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|
/*
* Copyright (c) 2016, Mellanox Technologies inc. All rights reserved.
*
* This software is available to you under a choice of one of two
* licenses. You may choose to be licensed under the terms of the GNU
* General Public License (GPL) Version 2, available from the file
* COPYING in the main directory of this source tree, or the
* OpenIB.org BSD license below:
*
* Redistribution and use in source and binary forms, with or
* without modification, are permitted provided that the following
* conditions are met:
*
* - Redistributions of source code must retain the above
* copyright notice, this list of conditions and the following
* disclaimer.
*
* - Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials
* provided with the distribution.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#include <linux/file.h>
#include <linux/anon_inodes.h>
#include <linux/sched/mm.h>
#include <rdma/ib_verbs.h>
#include <rdma/uverbs_types.h>
#include <linux/rcupdate.h>
#include <rdma/uverbs_ioctl.h>
#include <rdma/rdma_user_ioctl.h>
#include "uverbs.h"
#include "core_priv.h"
#include "rdma_core.h"
void uverbs_uobject_get(struct ib_uobject *uobject)
{
kref_get(&uobject->ref);
}
static void uverbs_uobject_free(struct kref *ref)
{
struct ib_uobject *uobj =
container_of(ref, struct ib_uobject, ref);
if (uobj->uapi_object->type_class->needs_kfree_rcu)
kfree_rcu(uobj, rcu);
else
kfree(uobj);
}
void uverbs_uobject_put(struct ib_uobject *uobject)
{
kref_put(&uobject->ref, uverbs_uobject_free);
}
static int uverbs_try_lock_object(struct ib_uobject *uobj,
enum rdma_lookup_mode mode)
{
/*
* When a shared access is required, we use a positive counter. Each
* shared access request checks that the value != -1 and increment it.
* Exclusive access is required for operations like write or destroy.
* In exclusive access mode, we check that the counter is zero (nobody
* claimed this object) and we set it to -1. Releasing a shared access
* lock is done simply by decreasing the counter. As for exclusive
* access locks, since only a single one of them is is allowed
* concurrently, setting the counter to zero is enough for releasing
* this lock.
*/
switch (mode) {
case UVERBS_LOOKUP_READ:
return __atomic_add_unless(&uobj->usecnt, 1, -1) == -1 ?
-EBUSY : 0;
case UVERBS_LOOKUP_WRITE:
/* lock is exclusive */
return atomic_cmpxchg(&uobj->usecnt, 0, -1) == 0 ? 0 : -EBUSY;
case UVERBS_LOOKUP_DESTROY:
return 0;
}
return 0;
}
static void assert_uverbs_usecnt(struct ib_uobject *uobj,
enum rdma_lookup_mode mode)
{
#ifdef CONFIG_LOCKDEP
switch (mode) {
case UVERBS_LOOKUP_READ:
WARN_ON(atomic_read(&uobj->usecnt) <= 0);
break;
case UVERBS_LOOKUP_WRITE:
WARN_ON(atomic_read(&uobj->usecnt) != -1);
break;
case UVERBS_LOOKUP_DESTROY:
break;
}
#endif
}
/*
* This must be called with the hw_destroy_rwsem locked for read or write,
* also the uobject itself must be locked for write.
*
* Upon return the HW object is guaranteed to be destroyed.
*
* For RDMA_REMOVE_ABORT, the hw_destroy_rwsem is not required to be held,
* however the type's allocat_commit function cannot have been called and the
* uobject cannot be on the uobjects_lists
*
* For RDMA_REMOVE_DESTROY the caller shold be holding a kref (eg via
* rdma_lookup_get_uobject) and the object is left in a state where the caller
* needs to call rdma_lookup_put_uobject.
*
* For all other destroy modes this function internally unlocks the uobject
* and consumes the kref on the uobj.
