vmwgfx_irq.c 9.7 KB

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  1. // SPDX-License-Identifier: GPL-2.0 OR MIT
  2. /**************************************************************************
  3. *
  4. * Copyright 2009-2015 VMware, Inc., Palo Alto, CA., USA
  5. *
  6. * Permission is hereby granted, free of charge, to any person obtaining a
  7. * copy of this software and associated documentation files (the
  8. * "Software"), to deal in the Software without restriction, including
  9. * without limitation the rights to use, copy, modify, merge, publish,
  10. * distribute, sub license, and/or sell copies of the Software, and to
  11. * permit persons to whom the Software is furnished to do so, subject to
  12. * the following conditions:
  13. *
  14. * The above copyright notice and this permission notice (including the
  15. * next paragraph) shall be included in all copies or substantial portions
  16. * of the Software.
  17. *
  18. * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
  19. * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
  20. * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL
  21. * THE COPYRIGHT HOLDERS, AUTHORS AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM,
  22. * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
  23. * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
  24. * USE OR OTHER DEALINGS IN THE SOFTWARE.
  25. *
  26. **************************************************************************/
  27. #include <linux/pci.h>
  28. #include <linux/sched/signal.h>
  29. #include "vmwgfx_drv.h"
  30. #define VMW_FENCE_WRAP (1 << 24)
  31. static u32 vmw_irqflag_fence_goal(struct vmw_private *vmw)
  32. {
  33. if ((vmw->capabilities2 & SVGA_CAP2_EXTRA_REGS) != 0)
  34. return SVGA_IRQFLAG_REG_FENCE_GOAL;
  35. else
  36. return SVGA_IRQFLAG_FENCE_GOAL;
  37. }
  38. /**
  39. * vmw_thread_fn - Deferred (process context) irq handler
  40. *
  41. * @irq: irq number
  42. * @arg: Closure argument. Pointer to a struct drm_device cast to void *
  43. *
  44. * This function implements the deferred part of irq processing.
  45. * The function is guaranteed to run at least once after the
  46. * vmw_irq_handler has returned with IRQ_WAKE_THREAD.
  47. *
  48. */
  49. static irqreturn_t vmw_thread_fn(int irq, void *arg)
  50. {
  51. struct drm_device *dev = (struct drm_device *)arg;
  52. struct vmw_private *dev_priv = vmw_priv(dev);
  53. irqreturn_t ret = IRQ_NONE;
  54. if (test_and_clear_bit(VMW_IRQTHREAD_FENCE,
  55. dev_priv->irqthread_pending)) {
  56. vmw_fences_update(dev_priv->fman);
  57. wake_up_all(&dev_priv->fence_queue);
  58. ret = IRQ_HANDLED;
  59. }
  60. if (test_and_clear_bit(VMW_IRQTHREAD_CMDBUF,
  61. dev_priv->irqthread_pending)) {
  62. vmw_cmdbuf_irqthread(dev_priv->cman);
  63. ret = IRQ_HANDLED;
  64. }
  65. return ret;
  66. }
  67. /**
  68. * vmw_irq_handler: irq handler
  69. *
  70. * @irq: irq number
  71. * @arg: Closure argument. Pointer to a struct drm_device cast to void *
  72. *
  73. * This function implements the quick part of irq processing.
  74. * The function performs fast actions like clearing the device interrupt
  75. * flags and also reasonably quick actions like waking processes waiting for
  76. * FIFO space. Other IRQ actions are deferred to the IRQ thread.
  77. */
  78. static irqreturn_t vmw_irq_handler(int irq, void *arg)
  79. {
  80. struct drm_device *dev = (struct drm_device *)arg;
  81. struct vmw_private *dev_priv = vmw_priv(dev);
  82. uint32_t status, masked_status;
  83. irqreturn_t ret = IRQ_HANDLED;
  84. status = vmw_irq_status_read(dev_priv);
  85. masked_status = status & READ_ONCE(dev_priv->irq_mask);
  86. if (likely(status))
  87. vmw_irq_status_write(dev_priv, status);
  88. if (!status)
  89. return IRQ_NONE;
  90. if (masked_status & SVGA_IRQFLAG_FIFO_PROGRESS)
  91. wake_up_all(&dev_priv->fifo_queue);
  92. if ((masked_status & (SVGA_IRQFLAG_ANY_FENCE |
  93. vmw_irqflag_fence_goal(dev_priv))) &&
  94. !test_and_set_bit(VMW_IRQTHREAD_FENCE, dev_priv->irqthread_pending))
  95. ret = IRQ_WAKE_THREAD;
  96. if ((masked_status & (SVGA_IRQFLAG_COMMAND_BUFFER |
  97. SVGA_IRQFLAG_ERROR)) &&
  98. !test_and_set_bit(VMW_IRQTHREAD_CMDBUF,
  99. dev_priv->irqthread_pending))
  100. ret = IRQ_WAKE_THREAD;
  101. return ret;
  102. }
  103. static bool vmw_fifo_idle(struct vmw_private *dev_priv, uint32_t seqno)
  104. {
  105. return (vmw_read(dev_priv, SVGA_REG_BUSY) == 0);
  106. }
  107. bool vmw_seqno_passed(struct vmw_private *dev_priv,
  108. uint32_t seqno)
  109. {
  110. bool ret;
  111. u32 last_read_seqno = atomic_read_acquire(&dev_priv->last_read_seqno);
  112. if (last_read_seqno - seqno < VMW_FENCE_WRAP)
  113. return true;
  114. last_read_seqno = vmw_fences_update(dev_priv->fman);
  115. if (last_read_seqno - seqno < VMW_FENCE_WRAP)
  116. return true;
  117. if (!vmw_has_fences(dev_priv) && vmw_fifo_idle(dev_priv, seqno))
  118. return true;
  119. /**
  120. * Then check if the seqno is higher than what we've actually
  121. * emitted. Then the fence is stale and signaled.
