diff options
author | Jan200101 <sentrycraft123@gmail.com> | 2021-07-21 22:57:09 +0200 |
---|---|---|
committer | Jan200101 <sentrycraft123@gmail.com> | 2021-07-21 23:21:30 +0200 |
commit | cca3b28be503223222519e3ebba2749cf24894f3 (patch) | |
tree | 9f589ac6e7dc6dd8e9830d675d46efbd25191504 /SOURCES/winesync.patch | |
parent | 969572ecac2cb15a106d9e0f5bfa840608faa5b4 (diff) | |
download | kernel-fsync-cca3b28be503223222519e3ebba2749cf24894f3.tar.gz kernel-fsync-cca3b28be503223222519e3ebba2749cf24894f3.zip |
kernel 5.13.3
Diffstat (limited to 'SOURCES/winesync.patch')
-rw-r--r-- | SOURCES/winesync.patch | 3129 |
1 files changed, 3129 insertions, 0 deletions
diff --git a/SOURCES/winesync.patch b/SOURCES/winesync.patch new file mode 100644 index 0000000..8747933 --- /dev/null +++ b/SOURCES/winesync.patch @@ -0,0 +1,3129 @@ +diff --git a/Documentation/admin-guide/devices.txt b/Documentation/admin-guide/devices.txt +index 63fd4e6a014b..dc9a30b5f1a2 100644 +--- a/Documentation/admin-guide/devices.txt ++++ b/Documentation/admin-guide/devices.txt +@@ -376,8 +376,9 @@ + 240 = /dev/userio Serio driver testing device + 241 = /dev/vhost-vsock Host kernel driver for virtio vsock + 242 = /dev/rfkill Turning off radio transmissions (rfkill) ++ 243 = /dev/winesync Wine synchronization primitive device + +- 243-254 Reserved for local use ++ 244-254 Reserved for local use + 255 Reserved for MISC_DYNAMIC_MINOR + + 11 char Raw keyboard device (Linux/SPARC only) +diff --git a/Documentation/userspace-api/index.rst b/Documentation/userspace-api/index.rst +index d29b020e5622..d2ddbf9ad8cb 100644 +--- a/Documentation/userspace-api/index.rst ++++ b/Documentation/userspace-api/index.rst +@@ -25,6 +25,7 @@ place where this information is gathered. + iommu + media/index + sysfs-platform_profile ++ winesync + + .. only:: subproject and html + +diff --git a/Documentation/userspace-api/ioctl/ioctl-number.rst b/Documentation/userspace-api/ioctl/ioctl-number.rst +index 599bd4493944..825c6b2d2623 100644 +--- a/Documentation/userspace-api/ioctl/ioctl-number.rst ++++ b/Documentation/userspace-api/ioctl/ioctl-number.rst +@@ -366,6 +366,8 @@ Code Seq# Include File Comments + <mailto:thomas@winischhofer.net> + 0xF6 all LTTng Linux Trace Toolkit Next Generation + <mailto:mathieu.desnoyers@efficios.com> ++0xF7 00-0F uapi/linux/winesync.h Wine synchronization primitives ++ <mailto:wine-devel@winehq.org> + 0xFD all linux/dm-ioctl.h + 0xFE all linux/isst_if.h + ==== ===== ======================================================= ================================================================ +diff --git a/Documentation/userspace-api/winesync.rst b/Documentation/userspace-api/winesync.rst +new file mode 100644 +index 000000000000..751c70f1ffce +--- /dev/null ++++ b/Documentation/userspace-api/winesync.rst +@@ -0,0 +1,373 @@ ++===================================== ++Wine synchronization primitive driver ++===================================== ++ ++This page documents the user-space API for the winesync driver. ++ ++winesync is a support driver for emulation of NT synchronization ++primitives by the Wine project. It exists because implementation in ++user-space, using existing tools, cannot satisfy performance, ++correctness, and security constraints. It is implemented entirely in ++software, and does not drive any hardware device. ++ ++This interface is meant as a compatibility tool only and should not be ++used for general synchronization; instead use generic, versatile ++interfaces such as futex(2) and poll(2). ++ ++Synchronization primitives ++========================== ++ ++The winesync driver exposes two types of synchronization primitives, ++semaphores and mutexes. ++ ++A semaphore holds a single volatile 32-bit counter, and a static ++32-bit integer denoting the maximum value. It is considered signaled ++when the counter is nonzero. The counter is decremented by one when a ++wait is satisfied. Both the initial and maximum count are established ++when the semaphore is created. ++ ++A mutex holds a volatile 32-bit recursion count, and a volatile 32-bit ++identifier denoting its owner. The latter is intended to identify the ++thread holding the mutex; however, it is not actually validated ++against earlier calls made by the same thread. A mutex is considered ++signaled when its owner is zero (indicating that it is not owned). The ++recursion count is incremented when a wait is satisfied, and ownership ++is set to the given identifier. A mutex also holds an internal flag ++denoting whether its previous owner has died; such a mutex is said to ++be inconsistent. Owner death is not tracked automatically based on ++thread death, but rather must be communicated using ++``WINESYNC_IOC_KILL_OWNER``. ++ ++Objects are represented by signed 32-bit integers. A valid object ++identifier will always be nonnegative. ++ ++Char device ++=========== ++ ++The winesync driver creates a single char device /dev/winesync. Each ++file description opened on the device represents a unique namespace. ++That is, objects created on one open file description are shared ++across all its individual descriptors, but are not shared with other ++open() calls on the same device. ++ ++ioctl reference ++=============== ++ ++All operations on the device are done through ioctls. There are three ++structures used in ioctl calls:: ++ ++ struct winesync_sem_args { ++ __s32 sem; ++ __u32 count; ++ __u32 max; ++ __u32 flags; ++ }; ++ ++ struct winesync_mutex_args { ++ __s32 mutex; ++ __u32 owner; ++ __u32 count; ++ }; ++ ++ struct winesync_wait_args { ++ __u64 timeout; ++ __u64 objs; ++ __u32 count; ++ __u32 owner; ++ __u32 index; ++ __u32 pad; ++ }; ++ ++Depending on the ioctl, members of the structure may be used as input, ++output, or not at all. ++ ++All ioctls return 0 on success, and -1 on error, in which case `errno` ++will be set to a nonzero error code. ++ ++The ioctls are as follows: ++ ++.. c:macro:: WINESYNC_IOC_CREATE_SEM ++ ++ Create a semaphore object. Takes a pointer to struct ++ :c:type:`winesync_sem_args`, which is used as follows: ++ ++ ``count`` and ``max`` are input-only arguments, denoting the ++ initial and maximum count of the semaphore. ++ ++ ``flags`` is an input-only argument, which specifies additional ++ flags modifying the behaviour of the semaphore. There is only one ++ flag defined, ``WINESYNC_SEM_GETONWAIT``. If present, wait ++ operations on this semaphore will acquire it, decrementing its ++ count by one; otherwise, wait operations will not affect the ++ semaphore's state. ++ ++ ``sem`` is an output-only argument, which will be filled with the ++ allocated identifier if successful. ++ ++ Fails with ``EINVAL`` if ``count`` is greater than ``max``, or ++ ``ENOMEM`` if not enough memory is available. ++ ++.. c:macro:: WINESYNC_IOC_CREATE_MUTEX ++ ++ Create a mutex object. Takes a pointer to struct ++ :c:type:`winesync_mutex_args`, which is used as follows: ++ ++ ``owner`` is an input-only argument denoting the initial owner of ++ the mutex. ++ ++ ``count`` is an input-only argument denoting the initial recursion ++ count of the mutex. If ``owner`` is nonzero and ``count`` is zero, ++ or if ``owner`` is zero and ``count`` is nonzero, the function ++ fails with ``EINVAL``. ++ ++ ``mutex`` is an output-only argument, which will be filled with ++ the allocated identifier if successful. ++ ++ Fails with ``ENOMEM`` if not enough memory is available. ++ ++.. c:macro:: WINESYNC_IOC_DELETE ++ ++ Delete an object of any type. Takes an input-only pointer to a ++ 32-bit integer denoting the object to delete. Fails with ``EINVAL`` ++ if the object is not valid. Further ioctls attempting to use the ++ object return ``EINVAL``, unless the object identifier is reused. ++ However, wait ioctls currently in progress are not interrupted, and ++ behave as if the object remains valid. ++ ++.. c:macro:: WINESYNC_IOC_PUT_SEM ++ ++ Post to a semaphore object. Takes a pointer to struct ++ :c:type:`winesync_sem_args`, which is used as follows: ++ ++ ``sem`` is an input-only argument denoting the semaphore object. ++ If ``sem`` is not a valid semaphore object, the ioctl fails with ++ ``EINVAL``. ++ ++ ``count`` contains on input the count to add to the semaphore, and ++ on output is filled with its previous count. ++ ++ ``max`` and ``flags`` are not used. ++ ++ The operation is atomic and totally ordered with respect to other ++ operations on the same semaphore. If adding ``count`` to the ++ semaphore's current count would raise the latter past the ++ semaphore's maximum count, the ioctl fails with ``EOVERFLOW`` and ++ the semaphore is not affected. If raising the semaphore's count ++ causes it to become signaled, eligible threads waiting on this ++ semaphore will be woken and the semaphore's count decremented ++ appropriately. ++ ++.. c:macro:: WINESYNC_IOC_PULSE_SEM ++ ++ This operation is identical to ``WINESYNC_IOC_PUT_SEM``, with one ++ notable exception: the semaphore is always left in an *unsignaled* ++ state, regardless of the initial count or the count added by the ++ ioctl. That is, the count after a pulse operation will always be ++ zero. The entire operation is atomic. ++ ++ Hence, if the semaphore was created with the ++ ``WINESYNC_SEM_GETONWAIT`` flag set, and an unsignaled semaphore is ++ "pulsed" with a count of 2, at most two eligible threads (i.e. ++ threads not otherwise constrained due to ``WINESYNC_IOC_WAIT_ALL``) ++ will be woken up, and any others will remain sleeping. If less than ++ two eligible threads are waiting on the semaphore, all of them will ++ be woken up, and the semaphore's count will remain at zero. On the ++ other hand, if the semaphore was created without the ++ ``WINESYNC_SEM_GETONWAIT``, all