*/
static int uverbs_destroy_uobject(struct ib_uobject *uobj,
enum rdma_remove_reason reason)
{
struct ib_uverbs_file *ufile = uobj->ufile;
unsigned long flags;
int ret;
lockdep_assert_held(&ufile->hw_destroy_rwsem);
assert_uverbs_usecnt(uobj, UVERBS_LOOKUP_WRITE);
if (uobj->object) {
ret = uobj->uapi_object->type_class->destroy_hw(uobj, reason);
if (ret) {
if (ib_is_destroy_retryable(ret, reason, uobj))
return ret;
/* Nothing to be done, dangle the memory and move on */
WARN(true,
"ib_uverbs: failed to remove uobject id %d, driver err=%d",
uobj->id, ret);
}
uobj->object = NULL;
}
if (reason == RDMA_REMOVE_ABORT) {
WARN_ON(!list_empty(&uobj->list));
WARN_ON(!uobj->context);
uobj->uapi_object->type_class->alloc_abort(uobj);
}
uobj->context = NULL;
/*
* For DESTROY the usecnt is held write locked, the caller is expected
* to put it unlock and put the object when done with it. Only DESTROY
* can remove the IDR handle.
*/
if (reason != RDMA_REMOVE_DESTROY)
atomic_set(&uobj->usecnt, 0);
else
uobj->uapi_object->type_class->remove_handle(uobj);
if (!list_empty(&uobj->list)) {
spin_lock_irqsave(&ufile->uobjects_lock, flags);
list_del_init(&uobj->list);
spin_unlock_irqrestore(&ufile->uobjects_lock, flags);
/*
* Pairs with the get in rdma_alloc_commit_uobject(), could
* destroy uobj.
*/
uverbs_uobject_put(uobj);
}
/*
* When aborting the stack kref remains owned by the core code, and is
* not transferred into the type. Pairs with the get in alloc_uobj
*/
if (reason == RDMA_REMOVE_ABORT)
uverbs_uobject_put(uobj);
return 0;
}
/*
* This calls uverbs_destroy_uobject() using the RDMA_REMOVE_DESTROY
* sequence. It should only be used from command callbacks. On success the
* caller must pair this with rdma_lookup_put_uobject(LOOKUP_WRITE). This
* version requires the caller to have already obtained an
* LOOKUP_DESTROY uobject kref.
*/
int uobj_destroy(struct ib_uobject *uobj)
{
struct ib_uverbs_file *ufile = uobj->ufile;
int ret;
down_read(&ufile->hw_destroy_rwsem);
ret = uverbs_try_lock_object(uobj, UVERBS_LOOKUP_WRITE);
if (ret)
goto out_unlock;
ret = uverbs_destroy_uobject(uobj, RDMA_REMOVE_DESTROY);
if (ret) {
atomic_set(&uobj->usecnt, 0);
goto out_unlock;
}
out_unlock:
up_read(&ufile->hw_destroy_rwsem);
return ret;
}
/*
* uobj_get_destroy destroys the HW object and returns a handle to the uobj
* with a NULL object pointer. The caller must pair this with
* uverbs_put_destroy.
*/
struct ib_uobject *__uobj_get_destroy(const struct uverbs_api_object *obj,
u32 id, struct ib_uverbs_file *ufile)
{
struct ib_uobject *uobj;
int ret;
uobj = rdma_lookup_get_uobject(obj, ufile, id, UVERBS_LOOKUP_DESTROY);
if (IS_ERR(uobj))
return uobj;
ret = uobj_destroy(uobj);
if (ret) {
rdma_lookup_put_uobject(uobj, UVERBS_LOOKUP_DESTROY);
return ERR_PTR(ret);
}
return uobj;
}
/*
* Does both uobj_get_destroy() and uobj_put_destroy(). Returns success_res
* on success (negative errno on failure). For use by callers that do not need
* the uobj.
