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460748d4ae
Parts of the Linux kernel build system struggle with _Noreturn. This results in the following warnings when building on RHEL 8.5, and likely other environments. Switch to using the __attribute__((noreturn)). warning: objtool: dbuf_free_range()+0x2b8: return with modified stack frame warning: objtool: dbuf_free_range()+0x0: stack state mismatch: cfa1=7+40 cfa2=7+8 ... WARNING: EXPORT symbol "arc_buf_size" [zfs.ko] version generation failed, symbol will not be versioned. WARNING: EXPORT symbol "spa_open" [zfs.ko] version generation failed, symbol will not be versioned. ... Additionally, __thread_exit() has been renamed spl_thread_exit() and made a static inline function. This was needed because the kernel will generate a warning for symbols which are __attribute__((noreturn)) and then exported with EXPORT_SYMBOL. While we could continue to use _Noreturn in user space I've also switched it to __attribute__((noreturn)) purely for consistency throughout the code base. Reviewed-by: Ryan Moeller <freqlabs@FreeBSD.org> Reviewed-by: Brian Atkinson <batkinson@lanl.gov> Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Closes #13238
548 lines
17 KiB
C
548 lines
17 KiB
C
/*
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* CDDL HEADER START
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*
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* This file and its contents are supplied under the terms of the
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* Common Development and Distribution License ("CDDL"), version 1.0.
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* You may only use this file in accordance with the terms of version
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* 1.0 of the CDDL.
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*
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* A full copy of the text of the CDDL should have accompanied this
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* source. A copy of the CDDL is also available via the Internet at
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* http://www.illumos.org/license/CDDL.
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*
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* CDDL HEADER END
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*/
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/*
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* Copyright (c) 2017, 2020 by Delphix. All rights reserved.
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*/
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/*
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* ZTHR Infrastructure
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* ===================
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*
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* ZTHR threads are used for isolated operations that span multiple txgs
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* within a SPA. They generally exist from SPA creation/loading and until
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* the SPA is exported/destroyed. The ideal requirements for an operation
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* to be modeled with a zthr are the following:
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*
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* 1] The operation needs to run over multiple txgs.
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* 2] There is be a single point of reference in memory or on disk that
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* indicates whether the operation should run/is running or has
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* stopped.
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*
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* If the operation satisfies the above then the following rules guarantee
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* a certain level of correctness:
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*
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* 1] Any thread EXCEPT the zthr changes the work indicator from stopped
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* to running but not the opposite.
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* 2] Only the zthr can change the work indicator from running to stopped
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* (e.g. when it is done) but not the opposite.
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*
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* This way a normal zthr cycle should go like this:
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*
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* 1] An external thread changes the work indicator from stopped to
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* running and wakes up the zthr.
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* 2] The zthr wakes up, checks the indicator and starts working.
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* 3] When the zthr is done, it changes the indicator to stopped, allowing
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* a new cycle to start.
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*
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* Besides being awakened by other threads, a zthr can be configured
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* during creation to wakeup on its own after a specified interval
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* [see zthr_create_timer()].
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*
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* Note: ZTHR threads are NOT a replacement for generic threads! Please
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* ensure that they fit your use-case well before using them.
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*
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* == ZTHR creation
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*
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* Every zthr needs four inputs to start running:
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*
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* 1] A user-defined checker function (checkfunc) that decides whether
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* the zthr should start working or go to sleep. The function should
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* return TRUE when the zthr needs to work or FALSE to let it sleep,
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* and should adhere to the following signature:
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* boolean_t checkfunc_name(void *args, zthr_t *t);
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*
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* 2] A user-defined ZTHR function (func) which the zthr executes when
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* it is not sleeping. The function should adhere to the following
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* signature type:
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* void func_name(void *args, zthr_t *t);
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*
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* 3] A void args pointer that will be passed to checkfunc and func
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* implicitly by the infrastructure.
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*
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* 4] A name for the thread. This string must be valid for the lifetime
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* of the zthr.
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*
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* The reason why the above API needs two different functions,
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* instead of one that both checks and does the work, has to do with
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* the zthr's internal state lock (zthr_state_lock) and the allowed
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* cancellation windows. We want to hold the zthr_state_lock while
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* running checkfunc but not while running func. This way the zthr
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* can be cancelled while doing work and not while checking for work.
