0bb43ca282 Revert "Taskq locking optimizations"
This reverts commit ec2b41049f.

A race condition was introduced by which a wake_up() call can be lost
after the taskq thread determines there is no pending work items,
leading to deadlock:

1. taksq thread enables interrupts
2. dispatcher thread runs, queues work item, call wake_up()
3. taskq thread runs, adds self to waitq, sleeps

This could easily happen if an interrupt for an IO completion was
outstanding at the point where the taskq thread reenables interrupts,
just before the call to add_wait_queue_exclusive().  The handler would
run immediately within the race window.

Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
Issue #32
2012-01-19 14:42:39 -08:00
Ned Bass ec2b41049f Taskq locking optimizations
Testing has shown that tq->tq_lock can be highly contended when a
large number of small work items are dispatched.  The lock hold time
is reduced by the following changes:

1) Use exclusive threads in the work_waitq

When a single work item is dispatched we only need to wake a single
thread to service it.  The current implementation uses non-exclusive
threads so all threads are woken when the dispatcher calls wake_up().
If a large number of threads are in the queue this overhead can become
non-negligible.

2) Conditionally add/remove threads from work waitq outside of tq_lock

Taskq threads need only add themselves to the work wait queue if there
are no pending work items.  Furthermore, the add and remove function
calls can be made outside of the taskq lock since the wait queues are
protected from concurrent access by their own spinlocks.

3) Call wake_up() outside of tq->tq_lock

Again, the wait queues are protected by their own spinlock, so the
dispatcher functions can drop tq->tq_lock before calling wake_up().

A new splat test taskq:contention was added in a prior commit to measure
the impact of these changes.  The following table summarizes the
results using data from the kernel lock profiler.

                        tq_lock time    %diff   Wall clock (s)  %diff
original:               39117614.10     0       41.72           0
exclusive threads:      31871483.61     18.5    34.2            18.0
unlocked add/rm waitq:  13794303.90     64.7    16.17           61.2
unlocked wake_up():     1589172.08      95.9    16.61           60.2

Each row reflects the average result over 5 test runs.
/proc/lock_stats was zeroed out before and collected after each run.
Column 1 is the cumulative hold time in microseconds for tq->tq_lock.
The tests are cumulative; each row reflects the code changes of the
previous rows.  %diff is calculated with respect to "original" as
100*(orig-new)/orig.

Although calling wake_up() outside of the taskq lock dramatically
reduced the taskq lock hold time, the test actually took slightly more
wall clock time.  This is because the point of contention shifts from
the taskq lock to the wait queue lock.  But the change still seems
worthwhile since it removes our taskq implementation as a bottleneck,
assuming the small increase in wall clock time to be statistical
noise.

Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
Closes #32
2012-01-18 10:36:57 -08:00
Prakash Surya 8f2503e0af Store copy of tqent_flags prior to servicing task
A preallocated taskq_ent_t's tqent_flags must be checked prior to
servicing the taskq_ent_t. Once a preallocated taskq entry is serviced,
the ownership of the entry is handed back to the caller of
taskq_dispatch, thus the entry's contents can potentially be mangled.

In particular, this is a problem in the case where a preallocated taskq
entry is serviced, and the caller clears it's tqent_flags field. Thus,
when the function returns and task_done is called, it looks as though
the entry is **not** a preallocated task (when in fact it **is** a
preallocated task).

In this situation, task_done will place the preallocated taskq_ent_t
structure onto the taskq_t's free list. This is a **huge** mistake. If
the taskq_ent_t is then freed by the caller of taskq_dispatch, the
taskq_t's free list will hold a pointer to garbage data. Even worse, if
nothing has over written the freed memory before the pointer is
dereferenced, it may still look as though it points to a valid list_head
belonging to a taskq_ent_t structure.

Thus, the task entry's flags are now copied prior to servicing the task.
This copy is then checked to see if it is a preallocated task, and
determine if the entry needs to be passed down to the task_done
function.

Signed-off-by: Prakash Surya <surya1@llnl.gov>
Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
Closes #71
2011-12-16 16:54:00 -08:00
Prakash Surya e7e5f78e7b Swap taskq_ent_t with taskqid_t in taskq_thread_t
The taskq_t's active thread list is sorted based on its
tqt_ent->tqent_id field. The list is kept sorted solely by inserting
new taskq_thread_t's in their correct sorted location; no other
means is used. This means that once inserted, if a taskq_thread_t's
tqt_ent->tqent_id field changes, the list runs the risk of no
longer being sorted.

Prior to the introduction of the taskq_dispatch_prealloc() interface,
this was not a problem as a taskq_ent_t actively being serviced under
the old interface should always have a static tqent_id field. Thus,
once the taskq_thread_t is added to the taskq_t's active thread list,
the taskq_thread_t's tqt_ent->tqent_id field would remain constant.

