/**************************************************************************
 *
 * Copyright (c) 2007 Tungsten Graphics, Inc., Cedar Park, TX., USA
 * 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, sub license, 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 NON-INFRINGEMENT. IN NO EVENT SHALL
 * THE COPYRIGHT HOLDERS, AUTHORS 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: Thomas Hellström <thomas-at-tungstengraphics-dot-com>
 */

#include "drmP.h"

/**
 * Free the old memory node unless it's a pinned region and we
 * have not been requested to free also pinned regions.
 */

static void drm_bo_free_old_node(struct drm_buffer_object *bo)
{
	struct drm_bo_mem_reg *old_mem = &bo->mem;

	if (old_mem->mm_node && (old_mem->mm_node != bo->pinned_node)) {
		mutex_lock(&bo->dev->struct_mutex);
		drm_mm_put_block(old_mem->mm_node);
		mutex_unlock(&bo->dev->struct_mutex);
	}
	old_mem->mm_node = NULL;
}

int drm_bo_move_ttm(struct drm_buffer_object *bo,
		    int evict, int no_wait, struct drm_bo_mem_reg *new_mem)
{
	struct drm_ttm *ttm = bo->ttm;
	struct drm_bo_mem_reg *old_mem = &bo->mem;
	uint64_t save_flags = old_mem->flags;
	uint64_t save_proposed_flags = old_mem->proposed_flags;
	int ret;

	if (old_mem->mem_type != DRM_BO_MEM_LOCAL) {
		if (evict)
			drm_ttm_evict(ttm);
		else
			drm_ttm_unbind(ttm);

		drm_bo_free_old_node(bo);
		DRM_FLAG_MASKED(old_mem->flags,
				DRM_BO_FLAG_CACHED | DRM_BO_FLAG_MAPPABLE |
				DRM_BO_FLAG_MEM_LOCAL, DRM_BO_MASK_MEMTYPE);
		old_mem->mem_type = DRM_BO_MEM_LOCAL;
		save_flags = old_mem->flags;
	}
	if (new_mem->mem_type != DRM_BO_MEM_LOCAL) {
		ret = drm_ttm_bind(ttm, new_mem);
		if (ret)
			return ret;
	}

	*old_mem = *new_mem;
	new_mem->mm_node = NULL;
	old_mem->proposed_flags = save_proposed_flags;
	DRM_FLAG_MASKED(save_flags, new_mem->flags, DRM_BO_MASK_MEMTYPE);
	return 0;
}
EXPORT_SYMBOL(drm_bo_move_ttm);

/**
 * \c Return a kernel virtual address to the buffer object PCI memory.
 *
 * \param bo The buffer object.
 * \return Failure indication.
 *
 * Returns -EINVAL if the buffer object is currently not mappable.
 * Returns -ENOMEM if the ioremap operation failed.
 * Otherwise returns zero.
 *
 * After a successfull call, bo->iomap contains the virtual address, or NULL
 * if the buffer object content is not accessible through PCI space.
 * Call bo->mutex locked.
 */

int drm_mem_reg_ioremap(struct drm_device *dev, struct drm_bo_mem_reg *mem,
			void **virtual)
{
	struct drm_buffer_manager *bm = &dev->bm;
	struct drm_mem_type_manager *man = &bm->man[mem->mem_type];
	unsigned long bus_offset;
	unsigned long bus_size;
	unsigned long bus_base;
	int ret;
	void *addr;

	*virtual = NULL;
	ret = drm_bo_pci_offset(dev, mem, &bus_base, &bus_offset, &bus_size);
	if (ret || bus_size == 0)
		return ret;

	if (!(man->flags & _DRM_FLAG_NEEDS_IOREMAP))
		addr = (void *)(((u8 *) man->io_addr) + bus_offset);
	else {
		addr = ioremap_nocache(bus_base + bus_offset, bus_size);
		if (!addr)
			return -ENOMEM;
	}
	*virtual = addr;
	return 0;
}
EXPORT_SYMBOL(drm_mem_reg_ioremap);

/**
 * \c Unmap mapping obtained using drm_bo_ioremap
 *
 * \param bo The buffer object.
 *
 * Call bo->mutex locked.
 */

void drm_mem_reg_iounmap(struct drm_device *dev, struct drm_bo_mem_reg *mem,
			 void *virtual)
{
	struct drm_buffer_manager *bm;
	struct drm_mem_type_manager *man;

	bm = &dev->bm;
	man = &bm->man[mem->mem_type];

	if (virtual && (man->flags & _DRM_FLAG_NEEDS_IOREMAP))
		iounmap(virtual);
}

static int drm_copy_io_page(void *dst, void *src, unsigned long page)
{
	uint32_t *dstP =
	    (uint32_t *) ((unsigned long)dst + (page << PAGE_SHIFT));
	uint32_t *srcP =
	    (uint32_t *) ((unsigned long)src + (page << PAGE_SHIFT));

	int i;
	for (i = 0; i < PAGE_SIZE / sizeof(uint32_t); ++i)
		iowrite32(ioread32(srcP++), dstP++);
	return 0;
}

static int drm_copy_io_ttm_page(struct drm_ttm *ttm, void *src,
				unsigned long page)
{
	struct page *d = drm_ttm_get_page(ttm, page);
	void *dst;

	if (!d)
		return -ENOMEM;

	src = (void *)((unsigned long)src + (page << PAGE_SHIFT));
	dst = kmap(d);
	if (!dst)
		return -ENOMEM;

	memcpy_fromio(dst, src, PAGE_SIZE);
	kunmap(d);
	return 0;
}

static int drm_copy_ttm_io_page(struct drm_ttm *ttm, void *dst, unsigned long page)
{
	struct page *s = drm_ttm_get_page(ttm, page);
	void *src;

	if (!s)
		return -ENOMEM;

	dst = (void *)((unsigned long)dst + (page << PAGE_SHIFT));
	src = kmap(s);
	if (!src)
		return -ENOMEM;

