/* Copyright (c) 2012-2015, The Linux Foundation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 and * only version 2 as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * */ #include #include #include #include #include #include #include #include "kgsl_sync.h" static void kgsl_sync_timeline_signal(struct sync_timeline *timeline, unsigned int timestamp); static struct sync_pt *kgsl_sync_pt_create(struct sync_timeline *timeline, struct kgsl_context *context, unsigned int timestamp) { struct sync_pt *pt; pt = sync_pt_create(timeline, (int) sizeof(struct kgsl_sync_pt)); if (pt) { struct kgsl_sync_pt *kpt = (struct kgsl_sync_pt *) pt; kpt->context = context; kpt->timestamp = timestamp; } return pt; } /* * This should only be called on sync_pts which have been created but * not added to a fence. */ static void kgsl_sync_pt_destroy(struct sync_pt *pt) { sync_pt_free(pt); } static struct sync_pt *kgsl_sync_pt_dup(struct sync_pt *pt) { struct kgsl_sync_pt *kpt = (struct kgsl_sync_pt *) pt; return kgsl_sync_pt_create(sync_pt_parent(pt), kpt->context, kpt->timestamp); } static int kgsl_sync_pt_has_signaled(struct sync_pt *pt) { struct kgsl_sync_pt *kpt = (struct kgsl_sync_pt *) pt; struct kgsl_sync_timeline *ktimeline = (struct kgsl_sync_timeline *) sync_pt_parent(pt); unsigned int ts = kpt->timestamp; int ret = 0; spin_lock(&ktimeline->lock); ret = (timestamp_cmp(ktimeline->last_timestamp, ts) >= 0); spin_unlock(&ktimeline->lock); return ret; } static int kgsl_sync_pt_compare(struct sync_pt *a, struct sync_pt *b) { struct kgsl_sync_pt *kpt_a = (struct kgsl_sync_pt *) a; struct kgsl_sync_pt *kpt_b = (struct kgsl_sync_pt *) b; unsigned int ts_a = kpt_a->timestamp; unsigned int ts_b = kpt_b->timestamp; return timestamp_cmp(ts_a, ts_b); } struct kgsl_fence_event_priv { struct kgsl_context *context; unsigned int timestamp; }; /** * kgsl_fence_event_cb - Event callback for a fence timestamp event * @device - The KGSL device that expired the timestamp * @context- Pointer to the context that owns the event * @priv: Private data for the callback * @result - Result of the event (retired or canceled) * * Signal a fence following the expiration of a timestamp */ static void kgsl_fence_event_cb(struct kgsl_device *device, struct kgsl_event_group *group, void *priv, int result) { struct kgsl_fence_event_priv *ev = priv; kgsl_sync_timeline_signal(ev->context->timeline, ev->timestamp); kgsl_context_put(ev->context); kfree(ev); } static int _add_fence_event(struct kgsl_device *device, struct kgsl_context *context, unsigned int timestamp) { struct kgsl_fence_event_priv *event; int ret; event = kmalloc(sizeof(*event), GFP_KERNEL); if (event == NULL) return -ENOMEM; /* * Increase the refcount for the context to keep it through the * callback */ if (!_kgsl_context_get(context)) { kfree(event); return -ENOENT; } event->context = context; event->timestamp = timestamp; event->context = context; ret = kgsl_add_event(device, &context->events, timestamp, kgsl_fence_event_cb, event); if (ret) { kgsl_context_put(context); kfree(event); } return ret; } /** * kgsl_add_fence_event - Create a new fence event * @device - KGSL device to create the event on * @timestamp - Timestamp to trigger the event * @data - Return fence fd stored in struct kgsl_timestamp_event_fence * @len - length of the fence event * @owner - driver instance that owns this event * @returns 0 on success or error code on error * * Create a fence and register an event to signal the fence when * the timestamp expires */ int kgsl_add_fence_event(struct kgsl_device *device, u32 context_id, u32 timestamp, void __user *data, int len, struct kgsl_device_private *owner) { struct kgsl_timestamp_event_fence priv; struct kgsl_context *context; struct sync_pt *pt; struct sync_fence *fence = NULL; int ret = -EINVAL; char