*/
int __uobj_perform_destroy(const struct uverbs_api_object *obj, u32 id,
struct ib_uverbs_file *ufile, int success_res)
{
struct ib_uobject *uobj;
uobj = __uobj_get_destroy(obj, id, ufile);
if (IS_ERR(uobj))
return PTR_ERR(uobj);
rdma_lookup_put_uobject(uobj, UVERBS_LOOKUP_WRITE);
return success_res;
}
/* alloc_uobj must be undone by uverbs_destroy_uobject() */
static struct ib_uobject *alloc_uobj(struct ib_uverbs_file *ufile,
const struct uverbs_api_object *obj)
{
struct ib_uobject *uobj;
struct ib_ucontext *ucontext;
ucontext = ib_uverbs_get_ucontext(ufile);
if (IS_ERR(ucontext))
return ERR_CAST(ucontext);
uobj = kzalloc(obj->type_attrs->obj_size, GFP_KERNEL);
if (!uobj)
return ERR_PTR(-ENOMEM);
/*
* user_handle should be filled by the handler,
* The object is added to the list in the commit stage.
*/
uobj->ufile = ufile;
uobj->context = ucontext;
INIT_LIST_HEAD(&uobj->list);
uobj->uapi_object = obj;
/*
* Allocated objects start out as write locked to deny any other
* syscalls from accessing them until they are committed. See
* rdma_alloc_commit_uobject
*/
atomic_set(&uobj->usecnt, -1);
kref_init(&uobj->ref);
return uobj;
}
static int idr_add_uobj(struct ib_uobject *uobj)
{
int ret;
idr_preload(GFP_KERNEL);
spin_lock(&uobj->ufile->idr_lock);
/*
* We start with allocating an idr pointing to NULL. This represents an
* object which isn't initialized yet. We'll replace it later on with
* the real object once we commit.
*/
ret = idr_alloc(&uobj->ufile->idr, NULL, 0,
min_t(unsigned long, U32_MAX - 1, INT_MAX), GFP_NOWAIT);
if (ret >= 0)
uobj->id = ret;
spin_unlock(&uobj->ufile->idr_lock);
idr_preload_end();
return ret < 0 ? ret : 0;
}
/* Returns the ib_uobject or an error. The caller should check for IS_ERR. */
static struct ib_uobject *
lookup_get_idr_uobject(const struct uverbs_api_object *obj,
struct ib_uverbs_file *ufile, s64 id,
enum rdma_lookup_mode mode)
{
struct ib_uobject *uobj;
unsigned long idrno = id;
if (id < 0 || id > ULONG_MAX)
return ERR_PTR(-EINVAL);
rcu_read_lock();
/* object won't be released as we're protected in rcu */
uobj = idr_find(&ufile->idr, idrno);
if (!uobj) {
uobj = ERR_PTR(-ENOENT);
goto free;
}
/*
* The idr_find is guaranteed to return a pointer to something that
* isn't freed yet, or NULL, as the free after idr_remove goes through
* kfree_rcu(). However the object may still have been released and
* kfree() could be called at any time.
*/
if (!kref_get_unless_zero(&uobj->ref))
uobj = ERR_PTR(-ENOENT);
free:
rcu_read_unlock();
return uobj;
}
static struct ib_uobject *
lookup_get_fd_uobject(const struct uverbs_api_object *obj,
struct ib_uverbs_file *ufile, s64 id,
enum rdma_lookup_mode mode)
{
const struct uverbs_obj_fd_type *fd_type;
struct file *f;
struct ib_uobject *uobject;
int fdno = id;
if (fdno != id)
return ERR_PTR(-EINVAL);
if (mode != UVERBS_LOOKUP_READ)
return ERR_PTR(-EOPNOTSUPP);
if (!obj->type_attrs)
return ERR_PTR(-EIO);
fd_type =
container_of(obj->type_attrs, struct uverbs_obj_fd_type, type);
f = fget(fdno);
if (!f)
return ERR_PTR(-EBADF);
uobject = f->private_data;
/*
* fget(id) ensures we are not currently running uverbs_close_fd,
* and the caller is expected to ensure that uverbs_close_fd is never
* done while a call top lookup is possible.