	memcpy_toio(dst, src, PAGE_SIZE);
	kunmap(s);
	return 0;
}

int drm_bo_move_memcpy(struct drm_buffer_object *bo,
		       int evict, int no_wait, struct drm_bo_mem_reg *new_mem)
{
	struct drm_device *dev = bo->dev;
	struct drm_mem_type_manager *man = &dev->bm.man[new_mem->mem_type];
	struct drm_ttm *ttm = bo->ttm;
	struct drm_bo_mem_reg *old_mem = &bo->mem;
	struct drm_bo_mem_reg old_copy = *old_mem;
	void *old_iomap;
	void *new_iomap;
	int ret;
	uint64_t save_flags = old_mem->flags;
	uint64_t save_proposed_flags = old_mem->proposed_flags;
	unsigned long i;
	unsigned long page;
	unsigned long add = 0;
	int dir;

	ret = drm_mem_reg_ioremap(dev, old_mem, &old_iomap);
	if (ret)
		return ret;
	ret = drm_mem_reg_ioremap(dev, new_mem, &new_iomap);
	if (ret)
		goto out;

	if (old_iomap == NULL && new_iomap == NULL)
		goto out2;
	if (old_iomap == NULL && ttm == NULL)
		goto out2;

	add = 0;
	dir = 1;

	if ((old_mem->mem_type == new_mem->mem_type) &&
	    (new_mem->mm_node->start <
	     old_mem->mm_node->start + old_mem->mm_node->size)) {
		dir = -1;
		add = new_mem->num_pages - 1;
	}

	for (i = 0; i < new_mem->num_pages; ++i) {
		page = i * dir + add;
		if (old_iomap == NULL)
			ret = drm_copy_ttm_io_page(ttm, new_iomap, page);
		else if (new_iomap == NULL)
			ret = drm_copy_io_ttm_page(ttm, old_iomap, page);
		else
			ret = drm_copy_io_page(new_iomap, old_iomap, page);
		if (ret)
			goto out1;
	}
	mb();
out2:
	drm_bo_free_old_node(bo);

	*old_mem = *new_mem;
	new_mem->mm_node = NULL;
	old_mem->proposed_flags = save_proposed_flags;
	DRM_FLAG_MASKED(save_flags, new_mem->flags, DRM_BO_MASK_MEMTYPE);

	if ((man->flags & _DRM_FLAG_MEMTYPE_FIXED) && (ttm != NULL)) {
		drm_ttm_unbind(ttm);
		drm_ttm_destroy(ttm);
		bo->ttm = NULL;
	}

out1:
	drm_mem_reg_iounmap(dev, new_mem, new_iomap);
out:
	drm_mem_reg_iounmap(dev, &old_copy, old_iomap);
	return ret;
}
EXPORT_SYMBOL(drm_bo_move_memcpy);

/*
 * Transfer a buffer object's memory and LRU status to a newly
 * created object. User-space references remains with the old
 * object. Call bo->mutex locked.
 */

int drm_buffer_object_transfer(struct drm_buffer_object *bo,
			       struct drm_buffer_object **new_obj)
{
	struct drm_buffer_object *fbo;
	struct drm_device *dev = bo->dev;
	struct drm_buffer_manager *bm = &dev->bm;

	fbo = drm_ctl_calloc(1, sizeof(*fbo), DRM_MEM_BUFOBJ);
	if (!fbo)
		return -ENOMEM;

	*fbo = *bo;
	mutex_init(&fbo->mutex);
	mutex_lock(&fbo->mutex);
	mutex_lock(&dev->struct_mutex);

	DRM_INIT_WAITQUEUE(&bo->event_queue);
	INIT_LIST_HEAD(&fbo->ddestroy);
	INIT_LIST_HEAD(&fbo->lru);
	INIT_LIST_HEAD(&fbo->pinned_lru);
#ifdef DRM_ODD_MM_COMPAT
	INIT_LIST_HEAD(&fbo->vma_list);
	INIT_LIST_HEAD(&fbo->p_mm_list);
#endif

	fbo->fence = drm_fence_reference_locked(bo->fence);
	fbo->pinned_node = NULL;
	fbo->mem.mm_node->private = (void *)fbo;
	atomic_set(&fbo->usage, 1);
	atomic_inc(&bm->count);
	mutex_unlock(&dev->struct_mutex);
	mutex_unlock(&fbo->mutex);

	*new_obj = fbo;
	return 0;
}

/*
 * Since move is underway, we need to block signals in this function.
 * We cannot restart until it has finished.
 */

int drm_bo_move_accel_cleanup(struct drm_buffer_object *bo,
			      int evict, int no_wait, uint32_t fence_class,
			      uint32_t fence_type, uint32_t fence_flags,
			      struct drm_bo_mem_reg *new_mem)
{
	struct drm_device *dev = bo->dev;
	struct drm_mem_type_manager *man = &dev->bm.man[new_mem->mem_type];
	struct drm_bo_mem_reg *old_mem = &bo->mem;
	int ret;
	uint64_t save_flags = old_mem->flags;
	uint64_t save_proposed_flags = old_mem->proposed_flags;
	struct drm_buffer_object *old_obj;

	if (bo->fence)
		drm_fence_usage_deref_unlocked(&bo->fence);
	ret = drm_fence_object_create(dev, fence_class, fence_type,
				      fence_flags | DRM_FENCE_FLAG_EMIT,
				      &bo->fence);
	bo->fence_type = fence_type;
	if (ret)
		return ret;

#ifdef DRM_ODD_MM_COMPAT
	/*
	 * In this mode, we don't allow pipelining a copy blit,
	 * since the buffer will be accessible from user space
	 * the moment we return and rebuild the page tables.
	 *
	 * With normal vm operation, page tables are rebuilt
	 * on demand using fault(), which waits for buffer idle.
	 */
	if (1)
#else
	if (evict || ((bo->mem.mm_node == bo->pinned_node) &&
		      bo->mem.mm_node != NULL))
#endif
	{
		if (bo->fence) {
			(void) drm_fence_object_wait(bo->fence, 0, 1,
						    bo->fence_type);
			drm_fence_usage_deref_unlocked(&bo->fence);
		}
		drm_bo_free_old_node(bo);

		if ((man->flags & _DRM_FLAG_MEMTYPE_FIXED) && (bo->ttm != NULL)) {
			drm_ttm_unbind(bo->ttm);
			drm_ttm_destroy(bo->ttm);
			bo->ttm = NULL;
		}
	} else {