fence_name[sizeof(fence->name)] = {}; unsigned int cur; priv.fence_fd = -1; if (len != sizeof(priv)) return -EINVAL; context = kgsl_context_get_owner(owner, context_id); if (context == NULL) return -EINVAL; if (test_bit(KGSL_CONTEXT_PRIV_INVALID, &context->priv)) goto out; pt = kgsl_sync_pt_create(context->timeline, context, timestamp); if (pt == NULL) { KGSL_DRV_CRIT_RATELIMIT(device, "kgsl_sync_pt_create failed\n"); ret = -ENOMEM; goto out; } snprintf(fence_name, sizeof(fence_name), "%s-pid-%d-ctx-%d-ts-%d", device->name, current->group_leader->pid, context_id, timestamp); fence = sync_fence_create(fence_name, pt); if (fence == NULL) { /* only destroy pt when not added to fence */ kgsl_sync_pt_destroy(pt); KGSL_DRV_CRIT_RATELIMIT(device, "sync_fence_create failed\n"); ret = -ENOMEM; goto out; } priv.fence_fd = get_unused_fd_flags(0); if (priv.fence_fd < 0) { KGSL_DRV_CRIT_RATELIMIT(device, "Unable to get a file descriptor: %d\n", priv.fence_fd); ret = priv.fence_fd; goto out; } /* * If the timestamp hasn't expired yet create an event to trigger it. * Otherwise, just signal the fence - there is no reason to go through * the effort of creating a fence we don't need. */ kgsl_readtimestamp(device, context, KGSL_TIMESTAMP_RETIRED, &cur); if (timestamp_cmp(cur, timestamp) >= 0) { ret = 0; kgsl_sync_timeline_signal(context->timeline, cur); } else { ret = _add_fence_event(device, context, timestamp); if (ret) goto out; } if (copy_to_user(data, &priv, sizeof(priv))) { ret = -EFAULT; goto out; } sync_fence_install(fence, priv.fence_fd); out: kgsl_context_put(context); if (ret) { if (priv.fence_fd >= 0) put_unused_fd(priv.fence_fd); if (fence) sync_fence_put(fence); } return ret; } static unsigned int kgsl_sync_get_timestamp( struct kgsl_sync_timeline *ktimeline, enum kgsl_timestamp_type type) { unsigned int ret = 0; struct kgsl_context *context; if (ktimeline->device == NULL) return 0; context = kgsl_context_get(ktimeline->device, ktimeline->context_id); if (context) kgsl_readtimestamp(ktimeline->device, context, type, &ret); kgsl_context_put(context); return ret; } static void kgsl_sync_timeline_value_str(struct sync_timeline *sync_timeline, char *str, int size) { struct kgsl_sync_timeline *ktimeline = (struct kgsl_sync_timeline *) sync_timeline; /* * This callback can be called before the device and spinlock are * initialized in struct kgsl_sync_timeline. kgsl_sync_get_timestamp() * will check if device is NULL and return 0. Queued and retired * timestamp of the context will be reported as 0, which is correct * because the context and timeline are just getting initialized. */ unsigned int timestamp_retired = kgsl_sync_get_timestamp(ktimeline, KGSL_TIMESTAMP_RETIRED); unsigned int timestamp_queued = kgsl_sync_get_timestamp(ktimeline, KGSL_TIMESTAMP_QUEUED); snprintf(str, size, "%u queued:%u retired:%u", ktimeline->last_timestamp, timestamp_queued, timestamp_retired); } static void kgsl_sync_pt_value_str(struct sync_pt *sync_pt, char *str, int size) { struct kgsl_sync_pt *kpt = (struct kgsl_sync_pt *) sync_pt; snprintf(str, size, "%u", kpt->timestamp); } static int kgsl_sync_fill_driver_data(struct sync_pt *sync_pt, void *data, int size) { struct kgsl_sync_pt *kpt = (struct kgsl_sync_pt *) sync_pt; if (size < sizeof(kpt->timestamp)) return -ENOMEM; memcpy(data, &kpt->timestamp, sizeof(kpt->timestamp)); return sizeof(kpt->timestamp); } static void kgsl_sync_pt_log(struct sync_pt *sync_pt) { struct kgsl_sync_pt *kpt = (struct kgsl_sync_pt *) sync_pt; pr_info("-----\n"); kgsl_context_dump(kpt->context); pr_info("-----\n"); } static void kgsl_sync_timeline_release_obj(struct sync_timeline *sync_timeline) { /* * Make sure to free the timeline only after destroy flag is set. * This is to avoid further accessing to the timeline from KGSL and * also to catch any unbalanced kref of timeline. */ BUG_ON(sync_timeline && (sync_timeline->destroyed != true)); } static const struct sync_timeline_ops kgsl_sync_timeline_ops = { .driver_name = "kgsl-timeline", .dup = kgsl_sync_pt_dup, .has_signaled = kgsl_sync_pt_has_signaled, .compare = kgsl_sync_pt_compare, .timeline_value_str = kgsl_sync_timeline_value_str, .pt_value_str = kgsl_sync_pt_value_str, .fill_driver_data = kgsl_sync_fill_driver_data, .release_obj = kgsl_sync_timeline_release_obj, .pt_log = kgsl_sync_pt_log, }; int kgsl_sync_timeline_create(struct kgsl_context *context) { struct kgsl_sync_timeline *ktimeline; /* Generate a name which includes the thread name, thread id, process * name, process id, and context id. This makes it possible to * identify the context of a timeline in the sync dump. */ char ktimeline_name[sizeof(context->timeline->name)] = {}; snprintf(ktimeline_name, sizeof(ktimeline_name), "%s_%.15s(%d)-%.15s(%d)-%d", context->device->name, current->group_leader->comm, current->group_leader->pid, current->comm, current->pid, context->id); context->timeline = sync_timeline_create(&kgsl_sync_timeline_ops, (int) sizeof(struct kgsl_sync_timeline), ktimeline_name); if (context->timeline == NULL) return -EINVAL; ktimeline = (struct kgsl_sync_timeline *) context->timeline; ktimeline->last_timestamp = 0; ktimeline->device = context->device; ktimeline->context_id = context->id; spin_lock_init(&ktimeline->lock); return 0; } static void kgsl_sync_timeline_signal(struct sync_timeline *timeline, unsigned int timestamp) { struct kgsl_sync_timeline *ktimeline = (struct kgsl_sync_timeline *) timeline; spin_lock(&ktimeline->lock); if (timestamp_cmp(timestamp, ktimeline->last_timestamp) > 0) ktimeline->last_timestamp = timestamp; spin_unlock(&ktimeline->lock); sync_timeline_signal(timeline); } void kgsl_sync_timeline_destroy(struct kgsl_context *context) { sync_timeline_destroy(context->timeline); } static void kgsl_sync_callback(struct sync_fence *fence, struct sync_fence_waiter *waiter) { struct kgsl_sync_fence_waiter *kwaiter = (struct kgsl_sync_fence_waiter *) waiter; kwaiter->func(kwaiter->priv); sync_fence_put(kwaiter->fence); kfree(kwaiter); } struct kgsl_sync_fence_waiter *kgsl_sync_fence_async_wait(int fd, void (*func)(void *priv), void *priv) { struct kgsl_sync_fence_waiter *kwaiter; struct sync_fence *fence; int status; fence = sync_fence_fdget(fd); if (fence == NULL) return ERR_PTR(-EINVAL); /* create the waiter */ kwaiter = kzalloc(sizeof(*kwaiter), GFP_ATOMIC); if (kwaiter == NULL) { sync_fence_put(fence); return ERR_PTR(-ENOMEM); } kwaiter->fence = fence; kwaiter->priv = priv; kwaiter->func = func; strlcpy(kwaiter->name, fence->name, sizeof(kwaiter->name)); sync_fence_waiter_init((struct sync_fence_waiter *) kwaiter, kgsl_sync_callback); /* if status then error or signaled */ status = sync_fence_wait_async(fence, (struct sync_fence_waiter *) kwaiter); if (status) { kfree(kwaiter); sync_fence_put(fence); if (status < 0) kwaiter = ERR_PTR(status); else kwaiter = NULL; } return kwaiter; } int kgsl_sync_fence_async_cancel(struct kgsl_sync_fence_waiter *kwaiter) { if (kwaiter == NULL) return 0; if (sync_fence_cancel_async(kwaiter->fence, (struct sync_fence_waiter *) kwaiter) == 0) { sync_fence_put(kwaiter->fence); kfree(kwaiter); return 1; } return 0; } #ifdef CONFIG_ONESHOT_SYNC struct kgsl_syncsource { struct kref refcount; int id; struct kgsl_process_private *private; struct oneshot_sync_timeline *oneshot; }; long kgsl_ioctl_syncsource_create(struct kgsl_device_private *dev_priv, unsigned int cmd, void *data) { struct kgsl_syncsource *syncsource = NULL; struct kgsl_syncsource_create *param = data; int ret = -EINVAL; int id = 0; struct kgsl_process_private *private = dev_priv->process_priv; char name[32]; syncsource = kzalloc(sizeof(*syncsource), GFP_KERNEL); if (syncsource == NULL) { ret = -ENOMEM; goto