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*
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* To start a zthr:
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* zthr_t *zthr_pointer = zthr_create(checkfunc, func, args,
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* pri);
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* or
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* zthr_t *zthr_pointer = zthr_create_timer(checkfunc, func,
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* args, max_sleep, pri);
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*
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* After that you should be able to wakeup, cancel, and resume the
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* zthr from another thread using the zthr_pointer.
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*
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* NOTE: ZTHR threads could potentially wake up spuriously and the
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* user should take this into account when writing a checkfunc.
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* [see ZTHR state transitions]
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*
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* == ZTHR wakeup
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*
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* ZTHR wakeup should be used when new work is added for the zthr. The
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* sleeping zthr will wakeup, see that it has more work to complete
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* and proceed. This can be invoked from open or syncing context.
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*
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* To wakeup a zthr:
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* zthr_wakeup(zthr_t *t)
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*
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* == ZTHR cancellation and resumption
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*
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* ZTHR threads must be cancelled when their SPA is being exported
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* or when they need to be paused so they don't interfere with other
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* operations.
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*
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* To cancel a zthr:
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* zthr_cancel(zthr_pointer);
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*
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* To resume it:
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* zthr_resume(zthr_pointer);
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*
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* ZTHR cancel and resume should be invoked in open context during the
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* lifecycle of the pool as it is imported, exported or destroyed.
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*
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* A zthr will implicitly check if it has received a cancellation
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* signal every time func returns and every time it wakes up [see
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* ZTHR state transitions below].
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*
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* At times, waiting for the zthr's func to finish its job may take
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* time. This may be very time-consuming for some operations that
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* need to cancel the SPA's zthrs (e.g spa_export). For this scenario
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* the user can explicitly make their ZTHR function aware of incoming
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* cancellation signals using zthr_iscancelled(). A common pattern for
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* that looks like this:
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*
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* int
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* func_name(void *args, zthr_t *t)
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* {
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* ... <unpack args> ...
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* while (!work_done && !zthr_iscancelled(t)) {
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* ... <do more work> ...
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* }
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* }
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*
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* == ZTHR cleanup
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*
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* Cancelling a zthr doesn't clean up its metadata (internal locks,
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* function pointers to func and checkfunc, etc..). This is because
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* we want to keep them around in case we want to resume the execution
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* of the zthr later. Similarly for zthrs that exit themselves.
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*
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* To completely cleanup a zthr, cancel it first to ensure that it
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* is not running and then use zthr_destroy().
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*
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* == ZTHR state transitions
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*
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* zthr creation
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* +
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* |
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* | woke up
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* | +--------------+ sleep
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* | | ^
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* | | |
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* | | | FALSE
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* | | |
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* v v FALSE +
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* cancelled? +---------> checkfunc?
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* + ^ +
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* | | |
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* | | | TRUE
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* | | |
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* | | func returned v
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* | +---------------+ func
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* |
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* | TRUE
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* |
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* v
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* zthr stopped running
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*
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* == Implementation of ZTHR requests
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*
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* ZTHR cancel and resume are requests on a zthr to change its
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* internal state. These requests are serialized using the
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* zthr_request_lock, while changes in its internal state are
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* protected by the zthr_state_lock. A request will first acquire
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* the zthr_request_lock and then immediately acquire the
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* zthr_state_lock. We do this so that incoming requests are
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* serialized using the request lock, while still allowing us
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* to use the state lock for thread communication via zthr_cv.
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*
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* ZTHR wakeup broadcasts to zthr_cv, causing sleeping threads
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* to wakeup. It acquires the zthr_state_lock but not the
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* zthr_request_lock, so that a wakeup on a zthr in the middle
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* of being cancelled will not block.