  122. */
  123. ret = ((atomic_read(&dev_priv->marker_seq) - seqno)
  124. > VMW_FENCE_WRAP);
  125. return ret;
  126. }
  127. int vmw_fallback_wait(struct vmw_private *dev_priv,
  128. bool lazy,
  129. bool fifo_idle,
  130. uint32_t seqno,
  131. bool interruptible,
  132. unsigned long timeout)
  133. {
  134. struct vmw_fifo_state *fifo_state = dev_priv->fifo;
  135. bool fifo_down = false;
  136. uint32_t count = 0;
  137. uint32_t signal_seq;
  138. int ret;
  139. unsigned long end_jiffies = jiffies + timeout;
  140. bool (*wait_condition)(struct vmw_private *, uint32_t);
  141. DEFINE_WAIT(__wait);
  142. wait_condition = (fifo_idle) ? &vmw_fifo_idle :
  143. &vmw_seqno_passed;
  144. /**
  145. * Block command submission while waiting for idle.
  146. */
  147. if (fifo_idle) {
  148. if (dev_priv->cman) {
  149. ret = vmw_cmdbuf_idle(dev_priv->cman, interruptible,
  150. 10*HZ);
  151. if (ret)
  152. goto out_err;
  153. } else if (fifo_state) {
  154. down_read(&fifo_state->rwsem);
  155. fifo_down = true;
  156. }
  157. }
  158. signal_seq = atomic_read(&dev_priv->marker_seq);
  159. ret = 0;
  160. for (;;) {
  161. prepare_to_wait(&dev_priv->fence_queue, &__wait,
  162. (interruptible) ?
  163. TASK_INTERRUPTIBLE : TASK_UNINTERRUPTIBLE);
  164. if (wait_condition(dev_priv, seqno))
  165. break;
  166. if (time_after_eq(jiffies, end_jiffies)) {
  167. DRM_ERROR("SVGA device lockup.\n");
  168. break;
  169. }
  170. if (lazy)
  171. schedule_timeout(1);
  172. else if ((++count & 0x0F) == 0) {
  173. /**
  174. * FIXME: Use schedule_hr_timeout here for
  175. * newer kernels and lower CPU utilization.
  176. */
  177. __set_current_state(TASK_RUNNING);
  178. schedule();
  179. __set_current_state((interruptible) ?