out; } snprintf(name, sizeof(name), "kgsl-syncsource-pid-%d", current->group_leader->pid); syncsource->oneshot = oneshot_timeline_create(name); if (syncsource->oneshot == NULL) { ret = -ENOMEM; goto out; } idr_preload(GFP_KERNEL); spin_lock(&private->syncsource_lock); id = idr_alloc(&private->syncsource_idr, syncsource, 1, 0, GFP_NOWAIT); spin_unlock(&private->syncsource_lock); idr_preload_end(); if (id > 0) { kref_init(&syncsource->refcount); syncsource->id = id; syncsource->private = private; param->id = id; ret = 0; } else { ret = id; } out: if (ret) { if (syncsource && syncsource->oneshot) oneshot_timeline_destroy(syncsource->oneshot); kfree(syncsource); } return ret; } static struct kgsl_syncsource * kgsl_syncsource_get(struct kgsl_process_private *private, int id) { int result = 0; struct kgsl_syncsource *syncsource = NULL; spin_lock(&private->syncsource_lock); syncsource = idr_find(&private->syncsource_idr, id); if (syncsource) result = kref_get_unless_zero(&syncsource->refcount); spin_unlock(&private->syncsource_lock); return result ? syncsource : NULL; } static void kgsl_syncsource_destroy(struct kref *kref) { struct kgsl_syncsource *syncsource = container_of(kref, struct kgsl_syncsource, refcount); struct kgsl_process_private *private = syncsource->private; spin_lock(&private->syncsource_lock); if (syncsource->id != 0) { idr_remove(&private->syncsource_idr, syncsource->id); syncsource->id = 0; } oneshot_timeline_destroy(syncsource->oneshot); spin_unlock(&private->syncsource_lock); kfree(syncsource); } void kgsl_syncsource_put(struct kgsl_syncsource *syncsource) { if (syncsource) kref_put(&syncsource->refcount, kgsl_syncsource_destroy); } long kgsl_ioctl_syncsource_destroy(struct kgsl_device_private *dev_priv, unsigned int cmd, void *data) { struct kgsl_syncsource_destroy *param = data; struct kgsl_syncsource *syncsource = NULL; struct kgsl_process_private *private; syncsource = kgsl_syncsource_get(dev_priv->process_priv, param->id); if (syncsource == NULL) return -EINVAL; private = syncsource->private; spin_lock(&private->syncsource_lock); idr_remove(&private->syncsource_idr, param->id); syncsource->id = 0; spin_unlock(&private->syncsource_lock); /* put reference from syncsource creation */ kgsl_syncsource_put(syncsource); /* put reference from getting the syncsource above */ kgsl_syncsource_put(syncsource); return 0; } long kgsl_ioctl_syncsource_create_fence(struct kgsl_device_private *dev_priv, unsigned int cmd, void *data) { struct kgsl_syncsource_create_fence *param = data; struct kgsl_syncsource *syncsource = NULL; int ret = -EINVAL; struct sync_fence *fence = NULL; int fd = -1; char name[32]; syncsource = kgsl_syncsource_get(dev_priv->process_priv, param->id); if (syncsource == NULL) goto out; snprintf(name, sizeof(name), "kgsl-syncsource-pid-%d-%d", current->group_leader->pid, syncsource->id); fence = oneshot_fence_create(syncsource->oneshot, name); if (fence == NULL) { ret = -ENOMEM; goto out; } fd = get_unused_fd_flags(0); if (fd < 0) { ret = -EBADF; goto out; } ret = 0; sync_fence_install(fence, fd); param->fence_fd = fd; out: if (ret) { if (fence) sync_fence_put(fence); if (fd >= 0) put_unused_fd(fd); } kgsl_syncsource_put(syncsource); return ret; } long kgsl_ioctl_syncsource_signal_fence(struct kgsl_device_private *dev_priv, unsigned int cmd, void *data) { int ret = -EINVAL; struct kgsl_syncsource_signal_fence *param = data; struct kgsl_syncsource *syncsource = NULL; struct sync_fence *fence = NULL; syncsource = kgsl_syncsource_get(dev_priv->process_priv, param->id); if (syncsource == NULL) goto out; fence = sync_fence_fdget(param->fence_fd); if (fence == NULL) { ret = -EBADF; goto out; } ret = oneshot_fence_signal(syncsource->oneshot, fence); out: if (fence) sync_fence_put(fence); kgsl_syncsource_put(syncsource); return ret; } #endif