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*/
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#include <sys/zfs_context.h>
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#include <sys/zthr.h>
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struct zthr {
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/* running thread doing the work */
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kthread_t *zthr_thread;
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/* lock protecting internal data & invariants */
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kmutex_t zthr_state_lock;
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/* mutex that serializes external requests */
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kmutex_t zthr_request_lock;
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/* notification mechanism for requests */
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kcondvar_t zthr_cv;
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/* flag set to true if we are canceling the zthr */
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boolean_t zthr_cancel;
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/* flag set to true if we are waiting for the zthr to finish */
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boolean_t zthr_haswaiters;
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kcondvar_t zthr_wait_cv;
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/*
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* maximum amount of time that the zthr is spent sleeping;
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* if this is 0, the thread doesn't wake up until it gets
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* signaled.
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*/
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hrtime_t zthr_sleep_timeout;
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/* Thread priority */
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pri_t zthr_pri;
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/* consumer-provided callbacks & data */
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zthr_checkfunc_t *zthr_checkfunc;
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zthr_func_t *zthr_func;
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void *zthr_arg;
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const char *zthr_name;
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};
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static __attribute__((noreturn)) void
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zthr_procedure(void *arg)
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{
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zthr_t *t = arg;
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mutex_enter(&t->zthr_state_lock);
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ASSERT3P(t->zthr_thread, ==, curthread);
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while (!t->zthr_cancel) {
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if (t->zthr_checkfunc(t->zthr_arg, t)) {
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mutex_exit(&t->zthr_state_lock);
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t->zthr_func(t->zthr_arg, t);
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mutex_enter(&t->zthr_state_lock);
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} else {
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if (t->zthr_sleep_timeout == 0) {
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cv_wait_idle(&t->zthr_cv, &t->zthr_state_lock);
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} else {
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(void) cv_timedwait_idle_hires(&t->zthr_cv,
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&t->zthr_state_lock, t->zthr_sleep_timeout,
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MSEC2NSEC(1), 0);
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}
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}
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if (t->zthr_haswaiters) {
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t->zthr_haswaiters = B_FALSE;
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cv_broadcast(&t->zthr_wait_cv);
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}
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}
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/*
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* Clear out the kernel thread metadata and notify the
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* zthr_cancel() thread that we've stopped running.
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*/
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t->zthr_thread = NULL;
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t->zthr_cancel = B_FALSE;
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cv_broadcast(&t->zthr_cv);
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mutex_exit(&t->zthr_state_lock);
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thread_exit();
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}
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zthr_t *
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zthr_create(const char *zthr_name, zthr_checkfunc_t *checkfunc,
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zthr_func_t *func, void *arg, pri_t pri)
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{
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return (zthr_create_timer(zthr_name, checkfunc,
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func, arg, (hrtime_t)0, pri));
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}
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/*
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* Create a zthr with specified maximum sleep time. If the time
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* in sleeping state exceeds max_sleep, a wakeup(do the check and
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* start working if required) will be triggered.
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*/
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zthr_t *
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zthr_create_timer(const char *zthr_name, zthr_checkfunc_t *checkfunc,
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zthr_func_t *func, void *arg, hrtime_t max_sleep, pri_t pri)
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{
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zthr_t *t = kmem_zalloc(sizeof (*t), KM_SLEEP);
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mutex_init(&t->zthr_state_lock, NULL, MUTEX_DEFAULT, NULL);
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mutex_init(&t->zthr_request_lock, NULL, MUTEX_DEFAULT, NULL);
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cv_init(&t->zthr_cv, NULL, CV_DEFAULT, NULL);
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cv_init(&t->zthr_wait_cv, NULL, CV_DEFAULT, NULL);
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mutex_enter(&t->zthr_state_lock);
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t->zthr_checkfunc = checkfunc;
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t->zthr_func = func;
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t->zthr_arg = arg;
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t->zthr_sleep_timeout = max_sleep;
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t->zthr_name = zthr_name;
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t->zthr_pri = pri;
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t->zthr_thread = thread_create_named(zthr_name, NULL, 0,
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zthr_procedure, t, 0, &p0, TS_RUN, pri);
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mutex_exit(&t->zthr_state_lock);
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return (t);
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}
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void
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zthr_destroy(zthr_t *t)
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{
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ASSERT(!MUTEX_HELD(&t->zthr_state_lock));
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ASSERT(!MUTEX_HELD(&t->zthr_request_lock));
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VERIFY3P(t->zthr_thread, ==, NULL);
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mutex_destroy(&t->zthr_request_lock);
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mutex_destroy(&t->zthr_state_lock);
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cv_destroy(&t->zthr_cv);
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cv_destroy(&t->zthr_wait_cv);
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kmem_free(t, sizeof (*t));
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}
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/*
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* Wake up the zthr if it is sleeping. If the thread has been cancelled
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* or is in the process of being cancelled, this is a no-op.