		/* This should help pipeline ordinary buffer moves.
		 *
		 * Hang old buffer memory on a new buffer object,
		 * and leave it to be released when the GPU
		 * operation has completed.
		 */

		ret = drm_buffer_object_transfer(bo, &old_obj);

		if (ret)
			return ret;

		if (!(man->flags & _DRM_FLAG_MEMTYPE_FIXED))
			old_obj->ttm = NULL;
		else
			bo->ttm = NULL;

		mutex_lock(&dev->struct_mutex);
		list_del_init(&old_obj->lru);
		DRM_FLAG_MASKED(bo->priv_flags, 0, _DRM_BO_FLAG_UNFENCED);
		drm_bo_add_to_lru(old_obj);

		drm_bo_usage_deref_locked(&old_obj);
		mutex_unlock(&dev->struct_mutex);

	}

	*old_mem = *new_mem;
	new_mem->mm_node = NULL;
	old_mem->proposed_flags = save_proposed_flags;
	DRM_FLAG_MASKED(save_flags, new_mem->flags, DRM_BO_MASK_MEMTYPE);
	return 0;
}
EXPORT_SYMBOL(drm_bo_move_accel_cleanup);

int drm_bo_same_page(unsigned long offset,
		     unsigned long offset2)
{
	return (offset & PAGE_MASK) == (offset2 & PAGE_MASK);
}
EXPORT_SYMBOL(drm_bo_same_page);

unsigned long drm_bo_offset_end(unsigned long offset,
				unsigned long end)
{
	offset = (offset + PAGE_SIZE) & PAGE_MASK;
	return (end < offset) ? end : offset;
}
EXPORT_SYMBOL(drm_bo_offset_end);

static pgprot_t drm_kernel_io_prot(uint32_t map_type)
{
	pgprot_t tmp = PAGE_KERNEL;

#if defined(__i386__) || defined(__x86_64__)
#ifdef USE_PAT_WC
#warning using pat
	if (drm_use_pat() && map_type == _DRM_TTM) {
		pgprot_val(tmp) |= _PAGE_PAT;
		return tmp;
	}
#endif
	if (boot_cpu_data.x86 > 3 && map_type != _DRM_AGP) {
		pgprot_val(tmp) |= _PAGE_PCD;
		pgprot_val(tmp) &= ~_PAGE_PWT;
	}
#elif defined(__powerpc__)
	pgprot_val(tmp) |= _PAGE_NO_CACHE;
	if (map_type == _DRM_REGISTERS)
		pgprot_val(tmp) |= _PAGE_GUARDED;
#endif
#if defined(__ia64__)
	if (map_type == _DRM_TTM)
		tmp = pgprot_writecombine(tmp);
	else
		tmp = pgprot_noncached(tmp);
#endif
	return tmp;
}

static int drm_bo_ioremap(struct drm_buffer_object *bo, unsigned long bus_base,
			  unsigned long bus_offset, unsigned long bus_size,
			  struct drm_bo_kmap_obj *map)
{
	struct drm_device *dev = bo->dev;
	struct drm_bo_mem_reg *mem = &bo->mem;
	struct drm_mem_type_manager *man = &dev->bm.man[mem->mem_type];

	if (!(man->flags & _DRM_FLAG_NEEDS_IOREMAP)) {
		map->bo_kmap_type = bo_map_premapped;
		map->virtual = (void *)(((u8 *) man->io_addr) + bus_offset);
	} else {
		map->bo_kmap_type = bo_map_iomap;
		map->virtual = ioremap_nocache(bus_base + bus_offset, bus_size);
	}
	return (!map->virtual) ? -ENOMEM : 0;
}

static int drm_bo_kmap_ttm(struct drm_buffer_object *bo,
			   unsigned long start_page, unsigned long num_pages,
			   struct drm_bo_kmap_obj *map)
{
	struct drm_device *dev = bo->dev;
	struct drm_bo_mem_reg *mem = &bo->mem;
	struct drm_mem_type_manager *man = &dev->bm.man[mem->mem_type];
	pgprot_t prot;
	struct drm_ttm *ttm = bo->ttm;
	struct page *d;
	int i;

	BUG_ON(!ttm);

	if (num_pages == 1 && (mem->flags & DRM_BO_FLAG_CACHED)) {

		/*
		 * We're mapping a single page, and the desired
		 * page protection is consistent with the bo.
		 */

		map->bo_kmap_type = bo_map_kmap;
		map->page = drm_ttm_get_page(ttm, start_page);
		map->virtual = kmap(map->page);
	} else {
		/*
		 * Populate the part we're mapping;
		 */

		for (i = start_page; i < start_page + num_pages; ++i) {
			d = drm_ttm_get_page(ttm, i);
			if (!d)
				return -ENOMEM;
		}

		/*
		 * We need to use vmap to get the desired page protection
		 * or to make the buffer object look contigous.
		 */

		prot = (mem->flags & DRM_BO_FLAG_CACHED) ?
			PAGE_KERNEL :
			drm_kernel_io_prot(man->drm_bus_maptype);
		map->bo_kmap_type = bo_map_vmap;
		map->virtual = vmap(ttm->pages + start_page,
				    num_pages, 0, prot);
	}
	return (!map->virtual) ? -ENOMEM : 0;
}

/*
 * This function is to be used for kernel mapping of buffer objects.
 * It chooses the appropriate mapping method depending on the memory type
 * and caching policy the buffer currently has.
 * Mapping multiple pages or buffers that live in io memory is a bit slow and
 * consumes vmalloc space. Be restrictive with such mappings.
 * Mapping single pages usually returns the logical kernel address,
 * (which is fast)
 * BUG may use slower temporary mappings for high memory pages or
 * uncached / write-combined pages.
 *
 * The function fills in a drm_bo_kmap_obj which can be used to return the
 * kernel virtual address of the buffer.
 *
 * Code servicing a non-priviliged user request is only allowed to map one
 * page at a time. We might need to implement a better scheme to stop such
 * processes from consuming all vmalloc space.
 */

int drm_bo_kmap(struct drm_buffer_object *bo, unsigned long start_page,
		unsigned long num_pages, struct drm_bo_kmap_obj *map)
{
	int ret;
	unsigned long bus_base;
	unsigned long bus_offset;
	unsigned long bus_size;

	map->virtual = NULL;