*/
if (f->f_op != fd_type->fops) {
fput(f);
return ERR_PTR(-EBADF);
}
uverbs_uobject_get(uobject);
return uobject;
}
struct ib_uobject *rdma_lookup_get_uobject(const struct uverbs_api_object *obj,
struct ib_uverbs_file *ufile, s64 id,
enum rdma_lookup_mode mode)
{
struct ib_uobject *uobj;
int ret;
if (!obj)
return ERR_PTR(-EINVAL);
uobj = obj->type_class->lookup_get(obj, ufile, id, mode);
if (IS_ERR(uobj))
return uobj;
if (uobj->uapi_object != obj) {
ret = -EINVAL;
goto free;
}
/*
* If we have been disassociated block every command except for
* DESTROY based commands.
*/
if (mode != UVERBS_LOOKUP_DESTROY &&
!srcu_dereference(ufile->device->ib_dev,
&ufile->device->disassociate_srcu)) {
ret = -EIO;
goto free;
}
ret = uverbs_try_lock_object(uobj, mode);
if (ret)
goto free;
return uobj;
free:
obj->type_class->lookup_put(uobj, mode);
uverbs_uobject_put(uobj);
return ERR_PTR(ret);
}
static struct ib_uobject *
alloc_begin_idr_uobject(const struct uverbs_api_object *obj,
struct ib_uverbs_file *ufile)
{
int ret;
struct ib_uobject *uobj;
uobj = alloc_uobj(ufile, obj);
if (IS_ERR(uobj))
return uobj;
ret = idr_add_uobj(uobj);
if (ret)
goto uobj_put;
ret = ib_rdmacg_try_charge(&uobj->cg_obj, uobj->context->device,
RDMACG_RESOURCE_HCA_OBJECT);
if (ret)
goto idr_remove;
return uobj;
idr_remove:
spin_lock(&ufile->idr_lock);
idr_remove(&ufile->idr, uobj->id);
spin_unlock(&ufile->idr_lock);
uobj_put:
uverbs_uobject_put(uobj);
return ERR_PTR(ret);
}
static struct ib_uobject *
alloc_begin_fd_uobject(const struct uverbs_api_object *obj,
struct ib_uverbs_file *ufile)
{
int new_fd;
struct ib_uobject *uobj;
new_fd = get_unused_fd_flags(O_CLOEXEC);
if (new_fd < 0)
return ERR_PTR(new_fd);
uobj = alloc_uobj(ufile, obj);
if (IS_ERR(uobj)) {
put_unused_fd(new_fd);
return uobj;
}
uobj->id = new_fd;
uobj->ufile = ufile;
return uobj;
}
struct ib_uobject *rdma_alloc_begin_uobject(const struct uverbs_api_object *obj,
struct ib_uverbs_file *ufile)
{
struct ib_uobject *ret;
if (!obj)
return ERR_PTR(-EINVAL);
/*
* The hw_destroy_rwsem is held across the entire object creation and
* released during rdma_alloc_commit_uobject or
* rdma_alloc_abort_uobject
*/
if (!down_read_trylock(&ufile->hw_destroy_rwsem))
return ERR_PTR(-EIO);
ret = obj->type_class->alloc_begin(obj, ufile);
if (IS_ERR(ret)) {
up_read(&ufile->hw_destroy_rwsem);
return ret;
}
return ret;
}
static void alloc_abort_idr_uobject(struct ib_uobject *uobj)
{
ib_rdmacg_uncharge(&uobj->cg_obj, uobj->context->device,
RDMACG_RESOURCE_HCA_OBJECT);
spin_lock(&uobj->ufile->idr_lock);
idr_remove(&uobj->ufile->idr, uobj->id);
spin_unlock(&uobj->ufile->idr_lock);
}
static int __must_check destroy_hw_idr_uobject(struct ib_uobject *uobj,
enum rdma_remove_reason why)
{
const struct uverbs_obj_idr_type *idr_type =
container_of(uobj->uapi_object->type_attrs,
struct uverbs_obj_idr_type, type);
int ret = idr_type->destroy_object(uobj, why);
/*
* We can only fail gracefully if the user requested to destroy the
* object or when a retry may be called upon an error.