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*/
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void
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zthr_wakeup(zthr_t *t)
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{
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mutex_enter(&t->zthr_state_lock);
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/*
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* There are 5 states that we can find the zthr when issuing
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* this broadcast:
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*
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* [1] The common case of the thread being asleep, at which
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* point the broadcast will wake it up.
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* [2] The thread has been cancelled. Waking up a cancelled
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* thread is a no-op. Any work that is still left to be
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* done should be handled the next time the thread is
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* resumed.
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* [3] The thread is doing work and is already up, so this
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* is basically a no-op.
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* [4] The thread was just created/resumed, in which case the
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* behavior is similar to [3].
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* [5] The thread is in the middle of being cancelled, which
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* will be a no-op.
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*/
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cv_broadcast(&t->zthr_cv);
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mutex_exit(&t->zthr_state_lock);
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}
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/*
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* Sends a cancel request to the zthr and blocks until the zthr is
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* cancelled. If the zthr is not running (e.g. has been cancelled
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* already), this is a no-op. Note that this function should not be
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* called from syncing context as it could deadlock with the zthr_func.
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*/
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void
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zthr_cancel(zthr_t *t)
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{
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mutex_enter(&t->zthr_request_lock);
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mutex_enter(&t->zthr_state_lock);
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/*
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* Since we are holding the zthr_state_lock at this point
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* we can find the state in one of the following 4 states:
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*
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* [1] The thread has already been cancelled, therefore
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* there is nothing for us to do.
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* [2] The thread is sleeping so we set the flag, broadcast
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* the CV and wait for it to exit.
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* [3] The thread is doing work, in which case we just set
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* the flag and wait for it to finish.
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* [4] The thread was just created/resumed, in which case
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* the behavior is similar to [3].
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*
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* Since requests are serialized, by the time that we get
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* control back we expect that the zthr is cancelled and
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* not running anymore.
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*/
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if (t->zthr_thread != NULL) {
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t->zthr_cancel = B_TRUE;
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/* broadcast in case the zthr is sleeping */
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cv_broadcast(&t->zthr_cv);
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while (t->zthr_thread != NULL)
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cv_wait(&t->zthr_cv, &t->zthr_state_lock);
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ASSERT(!t->zthr_cancel);
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}
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mutex_exit(&t->zthr_state_lock);
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mutex_exit(&t->zthr_request_lock);
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}
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/*
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* Sends a resume request to the supplied zthr. If the zthr is already
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* running this is a no-op. Note that this function should not be
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* called from syncing context as it could deadlock with the zthr_func.
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*/
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void
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zthr_resume(zthr_t *t)
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{
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mutex_enter(&t->zthr_request_lock);
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mutex_enter(&t->zthr_state_lock);
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ASSERT3P(&t->zthr_checkfunc, !=, NULL);
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ASSERT3P(&t->zthr_func, !=, NULL);
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ASSERT(!t->zthr_cancel);
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ASSERT(!t->zthr_haswaiters);
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/*
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* There are 4 states that we find the zthr in at this point
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* given the locks that we hold:
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*
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* [1] The zthr was cancelled, so we spawn a new thread for
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* the zthr (common case).
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* [2] The zthr is running at which point this is a no-op.
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* [3] The zthr is sleeping at which point this is a no-op.
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* [4] The zthr was just spawned at which point this is a
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* no-op.
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*/
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if (t->zthr_thread == NULL) {
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t->zthr_thread = thread_create_named(t->zthr_name, NULL, 0,
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zthr_procedure, t, 0, &p0, TS_RUN, t->zthr_pri);
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}
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mutex_exit(&t->zthr_state_lock);
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mutex_exit(&t->zthr_request_lock);
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}
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/*
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* This function is intended to be used by the zthr itself
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* (specifically the zthr_func callback provided) to check
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* if another thread has signaled it to stop running before
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* doing some expensive operation.
