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/*- * Copyright 1999, 2000 Precision Insight, Inc., Cedar Park, Texas. * Copyright 2000 VA Linux Systems, Inc., Sunnyvale, California. * All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * 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 * VA LINUX SYSTEMS AND/OR ITS SUPPLIERS 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. * * Authors: * Rickard E. (Rik) Faith <faith@valinux.com> * Gareth Hughes <gareth@valinux.com> * */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/dev/drm2/drm_bufs.c 235783 2012-05-22 11:07:44Z kib $"); /** @file drm_bufs.c * Implementation of the ioctls for setup of DRM mappings and DMA buffers. */ #include <dev/pci/pcireg.h> #include <dev/drm2/drmP.h> /* Allocation of PCI memory resources (framebuffer, registers, etc.) for * drm_get_resource_*. Note that they are not RF_ACTIVE, so there's no virtual * address for accessing them. Cleaned up at unload. */ static int drm_alloc_resource(struct drm_device *dev, int resource) { struct resource *res; int rid; DRM_LOCK_ASSERT(dev); if (resource >= DRM_MAX_PCI_RESOURCE) { DRM_ERROR("Resource %d too large\n", resource); return 1; } if (dev->pcir[resource] != NULL) { return 0; } DRM_UNLOCK(dev); rid = PCIR_BAR(resource); res = bus_alloc_resource_any(dev->device, SYS_RES_MEMORY, &rid, RF_SHAREABLE); DRM_LOCK(dev); if (res == NULL) { DRM_ERROR("Couldn't find resource 0x%x\n", resource); return 1; } if (dev->pcir[resource] == NULL) { dev->pcirid[resource] = rid; dev->pcir[resource] = res; } return 0; } unsigned long drm_get_resource_start(struct drm_device *dev, unsigned int resource) { if (drm_alloc_resource(dev, resource) != 0) return 0; return rman_get_start(dev->pcir[resource]); } unsigned long drm_get_resource_len(struct drm_device *dev, unsigned int resource) { if (drm_alloc_resource(dev, resource) != 0) return 0; return rman_get_size(dev->pcir[resource]); } int drm_addmap(struct drm_device * dev, unsigned long offset, unsigned long size, enum drm_map_type type, enum drm_map_flags flags, drm_local_map_t **map_ptr) { drm_local_map_t *map; int align; /*drm_agp_mem_t *entry; int valid;*/ /* Only allow shared memory to be removable since we only keep enough * book keeping information about shared memory to allow for removal * when processes fork. */ if ((flags & _DRM_REMOVABLE) && type != _DRM_SHM) { DRM_ERROR("Requested removable map for non-DRM_SHM\n"); return EINVAL; } if ((offset & PAGE_MASK) || (size & PAGE_MASK)) { DRM_ERROR("offset/size not page aligned: 0x%lx/0x%lx\n", offset, size); return EINVAL; } if (offset + size < offset) { DRM_ERROR("offset and size wrap around: 0x%lx/0x%lx\n", offset, size); return EINVAL; } DRM_DEBUG("offset = 0x%08lx, size = 0x%08lx, type = %d\n", offset, size, type); /* Check if this is just another version of a kernel-allocated map, and * just hand that back if so. */ if (type == _DRM_REGISTERS || type == _DRM_FRAME_BUFFER || type == _DRM_SHM) { TAILQ_FOREACH(map, &dev->maplist, link) { if (map->type == type && (map->offset == offset || (map->type == _DRM_SHM && map->flags == _DRM_CONTAINS_LOCK))) { map->size = size; DRM_DEBUG("Found kernel map %d\n", type); goto