* In the rest of the cases, just remove whatever you can.
*/
if (ib_is_destroy_retryable(ret, why, uobj))
return ret;
if (why == RDMA_REMOVE_ABORT)
return 0;
ib_rdmacg_uncharge(&uobj->cg_obj, uobj->context->device,
RDMACG_RESOURCE_HCA_OBJECT);
return 0;
}
static void remove_handle_idr_uobject(struct ib_uobject *uobj)
{
spin_lock(&uobj->ufile->idr_lock);
idr_remove(&uobj->ufile->idr, uobj->id);
spin_unlock(&uobj->ufile->idr_lock);
/* Matches the kref in alloc_commit_idr_uobject */
uverbs_uobject_put(uobj);
}
static void alloc_abort_fd_uobject(struct ib_uobject *uobj)
{
put_unused_fd(uobj->id);
}
static int __must_check destroy_hw_fd_uobject(struct ib_uobject *uobj,
enum rdma_remove_reason why)
{
const struct uverbs_obj_fd_type *fd_type = container_of(
uobj->uapi_object->type_attrs, struct uverbs_obj_fd_type, type);
int ret = fd_type->context_closed(uobj, why);
if (ib_is_destroy_retryable(ret, why, uobj))
return ret;
return 0;
}
static void remove_handle_fd_uobject(struct ib_uobject *uobj)
{
}
static int alloc_commit_idr_uobject(struct ib_uobject *uobj)
{
struct ib_uverbs_file *ufile = uobj->ufile;
spin_lock(&ufile->idr_lock);
/*
* We already allocated this IDR with a NULL object, so
* this shouldn't fail.
*
* NOTE: Once we set the IDR we loose ownership of our kref on uobj.
* It will be put by remove_commit_idr_uobject()
*/
WARN_ON(idr_replace(&ufile->idr, uobj, uobj->id));
spin_unlock(&ufile->idr_lock);
return 0;
}
static int alloc_commit_fd_uobject(struct ib_uobject *uobj)
{
const struct uverbs_obj_fd_type *fd_type = container_of(
uobj->uapi_object->type_attrs, struct uverbs_obj_fd_type, type);
int fd = uobj->id;
struct file *filp;
/*
* The kref for uobj is moved into filp->private data and put in
* uverbs_close_fd(). Once alloc_commit() succeeds uverbs_close_fd()
* must be guaranteed to be called from the provided fops release
* callback.
*/
filp = anon_inode_getfile(fd_type->name,
fd_type->fops,
uobj,
fd_type->flags);
if (IS_ERR(filp))
return PTR_ERR(filp);
uobj->object = filp;
/* Matching put will be done in uverbs_close_fd() */
kref_get(&uobj->ufile->ref);
/* This shouldn't be used anymore. Use the file object instead */
uobj->id = 0;
/*
* NOTE: Once we install the file we loose ownership of our kref on
* uobj. It will be put by uverbs_close_fd()
*/
fd_install(fd, filp);
return 0;
}
/*
* In all cases rdma_alloc_commit_uobject() consumes the kref to uobj and the
* caller can no longer assume uobj is valid. If this function fails it
* destroys the uboject, including the attached HW object.
*/
int __must_check rdma_alloc_commit_uobject(struct ib_uobject *uobj)
{
struct ib_uverbs_file *ufile = uobj->ufile;
int ret;
/* alloc_commit consumes the uobj kref */
ret = uobj->uapi_object->type_class->alloc_commit(uobj);
if (ret) {
uverbs_destroy_uobject(uobj, RDMA_REMOVE_ABORT);
up_read(&ufile->hw_destroy_rwsem);
return ret;
}
/* kref is held so long as the uobj is on the uobj list. */
uverbs_uobject_get(uobj);
spin_lock_irq(&ufile->uobjects_lock);
list_add(&uobj->list, &ufile->uobjects);
spin_unlock_irq(&ufile->uobjects_lock);
/* matches atomic_set(-1) in alloc_uobj */
atomic_set(&uobj->usecnt, 0);
/* Matches the down_read in rdma_alloc_begin_uobject */
up_read(&ufile->hw_destroy_rwsem);
return 0;
}
/*
* This consumes the kref for uobj. It is up to the caller to unwind the HW
* object and anything else connected to uobj before calling this.