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*
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* returns TRUE if we are in the middle of trying to cancel
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* this thread.
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*
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* returns FALSE otherwise.
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*/
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boolean_t
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zthr_iscancelled(zthr_t *t)
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{
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ASSERT3P(t->zthr_thread, ==, curthread);
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/*
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* The majority of the functions here grab zthr_request_lock
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* first and then zthr_state_lock. This function only grabs
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* the zthr_state_lock. That is because this function should
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* only be called from the zthr_func to check if someone has
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* issued a zthr_cancel() on the thread. If there is a zthr_cancel()
|
|
* happening concurrently, attempting to grab the request lock
|
|
* here would result in a deadlock.
|
|
*
|
|
* By grabbing only the zthr_state_lock this function is allowed
|
|
* to run concurrently with a zthr_cancel() request.
|
|
*/
|
|
mutex_enter(&t->zthr_state_lock);
|
|
boolean_t cancelled = t->zthr_cancel;
|
|
mutex_exit(&t->zthr_state_lock);
|
|
return (cancelled);
|
|
}
|
|
|
|
boolean_t
|
|
zthr_iscurthread(zthr_t *t)
|
|
{
|
|
return (t->zthr_thread == curthread);
|
|
}
|
|
|
|
/*
|
|
* Wait for the zthr to finish its current function. Similar to
|
|
* zthr_iscancelled, you can use zthr_has_waiters to have the zthr_func end
|
|
* early. Unlike zthr_cancel, the thread is not destroyed. If the zthr was
|
|
* sleeping or cancelled, return immediately.
|
|
*/
|
|
void
|
|
zthr_wait_cycle_done(zthr_t *t)
|
|
{
|
|
mutex_enter(&t->zthr_state_lock);
|
|
|
|
/*
|
|
* Since we are holding the zthr_state_lock at this point
|
|
* we can find the state in one of the following 5 states:
|
|
*
|
|
* [1] The thread has already cancelled, therefore
|
|
* there is nothing for us to do.
|
|
* [2] The thread is sleeping so we set the flag, broadcast
|
|
* the CV and wait for it to exit.
|
|
* [3] The thread is doing work, in which case we just set
|
|
* the flag and wait for it to finish.
|
|
* [4] The thread was just created/resumed, in which case
|
|
* the behavior is similar to [3].
|
|
* [5] The thread is the middle of being cancelled, which is
|
|
* similar to [3]. We'll wait for the cancel, which is
|
|
* waiting for the zthr func.
|
|
*
|
|
* Since requests are serialized, by the time that we get
|
|
* control back we expect that the zthr has completed it's
|
|
* zthr_func.
|
|
*/
|
|
if (t->zthr_thread != NULL) {
|
|
t->zthr_haswaiters = B_TRUE;
|
|
|
|
/* broadcast in case the zthr is sleeping */
|
|
cv_broadcast(&t->zthr_cv);
|
|
|
|
while ((t->zthr_haswaiters) && (t->zthr_thread != NULL))
|
|
cv_wait(&t->zthr_wait_cv, &t->zthr_state_lock);
|
|
|
|
ASSERT(!t->zthr_haswaiters);
|
|
}
|
|
|
|
mutex_exit(&t->zthr_state_lock);
|
|
}
|
|
|
|
/*
|
|
* This function is intended to be used by the zthr itself
|
|
* to check if another thread is waiting on it to finish
|
|
*
|
|
* returns TRUE if we have been asked to finish.
|
|
*
|
|
* returns FALSE otherwise.
|
|
*/
|
|
boolean_t
|
|
zthr_has_waiters(zthr_t *t)
|
|
{
|
|
ASSERT3P(t->zthr_thread, ==, curthread);
|
|
|
|
mutex_enter(&t->zthr_state_lock);
|
|
|
|
/*
|
|
* Similarly to zthr_iscancelled(), we only grab the
|
|
* zthr_state_lock so that the zthr itself can use this
|
|
* to check for the request.
|
|
*/
|
|
boolean_t has_waiters = t->zthr_haswaiters;
|
|
mutex_exit(&t->zthr_state_lock);
|
|
return (has_waiters);
|
|
}
|