	if (num_pages > bo->num_pages)
		return -EINVAL;
	if (start_page > bo->num_pages)
		return -EINVAL;
#if 0
	if (num_pages > 1 && !DRM_SUSER(DRM_CURPROC))
		return -EPERM;
#endif
	ret = drm_bo_pci_offset(bo->dev, &bo->mem, &bus_base,
				&bus_offset, &bus_size);

	if (ret)
		return ret;

	if (bus_size == 0) {
		return drm_bo_kmap_ttm(bo, start_page, num_pages, map);
	} else {
		bus_offset += start_page << PAGE_SHIFT;
		bus_size = num_pages << PAGE_SHIFT;
		return drm_bo_ioremap(bo, bus_base, bus_offset, bus_size, map);
	}
}
EXPORT_SYMBOL(drm_bo_kmap);

void drm_bo_kunmap(struct drm_bo_kmap_obj *map)
{
	if (!map->virtual)
		return;

	switch (map->bo_kmap_type) {
	case bo_map_iomap:
		iounmap(map->virtual);
		break;
	case bo_map_vmap:
		vunmap(map->virtual);
		break;
	case bo_map_kmap:
		kunmap(map->page);
		break;
	case bo_map_premapped:
		break;
	default:
		BUG();
	}
	map->virtual = NULL;
	map->page = NULL;
}
EXPORT_SYMBOL(drm_bo_kunmap);

int drm_bo_pfn_prot(struct drm_buffer_object *bo,
		    unsigned long dst_offset,
		    unsigned long *pfn,
		    pgprot_t *prot)
{
	struct drm_bo_mem_reg *mem = &bo->mem;
	struct drm_device *dev = bo->dev;
	unsigned long bus_offset;
	unsigned long bus_size;
	unsigned long bus_base;
	struct drm_mem_type_manager *man = &dev->bm.man[mem->mem_type];
	int ret;

	ret = drm_bo_pci_offset(dev, mem, &bus_base, &bus_offset,
				&bus_size);
	if (ret)
		return -EINVAL;

	if (bus_size != 0)
		*pfn = (bus_base + bus_offset + dst_offset) >> PAGE_SHIFT;
	else if (!bo->ttm)
		return -EINVAL;
	else
		*pfn = page_to_pfn(drm_ttm_get_page(bo->ttm, dst_offset >> PAGE_SHIFT));

	*prot = (mem->flags & DRM_BO_FLAG_CACHED) ?
		PAGE_KERNEL : drm_kernel_io_prot(man->drm_bus_maptype);

	return 0;
}
EXPORT_SYMBOL(drm_bo_pfn_prot);