*/
void rdma_alloc_abort_uobject(struct ib_uobject *uobj)
{
struct ib_uverbs_file *ufile = uobj->ufile;
uobj->object = NULL;
uverbs_destroy_uobject(uobj, RDMA_REMOVE_ABORT);
/* Matches the down_read in rdma_alloc_begin_uobject */
up_read(&ufile->hw_destroy_rwsem);
}
static void lookup_put_idr_uobject(struct ib_uobject *uobj,
enum rdma_lookup_mode mode)
{
}
static void lookup_put_fd_uobject(struct ib_uobject *uobj,
enum rdma_lookup_mode mode)
{
struct file *filp = uobj->object;
WARN_ON(mode != UVERBS_LOOKUP_READ);
/* This indirectly calls uverbs_close_fd and free the object */
fput(filp);
}
void rdma_lookup_put_uobject(struct ib_uobject *uobj,
enum rdma_lookup_mode mode)
{
assert_uverbs_usecnt(uobj, mode);
uobj->uapi_object->type_class->lookup_put(uobj, mode);
/*
* In order to unlock an object, either decrease its usecnt for
* read access or zero it in case of exclusive access. See
* uverbs_try_lock_object for locking schema information.
*/
switch (mode) {
case UVERBS_LOOKUP_READ:
atomic_dec(&uobj->usecnt);
break;
case UVERBS_LOOKUP_WRITE:
atomic_set(&uobj->usecnt, 0);
break;
case UVERBS_LOOKUP_DESTROY:
break;
}
/* Pairs with the kref obtained by type->lookup_get */
uverbs_uobject_put(uobj);
}
void setup_ufile_idr_uobject(struct ib_uverbs_file *ufile)
{
spin_lock_init(&ufile->idr_lock);
idr_init(&ufile->idr);
}
void release_ufile_idr_uobject(struct ib_uverbs_file *ufile)
{
struct ib_uobject *entry;
int id;
/*
* At this point uverbs_cleanup_ufile() is guaranteed to have run, and
* there are no HW objects left, however the IDR is still populated
* with anything that has not been cleaned up by userspace. Since the
* kref on ufile is 0, nothing is allowed to call lookup_get.
*
* This is an optimized equivalent to remove_handle_idr_uobject
*/
idr_for_each_entry(&ufile->idr, entry, id) {
WARN_ON(entry->object);
uverbs_uobject_put(entry);
}
idr_destroy(&ufile->idr);
}
const struct uverbs_obj_type_class uverbs_idr_class = {
.alloc_begin = alloc_begin_idr_uobject,
.lookup_get = lookup_get_idr_uobject,
.alloc_commit = alloc_commit_idr_uobject,
.alloc_abort = alloc_abort_idr_uobject,
.lookup_put = lookup_put_idr_uobject,
.destroy_hw = destroy_hw_idr_uobject,
.remove_handle = remove_handle_idr_uobject,
/*
* When we destroy an object, we first just lock it for WRITE and
* actually DESTROY it in the finalize stage. So, the problematic
* scenario is when we just started the finalize stage of the
* destruction (nothing was executed yet). Now, the other thread
* fetched the object for READ access, but it didn't lock it yet.
* The DESTROY thread continues and starts destroying the object.
* When the other thread continue - without the RCU, it would
* access freed memory. However, the rcu_read_lock delays the free
* until the rcu_read_lock of the READ operation quits. Since the
* exclusive lock of the object is still taken by the DESTROY flow, the
* READ operation will get -EBUSY and it'll just bail out.