done; } } } DRM_UNLOCK(dev); /* Allocate a new map structure, fill it in, and do any type-specific * initialization necessary. */ map = malloc(sizeof(*map), DRM_MEM_MAPS, M_ZERO | M_NOWAIT); if (!map) { DRM_LOCK(dev); return ENOMEM; } map->offset = offset; map->size = size; map->type = type; map->flags = flags; map->handle = (void *)((unsigned long)alloc_unr(dev->map_unrhdr) << DRM_MAP_HANDLE_SHIFT); switch (map->type) { case _DRM_REGISTERS: map->virtual = drm_ioremap(dev, map); if (!(map->flags & _DRM_WRITE_COMBINING)) break; /* FALLTHROUGH */ case _DRM_FRAME_BUFFER: if (drm_mtrr_add(map->offset, map->size, DRM_MTRR_WC) == 0) map->mtrr = 1; break; case _DRM_SHM: map->virtual = malloc(map->size, DRM_MEM_MAPS, M_NOWAIT); DRM_DEBUG("%lu %d %p\n", map->size, drm_order(map->size), map->virtual); if (!map->virtual) { free(map, DRM_MEM_MAPS); DRM_LOCK(dev); return ENOMEM; } map->offset = (unsigned long)map->virtual; if (map->flags & _DRM_CONTAINS_LOCK) { /* Prevent a 2nd X Server from creating a 2nd lock */ DRM_LOCK(dev); if (dev->lock.hw_lock != NULL) { DRM_UNLOCK(dev); free(map->virtual, DRM_MEM_MAPS); free(map, DRM_MEM_MAPS); return EBUSY; } dev->lock.hw_lock = map->virtual; /* Pointer to lock */ DRM_UNLOCK(dev); } break; case _DRM_AGP: /*valid = 0;*/ /* In some cases (i810 driver), user space may have already * added the AGP base itself, because dev->agp->base previously * only got set during AGP enable. So, only add the base * address if the map's offset isn't already within the * aperture. */ if (map->offset < dev->agp->base || map->offset > dev->agp->base + dev->agp->info.ai_aperture_size - 1) { map->offset += dev->agp->base; } map->mtrr = dev->agp->mtrr; /* for getmap */ /*for (entry = dev->agp->memory; entry; entry = entry->next) { if ((map->offset >= entry->bound) && (map->offset + map->size <= entry->bound + entry->pages * PAGE_SIZE)) { valid = 1; break; } } if (!valid) { free(map, DRM_MEM_MAPS); DRM_LOCK(dev); return EACCES; }*/ break; case _DRM_SCATTER_GATHER: if (!dev->sg) { free(map, DRM_MEM_MAPS); DRM_LOCK(dev); return EINVAL; } map->virtual = (void *)(dev->sg->vaddr + offset); map->offset = dev->sg->vaddr + offset; break; case _DRM_CONSISTENT: /* Unfortunately, we don't get any alignment specification from * the caller, so we have to guess. drm_pci_alloc requires * a power-of-two alignment, so try to align the bus address of * the map to it size if possible, otherwise just assume * PAGE_SIZE alignment. */ align = map->size; if ((align & (align - 1)) != 0) align = PAGE_SIZE; map->dmah = drm_pci_alloc(dev, map->size, align, 0xfffffffful); if (map->dmah == NULL) { free(map, DRM_MEM_MAPS); DRM_LOCK(dev); return ENOMEM; } map->virtual = map->dmah->vaddr; map->offset = map->dmah->busaddr; break; default: DRM_ERROR("Bad map type %d\n", map->type); free(map, DRM_MEM_MAPS); DRM_LOCK(dev); return EINVAL; } DRM_LOCK(dev); TAILQ_INSERT_TAIL(&dev->maplist, map, link); done: /* Jumped to, with lock held, when a kernel map is found. */ DRM_DEBUG("Added map %d 0x%lx/0x%lx\n", map->type, map->offset, map->size); *map_ptr = map; return 0; } int drm_addmap_ioctl(struct drm_device *dev, void *data, struct drm_file *file_priv) { struct drm_map *request = data; drm_local_map_t *map; int err; if (!