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<a id='n476' href='#n476'>476</a>
<a id='n477' href='#n477'>477</a>
<a id='n478' href='#n478'>478</a>
<a id='n479' href='#n479'>479</a>
<a id='n480' href='#n480'>480</a>
<a id='n481' href='#n481'>481</a>
<a id='n482' href='#n482'>482</a>
<a id='n483' href='#n483'>483</a>
<a id='n484' href='#n484'>484</a>
<a id='n485' href='#n485'>485</a>
<a id='n486' href='#n486'>486</a>
<a id='n487' href='#n487'>487</a>
<a id='n488' href='#n488'>488</a>
<a id='n489' href='#n489'>489</a>
<a id='n490' href='#n490'>490</a>
<a id='n491' href='#n491'>491</a>
<a id='n492' href='#n492'>492</a>
<a id='n493' href='#n493'>493</a>
<a id='n494' href='#n494'>494</a>
<a id='n495' href='#n495'>495</a>
<a id='n496' href='#n496'>496</a>
<a id='n497' href='#n497'>497</a>
<a id='n498' href='#n498'>498</a>
<a id='n499' href='#n499'>499</a>
<a id='n500' href='#n500'>500</a>
<a id='n501' href='#n501'>501</a>
<a id='n502' href='#n502'>502</a>
<a id='n503' href='#n503'>503</a>
<a id='n504' href='#n504'>504</a>
<a id='n505' href='#n505'>505</a>
<a id='n506' href='#n506'>506</a>
<a id='n507' href='#n507'>507</a>
<a id='n508' href='#n508'>508</a>
<a id='n509' href='#n509'>509</a>
<a id='n510' href='#n510'>510</a>
<a id='n511' href='#n511'>511</a>
<a id='n512' href='#n512'>512</a>
<a id='n513' href='#n513'>513</a>
<a id='n514' href='#n514'>514</a>
<a id='n515' href='#n515'>515</a>
<a id='n516' href='#n516'>516</a>
<a id='n517' href='#n517'>517</a>
<a id='n518' href='#n518'>518</a>
<a id='n519' href='#n519'>519</a>
<a id='n520' href='#n520'>520</a>
<a id='n521' href='#n521'>521</a>
<a id='n522' href='#n522'>522</a>
<a id='n523' href='#n523'>523</a>
<a id='n524' href='#n524'>524</a>
<a id='n525' href='#n525'>525</a>
<a id='n526' href='#n526'>526</a>
<a id='n527' href='#n527'>527</a>
<a id='n528' href='#n528'>528</a>
<a id='n529' href='#n529'>529</a>
<a id='n530' href='#n530'>530</a>
<a id='n531' href='#n531'>531</a>
<a id='n532' href='#n532'>532</a>
<a id='n533' href='#n533'>533</a>
<a id='n534' href='#n534'>534</a>
<a id='n535' href='#n535'>535</a>
<a id='n536' href='#n536'>536</a>
<a id='n537' href='#n537'>537</a>
<a id='n538' href='#n538'>538</a>
<a id='n539' href='#n539'>539</a>
<a id='n540' href='#n540'>540</a>
<a id='n541' href='#n541'>541</a>
<a id='n542' href='#n542'>542</a>
<a id='n543' href='#n543'>543</a>
<a id='n544' href='#n544'>544</a>
<a id='n545' href='#n545'>545</a>
<a id='n546' href='#n546'>546</a>
<a id='n547' href='#n547'>547</a>
<a id='n548' href='#n548'>548</a>
<a id='n549' href='#n549'>549</a>
<a id='n550' href='#n550'>550</a>
<a id='n551' href='#n551'>551</a>
<a id='n552' href='#n552'>552</a>
<a id='n553' href='#n553'>553</a>
<a id='n554' href='#n554'>554</a>
<a id='n555' href='#n555'>555</a>
<a id='n556' href='#n556'>556</a>
<a id='n557' href='#n557'>557</a>
<a id='n558' href='#n558'>558</a>
<a id='n559' href='#n559'>559</a>
<a id='n560' href='#n560'>560</a>
<a id='n561' href='#n561'>561</a>
<a id='n562' href='#n562'>562</a>
<a id='n563' href='#n563'>563</a>
<a id='n564' href='#n564'>564</a>
<a id='n565' href='#n565'>565</a>
<a id='n566' href='#n566'>566</a>
<a id='n567' href='#n567'>567</a>
<a id='n568' href='#n568'>568</a>
<a id='n569' href='#n569'>569</a>
<a id='n570' href='#n570'>570</a>
<a id='n571' href='#n571'>571</a>
<a id='n572' href='#n572'>572</a>
<a id='n573' href='#n573'>573</a>
<a id='n574' href='#n574'>574</a>
<a id='n575' href='#n575'>575</a>
<a id='n576' href='#n576'>576</a>
<a id='n577' href='#n577'>577</a>
<a id='n578' href='#n578'>578</a>
<a id='n579' href='#n579'>579</a>
<a id='n580' href='#n580'>580</a>
<a id='n581' href='#n581'>581</a>
<a id='n582' href='#n582'>582</a>
<a id='n583' href='#n583'>583</a>
<a id='n584' href='#n584'>584</a>
<a id='n585' href='#n585'>585</a>
<a id='n586' href='#n586'>586</a>
<a id='n587' href='#n587'>587</a>
<a id='n588' href='#n588'>588</a>
<a id='n589' href='#n589'>589</a>
<a id='n590' href='#n590'>590</a>
<a id='n591' href='#n591'>591</a>
<a id='n592' href='#n592'>592</a>
<a id='n593' href='#n593'>593</a>
<a id='n594' href='#n594'>594</a>
<a id='n595' href='#n595'>595</a>
<a id='n596' href='#n596'>596</a>
<a id='n597' href='#n597'>597</a>
<a id='n598' href='#n598'>598</a>
<a id='n599' href='#n599'>599</a>
<a id='n600' href='#n600'>600</a>
<a id='n601' href='#n601'>601</a>
<a id='n602' href='#n602'>602</a>
<a id='n603' href='#n603'>603</a>
<a id='n604' href='#n604'>604</a>
<a id='n605' href='#n605'>605</a>
<a id='n606' href='#n606'>606</a>
<a id='n607' href='#n607'>607</a>
<a id='n608' href='#n608'>608</a>
<a id='n609' href='#n609'>609</a>
<a id='n610' href='#n610'>610</a>
<a id='n611' href='#n611'>611</a>
<a id='n612' href='#n612'>612</a>
<a id='n613' href='#n613'>613</a>
<a id='n614' href='#n614'>614</a>
<a id='n615' href='#n615'>615</a>
<a id='n616' href='#n616'>616</a>
<a id='n617' href='#n617'>617</a>
<a id='n618' href='#n618'>618</a>
<a id='n619' href='#n619'>619</a>
<a id='n620' href='#n620'>620</a>
<a id='n621' href='#n621'>621</a>
<a id='n622' href='#n622'>622</a>
<a id='n623' href='#n623'>623</a>
<a id='n624' href='#n624'>624</a>
<a id='n625' href='#n625'>625</a>
<a id='n626' href='#n626'>626</a>
<a id='n627' href='#n627'>627</a>
<a id='n628' href='#n628'>628</a>
<a id='n629' href='#n629'>629</a>
<a id='n630' href='#n630'>630</a>
<a id='n631' href='#n631'>631</a>
<a id='n632' href='#n632'>632</a>
<a id='n633' href='#n633'>633</a>
<a id='n634' href='#n634'>634</a>
<a id='n635' href='#n635'>635</a>
<a id='n636' href='#n636'>636</a>