eligible threads will be woken up, ++ making ``count`` effectively redundant. In either case, a ++ simultaneous ``WINESYNC_IOC_READ_SEM`` ioctl from another thread ++ will always report a count of zero. ++ ++ If adding ``count`` to the semaphore's current count would raise the ++ latter past the semaphore's maximum count, the ioctl fails with ++ ``EOVERFLOW``. However, in this case the semaphore's count will ++ still be reset to zero. ++ ++.. c:macro:: WINESYNC_IOC_GET_SEM ++ ++ Attempt to acquire a semaphore object. Takes an input-only pointer ++ to a 32-bit integer denoting the semaphore to acquire. ++ ++ This operation does not block. If the semaphore's count was zero, it ++ fails with ``EWOULDBLOCK``. Otherwise, the semaphore's count is ++ decremented by one. The behaviour of this operation is unaffected by ++ whether the semaphore was created with the ++ ``WINESYNC_SEM_GETONWAIT`` flag set. ++ ++ The operation is atomic and totally ordered with respect to other ++ operations on the same semaphore. ++ ++.. c:macro:: WINESYNC_IOC_PUT_MUTEX ++ ++ Release a mutex object. Takes a pointer to struct ++ :c:type:`winesync_mutex_args`, which is used as follows: ++ ++ ``mutex`` is an input-only argument denoting the mutex object. If ++ ``mutex`` is not a valid mutex object, the ioctl fails with ++ ``EINVAL``. ++ ++ ``owner`` is an input-only argument denoting the mutex owner. ++ ``owner`` must be nonzero, else the ioctl fails with ``EINVAL``. ++ If ``owner`` is not the current owner of the mutex, the ioctl ++ fails with ``EPERM``. ++ ++ ``count`` is an output-only argument which will be filled on ++ success with the mutex's previous recursion count. ++ ++ The mutex's count will be decremented by one. The operation is ++ atomic and totally ordered with respect to other operations on the ++ same mutex. If decrementing the mutex's count causes it to become ++ zero, the mutex is marked as unowned and signaled, and eligible ++ threads waiting on it will be woken as appropriate. ++ ++.. c:macro:: WINESYNC_IOC_READ_SEM ++ ++ Read the current state of a semaphore object. Takes a pointer to ++ struct :c:type:`winesync_sem_args`, which is used as follows: ++ ++ ``sem`` is an input-only argument denoting the semaphore object. ++ If ``sem`` is not a valid semaphore object, the ioctl fails with ++ ``EINVAL``. ++ ++ ``count`` and ``max`` are output-only arguments, which will be ++ filled with the current and maximum count of the given semaphore. ++ ++ ``flags`` is an output-only argument, which will be filled with ++ the flags used to create the semaphore. ++ ++ The operation is atomic and totally ordered with respect to other ++ operations on the same semaphore. ++ ++.. c:macro:: WINESYNC_IOC_READ_MUTEX ++ ++ Read the current state of a mutex object. Takes a pointer to struct ++ :c:type:`winesync_mutex_args`, which is used as follows: ++ ++ ``mutex`` is an input-only argument denoting the mutex object. If ++ ``mutex`` is not a valid mutex object, the ioctl fails with ++ ``EINVAL``. ++ ++ ``count`` and ``owner`` are output-only arguments, which will be ++ filled with the current recursion count and owner of the given ++ mutex. If the mutex is not owned, both ``count`` and ``owner`` are ++ set to zero. ++ ++ If the mutex is marked as inconsistent, the function fails with ++ ``EOWNERDEAD``. ++ ++ The operation is atomic and totally ordered with respect to other ++ operations on the same mutex. ++ ++.. c:macro:: WINESYNC_IOC_KILL_OWNER ++ ++ Mark any mutexes owned by the given identifier as unowned and ++ inconsistent. Takes an input-only pointer to a 32-bit integer ++ denoting the owner. If the owner is zero, the ioctl fails with ++ ``EINVAL``. ++ ++.. c:macro:: WINESYNC_IOC_WAIT_ANY ++ ++ Poll on any of a list of objects, atomically acquiring (at most) ++ one. Takes a pointer to struct :c:type:`winesync_wait_args`, which ++ is used as follows: ++ ++ ``timeout`` is an optional input-only pointer to a 64-bit struct ++ :c:type:`timespec` (specified as an integer so that the structure ++ has the same size regardless of architecture). The timeout is ++ specified in absolute format, as measured against the MONOTONIC ++ clock. If the timeout is equal to or earlier than the current ++ time, the function returns immediately without sleeping. If ++ ``timeout`` is zero, i.e. NULL, the function will sleep until an ++ object is signaled, and will not fail with ``ETIMEDOUT``. ++ ++ ``objs`` is a input-only pointer to an array of ``count`` 32-bit ++ object identifiers (specified as an integer so that the structure ++ has the same size regardless of architecture). If any identifier ++ is invalid, the function fails with ``EINVAL``. ++ ++ ``count`` is an input-only argument denoting the number of ++ elements in ``objs``. ++ ++ ``owner`` is an input-only argument denoting the mutex owner ++ identifier. If any object in ``objs`` is a mutex, the ioctl will ++ attempt to acquire that mutex on behalf of ``owner``. If ``owner`` ++ is zero, the ioctl fails with ``EINVAL``. ++ ++ ``index`` is an output-only argument which, if the ioctl is ++ successful, is filled with the index of the object actually ++ signaled. ++ ++ ``pad`` is unused, and exists to keep a consistent structure size. ++ ++ This function attempts to acquire one of the given objects. If ++ unable to do so, it sleeps until an object becomes signaled, ++ subsequently acquiring it, or the timeout expires. In the latter ++ case the ioctl fails with ``ETIMEDOUT``. The function only acquires ++ one object, even if multiple objects are signaled. ++ ++ A semaphore is considered to be signaled if its count is nonzero. It ++ is acquired by decrementing its count by one if the ++ ``WINESYNC_SEM_GETONWAIT`` flag was used to create it; otherwise no ++ operation is done to acquire the semaphore. A mutex is considered to ++ be signaled if it is unowned or if its owner matches the ``owner`` ++ argument, and is acquired by incrementing its recursion count by one ++ and setting its owner to the ``owner`` argument. ++ ++ Acquisition is atomic and totally ordered with respect to other ++ operations on the same object. If two wait operations (with ++ different ``owner`` identifiers) are queued on the same mutex, only ++ one is signaled. If two wait operations are queued on the same ++ semaphore (which was not created with the ``WINESYNC_SEM_GETONWAIT`` ++ flag set), and a value of one is posted to it, only one is signaled. ++ The order in which threads are signaled is not guaranteed. ++ ++ (If two wait operations are queued on the same semaphore, and the ++ semaphore was created with the ``WINESYNC_SEM_GETONWAIT`` flag set, ++ and a value of one is posted to it, both threads are signaled, and ++ the semaphore retains a count of one.) ++ ++ If an inconsistent mutex is acquired, the ioctl fails with ++ ``EOWNERDEAD``. Although this is a failure return, the function may ++ otherwise be considered successful. The mutex is marked as owned by ++ the given owner (with a recursion count of 1) and as no longer ++ inconsistent. ``index`` is still set to the index of the mutex. ++ ++ Unlike ``WINESYNC_IOC_WAIT_ALL``, it is valid to pass the same ++ object more than once. If a wakeup occurs due to that object being ++ signaled, ``index`` is set to the index of the first instance of the ++ object. ++ ++ Fails with ``ENOMEM`` if not enough memory is available, or ++ ``EINTR`` if a signal is received. ++ ++.. c:macro:: WINESYNC_IOC_WAIT_ALL ++ ++ Poll on a list of objects, atomically acquiring all of them. Takes a ++ pointer to struct :c:type:`winesync_wait_args`, which is used ++ identically to ``WINESYNC_IOC_WAIT_ANY``, except that ``index`` is ++ unused. ++ ++ This function attempts to simultaneously acquire all of the given ++ objects. If unable to do so, it sleeps until all objects become ++ simultaneously signaled, subsequently acquiring them, or the timeout ++ expires. In the latter case the ioctl fails with ``ETIMEDOUT`` and ++ no objects are modified. ++ ++ Objects may become signaled and subsequently designaled (through ++ acquisition by other threads) while this thread is sleeping. Only ++ once all objects are simultaneously signaled does the ioctl return. ++ The acquisition is atomic and totally ordered with respect to other ++ operations on any of the given objects. ++ ++ If an inconsistent mutex is acquired, the ioctl fails with ++ ``EOWNERDEAD``. Similarly to ``WINESYNC_IOC_WAIT_ANY``, all objects ++ are nevertheless marked as acquired. Note that if multiple mutex ++ objects are specified, there is no way to know which were marked as ++ inconsistent. ++ ++ Unlike ``WINESYNC_IOC_WAIT_ALL``, it is not valid to pass the same ++ object more than once. If this is attempted, the function fails with ++ ``EINVAL``. ++ ++ Fails with ``ENOMEM`` if not enough memory is available, or ++ ``EINTR`` if a signal is received. +diff --git a/MAINTAINERS b/MAINTAINERS +index 9450e052f1b1..d33e317759bf 100644 +--- a/MAINTAINERS ++++ b/MAINTAINERS +@@ -19351,6 +19351,15 @@ M: David Härdeman <david@hardeman.nu> + S: Maintained + F: drivers/media/rc/winbond-cir.c + ++WINESYNC SYNCHRONIZATION PRIMITIVE DRIVER ++M: Zebediah Figura <zfigura@codeweavers.com> ++L: wine-devel@winehq.org ++S: Supported ++F: Documentation/userspace-api/winesync.rst ++F: drivers/misc/winesync.c ++F: include/uapi/linux/winesync.c ++F: tools/testing/selftests/drivers/winesync/ ++ + WINSYSTEMS EBC-C384 WATCHDOG DRIVER + M: William Breathitt Gray <vilhelm.gray@gmail.com> + L: linux-watchdog@vger.kernel.org +diff --git a/drivers/misc/Kconfig b/drivers/misc/Kconfig +index f532c59bb59b..496f20d69914 100644 +--- a/drivers/misc/Kconfig ++++ b/drivers/misc/Kconfig +@@ -447,6 +447,18 @@ + switching between the dual-role USB-C port and the USB-A host ports + using only one USB controller. + ++config WINESYNC ++ default y ++ tristate "Synchronization primitives for Wine" ++ help ++ This module provides kernel support for synchronization primitives ++ used by Wine. It is not a hardware driver. ++ ++ To compile this driver as a module, choose M here: the ++ module will be called winesync. ++ ++ If unsure, say N. ++ + source "drivers/misc/c2port/Kconfig" + source "drivers/misc/eeprom/Kconfig" + source "drivers/misc/cb710/Kconfig" + +diff --git a/drivers/misc/Makefile b/drivers/misc/Makefile +index 99b6f15a3c70..327c9628c479 100644 +--- a/drivers/misc/Makefile ++++ b/drivers/misc/Makefile +@@ -56,3 +56,4 @@ obj-$(CONFIG_HABANA_AI) += habanalabs/ + obj-$(CONFIG_UACCE) += uacce/ + obj-$(CONFIG_XILINX_SDFEC) += xilinx_sdfec.o + obj-$(CONFIG_HISI_HIKEY_USB) += hisi_hikey_usb.o ++obj-$(CONFIG_WINESYNC) += winesync.o +diff --git a/drivers/misc/winesync.c b/drivers/misc/winesync.c +new file mode 100644 +index 000000000000..ff5749206aa9 +--- /dev/null ++++ b/drivers/misc/winesync.c +@@ -0,0 +1,1047 @@ ++// SPDX-License-Identifier: GPL-2.0-only ++/* ++ * winesync.c - Kernel driver for Wine synchronization primitives ++ * ++ * Copyright (C) 2021 Zebediah Figura ++ */ ++ ++#include <linux/fs.h> ++#include <linux/idr.h> ++#include <linux/miscdevice.h> ++#include <linux/module.h> ++#include <linux/mutex.h> ++#include <linux/slab.h> ++#include <uapi/linux/winesync.h> ++ ++#define WINESYNC_NAME "winesync" ++ ++enum winesync_type { ++ WINESYNC_TYPE_SEM, ++ WINESYNC_TYPE_MUTEX, ++}; ++ ++struct winesync_obj { ++ struct kref refcount; ++ spinlock_t lock; ++ ++ /* ++ * any_waiters is protected by the object lock, but all_waiters is ++ * protected by the device wait_all_lock. ++ */ ++ struct list_head any_waiters; ++ struct list_head all_waiters; ++ ++ /* ++ * Hint describing how many tasks are queued on this object in a ++ * wait-all operation. ++ * ++ * Any time we do a wake, we may need to wake "all" waiters as well as ++ * "any" waiters. In order to atomically wake "all" waiters, we must ++ * lock all of the objects, and that means grabbing the wait_all_lock ++ * below (and, due to lock ordering rules, before locking this object). ++ * However, wait-all is a rare operation, and grabbing the wait-all ++ * lock for every wake would create unnecessary contention. Therefore we ++ * first check whether all_hint is one, and, if it is, we skip trying ++ * to wake "all" waiters. ++ * ++ * This "refcount" isn't protected by any lock. It might change during ++ * the course of a wake, but there's no meaningful race there; it's only ++ * a hint. ++ * ++ * Use refcount_t rather than atomic_t to take advantage of saturation. ++ * This does mean that the "no waiters" case is signified by all_hint ++ * being one, rather than zero (otherwise we would get spurious ++ * warnings). ++ */ ++ refcount_t all_hint; ++ ++ enum winesync_type type; ++ ++ /* The following fields are protected by the object lock. */ ++ union { ++ struct { ++ __u32 count; ++ __u32 max; ++ __u32 flags; ++ } sem; ++ struct { ++ __u32 count; ++ __u32 owner; ++ bool ownerdead; ++ } mutex; ++ } u; ++}; ++ ++struct winesync_q_entry { ++ struct list_head node; ++ struct winesync_q *q; ++ struct winesync_obj *obj; ++ __u32 index; ++}; ++ ++struct winesync_q { ++ struct task_struct *task; ++ __u32 owner; ++ ++ /* ++ * Protected via atomic_cmpxchg(). Only the thread that wins the ++ * compare-and-swap may actually change object states and wake this ++ * task. ++ */ ++ atomic_t signaled; ++ ++ bool all; ++ bool ownerdead; ++ __u32 count; ++ struct winesync_q_entry entries[]; ++}; ++ ++struct winesync_device { ++ /* ++ * Wait-all operations must atomically grab all objects, and be totally ++ * ordered with respect to each other and wait-any operations. If one ++ * thread is trying to acquire several objects, another thread cannot ++ * touch the object at the same time. ++ * ++ * We achieve this by grabbing multiple object locks at the same time. ++ * However, this creates a lock ordering problem. To solve that problem, ++ * wait_all_lock is taken first whenever multiple objects must be locked ++ * at the same time. ++ */ ++ spinlock_t wait_all_lock; ++ struct mutex table_lock; ++ struct idr objects; ++}; ++ ++static struct winesync_obj *get_obj(struct winesync_device *dev, int id) ++{ ++ struct winesync_obj *obj; ++ ++ rcu_read_lock(); ++ obj = idr_find(&dev->objects, id); ++ if (obj && !kref_get_unless_zero(&obj->refcount)) ++ obj = NULL; ++ rcu_read_unlock(); ++ ++ return obj; ++} ++ ++static void destroy_obj(struct kref *ref) ++{ ++ struct winesync_obj *obj; ++ ++ obj = container_of(ref, struct winesync_obj, refcount); ++ kfree(obj); ++} ++ ++static void put_obj(struct winesync_obj *obj) ++{ ++ kref_put(&obj->refcount, destroy_obj); ++} ++ ++static int winesync_char_open(struct inode *inode, struct file *file) ++{ ++ struct winesync_device *dev; ++ ++ dev = kzalloc(sizeof(*dev), GFP_KERNEL); ++ if (!dev) ++ return -ENOMEM; ++ ++ idr_init(&dev->objects); ++ spin_lock_init(&dev->wait_all_lock); ++ mutex_init(&dev->table_lock); ++ ++ file->private_data = dev; ++ return nonseekable_open(inode, file); ++} ++ ++static int winesync_char_release(struct inode *inode, struct file *file) ++{ ++ struct winesync_device *dev = file->private_data; ++ struct winesync_obj *obj; ++ int id; ++ ++ mutex_lock(&dev->table_lock); ++ idr_for_each_entry(&dev->objects, obj, id) { ++ idr_remove(&dev->objects, id); ++ synchronize_rcu(); ++ put_obj(obj); ++ } ++ mutex_unlock(&dev->table_lock); ++ ++ kfree(dev); ++ ++ return 0; ++} ++ ++static void winesync_init_obj(struct winesync_obj *obj) ++{ ++ kref_init(&obj->refcount); ++ refcount_set(&obj->all_hint, 1); ++ spin_lock_init(&obj->lock); ++ INIT_LIST_HEAD(&obj->any_waiters); ++ INIT_LIST_HEAD(&obj->all_waiters); ++} ++ ++static bool is_signaled(struct winesync_obj *obj, __u32 owner) ++{ ++ lockdep_assert_held(&obj->lock); ++ ++ switch (obj->type) { ++ case WINESYNC_TYPE_SEM: ++ return !!obj->u.sem.count; ++ case WINESYNC_TYPE_MUTEX: ++ if (obj->u.mutex.owner && obj->u.mutex.owner != owner) ++ return false; ++ return obj->u.mutex.count < UINT_MAX; ++ } ++ ++ WARN(1, "bad object type %#x\n", obj->type); ++ return false; ++} ++ ++/* ++ * "locked_obj" is an optional pointer to an object which is already locked and ++ * should not be locked again. This is necessary so that changing an object's ++ * state and waking it can be a single atomic operation. ++ */ ++static void try_wake_all(struct winesync_device *dev, struct winesync_q *q, ++ struct winesync_obj *locked_obj) ++{ ++ __u32 count = q->count; ++ bool can_wake = true; ++ __u32 i; ++ ++ lockdep_assert_held(&dev->wait_all_lock); ++ if (locked_obj) ++ lockdep_assert_held(&locked_obj->lock); ++ ++ for (i = 0; i < count; i++) { ++ if (q->entries[i].obj != locked_obj) ++ spin_lock(&q->entries[i].obj->lock); ++ } ++ ++ for (i = 0; i < count; i++) { ++ if (!is_signaled(q->entries[i].obj, q->owner)) { ++ can_wake = false; ++ break; ++ } ++ } ++ ++ if (can_wake && atomic_cmpxchg(&q->signaled, -1, 0) == -1) { ++ for (i = 0; i < count; i++) { ++ struct winesync_obj *obj = q->entries[i].obj; ++ ++ switch (obj->type) { ++ case WINESYNC_TYPE_SEM: ++ if (obj->u.sem.flags & WINESYNC_SEM_GETONWAIT) ++ obj->u.sem.count--; ++ break; ++ case WINESYNC_TYPE_MUTEX: ++ if (obj->u.mutex.ownerdead) ++ q->ownerdead = true; ++ obj->u.mutex.ownerdead = false; ++ obj->u.mutex.count++; ++ obj->u.mutex.owner = q->owner; ++ break; ++ } ++ } ++ wake_up_process(q->task); ++ } ++ ++ for (i = 0; i < count; i++) { ++ if (q->entries[i].obj != locked_obj) ++ spin_unlock(&q->entries[i].obj->lock); ++ } ++} ++ ++static void try_wake_all_obj(struct winesync_device *dev, ++ struct winesync_obj *obj) ++{ ++ struct winesync_q_entry *entry; ++ ++ lockdep_assert_held(&dev->wait_all_lock); ++ lockdep_assert_held(&obj->lock); ++ ++ list_for_each_entry(entry, &obj->all_waiters, node) ++ try_wake_all(dev, entry->q, obj); ++} ++ ++static void try_wake_any_sem(struct winesync_obj *sem) ++{ ++ struct winesync_q_entry *entry; ++ ++ lockdep_assert_held(&sem->lock); ++ ++ list_for_each_entry(entry, &sem->any_waiters, node) { ++ struct winesync_q *q = entry->q; ++ ++ if (!sem->u.sem.count) ++ break; ++ ++ if (atomic_cmpxchg(&q->signaled, -1, entry->index) == -1) { ++ if (sem->u.sem.flags & WINESYNC_SEM_GETONWAIT) ++ sem->u.sem.count--; ++ wake_up_process(q->task); ++ } ++ } ++} ++ ++static void try_wake_any_mutex(struct winesync_obj *mutex) ++{ ++ struct winesync_q_entry *entry; ++ ++ lockdep_assert_held(&mutex->lock); ++ ++ list_for_each_entry(entry, &mutex->any_waiters, node) { ++ struct winesync_q *q = entry->q; ++ ++ if (mutex->u.mutex.count == UINT_MAX) ++ break; ++ if (mutex->u.mutex.owner && mutex->u.mutex.owner != q->owner) ++ continue; ++ ++ if (atomic_cmpxchg(&q->signaled, -1, entry->index) == -1) { ++ if (mutex->u.mutex.ownerdead) ++ q->ownerdead = true; ++ mutex->u.mutex.ownerdead = false; ++ mutex->u.mutex.count++; ++ mutex->u.mutex.owner = q->owner; ++ wake_up_process(q->task); ++ } ++ } ++} ++ ++static int winesync_create_sem(struct winesync_device *dev, void __user *argp) ++{ ++ struct winesync_sem_args __user *user_args = argp; ++ struct winesync_sem_args args; ++ struct winesync_obj *sem; ++ int ret; ++ ++ if (copy_from_user(&args, argp, sizeof(args))) ++ return -EFAULT; ++ ++ if (args.count > args.max) ++ return -EINVAL; ++ ++ if (args.flags & ~WINESYNC_SEM_GETONWAIT) ++ return -EINVAL; ++ ++ sem = kzalloc(sizeof(*sem), GFP_KERNEL); ++ if (!sem) ++ return -ENOMEM; ++ ++ winesync_init_obj(sem); ++ sem->type = WINESYNC_TYPE_SEM; ++ sem->u.sem.count = args.count; ++ sem->u.sem.max = args.max; ++ sem->u.sem.flags = args.flags; ++ ++ mutex_lock(&dev->table_lock); ++ ret = idr_alloc(&dev->objects, sem, 0, 0, GFP_KERNEL); ++ mutex_unlock(&dev->table_lock); ++ ++ if (ret < 0) { ++ kfree(sem); ++ return ret; ++ } ++ ++ return put_user(ret, &user_args->sem); ++} ++ ++static int winesync_create_mutex(struct winesync_device *dev, void __user *argp) ++{ ++ struct winesync_mutex_args __user *user_args = argp; ++ struct winesync_mutex_args args; ++ struct winesync_obj *mutex; ++ int ret; ++ ++ if (copy_from_user(&args, argp, sizeof(args))) ++ return -EFAULT; ++ ++ if (!args.owner != !args.count) ++ return -EINVAL; ++ ++ mutex = kzalloc(sizeof(*mutex), GFP_KERNEL); ++ if (!mutex) ++ return -ENOMEM; ++ ++ winesync_init_obj(mutex); ++ mutex->type = WINESYNC_TYPE_MUTEX; ++ mutex->u.mutex.count = args.count; ++ mutex->u.mutex.owner = args.owner; ++ ++ mutex_lock(&dev->table_lock); ++ ret = idr_alloc(&dev->objects, mutex, 0, 0, GFP_KERNEL); ++ mutex_unlock(&dev->table_lock); ++ ++ if (ret < 0) { ++ kfree(mutex); ++ return ret; ++ } ++ ++ return put_user(ret, &user_args->mutex); ++} ++ ++static int winesync_delete(struct winesync_device *dev, void __user *argp) ++{ ++ struct winesync_obj *obj; ++ __s32 id; ++ ++ if (get_user(id, (__s32 __user *)argp)) ++ return -EFAULT; ++ ++ mutex_lock(&dev->table_lock); ++ obj = idr_remove(&dev->objects, id); ++ mutex_unlock(&dev->table_lock); ++ ++ if (!obj) ++ return -EINVAL; ++ ++ put_obj(obj); ++ return 0; ++} ++ ++static int winesync_get_sem(struct winesync_device *dev, void __user *argp) ++{ ++ struct winesync_obj *sem; ++ int ret = -EWOULDBLOCK; ++ __s32 id; ++ ++ if (get_user(id, (__s32 __user *)argp)) ++ return -EFAULT; ++ ++ sem = get_obj(dev, id); ++ if (!sem) ++ return -EINVAL; ++ if (sem->type != WINESYNC_TYPE_SEM) { ++ put_obj(sem); ++ return -EINVAL; ++ } ++ ++ spin_lock(&sem->lock); ++ ++ if (sem->u.sem.count) { ++ /* ++ * Decrement the semaphore's count, regardless of whether it ++ * has the WINESYNC_SEM_GETONWAIT flag set. ++ */ ++ sem->u.sem.count--; ++ ret = 0; ++ } ++ ++ spin_unlock(&sem->lock); ++ ++ put_obj(sem); ++ ++ return ret; ++} ++ ++/* ++ * Actually change the semaphore state, returning -EOVERFLOW if it is made ++ * invalid. ++ */ ++static int put_sem_state(struct winesync_obj *sem, __u32 count) ++{ ++ lockdep_assert_held(&sem->lock); ++ ++ if (sem->u.sem.count + count < sem->u.sem.count || ++ sem->u.sem.count + count > sem->u.sem.max) ++ return -EOVERFLOW; ++ ++ sem->u.sem.count += count; ++ return 0; ++} ++ ++static int winesync_put_sem(struct winesync_device *dev, void __user *argp, ++ bool pulse) ++{ ++ struct winesync_sem_args __user *user_args = argp; ++ struct winesync_sem_args args; ++ struct winesync_obj *sem; ++ __u32 prev_count; ++ int ret; ++ ++ if (copy_from_user(&args, argp, sizeof(args))) ++ return -EFAULT; ++ ++ sem = get_obj(dev, args.sem); ++ if (!sem) ++ return -EINVAL; ++ if (sem->type != WINESYNC_TYPE_SEM) { ++ put_obj(sem); ++ return -EINVAL; ++ } ++ ++ if (refcount_read(&sem->all_hint) > 1) { ++ spin_lock(&dev->wait_all_lock); ++ spin_lock(&sem->lock); ++ ++ prev_count = sem->u.sem.count; ++ ret = put_sem_state(sem, args.count); ++ if (!ret) { ++ try_wake_all_obj(dev, sem); ++ try_wake_any_sem(sem); ++ } ++ ++ if (pulse) ++ sem->u.sem.count = 0; ++ ++ spin_unlock(&sem->lock); ++ spin_unlock(&dev->wait_all_lock); ++ } else { ++ spin_lock(&sem->lock); ++ ++ prev_count = sem->u.sem.count; ++ ret = put_sem_state(sem, args.count); ++ if (!ret) ++ try_wake_any_sem(sem); ++ ++ if (pulse) ++ sem->u.sem.count = 0; ++ ++ spin_unlock(&sem->lock); ++ } ++ ++ put_obj(sem); ++ ++ if (!ret && put_user(prev_count, &user_args->count)) ++ ret = -EFAULT; ++ ++ return ret; ++} ++ ++/* ++ * Actually change the mutex state, returning -EPERM if not the owner. ++ */ ++static int put_mutex_state(struct winesync_obj *mutex, ++ const struct winesync_mutex_args *args) ++{ ++ lockdep_assert_held(&mutex->lock); ++ ++ if (mutex->u.mutex.owner != args->owner) ++ return -EPERM; ++ ++ if (!--mutex->u.mutex.count) ++ mutex->u.mutex.owner = 0; ++ return 0; ++} ++ ++static int winesync_put_mutex(struct winesync_device *dev, void __user *argp) ++{ ++ struct winesync_mutex_args __user *user_args = argp; ++ struct winesync_mutex_args args; ++ struct winesync_obj *mutex; ++ __u32 prev_count; ++ int ret; ++ ++ if (copy_from_user(&args, argp, sizeof(args))) ++ return -EFAULT; ++ if (!args.owner) ++ return -EINVAL; ++ ++ mutex = get_obj(dev, args.mutex); ++ if (!mutex) ++ return -EINVAL; ++ if (mutex->type != WINESYNC_TYPE_MUTEX) { ++ put_obj(mutex); ++ return -EINVAL; ++ } ++ ++ if (refcount_read(&mutex->all_hint) > 1) { ++ spin_lock(&dev->wait_all_lock); ++ spin_lock(&mutex->lock); ++ ++ prev_count = mutex->u.mutex.count; ++ ret = put_mutex_state(mutex, &args); ++ if (!ret) { ++ try_wake_all_obj(dev, mutex); ++ try_wake_any_mutex(mutex); ++ } ++ ++ spin_unlock(&mutex->lock); ++ spin_unlock(&dev->wait_all_lock); ++ } else { ++ spin_lock(&mutex->lock); ++ ++ prev_count = mutex->u.mutex.count; ++ ret = put_mutex_state(mutex, &args); ++ if (!ret) ++ try_wake_any_mutex(mutex); ++ ++ spin_unlock(&mutex->lock); ++ } ++ ++ put_obj(mutex); ++ ++ if (!ret && put_user(prev_count, &user_args->count)) ++ ret = -EFAULT; ++ ++ return ret; ++} ++ ++static int winesync_read_sem(struct winesync_device *dev, void __user *argp) ++{ ++ struct winesync_sem_args __user *user_args = argp; ++ struct winesync_sem_args args; ++ struct winesync_obj *sem; ++ __s32 id; ++ ++ if (get_user(id, &user_args->sem)) ++ return -EFAULT; ++ ++ sem = get_obj(dev, id); ++ if (!sem) ++ return -EINVAL; ++ if (sem->type != WINESYNC_TYPE_SEM) { ++ put_obj(sem); ++ return -EINVAL; ++ } ++ ++ args.sem = id; ++ spin_lock(&sem->lock); ++ args.count = sem->u.sem.count; ++ args.max = sem->u.sem.max; ++ args.flags = sem->u.sem.flags; ++ spin_unlock(&sem->lock); ++ ++ put_obj(sem); ++ ++ if (copy_to_user(user_args, &args, sizeof(args))) ++ return -EFAULT; ++ return 0; ++} ++ ++static int winesync_read_mutex(struct winesync_device *dev, void __user *argp) ++{ ++ struct winesync_mutex_args __user *user_args = argp; ++ struct winesync_mutex_args args; ++ struct winesync_obj *mutex; ++ __s32 id; ++ int ret; ++ ++ if (get_user(id, &user_args->mutex)) ++ return -EFAULT; ++ ++ mutex = get_obj(dev, id); ++ if (!mutex) ++ return -EINVAL; ++ if (mutex->type != WINESYNC_TYPE_MUTEX) { ++ put_obj(mutex); ++ return -EINVAL; ++ } ++ ++ args.mutex = id; ++ spin_lock(&mutex->lock); ++ args.count = mutex->u.mutex.count; ++ args.owner = mutex->u.mutex.owner; ++ ret = mutex->u.mutex.ownerdead ? -EOWNERDEAD : 0; ++ spin_unlock(&mutex->lock); ++ ++ put_obj(mutex); ++ ++ if (copy_to_user(user_args, &args, sizeof(args))) ++ return -EFAULT; ++ return ret; ++} ++ ++/* ++ * Actually change the mutex state to mark its owner as dead. ++ */ ++static void put_mutex_ownerdead_state(struct winesync_obj *mutex) ++{ ++ lockdep_assert_held(&mutex->lock); ++ ++ mutex->u.mutex.ownerdead = true; ++ mutex->u.mutex.owner = 0; ++ mutex->u.mutex.count = 0; ++} ++ ++static int winesync_kill_owner(struct winesync_device *dev, void __user *argp) ++{ ++ struct winesync_obj *obj; ++ __u32 owner; ++ int id; ++ ++ if (get_user(owner, (__u32 __user *)argp)) ++ return -EFAULT; ++ if (!owner) ++ return -EINVAL; ++ ++ rcu_read_lock(); ++ ++ idr_for_each_entry(&dev->objects, obj, id) { ++ if (!kref_get_unless_zero(&obj->refcount)) ++ continue; ++ ++ if (obj->type != WINESYNC_TYPE_MUTEX) { ++ put_obj(obj); ++ continue; ++ } ++ ++ if (refcount_read(&obj->all_hint) > 1) { ++ spin_lock(&dev->wait_all_lock); ++ spin_lock(&obj->lock); ++ ++ if (obj->u.mutex.owner == owner) { ++ put_mutex_ownerdead_state(obj); ++ try_wake_all_obj(dev, obj); ++ try_wake_any_mutex(obj); ++ } ++ ++ spin_unlock(&obj->lock); ++ spin_unlock(&dev->wait_all_lock); ++ } else { ++ spin_lock(&obj->lock); ++ ++ if (obj->u.mutex.owner == owner) { ++ put_mutex_ownerdead_state(obj); ++ try_wake_any_mutex(obj); ++ } ++ ++ spin_unlock(&obj->lock); ++ } ++ ++ put_obj(obj); ++ } ++ ++ rcu_read_unlock(); ++ ++ return 0; ++} ++ ++static int winesync_schedule(const struct winesync_q *q, ktime_t *timeout) ++{ ++ int ret = 0; ++ ++ do { ++ if (signal_pending(current)) { ++ ret = -ERESTARTSYS; ++ break; ++ } ++ ++ set_current_state(TASK_INTERRUPTIBLE); ++ if (atomic_read(&q->signaled) != -1) { ++ ret = 0; ++ break; ++ } ++ ret = schedule_hrtimeout(timeout, HRTIMER_MODE_ABS); ++ } while (ret < 0); ++ __set_current_state(TASK_RUNNING); ++ ++ return ret; ++} ++ ++/* ++ * Allocate and initialize most of the winesync_q structure, but do not queue us ++ * yet. Also, calculate the relative timeout in jiffies. ++ */ ++static int setup_wait(struct winesync_device *dev, ++ const struct winesync_wait_args *args, bool all, ++ ktime_t *ret_timeout, struct winesync_q **ret_q) ++{ ++ const __u32 count = args->count; ++ struct winesync_q *q; ++ ktime_t timeout = 0; ++ __s32 *ids; ++ __u32 i, j; ++ ++ if (args->timeout) { ++ struct timespec64 to; ++ ++ if (get_timespec64(&to, u64_to_user_ptr(args->timeout))) ++ return -EFAULT; ++ if (!timespec64_valid(&to)) ++ return -EINVAL; ++ ++ timeout = timespec64_to_ns(&to); ++ } ++ ++ ids = kmalloc_array(args->count, sizeof(*ids), GFP_KERNEL); ++ if (!ids) ++ return -ENOMEM; ++ if (copy_from_user(ids, u64_to_user_ptr(args->objs), ++ array_size(args->count, sizeof(*ids)))) { ++ kfree(ids); ++ return -EFAULT; ++ } ++ ++ q = kmalloc(struct_size(q, entries, count), GFP_KERNEL); ++ if (!q) { ++ kfree(ids); ++ return -ENOMEM; ++ } ++ q->task = current; ++ q->owner = args->owner; ++ atomic_set(&q->signaled, -1); ++ q->all = all; ++ q->ownerdead = false; ++ q->count = count; ++ ++ for (i = 0; i < count; i++) { ++ struct winesync_q_entry *entry = &q->entries[i]; ++ struct winesync_obj *obj = get_obj(dev, ids[i]); ++ ++ if (!obj) ++ goto err; ++ ++ if (all) { ++ /* Check that the objects are all distinct. */ ++ for (j = 0; j < i; j++) { ++ if (obj == q->entries[j].obj) { ++ put_obj(obj); ++ goto err; ++ } ++ } ++ } ++ ++ entry->obj = obj; ++ entry->q = q; ++ entry->index = i; ++ } ++ ++ kfree(ids); ++ ++ *ret_q = q; ++ *ret_timeout = timeout; ++ return 0; ++ ++err: ++ for (j = 0; j < i; j++) ++ put_obj(q->entries[j].obj); ++ kfree(ids); ++ kfree(q); ++ return -EINVAL; ++} ++ ++static void try_wake_any_obj(struct winesync_obj *obj) ++{ ++ switch (obj->type) { ++ case WINESYNC_TYPE_SEM: ++ try_wake_any_sem(obj); ++ break; ++ case WINESYNC_TYPE_MUTEX: ++ try_wake_any_mutex(obj); ++ break; ++ } ++} ++ ++static int winesync_wait_any(struct winesync_device *dev, void __user *argp) ++{ ++ struct winesync_wait_args args; ++ struct winesync_q *q; ++ ktime_t timeout; ++ __u32 i; ++ int ret; ++ ++ if (copy_from_user(&args, argp, sizeof(args))) ++ return -EFAULT; ++ if (!args.owner) ++ return -EINVAL; ++ ++ ret = setup_wait(dev, &args, false, &timeout, &q); ++ if (ret < 0) ++ return ret; ++ ++ /* queue ourselves */ ++ ++ for (i = 0; i < args.count; i++) { ++ struct winesync_q_entry *entry = &q->entries[i]; ++ struct winesync_obj *obj = q->entries[i].obj; ++ ++ spin_lock(&obj->lock); ++ list_add_tail(&entry->node, &obj->any_waiters); ++ spin_unlock(&obj->lock); ++ } ++ ++ /* check if we are already signaled */ ++ ++ for (i = 0; i < args.count; i++) { ++ struct winesync_obj *obj = q->entries[i].obj; ++ ++ if (atomic_read(&q->signaled) != -1) ++ break; ++ ++ spin_lock(&obj->lock); ++ try_wake_any_obj(obj); ++ spin_unlock(&obj->lock); ++ } ++ ++ /* sleep */ ++ ++ ret = winesync_schedule(q, args.timeout ? &timeout : NULL); ++ ++ /* and finally, unqueue */ ++ ++ for (i = 0; i < args.count; i++) { ++ struct winesync_obj *obj = q->entries[i].obj; ++ ++ spin_lock(&obj->lock); ++ list_del(&q->entries[i].node); ++ spin_unlock(&obj->lock); ++ ++ put_obj(obj); ++ } ++ ++ if (atomic_read(&q->signaled) != -1) { ++ struct winesync_wait_args __user *user_args = argp; ++ ++ /* even if we caught a signal, we need to communicate success */ ++ ret = q->ownerdead ? -EOWNERDEAD : 0; ++ ++ if (put_user(atomic_read(&q->signaled), &user_args->index)) ++ ret = -EFAULT; ++ } else if (!ret) { ++ ret = -ETIMEDOUT; ++ } ++ ++ kfree(q); ++ return ret; ++} ++ ++static int winesync_wait_all(struct winesync_device *dev, void __user *argp) ++{ ++ struct winesync_wait_args args; ++ struct winesync_q *q; ++ ktime_t timeout; ++ __u32 i; ++ int ret; ++ ++ if (copy_from_user(&args, argp, sizeof(args))) ++ return -EFAULT; ++ if (!args.owner) ++ return -EINVAL; ++ ++ ret = setup_wait(dev, &args, true, &timeout, &q); ++ if (ret < 0) ++ return ret; ++ ++ /* queue ourselves */ ++ ++ spin_lock(&dev->wait_all_lock); ++ ++ for (i = 0; i < args.count; i++) { ++ struct winesync_q_entry *entry = &q->entries[i]; ++ struct winesync_obj *obj = q->entries[i].obj; ++ ++ refcount_inc(&obj->all_hint); ++ ++ /* ++ * obj->all_waiters is protected by dev->wait_all_lock rather ++ * than obj->lock, so there is no need to acquire it here. ++ */ ++ list_add_tail(&entry->node, &obj->all_waiters); ++ } ++ ++ /* check if we are already signaled */ ++ ++ try_wake_all(dev, q, NULL); ++ ++ spin_unlock(&dev->wait_all_lock); ++ ++ /* sleep */ ++ ++ ret = winesync_schedule(q, args.timeout ? &timeout : NULL); ++ ++ /* and finally, unqueue */ ++ ++ spin_lock(&dev->wait_all_lock); ++ ++ for (i = 0; i < args.count; i++) { ++ struct winesync_q_entry *entry = &q->entries[i]; ++ struct winesync_obj *obj = q->entries[i].obj; ++ ++ /* ++ * obj->all_waiters is protected by dev->wait_all_lock rather ++ * than obj->lock, so there is no need to acquire it here. ++ */ ++ list_del(&entry->node); ++ ++ refcount_dec(&obj->all_hint); ++ ++ put_obj(obj); ++ } ++ ++ spin_unlock(&dev->wait_all_lock); ++ ++ if (atomic_read(&q->signaled) != -1) { ++ /* even if we caught a signal, we need to communicate success */ ++ ret = q->ownerdead ? -EOWNERDEAD : 0; ++ } else if (!ret) { ++ ret = -ETIMEDOUT; ++ } ++ ++ kfree(q); ++ return ret; ++} ++ ++static long winesync_char_ioctl(struct file *file, unsigned int cmd, ++ unsigned long parm) ++{ ++ struct winesync_device *dev = file->private_data; ++ void __user *argp = (void __user *)parm; ++ ++ switch (cmd) { ++ case WINESYNC_IOC_CREATE_SEM: ++ return winesync_create_sem(dev, argp); ++ case WINESYNC_IOC_CREATE_MUTEX: ++ return winesync_create_mutex(dev, argp); ++ case WINESYNC_IOC_DELETE: ++ return winesync_delete(dev, argp); ++ case WINESYNC_IOC_GET_SEM: ++ return winesync_get_sem(dev, argp); ++ case WINESYNC_IOC_PUT_SEM: ++ return winesync_put_sem(dev, argp, false); ++ case WINESYNC_IOC_PULSE_SEM: ++ return winesync_put_sem(dev, argp, true); ++ case WINESYNC_IOC_PUT_MUTEX: ++ return winesync_put_mutex(dev, argp); ++ case WINESYNC_IOC_READ_SEM: ++ return winesync_read_sem(dev, argp); ++ case WINESYNC_IOC_READ_MUTEX: ++ return winesync_read_mutex(dev, argp); ++ case WINESYNC_IOC_KILL_OWNER: ++ return winesync_kill_owner(dev, argp); ++ case WINESYNC_IOC_WAIT_ANY: ++ return winesync_wait_any(dev, argp); ++ case WINESYNC_IOC_WAIT_ALL: ++ return winesync_wait_all(dev, argp); ++ default: ++ return -ENOSYS; ++ } ++} ++ ++static const struct file_operations winesync_fops = { ++ .owner = THIS_MODULE, ++ .open = winesync_char_open, ++ .release = winesync_char_release, ++ .unlocked_ioctl = winesync_char_ioctl, ++ .compat_ioctl = winesync_char_ioctl, ++ .llseek = no_llseek, ++}; ++ ++static struct miscdevice winesync_misc = { ++ .minor = WINESYNC_MINOR, ++ .name = WINESYNC_NAME, ++ .fops = &winesync_fops, ++}; ++ ++static int __init winesync_init(void) ++{ ++ return misc_register(&winesync_misc); ++} ++ ++static void __exit winesync_exit(void) ++{ ++ misc_deregister(&winesync_misc); ++} ++ ++module_init(winesync_init); ++module_exit(winesync_exit); ++ ++MODULE_AUTHOR("Zebediah Figura"); ++MODULE_DESCRIPTION("Kernel driver for Wine synchronization primitives"); ++MODULE_LICENSE("GPL"); ++MODULE_ALIAS("devname:" WINESYNC_NAME); ++MODULE_ALIAS_MISCDEV(WINESYNC_MINOR); +diff --git a/include/linux/miscdevice.h b/include/linux/miscdevice.h +index 0676f18093f9..350aecfcfb29 100644 +--- a/include/linux/miscdevice.h ++++ b/include/linux/miscdevice.h +@@ -71,6 +71,7 @@ + #define USERIO_MINOR 240 + #define VHOST_VSOCK_MINOR 241 + #define RFKILL_MINOR 242 ++#define WINESYNC_MINOR 243 + #define MISC_DYNAMIC_MINOR 255 + + struct device; +diff --git a/include/uapi/linux/winesync.h b/include/uapi/linux/winesync.h +new file mode 100644 +index 000000000000..efc591795249 +--- /dev/null ++++ b/include/uapi/linux/winesync.h +@@ -0,0 +1,61 @@ ++/* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note */ ++/* ++ * Kernel support for Wine synchronization primitives ++ * ++ * Copyright (C) 2021 Zebediah Figura ++ */ ++ ++#ifndef __LINUX_WINESYNC_H ++#define __LINUX_WINESYNC_H ++ ++#include <linux/types.h> ++ ++#define WINESYNC_SEM_GETONWAIT 1 ++ ++struct winesync_sem_args { ++ __s32 sem; ++ __u32 count; ++ __u32 max; ++ __u32 flags; ++}; ++ ++struct winesync_mutex_args { ++ __s32 mutex; ++ __u32 owner; ++ __u32 count; ++}; ++ ++struct winesync_wait_args { ++ __u64 timeout; ++ __u64 objs; ++ __u32 count; ++ __u32 owner; ++ __u32 index; ++ __u32 pad; ++}; ++ ++#define WINESYNC_IOC_BASE 0xf7 ++ ++#define WINESYNC_IOC_CREATE_SEM _IOWR(WINESYNC_IOC_BASE, 0, \ ++ struct winesync_sem_args) ++#define WINESYNC_IOC_DELETE _IOW (WINESYNC_IOC_BASE, 1, __s32) ++#define WINESYNC_IOC_PUT_SEM _IOWR(WINESYNC_IOC_BASE, 2, \ ++ struct winesync_sem_args) ++#define WINESYNC_IOC_WAIT_ANY _IOWR(WINESYNC_IOC_BASE, 3, \ ++ struct winesync_wait_args) ++#define WINESYNC_IOC_WAIT_ALL _IOW (WINESYNC_IOC_BASE, 4, \ ++ struct winesync_wait_args) ++#define WINESYNC_IOC_CREATE_MUTEX _IOWR(WINESYNC_IOC_BASE, 5, \ ++ struct winesync_mutex_args) ++#define WINESYNC_IOC_PUT_MUTEX _IOWR(WINESYNC_IOC_BASE, 6, \ ++ struct winesync_mutex_args) ++#define WINESYNC_IOC_KILL_OWNER _IOW (WINESYNC_IOC_BASE, 7, __u32) ++#define WINESYNC_IOC_READ_SEM _IOWR(WINESYNC_IOC_BASE, 8, \ ++ struct winesync_sem_args) ++#define WINESYNC_IOC_READ_MUTEX _IOWR(WINESYNC_IOC_BASE, 9, \ ++ struct winesync_mutex_args) ++#define WINESYNC_IOC_GET_SEM _IOW (WINESYNC_IOC_BASE, 10, __s32) ++#define WINESYNC_IOC_PULSE_SEM _IOWR(WINESYNC_IOC_BASE, 11, \ ++ struct winesync_sem_args) ++ ++#endif +diff --git a/tools/testing/selftests/Makefile b/tools/testing/selftests/Makefile +index 6c575cf34a71..7f43a50ee19e 100644 +--- a/tools/testing/selftests/Makefile ++++ b/tools/testing/selftests/Makefile +@@ -9,6 +9,7 @@ TARGETS += core + TARGETS += cpufreq + TARGETS += cpu-hotplug + TARGETS += drivers/dma-buf ++TARGETS += drivers/winesync + TARGETS += efivarfs + TARGETS += exec + TARGETS += filesystems +diff --git a/tools/testing/selftests/drivers/winesync/Makefile b/tools/testing/selftests/drivers/winesync/Makefile +new file mode 100644 +index 000000000000..43b39fdeea10 +--- /dev/null ++++ b/tools/testing/selftests/drivers/winesync/Makefile +@@ -0,0 +1,8 @@ ++# SPDX-LICENSE-IDENTIFIER: GPL-2.0-only ++TEST_GEN_PROGS := winesync ++ ++top_srcdir =../../../../.. ++CFLAGS += -I$(top_srcdir)/usr/include ++LDLIBS += -lpthread ++ ++include ../../lib.mk +diff --git a/tools/testing/selftests/drivers/winesync/config b/tools/testing/selftests/drivers/winesync/config +new file mode 100644 +index 000000000000..60539c826d06 +--- /dev/null ++++ b/tools/testing/selftests/drivers/winesync/config +@@ -0,0 +1 @@ ++CONFIG_WINESYNC=y +diff --git a/tools/testing/selftests/drivers/winesync/winesync.c b/tools/testing/selftests/drivers/winesync/winesync.c +new file mode 100644 +index 000000000000..52373fcd5c8c +--- /dev/null ++++ b/tools/testing/selftests/drivers/winesync/winesync.c +@@ -0,0 +1,1486 @@ ++// SPDX-License-Identifier: GPL-2.0-or-later ++/* ++ * Various unit tests for the "winesync" synchronization primitive driver. ++ * ++ * Copyright (C) 2021 Zebediah Figura ++ */ ++ ++#define _GNU_SOURCE ++#include <sys/ioctl.h> ++#include <sys/stat.h> ++#include <fcntl.h> ++#include <time.h> ++#include <pthread.h> ++#include <linux/winesync.h> ++#include "../../kselftest_harness.h" ++ ++TEST(semaphore_state) ++{ ++ struct winesync_wait_args wait_args; ++ struct winesync_sem_args sem_args; ++ struct timespec timeout; ++ int fd, ret; ++ ++ clock_gettime(CLOCK_MONOTONIC, &timeout); ++ ++ fd = open("/dev/winesync", O_CLOEXEC | O_RDONLY); ++ ASSERT_LE(0, fd); ++ ++ sem_args.count = 3; ++ sem_args.max = 2; ++ sem_args.sem = 0xdeadbeef; ++ sem_args.flags = 0; ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_SEM, &sem_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ sem_args.count = 2; ++ sem_args.max = 2; ++ sem_args.sem = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_NE(0xdeadbeef, sem_args.sem); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ sem_args.flags = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ EXPECT_EQ(0, sem_args.flags); ++ ++ sem_args.count = 0; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, sem_args.count); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ sem_args.count = 1; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EOVERFLOW, errno); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ wait_args.timeout = (uintptr_t)&timeout; ++ wait_args.objs = (uintptr_t)&sem_args.sem; ++ wait_args.count = 1; ++ wait_args.owner = 123; ++ wait_args.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, wait_args.index); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ ret = ioctl(fd, WINESYNC_IOC_GET_SEM, &sem_args.sem); ++ EXPECT_EQ(0, ret); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ ret = ioctl(fd, WINESYNC_IOC_GET_SEM, &sem_args.sem); ++ EXPECT_EQ(0, ret); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ ret = ioctl(fd, WINESYNC_IOC_GET_SEM, &sem_args.sem); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EWOULDBLOCK, errno); ++ ++ sem_args.count = 3; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EOVERFLOW, errno); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ sem_args.count = 2; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ ret = ioctl(fd, WINESYNC_IOC_GET_SEM, &sem_args.sem); ++ EXPECT_EQ(0, ret); ++ ret = ioctl(fd, WINESYNC_IOC_GET_SEM, &sem_args.sem); ++ EXPECT_EQ(0, ret); ++ ++ sem_args.count = 1; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ /* Test PULSE. */ ++ ++ sem_args.count = 2; ++ ret = ioctl(fd, WINESYNC_IOC_PULSE_SEM, &sem_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EOVERFLOW, errno); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ sem_args.count = 1; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ sem_args.count = 1; ++ ret = ioctl(fd, WINESYNC_IOC_PULSE_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, sem_args.count); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ sem_args.count = 1; ++ ret = ioctl(fd, WINESYNC_IOC_PULSE_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ sem_args.count = 2; ++ ret = ioctl(fd, WINESYNC_IOC_PULSE_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ ret = ioctl(fd, WINESYNC_IOC_DELETE, &sem_args.sem); ++ EXPECT_EQ(0, ret); ++ ++ close(fd); ++} ++ ++TEST(semaphore_state_getonwait) ++{ ++ struct winesync_wait_args wait_args; ++ struct winesync_sem_args sem_args; ++ struct timespec timeout; ++ int fd, ret; ++ ++ clock_gettime(CLOCK_MONOTONIC, &timeout); ++ ++ fd = open("/dev/winesync", O_CLOEXEC | O_RDONLY); ++ ASSERT_LE(0, fd); ++ ++ sem_args.count = 3; ++ sem_args.max = 2; ++ sem_args.sem = 0xdeadbeef; ++ sem_args.flags = WINESYNC_SEM_GETONWAIT; ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_SEM, &sem_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ sem_args.count = 2; ++ sem_args.max = 2; ++ sem_args.sem = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_NE(0xdeadbeef, sem_args.sem); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ sem_args.count = 0; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, sem_args.count); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ sem_args.count = 1; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EOVERFLOW, errno); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ wait_args.timeout = (uintptr_t)&timeout; ++ wait_args.objs = (uintptr_t)&sem_args.sem; ++ wait_args.count = 1; ++ wait_args.owner = 123; ++ wait_args.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, wait_args.index); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ wait_args.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, wait_args.index); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(ETIMEDOUT, errno); ++ ++ sem_args.count = 3; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EOVERFLOW, errno); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ sem_args.count = 2; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(0, ret); ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(0, ret); ++ ++ sem_args.count = 1; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ /* Test GET. */ ++ ++ ret = ioctl(fd, WINESYNC_IOC_GET_SEM, &sem_args.sem); ++ EXPECT_EQ(0, ret); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ ret = ioctl(fd, WINESYNC_IOC_GET_SEM, &sem_args.sem); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EWOULDBLOCK, errno); ++ ++ sem_args.count = 2; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ ret = ioctl(fd, WINESYNC_IOC_GET_SEM, &sem_args.sem); ++ EXPECT_EQ(0, ret); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ /* Test PULSE. */ ++ ++ sem_args.count = 2; ++ ret = ioctl(fd, WINESYNC_IOC_PULSE_SEM, &sem_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EOVERFLOW, errno); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ sem_args.count = 1; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ sem_args.count = 1; ++ ret = ioctl(fd, WINESYNC_IOC_PULSE_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, sem_args.count); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ sem_args.count = 1; ++ ret = ioctl(fd, WINESYNC_IOC_PULSE_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ sem_args.count = 2; ++ ret = ioctl(fd, WINESYNC_IOC_PULSE_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(2, sem_args.max); ++ ++ ret = ioctl(fd, WINESYNC_IOC_DELETE, &sem_args.sem); ++ EXPECT_EQ(0, ret); ++ ++ close(fd); ++} ++ ++TEST(mutex_state) ++{ ++ struct winesync_wait_args wait_args; ++ struct winesync_mutex_args mutex_args; ++ struct timespec timeout; ++ __u32 owner; ++ int fd, ret; ++ ++ clock_gettime(CLOCK_MONOTONIC, &timeout); ++ ++ fd = open("/dev/winesync", O_CLOEXEC | O_RDONLY); ++ ASSERT_LE(0, fd); ++ ++ mutex_args.owner = 123; ++ mutex_args.count = 0; ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_MUTEX, &mutex_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ mutex_args.owner = 0; ++ mutex_args.count = 2; ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_MUTEX, &mutex_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ mutex_args.owner = 123; ++ mutex_args.count = 2; ++ mutex_args.mutex = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_NE(0xdeadbeef, mutex_args.mutex); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, mutex_args.count); ++ EXPECT_EQ(123, mutex_args.owner); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_MUTEX, &mutex_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 456; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_MUTEX, &mutex_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EPERM, errno); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, mutex_args.count); ++ EXPECT_EQ(123, mutex_args.owner); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 123; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, mutex_args.count); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, mutex_args.count); ++ EXPECT_EQ(123, mutex_args.owner); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 123; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, mutex_args.count); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, mutex_args.count); ++ EXPECT_EQ(0, mutex_args.owner); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 123; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_MUTEX, &mutex_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EPERM, errno); ++ ++ wait_args.timeout = (uintptr_t)&timeout; ++ wait_args.objs = (uintptr_t)&mutex_args.mutex; ++ wait_args.count = 1; ++ wait_args.owner = 456; ++ wait_args.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, wait_args.index); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, mutex_args.count); ++ EXPECT_EQ(456, mutex_args.owner); ++ ++ wait_args.owner = 456; ++ wait_args.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, wait_args.index); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, mutex_args.count); ++ EXPECT_EQ(456, mutex_args.owner); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 456; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, mutex_args.count); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, mutex_args.count); ++ EXPECT_EQ(456, mutex_args.owner); ++ ++ wait_args.owner = 123; ++ wait_args.