(dev->flags & (FREAD|FWRITE))) return EACCES; /* Require read/write */ if (!DRM_SUSER(DRM_CURPROC) && request->type != _DRM_AGP) return EACCES; DRM_LOCK(dev); err = drm_addmap(dev, request->offset, request->size, request->type, request->flags, &map); DRM_UNLOCK(dev); if (err != 0) return err; request->offset = map->offset; request->size = map->size; request->type = map->type; request->flags = map->flags; request->mtrr = map->mtrr; request->handle = (void *)map->handle; return 0; } void drm_rmmap(struct drm_device *dev, drm_local_map_t *map) { DRM_LOCK_ASSERT(dev); if (map == NULL) return; TAILQ_REMOVE(&dev->maplist, map, link); switch (map->type) { case _DRM_REGISTERS: if (map->bsr == NULL) drm_ioremapfree(map); /* FALLTHROUGH */ case _DRM_FRAME_BUFFER: if (map->mtrr) { int __unused retcode; retcode = drm_mtrr_del(0, map->offset, map->size, DRM_MTRR_WC); DRM_DEBUG("mtrr_del = %d\n", retcode); } break; case _DRM_SHM: free(map->virtual, DRM_MEM_MAPS); break; case _DRM_AGP: case _DRM_SCATTER_GATHER: break; case _DRM_CONSISTENT: drm_pci_free(dev, map->dmah); break; default: DRM_ERROR("Bad map type %d\n", map->type); break; } if (map->bsr != NULL) { bus_release_resource(dev->device, SYS_RES_MEMORY, map->rid, map->bsr); } DRM_UNLOCK(dev); if (map->handle) free_unr(dev->map_unrhdr, (unsigned long)map->handle >> DRM_MAP_HANDLE_SHIFT); DRM_LOCK(dev); free(map, DRM_MEM_MAPS); } /* Remove a map private from list and deallocate resources if the mapping * isn't in use. */ int drm_rmmap_ioctl(struct drm_device *dev, void *data, struct drm_file *file_priv) { drm_local_map_t *map; struct drm_map *request = data; DRM_LOCK(dev); TAILQ_FOREACH(map, &dev->maplist, link) { if (map->handle == request->handle && map->flags & _DRM_REMOVABLE) break; } /* No match found. */ if (map == NULL) { DRM_UNLOCK(dev); return EINVAL; } drm_rmmap(dev, map); DRM_UNLOCK(dev); return 0; } static void drm_cleanup_buf_error(struct drm_device *dev, drm_buf_entry_t *entry) { int i; if (entry->seg_count) { for (i = 0; i < entry->seg_count; i++) { drm_pci_free(dev, entry->seglist[i]); } free(entry->seglist, DRM_MEM_SEGS); entry->seg_count = 0; } if (entry->buf_count) { for (i = 0; i < entry->buf_count; i++) { free(entry->buflist[i].dev_private, DRM_MEM_BUFS); } free(entry->buflist, DRM_MEM_BUFS); entry->buf_count = 0; } } static int drm_do_addbufs_agp(struct drm_device *dev, struct drm_buf_desc *request) { drm_device_dma_t *dma = dev->dma; drm_buf_entry_t *entry; /*drm_agp_mem_t *agp_entry; int valid*/ drm_buf_t *buf; unsigned long offset; unsigned long agp_offset; int count; int order; int size; int alignment; int page_order; int total; int byte_count; int i; drm_buf_t **temp_buflist; count = request->count; order = drm_order(request->size); size = 1 << order; alignment = (request->flags & _DRM_PAGE_ALIGN) ? round_page(size) : size; page_order = order - PAGE_SHIFT > 0 ? order - PAGE_SHIFT : 0; total = PAGE_SIZE << page_order; byte_count = 0; agp_offset = dev->agp->base + request->agp_start; DRM_DEBUG("count: %d\n", count); DRM_DEBUG("order: %d\n", order); DRM_DEBUG("size: %d\n", size); DRM_DEBUG("agp_offset: 0x%lx\n", agp_offset); DRM_DEBUG("alignment: %d\n", alignment); DRM_DEBUG("page_order: %d\n", page_order); DRM_DEBUG("total: %d\n", total); /* Make sure buffers are located in AGP memory that we own */ /* Breaks MGA due to drm_alloc_agp not setting up entries for the * memory. Safe to ignore for now because these ioctls are still * root-only. */ /*valid = 0; for (agp_entry = dev->agp->memory; agp_entry; agp_entry = agp_entry->next) { if ((agp_offset >= agp_entry->bound) && (agp_offset + total * count <= agp_entry->bound + agp_entry->pages * PAGE_SIZE)) { valid = 1; break; } } if (!valid) { DRM_DEBUG("zone invalid\n"); return EINVAL; }*/ entry = &dma->bufs[order]; entry->buflist = malloc(count * sizeof(*entry->buflist), DRM_MEM_BUFS, M_NOWAIT | M_ZERO); if (!entry->buflist) { return ENOMEM; } entry->buf_size = size; entry->page_order = page_order; offset = 0; while (entry->buf_count < count) { buf = &entry->buflist[entry->buf_count]; buf->idx = dma->buf_count + entry->buf_count; buf->total = alignment; buf->order = order; buf->used = 0; buf->offset = (dma->byte_count + offset); buf->bus_address = agp_offset + offset; buf->address = (void *)(agp_offset + offset); buf->next = NULL; buf->pending = 0; buf->file_priv = NULL; buf->dev_priv_size = dev->driver->buf_priv_size; buf->dev_private = malloc(buf->dev_priv_size, DRM_MEM_BUFS, M_NOWAIT | M_ZERO); if (buf->dev_private == NULL) { /* Set count correctly so we free the proper amount. */ entry->buf_count = count; drm_cleanup_buf_error(dev, entry); return ENOMEM; } offset += alignment; entry->buf_count++; byte_count += PAGE_SIZE << page_order; } DRM_DEBUG("byte_count: %d\n", byte_count); temp_buflist = realloc(dma->buflist, (dma->buf_count + entry->buf_count) * sizeof(*dma->buflist), DRM_MEM_BUFS, M_NOWAIT); if (temp_buflist == NULL) { /* Free the entry because it isn't valid */ drm_cleanup_buf_error(dev, entry); return ENOMEM; } dma->buflist = temp_buflist; for (i = 0; i < entry->buf_count; i++) { dma->buflist[i + dma->buf_count] = &entry->buflist[i]; } dma->buf_count += entry->buf_count; dma->byte_count += byte_count; DRM_DEBUG("dma->buf_count : %d\n", dma->buf_count); DRM_DEBUG("entry->buf_count : %d\n", entry->buf_count); request->count = entry->buf_count; request->size = size; dma->flags = _DRM_DMA_USE_AGP; return 0; } static int drm_do_addbufs_pci(struct drm_device *dev, struct drm_buf_desc *request) { drm_device_dma_t *dma = dev->dma; int count; int order; int size; int total; int page_order; drm_buf_entry_t *entry; drm_buf_t *buf; int alignment; unsigned long offset; int i; int byte_count; int page_count; unsigned long *temp_pagelist; drm_buf_t **temp_buflist; count = request->count; order = drm_order(request->size); size = 1 << order; DRM_DEBUG("count=%d, size=%d (%d), order=%d\n", request->count, request->size, size, order); alignment = (request->flags & _DRM_PAGE_ALIGN) ? round_page(size) : size; page_order = order - PAGE_SHIFT > 0 ? order - PAGE_SHIFT : 0; total = PAGE_SIZE << page_order; entry = &dma->bufs[order]; entry->buflist = malloc(count * sizeof(*entry->buflist), DRM_MEM_BUFS, M_NOWAIT | M_ZERO); entry->seglist = malloc(count * sizeof(*entry->seglist), DRM_MEM_SEGS, M_NOWAIT | M_ZERO); /* Keep the original