<a id='n637' href='#n637'>637</a>
<a id='n638' href='#n638'>638</a>
<a id='n639' href='#n639'>639</a>
<a id='n640' href='#n640'>640</a>
<a id='n641' href='#n641'>641</a>
<a id='n642' href='#n642'>642</a>
<a id='n643' href='#n643'>643</a>
<a id='n644' href='#n644'>644</a>
<a id='n645' href='#n645'>645</a>
<a id='n646' href='#n646'>646</a>
<a id='n647' href='#n647'>647</a>
<a id='n648' href='#n648'>648</a>
<a id='n649' href='#n649'>649</a>
<a id='n650' href='#n650'>650</a>
<a id='n651' href='#n651'>651</a>
<a id='n652' href='#n652'>652</a>
<a id='n653' href='#n653'>653</a>
<a id='n654' href='#n654'>654</a>
<a id='n655' href='#n655'>655</a>
<a id='n656' href='#n656'>656</a>
<a id='n657' href='#n657'>657</a>
<a id='n658' href='#n658'>658</a>
<a id='n659' href='#n659'>659</a>
<a id='n660' href='#n660'>660</a>
<a id='n661' href='#n661'>661</a>
<a id='n662' href='#n662'>662</a>
<a id='n663' href='#n663'>663</a>
<a id='n664' href='#n664'>664</a>
<a id='n665' href='#n665'>665</a>
<a id='n666' href='#n666'>666</a>
<a id='n667' href='#n667'>667</a>
<a id='n668' href='#n668'>668</a>
<a id='n669' href='#n669'>669</a>
<a id='n670' href='#n670'>670</a>
<a id='n671' href='#n671'>671</a>
<a id='n672' href='#n672'>672</a>
<a id='n673' href='#n673'>673</a>
<a id='n674' href='#n674'>674</a>
<a id='n675' href='#n675'>675</a>
<a id='n676' href='#n676'>676</a>
<a id='n677' href='#n677'>677</a>
<a id='n678' href='#n678'>678</a>
<a id='n679' href='#n679'>679</a>
<a id='n680' href='#n680'>680</a>
<a id='n681' href='#n681'>681</a>
<a id='n682' href='#n682'>682</a>
<a id='n683' href='#n683'>683</a>
<a id='n684' href='#n684'>684</a>
<a id='n685' href='#n685'>685</a>
<a id='n686' href='#n686'>686</a>
<a id='n687' href='#n687'>687</a>
<a id='n688' href='#n688'>688</a>
<a id='n689' href='#n689'>689</a>
<a id='n690' href='#n690'>690</a>
<a id='n691' href='#n691'>691</a>
<a id='n692' href='#n692'>692</a>
<a id='n693' href='#n693'>693</a>
<a id='n694' href='#n694'>694</a>
<a id='n695' href='#n695'>695</a>
<a id='n696' href='#n696'>696</a>
<a id='n697' href='#n697'>697</a>
<a id='n698' href='#n698'>698</a>
<a id='n699' href='#n699'>699</a>
<a id='n700' href='#n700'>700</a>
<a id='n701' href='#n701'>701</a>
<a id='n702' href='#n702'>702</a>
<a id='n703' href='#n703'>703</a>
<a id='n704' href='#n704'>704</a>
<a id='n705' href='#n705'>705</a>
<a id='n706' href='#n706'>706</a>
<a id='n707' href='#n707'>707</a>
<a id='n708' href='#n708'>708</a>
<a id='n709' href='#n709'>709</a>
<a id='n710' href='#n710'>710</a>
<a id='n711' href='#n711'>711</a>
<a id='n712' href='#n712'>712</a>
<a id='n713' href='#n713'>713</a>
<a id='n714' href='#n714'>714</a>
<a id='n715' href='#n715'>715</a>
<a id='n716' href='#n716'>716</a>
<a id='n717' href='#n717'>717</a>
<a id='n718' href='#n718'>718</a>
<a id='n719' href='#n719'>719</a>
<a id='n720' href='#n720'>720</a>
<a id='n721' href='#n721'>721</a>
<a id='n722' href='#n722'>722</a>
<a id='n723' href='#n723'>723</a>
<a id='n724' href='#n724'>724</a>
<a id='n725' href='#n725'>725</a>
<a id='n726' href='#n726'>726</a>
<a id='n727' href='#n727'>727</a>
<a id='n728' href='#n728'>728</a>
<a id='n729' href='#n729'>729</a>
<a id='n730' href='#n730'>730</a>
<a id='n731' href='#n731'>731</a>
<a id='n732' href='#n732'>732</a>
<a id='n733' href='#n733'>733</a>
<a id='n734' href='#n734'>734</a>
<a id='n735' href='#n735'>735</a>
<a id='n736' href='#n736'>736</a>
<a id='n737' href='#n737'>737</a>
<a id='n738' href='#n738'>738</a>
<a id='n739' href='#n739'>739</a>
<a id='n740' href='#n740'>740</a>
<a id='n741' href='#n741'>741</a>
<a id='n742' href='#n742'>742</a>
<a id='n743' href='#n743'>743</a>
<a id='n744' href='#n744'>744</a>
<a id='n745' href='#n745'>745</a>
<a id='n746' href='#n746'>746</a>
<a id='n747' href='#n747'>747</a>
<a id='n748' href='#n748'>748</a>
<a id='n749' href='#n749'>749</a>
<a id='n750' href='#n750'>750</a>
<a id='n751' href='#n751'>751</a>
<a id='n752' href='#n752'>752</a>
<a id='n753' href='#n753'>753</a>
<a id='n754' href='#n754'>754</a>
<a id='n755' href='#n755'>755</a>
<a id='n756' href='#n756'>756</a>
<a id='n757' href='#n757'>757</a>
<a id='n758' href='#n758'>758</a>
<a id='n759' href='#n759'>759</a>
<a id='n760' href='#n760'>760</a>
<a id='n761' href='#n761'>761</a>
<a id='n762' href='#n762'>762</a>
<a id='n763' href='#n763'>763</a>
<a id='n764' href='#n764'>764</a>
<a id='n765' href='#n765'>765</a>
<a id='n766' href='#n766'>766</a>
<a id='n767' href='#n767'>767</a>
<a id='n768' href='#n768'>768</a>
<a id='n769' href='#n769'>769</a>
<a id='n770' href='#n770'>770</a>
<a id='n771' href='#n771'>771</a>
<a id='n772' href='#n772'>772</a>
<a id='n773' href='#n773'>773</a>
<a id='n774' href='#n774'>774</a>
<a id='n775' href='#n775'>775</a>
<a id='n776' href='#n776'>776</a>
<a id='n777' href='#n777'>777</a>
<a id='n778' href='#n778'>778</a>
<a id='n779' href='#n779'>779</a>
<a id='n780' href='#n780'>780</a>
<a id='n781' href='#n781'>781</a>
<a id='n782' href='#n782'>782</a>
<a id='n783' href='#n783'>783</a>
<a id='n784' href='#n784'>784</a>
<a id='n785' href='#n785'>785</a>
<a id='n786' href='#n786'>786</a>
<a id='n787' href='#n787'>787</a>
<a id='n788' href='#n788'>788</a>
<a id='n789' href='#n789'>789</a>
<a id='n790' href='#n790'>790</a>
<a id='n791' href='#n791'>791</a>
<a id='n792' href='#n792'>792</a>
<a id='n793' href='#n793'>793</a>
<a id='n794' href='#n794'>794</a>
<a id='n795' href='#n795'>795</a>
<a id='n796' href='#n796'>796</a>
<a id='n797' href='#n797'>797</a>
<a id='n798' href='#n798'>798</a>
<a id='n799' href='#n799'>799</a>