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(ETIMEDOUT, errno); ++ ++ owner = 0; ++ ret = ioctl(fd, WINESYNC_IOC_KILL_OWNER, &owner); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ owner = 123; ++ ret = ioctl(fd, WINESYNC_IOC_KILL_OWNER, &owner); ++ EXPECT_EQ(0, ret); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, mutex_args.count); ++ EXPECT_EQ(456, mutex_args.owner); ++ ++ owner = 456; ++ ret = ioctl(fd, WINESYNC_IOC_KILL_OWNER, &owner); ++ EXPECT_EQ(0, ret); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EOWNERDEAD, errno); ++ EXPECT_EQ(0, mutex_args.count); ++ EXPECT_EQ(0, mutex_args.owner); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EOWNERDEAD, errno); ++ EXPECT_EQ(0, mutex_args.count); ++ EXPECT_EQ(0, mutex_args.owner); ++ ++ wait_args.owner = 123; ++ wait_args.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EOWNERDEAD, errno); ++ EXPECT_EQ(0, wait_args.index); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, mutex_args.count); ++ EXPECT_EQ(123, mutex_args.owner); ++ ++ owner = 123; ++ ret = ioctl(fd, WINESYNC_IOC_KILL_OWNER, &owner); ++ EXPECT_EQ(0, ret); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EOWNERDEAD, errno); ++ EXPECT_EQ(0, mutex_args.count); ++ EXPECT_EQ(0, mutex_args.owner); ++ ++ wait_args.owner = 123; ++ wait_args.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EOWNERDEAD, errno); ++ EXPECT_EQ(0, wait_args.index); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, mutex_args.count); ++ EXPECT_EQ(123, mutex_args.owner); ++ ++ ret = ioctl(fd, WINESYNC_IOC_DELETE, &mutex_args.mutex); ++ EXPECT_EQ(0, ret); ++ ++ mutex_args.owner = 0; ++ mutex_args.count = 0; ++ mutex_args.mutex = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_NE(0xdeadbeef, mutex_args.mutex); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, mutex_args.count); ++ EXPECT_EQ(0, mutex_args.owner); ++ ++ wait_args.owner = 123; ++ wait_args.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, wait_args.index); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, mutex_args.count); ++ EXPECT_EQ(123, mutex_args.owner); ++ ++ ret = ioctl(fd, WINESYNC_IOC_DELETE, &mutex_args.mutex); ++ EXPECT_EQ(0, ret); ++ ++ close(fd); ++} ++ ++TEST(wait_any) ++{ ++ struct winesync_mutex_args mutex_args = {0}; ++ struct winesync_wait_args wait_args = {0}; ++ struct winesync_sem_args sem_args = {0}; ++ struct timespec timeout; ++ __s32 objs[2]; ++ __u32 owner; ++ int fd, ret; ++ ++ clock_gettime(CLOCK_MONOTONIC, &timeout); ++ ++ fd = open("/dev/winesync", O_CLOEXEC | O_RDONLY); ++ ASSERT_LE(0, fd); ++ ++ sem_args.count = 2; ++ sem_args.max = 3; ++ sem_args.sem = 0xdeadbeef; ++ sem_args.flags = WINESYNC_SEM_GETONWAIT; ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_NE(0xdeadbeef, sem_args.sem); ++ ++ mutex_args.owner = 0; ++ mutex_args.count = 0; ++ mutex_args.mutex = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_NE(0xdeadbeef, mutex_args.mutex); ++ ++ objs[0] = sem_args.sem; ++ objs[1] = mutex_args.mutex; ++ ++ wait_args.timeout = (uintptr_t)&timeout; ++ wait_args.objs = (uintptr_t)objs; ++ wait_args.count = 2; ++ wait_args.owner = 123; ++ wait_args.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, wait_args.index); ++ EXPECT_EQ((uintptr_t)objs, wait_args.objs); ++ EXPECT_EQ(2, wait_args.count); ++ EXPECT_EQ(123, wait_args.owner); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, sem_args.count); ++ EXPECT_EQ(3, sem_args.max); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, mutex_args.count); ++ EXPECT_EQ(0, mutex_args.owner); ++ ++ wait_args.owner = 123; ++ wait_args.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, wait_args.index); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(3, sem_args.max); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, mutex_args.count); ++ EXPECT_EQ(0, mutex_args.owner); ++ ++ wait_args.owner = 123; ++ wait_args.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, wait_args.index); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(3, sem_args.max); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, mutex_args.count); ++ EXPECT_EQ(123, mutex_args.owner); ++ ++ sem_args.count = 1; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ wait_args.owner = 123; ++ wait_args.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, wait_args.index); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(3, sem_args.max); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, mutex_args.count); ++ EXPECT_EQ(123, mutex_args.owner); ++ ++ wait_args.owner = 123; ++ wait_args.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, wait_args.index); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(3, sem_args.max); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, mutex_args.count); ++ EXPECT_EQ(123, mutex_args.owner); ++ ++ wait_args.owner = 456; ++ wait_args.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(ETIMEDOUT, errno); ++ ++ owner = 123; ++ ret = ioctl(fd, WINESYNC_IOC_KILL_OWNER, &owner); ++ EXPECT_EQ(0, ret); ++ ++ wait_args.owner = 456; ++ wait_args.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EOWNERDEAD, errno); ++ EXPECT_EQ(1, wait_args.index); ++ ++ wait_args.owner = 456; ++ wait_args.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, wait_args.index); ++ ++ /* test waiting on the same object twice */ ++ sem_args.count = 2; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ objs[0] = objs[1] = sem_args.sem; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, wait_args.index); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, sem_args.count); ++ EXPECT_EQ(3, sem_args.max); ++ ++ wait_args.count = 0; ++ wait_args.objs = (uintptr_t)NULL; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(ETIMEDOUT, errno); ++ ++ ret = ioctl(fd, WINESYNC_IOC_DELETE, &sem_args.sem); ++ EXPECT_EQ(0, ret); ++ ret = ioctl(fd, WINESYNC_IOC_DELETE, &mutex_args.mutex); ++ EXPECT_EQ(0, ret); ++ ++ close(fd); ++} ++ ++TEST(wait_all) ++{ ++ struct winesync_mutex_args mutex_args = {0}; ++ struct winesync_wait_args wait_args = {0}; ++ struct winesync_sem_args sem_args = {0}; ++ struct timespec timeout; ++ __s32 objs[2]; ++ __u32 owner; ++ int fd, ret; ++ ++ clock_gettime(CLOCK_MONOTONIC, &timeout); ++ ++ fd = open("/dev/winesync", O_CLOEXEC | O_RDONLY); ++ ASSERT_LE(0, fd); ++ ++ sem_args.count = 2; ++ sem_args.max = 3; ++ sem_args.sem = 0xdeadbeef; ++ sem_args.flags = WINESYNC_SEM_GETONWAIT; ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_NE(0xdeadbeef, sem_args.sem); ++ ++ mutex_args.owner = 0; ++ mutex_args.count = 0; ++ mutex_args.mutex = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_NE(0xdeadbeef, mutex_args.mutex); ++ ++ objs[0] = sem_args.sem; ++ objs[1] = mutex_args.mutex; ++ ++ wait_args.timeout = (uintptr_t)&timeout; ++ wait_args.objs = (uintptr_t)objs; ++ wait_args.count = 2; ++ wait_args.owner = 123; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ALL, &wait_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ((uintptr_t)objs, wait_args.objs); ++ EXPECT_EQ(2, wait_args.count); ++ EXPECT_EQ(123, wait_args.owner); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, sem_args.count); ++ EXPECT_EQ(3, sem_args.max); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, mutex_args.count); ++ EXPECT_EQ(123, mutex_args.owner); ++ ++ wait_args.owner = 456; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ALL, &wait_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(ETIMEDOUT, errno); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, sem_args.count); ++ EXPECT_EQ(3, sem_args.max); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, mutex_args.count); ++ EXPECT_EQ(123, mutex_args.owner); ++ ++ wait_args.owner = 123; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ALL, &wait_args); ++ EXPECT_EQ(0, ret); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(3, sem_args.max); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, mutex_args.count); ++ EXPECT_EQ(123, mutex_args.owner); ++ ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ALL, &wait_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(ETIMEDOUT, errno); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ EXPECT_EQ(3, sem_args.max); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, mutex_args.count); ++ EXPECT_EQ(123, mutex_args.owner); ++ ++ sem_args.count = 3; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ owner = 123; ++ ret = ioctl(fd, WINESYNC_IOC_KILL_OWNER, &owner); ++ EXPECT_EQ(0, ret); ++ ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ALL, &wait_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EOWNERDEAD, errno); ++ ++ sem_args.count = 0xdeadbeef; ++ sem_args.max = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, sem_args.count); ++ EXPECT_EQ(3, sem_args.max); ++ ++ mutex_args.count = 0xdeadbeef; ++ mutex_args.owner = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, mutex_args.count); ++ EXPECT_EQ(123, mutex_args.owner); ++ ++ /* test waiting on the same object twice */ ++ objs[0] = objs[1] = sem_args.sem; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ALL, &wait_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ ret = ioctl(fd, WINESYNC_IOC_DELETE, &sem_args.sem); ++ EXPECT_EQ(0, ret); ++ ret = ioctl(fd, WINESYNC_IOC_DELETE, &mutex_args.mutex); ++ EXPECT_EQ(0, ret); ++ ++ close(fd); ++} ++ ++TEST(invalid_objects) ++{ ++ struct winesync_mutex_args mutex_args = {0}; ++ struct winesync_wait_args wait_args = {0}; ++ struct winesync_sem_args sem_args = {0}; ++ __s32 objs[2] = {0}; ++ int fd, ret; ++ ++ fd = open("/dev/winesync", O_CLOEXEC | O_RDONLY); ++ ASSERT_LE(0, fd); ++ ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ ret = ioctl(fd, WINESYNC_IOC_PULSE_SEM, &sem_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ ret = ioctl(fd, WINESYNC_IOC_GET_SEM, &sem_args.sem); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ ret = ioctl(fd, WINESYNC_IOC_PUT_MUTEX, &mutex_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ wait_args.objs = (uintptr_t)objs; ++ wait_args.count = 1; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ALL, &wait_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ ret = ioctl(fd, WINESYNC_IOC_DELETE, &objs[0]); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ sem_args.max = 1; ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ ++ mutex_args.mutex = sem_args.sem; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_MUTEX, &mutex_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ objs[0] = sem_args.sem; ++ objs[1] = sem_args.sem + 1; ++ wait_args.count = 2; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ALL, &wait_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ objs[0] = sem_args.sem + 1; ++ objs[1] = sem_args.sem; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ALL, &wait_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ ret = ioctl(fd, WINESYNC_IOC_DELETE, &sem_args.sem); ++ EXPECT_EQ(0, ret); ++ ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ ++ sem_args.sem = mutex_args.mutex; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(-1, ret); ++ EXPECT_EQ(EINVAL, errno); ++ ++ ret = ioctl(fd, WINESYNC_IOC_DELETE, &mutex_args.mutex); ++ EXPECT_EQ(0, ret); ++ ++ close(fd); ++} ++ ++struct wake_args ++{ ++ int fd; ++ __s32 obj; ++}; ++ ++struct wait_args ++{ ++ int fd; ++ unsigned long request; ++ struct winesync_wait_args *args; ++ int ret; ++ int err; ++}; ++ ++static void *wait_thread(void *arg) ++{ ++ struct wait_args *args = arg; ++ ++ args->ret = ioctl(args->fd, args->request, args->args); ++ args->err = errno; ++ return NULL; ++} ++ ++static void get_abs_timeout(struct timespec *timeout, clockid_t clock, ++ unsigned int ms) ++{ ++ clock_gettime(clock, timeout); ++ timeout->tv_nsec += ms * 1000000; ++ timeout->tv_sec += (timeout->tv_nsec / 1000000000); ++ timeout->tv_nsec %= 1000000000; ++} ++ ++static int wait_for_thread(pthread_t thread, unsigned int ms) ++{ ++ struct timespec timeout; ++ get_abs_timeout(&timeout, CLOCK_REALTIME, ms); ++ return pthread_timedjoin_np(thread, NULL, &timeout); ++} ++ ++TEST(wake_any) ++{ ++ struct winesync_mutex_args mutex_args = {0}; ++ struct winesync_wait_args wait_args = {0}; ++ struct winesync_sem_args sem_args = {0}; ++ struct wait_args thread_args; ++ struct timespec timeout; ++ pthread_t thread; ++ __s32 objs[2]; ++ __u32 owner; ++ int fd, ret; ++ ++ fd = open("/dev/winesync", O_CLOEXEC | O_RDONLY); ++ ASSERT_LE(0, fd); ++ ++ sem_args.count = 0; ++ sem_args.max = 3; ++ sem_args.sem = 0xdeadbeef; ++ sem_args.flags = WINESYNC_SEM_GETONWAIT; ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_NE(0xdeadbeef, sem_args.sem); ++ ++ mutex_args.owner = 123; ++ mutex_args.count = 1; ++ mutex_args.mutex = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_NE(0xdeadbeef, mutex_args.mutex); ++ ++ objs[0] = sem_args.sem; ++ objs[1] = mutex_args.mutex; ++ ++ /* test waking the semaphore */ ++ ++ get_abs_timeout(&timeout, CLOCK_MONOTONIC, 1000); ++ wait_args.timeout = (uintptr_t)&timeout; ++ wait_args.objs = (uintptr_t)objs; ++ wait_args.count = 2; ++ wait_args.owner = 456; ++ wait_args.index = 0xdeadbeef; ++ thread_args.fd = fd; ++ thread_args.args = &wait_args; ++ thread_args.request = WINESYNC_IOC_WAIT_ANY; ++ ret = pthread_create(&thread, NULL, wait_thread, &thread_args); ++ EXPECT_EQ(0, ret); ++ ++ ret = wait_for_thread(thread, 100); ++ EXPECT_EQ(ETIMEDOUT, ret); ++ ++ sem_args.count = 1; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ ret = wait_for_thread(thread, 100); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, thread_args.ret); ++ EXPECT_EQ(0, wait_args.index); ++ ++ /* test waking the semaphore via pulse */ ++ ++ get_abs_timeout(&timeout, CLOCK_MONOTONIC, 1000); ++ wait_args.owner = 456; ++ ret = pthread_create(&thread, NULL, wait_thread, &thread_args); ++ EXPECT_EQ(0, ret); ++ ++ ret = wait_for_thread(thread, 100); ++ EXPECT_EQ(ETIMEDOUT, ret); ++ ++ sem_args.count = 2; ++ ret = ioctl(fd, WINESYNC_IOC_PULSE_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ ret = wait_for_thread(thread, 100); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, thread_args.ret); ++ EXPECT_EQ(0, wait_args.index); ++ ++ /* test waking the mutex */ ++ ++ /* first grab it again for owner 123 */ ++ wait_args.owner = 123; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, wait_args.index); ++ ++ get_abs_timeout(&timeout, CLOCK_MONOTONIC, 1000); ++ wait_args.owner = 456; ++ ret = pthread_create(&thread, NULL, wait_thread, &thread_args); ++ EXPECT_EQ(0, ret); ++ ++ ret = wait_for_thread(thread, 100); ++ EXPECT_EQ(ETIMEDOUT, ret); ++ ++ mutex_args.owner = 123; ++ mutex_args.count = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(2, mutex_args.count); ++ ++ ret = pthread_tryjoin_np(thread, NULL); ++ EXPECT_EQ(EBUSY, ret); ++ ++ mutex_args.owner = 123; ++ mutex_args.count = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, mutex_args.count); ++ ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, mutex_args.count); ++ EXPECT_EQ(456, mutex_args.owner); ++ ++ ret = wait_for_thread(thread, 100); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, thread_args.ret); ++ EXPECT_EQ(1, wait_args.index); ++ ++ /* delete an object while it's being waited on */ ++ ++ get_abs_timeout(&timeout, CLOCK_MONOTONIC, 200); ++ wait_args.owner = 123; ++ ret = pthread_create(&thread, NULL, wait_thread, &thread_args); ++ EXPECT_EQ(0, ret); ++ ++ ret = wait_for_thread(thread, 100); ++ EXPECT_EQ(ETIMEDOUT, ret); ++ ++ ret = ioctl(fd, WINESYNC_IOC_DELETE, &sem_args.sem); ++ EXPECT_EQ(0, ret); ++ ret = ioctl(fd, WINESYNC_IOC_DELETE, &mutex_args.mutex); ++ EXPECT_EQ(0, ret); ++ ++ ret = wait_for_thread(thread, 200); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(-1, thread_args.ret); ++ EXPECT_EQ(ETIMEDOUT, thread_args.err); ++ ++ close(fd); ++} ++ ++TEST(wake_all) ++{ ++ struct winesync_wait_args wait_args = {0}, wait_args2 = {0}; ++ struct winesync_mutex_args mutex_args = {0}; ++ struct winesync_sem_args sem_args = {0}; ++ struct timespec timeout, timeout2; ++ struct wait_args thread_args; ++ pthread_t thread; ++ __s32 objs[2]; ++ __u32 owner; ++ int fd, ret; ++ ++ fd = open("/dev/winesync", O_CLOEXEC | O_RDONLY); ++ ASSERT_LE(0, fd); ++ ++ sem_args.count = 0; ++ sem_args.max = 3; ++ sem_args.sem = 0xdeadbeef; ++ sem_args.flags = WINESYNC_SEM_GETONWAIT; ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_NE(0xdeadbeef, sem_args.sem); ++ ++ mutex_args.owner = 123; ++ mutex_args.count = 1; ++ mutex_args.mutex = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_CREATE_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_NE(0xdeadbeef, mutex_args.mutex); ++ ++ objs[0] = sem_args.sem; ++ objs[1] = mutex_args.mutex; ++ ++ get_abs_timeout(&timeout, CLOCK_MONOTONIC, 1000); ++ wait_args.timeout = (uintptr_t)&timeout; ++ wait_args.objs = (uintptr_t)objs; ++ wait_args.count = 2; ++ wait_args.owner = 456; ++ thread_args.fd = fd; ++ thread_args.args = &wait_args; ++ thread_args.request = WINESYNC_IOC_WAIT_ALL; ++ ret = pthread_create(&thread, NULL, wait_thread, &thread_args); ++ EXPECT_EQ(0, ret); ++ ++ ret = wait_for_thread(thread, 100); ++ EXPECT_EQ(ETIMEDOUT, ret); ++ ++ sem_args.count = 1; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ ret = pthread_tryjoin_np(thread, NULL); ++ EXPECT_EQ(EBUSY, ret); ++ ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, sem_args.count); ++ ++ get_abs_timeout(&timeout2, CLOCK_MONOTONIC, 0); ++ wait_args2.timeout = (uintptr_t)&timeout2; ++ wait_args2.objs = (uintptr_t)&sem_args.sem; ++ wait_args2.count = 1; ++ wait_args2.owner = 123; ++ wait_args2.index = 0xdeadbeef; ++ ret = ioctl(fd, WINESYNC_IOC_WAIT_ANY, &wait_args2); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, wait_args2.index); ++ ++ mutex_args.owner = 123; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, mutex_args.count); ++ ++ ret = pthread_tryjoin_np(thread, NULL); ++ EXPECT_EQ(EBUSY, ret); ++ ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, mutex_args.count); ++ EXPECT_EQ(0, mutex_args.owner); ++ ++ sem_args.count = 1; ++ ret = ioctl(fd, WINESYNC_IOC_PUT_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ ret = ioctl(fd, WINESYNC_IOC_READ_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ ret = ioctl(fd, WINESYNC_IOC_READ_MUTEX, &mutex_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(1, mutex_args.count); ++ EXPECT_EQ(456, mutex_args.owner); ++ ++ ret = wait_for_thread(thread, 100); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, thread_args.ret); ++ ++ /* test waking the semaphore via pulse */ ++ ++ get_abs_timeout(&timeout, CLOCK_MONOTONIC, 1000); ++ wait_args.owner = 456; ++ ret = pthread_create(&thread, NULL, wait_thread, &thread_args); ++ EXPECT_EQ(0, ret); ++ ++ ret = wait_for_thread(thread, 100); ++ EXPECT_EQ(ETIMEDOUT, ret); ++ ++ sem_args.count = 1; ++ ret = ioctl(fd, WINESYNC_IOC_PULSE_SEM, &sem_args); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, sem_args.count); ++ ++ ret = wait_for_thread(thread, 100); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(0, thread_args.ret); ++ ++ /* delete an object while it's being waited on */ ++ ++ get_abs_timeout(&timeout, CLOCK_MONOTONIC, 200); ++ wait_args.owner = 123; ++ ret = pthread_create(&thread, NULL, wait_thread, &thread_args); ++ EXPECT_EQ(0, ret); ++ ++ ret = wait_for_thread(thread, 100); ++ EXPECT_EQ(ETIMEDOUT, ret); ++ ++ ret = ioctl(fd, WINESYNC_IOC_DELETE, &sem_args.sem); ++ EXPECT_EQ(0, ret); ++ ret = ioctl(fd, WINESYNC_IOC_DELETE, &mutex_args.mutex); ++ EXPECT_EQ(0, ret); ++ ++ ret = wait_for_thread(thread, 200); ++ EXPECT_EQ(0, ret); ++ EXPECT_EQ(-1, thread_args.ret); ++ EXPECT_EQ(ETIMEDOUT, thread_args.err); ++ ++ close(fd); ++} ++ ++TEST_HARNESS_MAIN |