*/
.needs_kfree_rcu = true,
};
EXPORT_SYMBOL(uverbs_idr_class);
void uverbs_close_fd(struct file *f)
{
struct ib_uobject *uobj = f->private_data;
struct ib_uverbs_file *ufile = uobj->ufile;
if (down_read_trylock(&ufile->hw_destroy_rwsem)) {
/*
* lookup_get_fd_uobject holds the kref on the struct file any
* time a FD uobj is locked, which prevents this release
* method from being invoked. Meaning we can always get the
* write lock here, or we have a kernel bug.
*/
WARN_ON(uverbs_try_lock_object(uobj, UVERBS_LOOKUP_WRITE));
uverbs_destroy_uobject(uobj, RDMA_REMOVE_CLOSE);
up_read(&ufile->hw_destroy_rwsem);
}
/* Matches the get in alloc_begin_fd_uobject */
kref_put(&ufile->ref, ib_uverbs_release_file);
/* Pairs with filp->private_data in alloc_begin_fd_uobject */
uverbs_uobject_put(uobj);
}
static void ufile_disassociate_ucontext(struct ib_ucontext *ibcontext)
{
struct ib_device *ib_dev = ibcontext->device;
struct task_struct *owning_process = NULL;
struct mm_struct *owning_mm = NULL;
owning_process = get_pid_task(ibcontext->tgid, PIDTYPE_PID);
if (!owning_process)
return;
owning_mm = get_task_mm(owning_process);
if (!owning_mm) {
pr_info("no mm, disassociate ucontext is pending task termination\n");
while (1) {
put_task_struct(owning_process);
usleep_range(1000, 2000);
owning_process = get_pid_task(ibcontext->tgid,
PIDTYPE_PID);
if (!owning_process ||
owning_process->state == TASK_DEAD) {
pr_info("disassociate ucontext done, task was terminated\n");
/* in case task was dead need to release the
* task struct.
*/
if (owning_process)
put_task_struct(owning_process);
return;
}
}
}
down_write(&owning_mm->mmap_sem);
ib_dev->disassociate_ucontext(ibcontext);
up_write(&owning_mm->mmap_sem);
mmput(owning_mm);
put_task_struct(owning_process);
}
/*
* Drop the ucontext off the ufile and completely disconnect it from the
* ib_device
*/
static void ufile_destroy_ucontext(struct ib_uverbs_file *ufile,
enum rdma_remove_reason reason)
{
struct ib_ucontext *ucontext = ufile->ucontext;
int ret;
if (reason == RDMA_REMOVE_DRIVER_REMOVE)
ufile_disassociate_ucontext(ucontext);
put_pid(ucontext->tgid);
ib_rdmacg_uncharge(&ucontext->cg_obj, ucontext->device,
RDMACG_RESOURCE_HCA_HANDLE);
/*
* FIXME: Drivers are not permitted to fail dealloc_ucontext, remove
* the error return.
*/
ret = ucontext->device->dealloc_ucontext(ucontext);
WARN_ON(ret);
ufile->ucontext = NULL;
}
static int __uverbs_cleanup_ufile(struct ib_uverbs_file *ufile,
enum rdma_remove_reason reason)
{
struct ib_uobject *obj, *next_obj;
int ret = -EINVAL;
/*
* This shouldn't run while executing other commands on this
* context. Thus, the only thing we should take care of is
* releasing a FD while traversing this list. The FD could be
* closed and released from the _release fop of this FD.
* In order to mitigate this, we add a lock.
* We take and release the lock per traversal in order to let
* other threads (which might still use the FDs) chance to run.
*/
list_for_each_entry_safe(obj, next_obj, &ufile->uobjects, list) {
/*
* if we hit this WARN_ON, that means we are
* racing with a lookup_get.
*/
WARN_ON(uverbs_try_lock_object(obj, UVERBS_LOOKUP_WRITE));
if (!uverbs_destroy_uobject(obj, reason))
ret = 0;
}
return ret;
}
/*
* Destroy the uncontext and every uobject associated with it. If called with
* reason != RDMA_REMOVE_CLOSE this will not return until the destruction has
* been completed and ufile->ucontext is NULL.
*
* This is internally locked and can be called in parallel from multiple
* contexts.