  180. TASK_INTERRUPTIBLE :
  181. TASK_UNINTERRUPTIBLE);
  182. }
  183. if (interruptible && signal_pending(current)) {
  184. ret = -ERESTARTSYS;
  185. break;
  186. }
  187. }
  188. finish_wait(&dev_priv->fence_queue, &__wait);
  189. if (ret == 0 && fifo_idle && fifo_state)
  190. vmw_fence_write(dev_priv, signal_seq);
  191. wake_up_all(&dev_priv->fence_queue);
  192. out_err:
  193. if (fifo_down)
  194. up_read(&fifo_state->rwsem);
  195. return ret;
  196. }
  197. bool vmw_generic_waiter_add(struct vmw_private *dev_priv,
  198. u32 flag, int *waiter_count)
  199. {
  200. bool hw_programmed = false;
  201. spin_lock(&dev_priv->waiter_lock);
  202. if ((*waiter_count)++ == 0) {
  203. vmw_irq_status_write(dev_priv, flag);
  204. dev_priv->irq_mask |= flag;
  205. vmw_write(dev_priv, SVGA_REG_IRQMASK, dev_priv->irq_mask);
  206. hw_programmed = true;
  207. }
  208. spin_unlock(&dev_priv->waiter_lock);
  209. return hw_programmed;
  210. }
  211. bool vmw_generic_waiter_remove(struct vmw_private *dev_priv,
  212. u32 flag, int *waiter_count)
  213. {
  214. bool hw_programmed = false;
  215. spin_lock(&dev_priv->waiter_lock);
  216. if (--(*waiter_count) == 0) {
  217. dev_priv->irq_mask &= ~flag;
  218. vmw_write(dev_priv, SVGA_REG_IRQMASK, dev_priv->irq_mask);
  219. hw_programmed = true;
  220. }
  221. spin_unlock(&dev_priv->waiter_lock);
  222. return hw_programmed;
  223. }
  224. bool vmw_seqno_waiter_add(struct vmw_private *dev_priv)
  225. {
  226. return vmw_generic_waiter_add(dev_priv, SVGA_IRQFLAG_ANY_FENCE,
  227. &dev_priv->fence_queue_waiters);
  228. }
  229. bool vmw_seqno_waiter_remove(struct vmw_private *dev_priv)
  230. {
  231. return vmw_generic_waiter_remove(dev_priv, SVGA_IRQFLAG_ANY_FENCE,
  232. &dev_priv->fence_queue_waiters);
  233. }
  234. bool vmw_goal_waiter_add(struct vmw_private *dev_priv)
  235. {
  236. return vmw_generic_waiter_add(dev_priv, vmw_irqflag_fence_goal(dev_priv),
  237. &dev_priv->goal_queue_waiters);
  238. }
  239. bool vmw_goal_waiter_remove(struct vmw_private *dev_priv)
  240. {
  241. return vmw_generic_waiter_remove(dev_priv, vmw_irqflag_fence_goal(dev_priv),
  242. &dev_priv->goal_queue_waiters);
  243. }
  244. static void vmw_irq_preinstall(struct drm_device *dev)
  245. {
  246. struct vmw_private *dev_priv = vmw_priv(dev);
  247. uint32_t status;
  248. status = vmw_irq_status_read(dev_priv);
  249. vmw_irq_status_write(dev_priv, status);
  250. }
  251. void vmw_irq_uninstall(struct drm_device *dev)
  252. {
  253. struct vmw_private *dev_priv = vmw_priv(dev);
  254. struct pci_dev *pdev = to_pci_dev(dev->dev);
  255. uint32_t status;
  256. u32 i;
  257. if (!(dev_priv->capabilities & SVGA_CAP_IRQMASK))
  258. return;
  259. vmw_write(dev_priv, SVGA_REG_IRQMASK, 0);
  260. status = vmw_irq_status_read(dev_priv);
  261. vmw_irq_status_write(dev_priv, status);
  262. for (i = 0; i < dev_priv->num_irq_vectors; ++i)
  263. free_irq(dev_priv->irqs[i], dev);
  264. pci_free_irq_vectors(pdev);
  265. dev_priv->num_irq_vectors = 0;
  266. }
  267. /**
  268. * vmw_irq_install - Install the irq handlers
  269. *
  270. * @dev_priv: Pointer to the vmw_private device.
  271. * Return: Zero if successful. Negative number otherwise.
  272. */
  273. int vmw_irq_install(struct vmw_private *dev_priv)
  274. {
  275. struct pci_dev *pdev = to_pci_dev(dev_priv->drm.dev);
  276. struct drm_device *dev = &dev_priv->drm;
  277. int ret;
  278. int nvec;
  279. int i = 0;
  280. BUILD_BUG_ON((SVGA_IRQFLAG_MAX >> VMWGFX_MAX_NUM_IRQS) != 1);
  281. BUG_ON(VMWGFX_MAX_NUM_IRQS != get_count_order(SVGA_IRQFLAG_MAX));
  282. nvec = pci_alloc_irq_vectors(pdev, 1, VMWGFX_MAX_NUM_IRQS,
  283. PCI_IRQ_ALL_TYPES);
  284. if (nvec <= 0) {
  285. drm_err(&dev_priv->drm,
  286. "IRQ's are unavailable, nvec: %d\n", nvec);
  287. ret = nvec;
  288. goto done;
  289. }
  290. vmw_irq_preinstall(dev);
  291. for (i = 0; i < nvec; ++i) {
  292. ret = pci_irq_vector(pdev, i);
  293. if (ret < 0) {
  294. drm_err(&dev_priv->drm,
  295. "failed getting irq vector: %d\n", ret);
  296. goto done;
  297. }
  298. dev_priv->irqs[i] = ret;
  299. ret = request_threaded_irq(dev_priv->irqs[i], vmw_irq_handler, vmw_thread_fn,
  300. IRQF_SHARED, VMWGFX_DRIVER_NAME, dev);
  301. if (ret != 0) {
  302. drm_err(&dev_priv->drm,
  303. "Failed installing irq(%d): %d\n",
  304. dev_priv->irqs[i], ret);
  305. goto done;
  306. }
  307. }
  308. done:
  309. dev_priv->num_irq_vectors = i;
  310. return ret;
  311. }