<a id='n800' href='#n800'>800</a>
<a id='n801' href='#n801'>801</a>
<a id='n802' href='#n802'>802</a>
<a id='n803' href='#n803'>803</a>
<a id='n804' href='#n804'>804</a>
<a id='n805' href='#n805'>805</a>
<a id='n806' href='#n806'>806</a>
<a id='n807' href='#n807'>807</a>
<a id='n808' href='#n808'>808</a>
<a id='n809' href='#n809'>809</a>
<a id='n810' href='#n810'>810</a>
<a id='n811' href='#n811'>811</a>
<a id='n812' href='#n812'>812</a>
<a id='n813' href='#n813'>813</a>
<a id='n814' href='#n814'>814</a>
<a id='n815' href='#n815'>815</a>
<a id='n816' href='#n816'>816</a>
<a id='n817' href='#n817'>817</a>
<a id='n818' href='#n818'>818</a>
<a id='n819' href='#n819'>819</a>
<a id='n820' href='#n820'>820</a>
<a id='n821' href='#n821'>821</a>
<a id='n822' href='#n822'>822</a>
<a id='n823' href='#n823'>823</a>
<a id='n824' href='#n824'>824</a>
<a id='n825' href='#n825'>825</a>
<a id='n826' href='#n826'>826</a>
<a id='n827' href='#n827'>827</a>
<a id='n828' href='#n828'>828</a>
<a id='n829' href='#n829'>829</a>
<a id='n830' href='#n830'>830</a>
<a id='n831' href='#n831'>831</a>
<a id='n832' href='#n832'>832</a>
<a id='n833' href='#n833'>833</a>
<a id='n834' href='#n834'>834</a>
<a id='n835' href='#n835'>835</a>
<a id='n836' href='#n836'>836</a>
<a id='n837' href='#n837'>837</a>
<a id='n838' href='#n838'>838</a>
<a id='n839' href='#n839'>839</a>
<a id='n840' href='#n840'>840</a>
<a id='n841' href='#n841'>841</a>
<a id='n842' href='#n842'>842</a>
<a id='n843' href='#n843'>843</a>
<a id='n844' href='#n844'>844</a>
<a id='n845' href='#n845'>845</a>
<a id='n846' href='#n846'>846</a>
<a id='n847' href='#n847'>847</a>
<a id='n848' href='#n848'>848</a>
<a id='n849' href='#n849'>849</a>
<a id='n850' href='#n850'>850</a>
<a id='n851' href='#n851'>851</a>
<a id='n852' href='#n852'>852</a>
<a id='n853' href='#n853'>853</a>
<a id='n854' href='#n854'>854</a>
<a id='n855' href='#n855'>855</a>
<a id='n856' href='#n856'>856</a>
<a id='n857' href='#n857'>857</a>
<a id='n858' href='#n858'>858</a>
<a id='n859' href='#n859'>859</a>
<a id='n860' href='#n860'>860</a>
<a id='n861' href='#n861'>861</a>
<a id='n862' href='#n862'>862</a>
<a id='n863' href='#n863'>863</a>
<a id='n864' href='#n864'>864</a>
<a id='n865' href='#n865'>865</a>
<a id='n866' href='#n866'>866</a>
<a id='n867' href='#n867'>867</a>
<a id='n868' href='#n868'>868</a>
<a id='n869' href='#n869'>869</a>
<a id='n870' href='#n870'>870</a>
<a id='n871' href='#n871'>871</a>
<a id='n872' href='#n872'>872</a>
<a id='n873' href='#n873'>873</a>
<a id='n874' href='#n874'>874</a>
<a id='n875' href='#n875'>875</a>
<a id='n876' href='#n876'>876</a>
<a id='n877' href='#n877'>877</a>
<a id='n878' href='#n878'>878</a>
<a id='n879' href='#n879'>879</a>
<a id='n880' href='#n880'>880</a>
<a id='n881' href='#n881'>881</a>
<a id='n882' href='#n882'>882</a>
<a id='n883' href='#n883'>883</a>
<a id='n884' href='#n884'>884</a>
<a id='n885' href='#n885'>885</a>
<a id='n886' href='#n886'>886</a>
<a id='n887' href='#n887'>887</a>
<a id='n888' href='#n888'>888</a>
<a id='n889' href='#n889'>889</a>
<a id='n890' href='#n890'>890</a>
<a id='n891' href='#n891'>891</a>
<a id='n892' href='#n892'>892</a>
<a id='n893' href='#n893'>893</a>
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</pre></td>
<td class='lines'><pre><code><span class="hl com">/*</span>
<span class="hl com"> * Copyright 2004 The Unichrome Project. All Rights Reserved.</span>
<span class="hl com"> * Copyright 2005 Thomas Hellstrom. All Rights Reserved.</span>
<span class="hl com"> *</span>
<span class="hl com"> * Permission is hereby granted, free of charge, to any person obtaining a</span>
<span class="hl com"> * copy of this software and associated documentation files (the &quot;Software&quot;),</span>
<span class="hl com"> * to deal in the Software without restriction, including without limitation</span>
<span class="hl com"> * the rights to use, copy, modify, merge, publish, distribute, sub license,</span>
<span class="hl com"> * and/or sell copies of the Software, and to permit persons to whom the</span>
<span class="hl com"> * Software is furnished to do so, subject to the following conditions:</span>
<span class="hl com"> *</span>
<span class="hl com"> * The above copyright notice and this permission notice (including the</span>
<span class="hl com"> * next paragraph) shall be included in all copies or substantial portions</span>
<span class="hl com"> * of the Software.</span>
<span class="hl com"> *</span>
<span class="hl com"> * THE SOFTWARE IS PROVIDED &quot;AS IS&quot;, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR</span>
<span class="hl com"> * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,</span>
<span class="hl com"> * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL</span>
<span class="hl com"> * THE AUTHOR(S), AND/OR THE COPYRIGHT HOLDER(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR</span>
<span class="hl com"> * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,</span>
<span class="hl com"> * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER</span>
<span class="hl com"> * DEALINGS IN THE SOFTWARE.</span>
<span class="hl com"> *</span>
<span class="hl com"> * Author: Thomas Hellstrom 2004, 2005.</span>
<span class="hl com"> * This code was written using docs obtained under NDA from VIA Inc.</span>
<span class="hl com"> *</span>
<span class="hl com"> * Don&apos;t run this code directly on an AGP buffer. Due to cache problems it will</span>
<span class="hl com"> * be very slow.</span>
<span class="hl com"> */</span>