Now, this is no longer the case. Currently, if using the
taskq_dispatch_prealloc() interface, any given taskq_ent_t actively
being serviced _may_ have its tqent_id value incremented. This happens
when the preallocated taskq_ent_t structure is recursively dispatched.
Thus, a taskq_thread_t could potentially have its tqt_ent->tqent_id
field silently modified from under its feet. If this were to happen
to a taskq_thread_t on a taskq_t's active thread list, this would
compromise the integrity of the order of the list (as the list
_may_ no longer be sorted).

To get around this, the taskq_thread_t's taskq_ent_t pointer was
replaced with its own static copy of the tqent_id. So, as a taskq_ent_t
is pulled off of the taskq_t's pending list, a static copy of its
tqent_id is made and this copy is used to sort the active thread
list. Using a static copy is key in ensuring the integrity of the
order of the active thread list. Even if the underlying taskq_ent_t
is recursively dispatched (as has its tqent_id modified), this
static copy stored inside the taskq_thread_t will remain constant.

Signed-off-by: Prakash Surya <surya1@llnl.gov>
Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
Issue #71
2011-12-16 13:26:54 -08:00
Prakash Surya 44217f7aad Implement taskq_dispatch_prealloc() interface
This patch implements the taskq_dispatch_prealloc() interface which
was introduced by the following illumos-gate commit.  It allows for
a preallocated taskq_ent_t to be used when dispatching items to a
taskq.  This eliminates a memory allocation which helps minimize
lock contention in the taskq when dispatching functions.

    commit 5aeb94743e3be0c51e86f73096334611ae3a058e
    Author: Garrett D'Amore <garrett@nexenta.com>
    Date:   Wed Jul 27 07:13:44 2011 -0700

    734 taskq_dispatch_prealloc() desired
    943 zio_interrupt ends up calling taskq_dispatch with TQ_SLEEP

Signed-off-by: Prakash Surya <surya1@llnl.gov>
Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
Issue #65
2011-12-13 16:10:57 -08:00
Prakash Surya 2c02b71b14 Replace tq_work_list and tq_threads in taskq_t
To lay the ground work for introducing the taskq_dispatch_prealloc()
interface, the tq_work_list and tq_threads fields had to be replaced
with new alternatives in the taskq_t structure.

The tq_threads field was replaced with tq_thread_list. Rather than
storing the pointers to the taskq's kernel threads in an array, they are
now stored as a list. In addition to laying the ground work for the
taskq_dispatch_prealloc() interface, this change could also enable taskq
threads to be dynamically created and destroyed as threads can now be
added and removed to this list relatively easily.

The tq_work_list field was replaced with tq_active_list. Instead of
keeping a list of taskq_ent_t's which are currently being serviced, a
list of taskq_threads currently servicing a taskq_ent_t is kept. This
frees up the taskq_ent_t's tqent_list field when it is being serviced
(i.e. now when a taskq_ent_t is being serviced, it's tqent_list field
will be empty).

Signed-off-by: Prakash Surya <surya1@llnl.gov>
Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
Issue #65
2011-12-13 16:10:50 -08:00
Prakash Surya 046a70c93b Replace struct spl_task with struct taskq_ent
The spl_task structure was renamed to taskq_ent, and all of
its fields were renamed to have a prefix of 'tqent' rather
than 't'. This was to align with the naming convention which
the ZFS code assumes.  Previously these fields were private
so the name never mattered.

Signed-off-by: Prakash Surya <surya1@llnl.gov>
Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
Issue #65
2011-12-13 12:28:09 -08:00
Brian Behlendorf 372c257233 Add TASKQ_NORECLAIM flag
It has become necessary to be able to optionally disable
direct memory reclaim for certain taskqs.  To support
this the TASKQ_NORECLAIM flags has been added which sets
the PF_MEMALLOC bit for all threads in the taskq.
2011-05-06 15:23:58 -07:00
Ricardo M. Correia 26f7245c7c Fix taskq code to not drop tasks when TQ_SLEEP is used.
When TQ_SLEEP is used, taskq_dispatch() should always succeed even if the
number of pending tasks is above tq->tq_maxalloc. This semantic is similar
to KM_SLEEP in kmem allocations, which also always succeed.

However, we cannot block forever otherwise there is a risk of deadlock.
Therefore, we still allow the number of pending tasks to go above
tq->tq_maxalloc with TQ_SLEEP, but we may sleep up to 1 second per task
dispatch, thereby throttling the task dispatch rate.

One of the existing splat tests was also augmented to test for this scenario.
The test would fail with the previous implementation but now it succeeds.

Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
2010-08-02 11:20:31 -07:00
Brian Behlendorf b17edc10a9 Prefix all SPL debug macros with 'S'
To avoid conflicts with symbols defined by dependent packages
all debugging symbols have been prefixed with a 'S' for SPL.
Any dependent package needing to integrate with the SPL debug
should include the spl-debug.h header and use the 'S' prefixed
macros.  They must also build with DEBUG defined.
2010-07-20 13:30:40 -07:00
Brian Behlendorf 55abb0929e Split <sys/debug.h> header
To avoid symbol conflicts with dependent packages the debug
header must be split in to several parts.  The <sys/debug.h>
header now only contains the Solaris macro's such as ASSERT
and VERIFY.  The spl-debug.h header contain the spl specific
debugging infrastructure and should be included by any package
which needs to use the spl logging.  Finally the spl-trace.h
header contains internal data structures only used for the log
facility and should not be included by anythign by spl-debug.c.

This way dependent packages can include the standard Solaris
headers without picking up any SPL debug macros.  However, if
the dependant package want to integrate with the SPL debugging
subsystem they can then explicitly include spl-debug.h.

Along with this change I have dropped the CHECK_STACK macros
because the upstream Linux kernel now has much better stack
depth checking built in and we don't need this complexity.

Additionally SBUG has been replaced with PANIC and provided as
part of the Solaris macro set.  While the Solaris version is
really panic() that conflicts with the Linux kernel so we'll
just have to make due to PANIC.  It should rarely be called
directly, the prefered usage would be an ASSERT or VERIFY.

There's lots of change here but this cleanup was overdue.
2010-07-20 13:29:35 -07:00
Ned Bass f0d8bb26b4 Implementation of the TQ_FRONT flag.
Adds a task queue to receive tasks dispatched with TQ_FRONT.  Worker
threads pull tasks from this high priority queue before the default
pending queue.

Executing tasks out of FIFO order potentially breaks taskq_lowest_id()
if we do not preserve the ordering of the work list by taskqid.
Therefore, instead of always appending to the work list, we search for
the appropriate place to insert a task.  The common case is to append
to the list, so we make this operation efficient by searching the work
list in reverse order.

Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
2010-07-01 10:59:38 -07:00
Brian Behlendorf 438683c0a9 Revert "Support TQ_FRONT flag used by taskq_dispatch()"
This reverts commit eb12b3782c.
2010-06-21 10:19:44 -07:00
Brian Behlendorf eb12b3782c Support TQ_FRONT flag used by taskq_dispatch()
Allow taskq_dispatch() to insert work items at the head of the
queue instead of just the tail by passing the TQ_FRONT flag.
2010-06-11 15:57:25 -07:00
Brian Behlendorf 716154c592 Public Release Prep
Updated AUTHORS, COPYING, DISCLAIMER, and INSTALL files.  Added
standardized headers to all source file to clearly indicate the
copyright, license, and to give credit where credit is due.
2010-05-17 15:18:00 -07:00
Brian Behlendorf d05ec4b45f Assume TQ_SLEEP when not explicitly specified. 2010-04-23 14:39:47 -07:00
Brian Behlendorf 82387586af Optimize lowest outstanding taskqid calculation in taskq_lowest_id()
In the initial version of taskq_lowest_id() the entire pending and
work list was locked under the tq->tq_lock to determine the lowest
outstanding taskqid.  At the time this done because I was rushed
and wanted to make sure it was right... fast was secondary.  Well now
fast is important too so I carefully thought through the pending
and work list management and convinced myself it is safe and correct
to simply check the first entry.  I added a large comment to the source
to explain this.  But basically as long as we are careful to ensure the
pending and work list stay sorted this is safe and fast.

The motivation for this chance was that I was observing as much as
10% of the total CPU time go to waiting on the tq->tq_lock when the
pending list was long.  This resolves that problems and frees up
that CPU time for something useful.
2010-01-04 15:52:26 -08:00
Brian Behlendorf 915404bd50 Add basic support for TASKQ_THREADS_CPU_PCT taskq flag which is
used to scale the number of threads based on the number of online
CPUs.  As CPUs are added/removed we should rescale the thread
count appropriately, but currently this is only done at create.
2009-07-09 10:07:52 -07:00
Brian Behlendorf 7257ec4185 Fix taskq_wait() not waiting bug
I'm very surprised this has not surfaced until now.  But the taskq_wait()
implementation work only wait successfully the first time it was called.
Subsequent usage of taskq_wait() on the taskq would not wait.

The issue was caused by tq->tq_lowest_id being set to MAX_INT after the
first wait completed.  This caused subsequent waits which check that the
waiting id is less than the lowest taskq id to always succeed.  The fix
is to ensure that tq->tq_lowest_id is never set larger than tq->tq_next.id.

Additional fixes which were added to this patch include:
1) Fix a race by placing the taskq_wait_check() in the tq->tq_lock spinlock.
2) taskq_wait() should wait for the largest outstanding id.
3) Multiple spelling corrections.
4) Added taskq wait regression test to validate correct behavior.
2009-03-15 15:13:49 -07:00
Brian Behlendorf f220894e1f Make the number of system taskq threads based on the node of cores in the node, as is done for most linux system tasks 2009-02-02 08:53:53 -08:00
Brian Behlendorf 617d5a673c Rename modules to module and update references 2009-01-15 10:44:54 -08:00