pagelist until we know all the allocations * have succeeded */ temp_pagelist = malloc((dma->page_count + (count << page_order)) * sizeof(*dma->pagelist), DRM_MEM_PAGES, M_NOWAIT); if (entry->buflist == NULL || entry->seglist == NULL || temp_pagelist == NULL) { free(temp_pagelist, DRM_MEM_PAGES); free(entry->seglist, DRM_MEM_SEGS); free(entry->buflist, DRM_MEM_BUFS); return ENOMEM; } memcpy(temp_pagelist, dma->pagelist, dma->page_count * sizeof(*dma->pagelist)); DRM_DEBUG("pagelist: %d entries\n", dma->page_count + (count << page_order)); entry->buf_size = size; entry->page_order = page_order; byte_count = 0; page_count = 0; while (entry->buf_count < count) { DRM_SPINUNLOCK(&dev->dma_lock); drm_dma_handle_t *dmah = drm_pci_alloc(dev, size, alignment, 0xfffffffful); DRM_SPINLOCK(&dev->dma_lock); if (dmah == NULL) { /* Set count correctly so we free the proper amount. */ entry->buf_count = count; entry->seg_count = count; drm_cleanup_buf_error(dev, entry); free(temp_pagelist, DRM_MEM_PAGES); return ENOMEM; } entry->seglist[entry->seg_count++] = dmah; for (i = 0; i < (1 << page_order); i++) { DRM_DEBUG("page %d @ %p\n", dma->page_count + page_count, (char *)dmah->vaddr + PAGE_SIZE * i); temp_pagelist[dma->page_count + page_count++] = (long)dmah->vaddr + PAGE_SIZE * i; } for (offset = 0; offset + size <= total && entry->buf_count < count; offset += alignment, ++entry->buf_count) { buf = &entry->buflist[entry->buf_count]; buf->idx = dma->buf_count + entry->buf_count; buf->total = alignment; buf->order = order; buf->used = 0; buf->offset = (dma->byte_count + byte_count + offset); buf->address = ((char *)dmah->vaddr + offset); buf->bus_address = dmah->busaddr + offset; buf->next = NULL; buf->pending = 0; buf->file_priv = NULL; buf->dev_priv_size = dev->driver->buf_priv_size; buf->dev_private = malloc(buf->dev_priv_size, DRM_MEM_BUFS, M_NOWAIT | M_ZERO); if (buf->dev_private == NULL) { /* Set count correctly so we free the proper amount. */ entry->buf_count = count; entry->seg_count = count; drm_cleanup_buf_error(dev, entry); free(temp_pagelist, DRM_MEM_PAGES); return ENOMEM; } DRM_DEBUG("buffer %d @ %p\n", entry->buf_count, buf->address); } byte_count += PAGE_SIZE << page_order; } temp_buflist = realloc(dma->buflist, (dma->buf_count + entry->buf_count) * sizeof(*dma->buflist), DRM_MEM_BUFS, M_NOWAIT); if (temp_buflist == NULL) { /* Free the entry because it isn't valid */ drm_cleanup_buf_error(dev, entry); free(temp_pagelist, DRM_MEM_PAGES); return ENOMEM; } dma->buflist = temp_buflist; for (i = 0; i < entry->buf_count; i++) { dma->buflist[i + dma->buf_count] = &entry->buflist[i]; } /* No allocations failed, so now we can replace the orginal pagelist * with the new one. */ free(dma->pagelist, DRM_MEM_PAGES); dma->pagelist = temp_pagelist; dma->buf_count += entry->buf_count; dma->seg_count += entry->seg_count; dma->page_count += entry->seg_count << page_order; dma->byte_count += PAGE_SIZE * (entry->seg_count << page_order); request->count = entry->buf_count; request->size = size; return 0; } static int drm_do_addbufs_sg(struct drm_device *dev, struct drm_buf_desc *request) { drm_device_dma_t *dma = dev->dma; drm_buf_entry_t *entry; drm_buf_t *buf; unsigned long offset; unsigned long agp_offset; int count; int order; int size; int alignment; int page_order; int total; int byte_count; int i; drm_buf_t **temp_buflist; count = request->count; order = drm_order(request->size); size = 1 << order; alignment = (request->flags & _DRM_PAGE_ALIGN) ? round_page(size) : size; page_order = order - PAGE_SHIFT > 0 ? order - PAGE_SHIFT : 0; total = PAGE_SIZE << page_order; byte_count = 0; agp_offset = request->agp_start; DRM_DEBUG("count: %d\n", count); DRM_DEBUG("order: %d\n", order); DRM_DEBUG("size: %d\n", size); DRM_DEBUG("agp_offset: %ld\n", agp_offset); DRM_DEBUG("alignment: %d\n", alignment); DRM_DEBUG("page_order: %d\n", page_order); DRM_DEBUG("total: %d\n", total); entry = &dma->bufs[order]; entry->buflist = malloc(count * sizeof(*entry->buflist), DRM_MEM_BUFS, M_NOWAIT | M_ZERO); if (entry->buflist == NULL) return ENOMEM; entry->buf_size = size; entry->page_order = page_order; offset = 0; while (entry->buf_count < count) { buf = &entry->buflist[entry->buf_count]; buf->idx = dma->buf_count + entry->buf_count; buf->total = alignment; buf->order = order; buf->used = 0; buf->offset = (dma->byte_count + offset); buf->bus_address = agp_offset + offset; buf->address = (void *)(agp_offset + offset + dev->sg->vaddr); buf->next = NULL; buf->pending = 0; buf->file_priv = NULL; buf->dev_priv_size = dev->driver->buf_priv_size; buf->dev_private = malloc(buf->dev_priv_size, DRM_MEM_BUFS, M_NOWAIT | M_ZERO); if (buf->dev_private == NULL) { /* Set count correctly so we free the proper amount. */ entry->buf_count = count; drm_cleanup_buf_error(dev, entry); return ENOMEM; } DRM_DEBUG("buffer %d @ %p\n", entry->buf_count, buf->address); offset += alignment; entry->buf_count++; byte_count += PAGE_SIZE << page_order; } DRM_DEBUG("byte_count: %d\n", byte_count); temp_buflist = realloc(dma->buflist, (dma->buf_count + entry->buf_count) * sizeof(*dma->buflist), DRM_MEM_BUFS, M_NOWAIT); if (temp_buflist == NULL) { /* Free the entry because it isn't valid */ drm_cleanup_buf_error(dev, entry); return ENOMEM; } dma->buflist = temp_buflist; for (i = 0; i < entry->buf_count; i++) { dma->buflist[i + dma->buf_count] = &entry->buflist[i]; } dma->buf_count += entry->buf_count; dma->byte_count += byte_count; DRM_DEBUG("dma->buf_count : %d\n", dma->buf_count); DRM_DEBUG("entry->buf_count : %d\n", entry->buf_count); request->count = entry->buf_count; request->size = size; dma->flags = _DRM_DMA_USE_SG; return 0; } int drm_addbufs_agp(struct drm_device *dev, struct drm_buf_desc *request) { int order, ret; if (request->count < 0 || request->count > 4096) return EINVAL; order = drm_order(request->size); if (order < DRM_MIN_ORDER || order > DRM_MAX_ORDER) return EINVAL; DRM_SPINLOCK(&dev->dma_lock); /* No more allocations after first buffer-using ioctl. */ if (dev->buf_use != 0) { DRM_SPINUNLOCK(&dev->dma_lock); return EBUSY; } /* No more than one allocation per order */ if (dev->dma->bufs[order].buf_count != 0) { DRM_SPINUNLOCK(&dev->dma_lock); return ENOMEM; } ret = drm_do_addbufs_agp(dev, request); DRM_SPINUNLOCK(&dev->dma_lock); return ret; } int drm_addbufs_sg(struct drm_device *dev, struct drm_buf_desc *request) { int