*/
void uverbs_destroy_ufile_hw(struct ib_uverbs_file *ufile,
enum rdma_remove_reason reason)
{
if (reason == RDMA_REMOVE_CLOSE) {
/*
* During destruction we might trigger something that
* synchronously calls release on any file descriptor. For
* this reason all paths that come from file_operations
* release must use try_lock. They can progress knowing that
* there is an ongoing uverbs_destroy_ufile_hw that will clean
* up the driver resources.
*/
if (!mutex_trylock(&ufile->ucontext_lock))
return;
} else {
mutex_lock(&ufile->ucontext_lock);
}
down_write(&ufile->hw_destroy_rwsem);
/*
* If a ucontext was never created then we can't have any uobjects to
* cleanup, nothing to do.
*/
if (!ufile->ucontext)
goto done;
ufile->ucontext->closing = true;
ufile->ucontext->cleanup_retryable = true;
while (!list_empty(&ufile->uobjects))
if (__uverbs_cleanup_ufile(ufile, reason)) {
/*
* No entry was cleaned-up successfully during this
* iteration
*/
break;
}
ufile->ucontext->cleanup_retryable = false;
if (!list_empty(&ufile->uobjects))
__uverbs_cleanup_ufile(ufile, reason);
ufile_destroy_ucontext(ufile, reason);
done:
up_write(&ufile->hw_destroy_rwsem);
mutex_unlock(&ufile->ucontext_lock);
}
const struct uverbs_obj_type_class uverbs_fd_class = {
.alloc_begin = alloc_begin_fd_uobject,
.lookup_get = lookup_get_fd_uobject,
.alloc_commit = alloc_commit_fd_uobject,
.alloc_abort = alloc_abort_fd_uobject,
.lookup_put = lookup_put_fd_uobject,
.destroy_hw = destroy_hw_fd_uobject,
.remove_handle = remove_handle_fd_uobject,
.needs_kfree_rcu = false,
};
EXPORT_SYMBOL(uverbs_fd_class);
struct ib_uobject *
uverbs_get_uobject_from_file(u16 object_id,
struct ib_uverbs_file *ufile,
enum uverbs_obj_access access, s64 id)
{
const struct uverbs_api_object *obj =
uapi_get_object(ufile->device->uapi, object_id);
switch (access) {
case UVERBS_ACCESS_READ:
return rdma_lookup_get_uobject(obj, ufile, id,
UVERBS_LOOKUP_READ);
case UVERBS_ACCESS_DESTROY:
/* Actual destruction is done inside uverbs_handle_method */
return rdma_lookup_get_uobject(obj, ufile, id,
UVERBS_LOOKUP_DESTROY);
case UVERBS_ACCESS_WRITE:
return rdma_lookup_get_uobject(obj, ufile, id,
UVERBS_LOOKUP_WRITE);
case UVERBS_ACCESS_NEW:
return rdma_alloc_begin_uobject(obj, ufile);
default:
WARN_ON(true);
return ERR_PTR(-EOPNOTSUPP);
}
}
int uverbs_finalize_object(struct ib_uobject *uobj,
enum uverbs_obj_access access,
bool commit)
{
int ret = 0;
/*
* refcounts should be handled at the object level and not at the
* uobject level. Refcounts of the objects themselves are done in
* handlers.
*/
switch (access) {
case UVERBS_ACCESS_READ:
rdma_lookup_put_uobject(uobj, UVERBS_LOOKUP_READ);
break;
case UVERBS_ACCESS_WRITE:
rdma_lookup_put_uobject(uobj, UVERBS_LOOKUP_WRITE);
break;
case UVERBS_ACCESS_DESTROY:
if (uobj)
rdma_lookup_put_uobject(uobj, UVERBS_LOOKUP_DESTROY);
break;
case UVERBS_ACCESS_NEW:
if (commit)
ret = rdma_alloc_commit_uobject(uobj);
else
rdma_alloc_abort_uobject(uobj);
break;
default:
WARN_ON(true);
ret = -EOPNOTSUPP;
}
return ret;
}
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