order, ret; if (!DRM_SUSER(DRM_CURPROC)) return EACCES; if (request->count < 0 || request->count > 4096) return EINVAL; order = drm_order(request->size); if (order < DRM_MIN_ORDER || order > DRM_MAX_ORDER) return EINVAL; DRM_SPINLOCK(&dev->dma_lock); /* No more allocations after first buffer-using ioctl. */ if (dev->buf_use != 0) { DRM_SPINUNLOCK(&dev->dma_lock); return EBUSY; } /* No more than one allocation per order */ if (dev->dma->bufs[order].buf_count != 0) { DRM_SPINUNLOCK(&dev->dma_lock); return ENOMEM; } ret = drm_do_addbufs_sg(dev, request); DRM_SPINUNLOCK(&dev->dma_lock); return ret; } int drm_addbufs_pci(struct drm_device *dev, struct drm_buf_desc *request) { int order, ret; if (!DRM_SUSER(DRM_CURPROC)) return EACCES; if (request->count < 0 || request->count > 4096) return EINVAL; order = drm_order(request->size); if (order < DRM_MIN_ORDER || order > DRM_MAX_ORDER) return EINVAL; DRM_SPINLOCK(&dev->dma_lock); /* No more allocations after first buffer-using ioctl. */ if (dev->buf_use != 0) { DRM_SPINUNLOCK(&dev->dma_lock); return EBUSY; } /* No more than one allocation per order */ if (dev->dma->bufs[order].buf_count != 0) { DRM_SPINUNLOCK(&dev->dma_lock); return ENOMEM; } ret = drm_do_addbufs_pci(dev, request); DRM_SPINUNLOCK(&dev->dma_lock); return ret; } int drm_addbufs(struct drm_device *dev, void *data, struct drm_file *file_priv) { struct drm_buf_desc *request = data; int err; if (request->flags & _DRM_AGP_BUFFER) err = drm_addbufs_agp(dev, request); else if (request->flags & _DRM_SG_BUFFER) err = drm_addbufs_sg(dev, request); else err = drm_addbufs_pci(dev, request); return err; } int drm_infobufs(struct drm_device *dev, void *data, struct drm_file *file_priv) { drm_device_dma_t *dma = dev->dma; struct drm_buf_info *request = data; int i; int count; int retcode = 0; DRM_SPINLOCK(&dev->dma_lock); ++dev->buf_use; /* Can't allocate more after this call */ DRM_SPINUNLOCK(&dev->dma_lock); for (i = 0, count = 0; i < DRM_MAX_ORDER + 1; i++) { if (dma->bufs[i].buf_count) ++count; } DRM_DEBUG("count = %d\n", count); if (request->count >= count) { for (i = 0, count = 0; i < DRM_MAX_ORDER + 1; i++) { if (dma->bufs[i].buf_count) { struct drm_buf_desc from; from.count = dma->bufs[i].buf_count; from.size = dma->bufs[i].buf_size; from.low_mark = dma->bufs[i].freelist.low_mark; from.high_mark = dma->bufs[i].freelist.high_mark; if (DRM_COPY_TO_USER(&request->list[count], &from, sizeof(struct drm_buf_desc)) != 0) { retcode = EFAULT; break; } DRM_DEBUG("%d %d %d %d %d\n", i, dma->bufs[i].buf_count, dma->bufs[i].buf_size, dma->bufs[i].freelist.low_mark, dma->bufs[i].freelist.high_mark); ++count; } } } request->count = count; return retcode; } int drm_markbufs(struct drm_device *dev, void *data, struct drm_file *file_priv) { drm_device_dma_t *dma = dev->dma; struct drm_buf_desc *request = data; int order; DRM_DEBUG("%d, %d, %d\n", request->size, request->low_mark, request->high_mark); order = drm_order(request->size); if (order < DRM_MIN_ORDER || order > DRM_MAX_ORDER || request->low_mark < 0 || request->high_mark < 0) { return EINVAL; } DRM_SPINLOCK(&dev->dma_lock); if (request->low_mark > dma->bufs[order].buf_count || request->high_mark > dma->bufs[order].buf_count) { DRM_SPINUNLOCK(&dev->dma_lock); return EINVAL; } dma->bufs[order].freelist.low_mark = request->low_mark; dma->bufs[order].freelist.high_mark = request->high_mark; DRM_SPINUNLOCK(&dev->dma_lock); return 0; } int drm_freebufs(struct drm_device *dev, void *data, struct drm_file *file_priv) { drm_device_dma_t *dma = dev->dma; struct drm_buf_free *request = data; int i; int idx; drm_buf_t *buf; int retcode = 0; DRM_DEBUG("%d\n", request->count); DRM_SPINLOCK(&dev->dma_lock); for (i = 0; i < request->count; i++) { if (DRM_COPY_FROM_USER(&idx, &request->list[i], sizeof(idx))) { retcode = EFAULT; break; } if (idx < 0 || idx >= dma->buf_count) { DRM_ERROR("Index %d (of %d max)\n", idx, dma->buf_count - 1); retcode = EINVAL; break; } buf = dma->buflist[idx]; if (buf->file_priv != file_priv) { DRM_ERROR("Process %d freeing buffer not owned\n", DRM_CURRENTPID); retcode = EINVAL; break; } drm_free_buffer(dev, buf); } DRM_SPINUNLOCK(&dev->dma_lock); return retcode; } int drm_mapbufs(struct drm_device *dev, void *data, struct drm_file *file_priv) { drm_device_dma_t *dma = dev->dma; int retcode = 0; const int zero = 0; vm_offset_t address; struct vmspace *vms; vm_ooffset_t foff; vm_size_t size; vm_offset_t vaddr; struct drm_buf_map *request = data; int i; vms = DRM_CURPROC->td_proc->p_vmspace; DRM_SPINLOCK(&dev->dma_lock); dev->buf_use++; /* Can't allocate more after this call */ DRM_SPINUNLOCK(&dev->dma_lock); if (request->count < dma->buf_count) goto done; if ((drm_core_has_AGP(dev) && (dma->flags & _DRM_DMA_USE_AGP)) || (drm_core_check_feature(dev, DRIVER_SG) && (dma->flags & _DRM_DMA_USE_SG))) { drm_local_map_t *map = dev->agp_buffer_map; if (map == NULL) { retcode = EINVAL; goto done; } size = round_page(map->size); foff = (unsigned long)map->handle; } else { size = round_page(dma->byte_count), foff = 0; } vaddr = round_page((vm_offset_t)vms->vm_daddr + MAXDSIZ); #if __FreeBSD_version >= 600023 retcode = vm_mmap(&vms->vm_map, &vaddr, size, PROT_READ | PROT_WRITE, VM_PROT_ALL, MAP_SHARED | MAP_NOSYNC, OBJT_DEVICE, dev->devnode, foff); #else retcode = vm_mmap(&vms->vm_map, &vaddr, size, PROT_READ | PROT_WRITE, VM_PROT_ALL, MAP_SHARED | MAP_NOSYNC, SLIST_FIRST(&dev->devnode->si_hlist), foff); #endif if (retcode) goto done; request->virtual = (void *)vaddr; for (i = 0; i < dma->buf_count; i++) { if (DRM_COPY_TO_USER(&request->list[i].idx, &dma->buflist[i]->idx, sizeof(request->list[0].idx))) { retcode = EFAULT; goto done; } if (DRM_COPY_TO_USER(&request->list[i].total, &dma->buflist[i]->total, sizeof(request->list[0].total))) { retcode = EFAULT; goto done; } if (DRM_COPY_TO_USER(&request->list[i].used, &zero, sizeof(zero))) { retcode = EFAULT; goto done; } address = vaddr + dma->buflist[i]->offset; /* *** */ if (DRM_COPY_TO_USER(&request->list[i].address, &address, sizeof(address))) { retcode = EFAULT; goto done; } } done: request->count = dma->buf_count; DRM_DEBUG("%d buffers, retcode = %d\n", request->count, retcode); return retcode; } /* * Compute order. Can be made faster. */ int drm_order(unsigned long size) { int order; if (size == 0) return 0; order = flsl(size) - 1; if (size & ~(1ul << order)) ++order; return order; }