<span class="hl ppc">#include</span> <span class="hl pps">&quot;via_3d_reg.h&quot;</span><span class="hl ppc"></span>
<span class="hl ppc">#include</span> <span class="hl pps">&quot;drmP.h&quot;</span><span class="hl ppc"></span>
<span class="hl ppc">#include</span> <span class="hl pps">&quot;drm.h&quot;</span><span class="hl ppc"></span>
<span class="hl ppc">#include</span> <span class="hl pps">&quot;via_drm.h&quot;</span><span class="hl ppc"></span>
<span class="hl ppc">#include</span> <span class="hl pps">&quot;via_verifier.h&quot;</span><span class="hl ppc"></span>
<span class="hl ppc">#include</span> <span class="hl pps">&quot;via_drv.h&quot;</span><span class="hl ppc"></span>

<span class="hl kwc">typedef</span> <span class="hl kwb">enum</span> <span class="hl opt">{</span>
	state_command<span class="hl opt">,</span>
	state_header2<span class="hl opt">,</span>
	state_header1<span class="hl opt">,</span>
	state_vheader5<span class="hl opt">,</span>
	state_vheader6<span class="hl opt">,</span>
	state_error
<span class="hl opt">}</span> verifier_state_t<span class="hl opt">;</span>

<span class="hl kwc">typedef</span> <span class="hl kwb">enum</span> <span class="hl opt">{</span>
	no_check <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">,</span>
	check_for_header2<span class="hl opt">,</span>
	check_for_header1<span class="hl opt">,</span>
	check_for_header2_err<span class="hl opt">,</span>
	check_for_header1_err<span class="hl opt">,</span>
	check_for_fire<span class="hl opt">,</span>
	check_z_buffer_addr0<span class="hl opt">,</span>
	check_z_buffer_addr1<span class="hl opt">,</span>
	check_z_buffer_addr_mode<span class="hl opt">,</span>
	check_destination_addr0<span class="hl opt">,</span>
	check_destination_addr1<span class="hl opt">,</span>
	check_destination_addr_mode<span class="hl opt">,</span>
	check_for_dummy<span class="hl opt">,</span>
	check_for_dd<span class="hl opt">,</span>
	check_texture_addr0<span class="hl opt">,</span>
	check_texture_addr1<span class="hl opt">,</span>
	check_texture_addr2<span class="hl opt">,</span>
	check_texture_addr3<span class="hl opt">,</span>
	check_texture_addr4<span class="hl opt">,</span>
	check_texture_addr5<span class="hl opt">,</span>
	check_texture_addr6<span class="hl opt">,</span>
	check_texture_addr7<span class="hl opt">,</span>
	check_texture_addr8<span class="hl opt">,</span>
	check_texture_addr_mode<span class="hl opt">,</span>
	check_for_vertex_count<span class="hl opt">,</span>
	check_number_texunits<span class="hl opt">,</span>
	forbidden_command
<span class="hl opt">}</span> hazard_t<span class="hl opt">;</span>

<span class="hl com">/*</span>
<span class="hl com"> * Associates each hazard above with a possible multi-command</span>
<span class="hl com"> * sequence. For example an address that is split over multiple</span>
<span class="hl com"> * commands and that needs to be checked at the first command</span>
<span class="hl com"> * that does not include any part of the address.</span>
<span class="hl com"> */</span>

<span class="hl kwb">static</span> drm_via_sequence_t seqs<span class="hl opt">[] = {</span>
	no_sequence<span class="hl opt">,</span>
	no_sequence<span class="hl opt">,</span>
	no_sequence<span class="hl opt">,</span>
	no_sequence<span class="hl opt">,</span>
	no_sequence<span class="hl opt">,</span>
	no_sequence<span class="hl opt">,</span>
	z_address<span class="hl opt">,</span>
	z_address<span class="hl opt">,</span>
	z_address<span class="hl opt">,</span>
	dest_address<span class="hl opt">,</span>
	dest_address<span class="hl opt">,</span>
	dest_address<span class="hl opt">,</span>
	no_sequence<span class="hl opt">,</span>
	no_sequence<span class="hl opt">,</span>
	tex_address<span class="hl opt">,</span>
	tex_address<span class="hl opt">,</span>
	tex_address<span class="hl opt">,</span>
	tex_address<span class="hl opt">,</span>
	tex_address<span class="hl opt">,</span>
	tex_address<span class="hl opt">,</span>
	tex_address<span class="hl opt">,</span>
	tex_address<span class="hl opt">,</span>
	tex_address<span class="hl opt">,</span>
	tex_address<span class="hl opt">,</span>
	no_sequence
<span class="hl opt">};</span>

<span class="hl kwc">typedef</span> <span class="hl kwb">struct</span> <span class="hl opt">{</span>
	<span class="hl kwb">unsigned int</span> code<span class="hl opt">;</span>
	hazard_t hz<span class="hl opt">;</span>
<span class="hl opt">}</span> hz_init_t<span class="hl opt">;</span>

<span class="hl kwb">static</span> hz_init_t init_table1<span class="hl opt">[] = {</span>
	<span class="hl opt">{</span><span class="hl num">0xf2</span><span class="hl opt">,</span> check_for_header2_err<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0xf0</span><span class="hl opt">,</span> check_for_header1_err<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0xee</span><span class="hl opt">,</span> check_for_fire<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0xcc</span><span class="hl opt">,</span> check_for_dummy<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0xdd</span><span class="hl opt">,</span> check_for_dd<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x00</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x10</span><span class="hl opt">,</span> check_z_buffer_addr0<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x11</span><span class="hl opt">,</span> check_z_buffer_addr1<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x12</span><span class="hl opt">,</span> check_z_buffer_addr_mode<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x13</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x14</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x15</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x23</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x24</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x33</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x34</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x35</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x36</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x37</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x38</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x39</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x3A</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x3B</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x3C</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x3D</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x3E</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x40</span><span class="hl opt">,</span> check_destination_addr0<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x41</span><span class="hl opt">,</span> check_destination_addr1<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x42</span><span class="hl opt">,</span> check_destination_addr_mode<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x43</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x44</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x50</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x51</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x52</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x53</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x54</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x55</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x56</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x57</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x58</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x70</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x71</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x78</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x79</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x7A</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x7B</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x7C</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x7D</span><span class="hl opt">,</span> check_for_vertex_count<span class="hl opt">}</span>
<span class="hl opt">};</span>

<span class="hl kwb">static</span> hz_init_t init_table2<span class="hl opt">[] = {</span>
	<span class="hl opt">{</span><span class="hl num">0xf2</span><span class="hl opt">,</span> check_for_header2_err<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0xf0</span><span class="hl opt">,</span> check_for_header1_err<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0xee</span><span class="hl opt">,</span> check_for_fire<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0xcc</span><span class="hl opt">,</span> check_for_dummy<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x00</span><span class="hl opt">,</span> check_texture_addr0<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x01</span><span class="hl opt">,</span> check_texture_addr0<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x02</span><span class="hl opt">,</span> check_texture_addr0<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x03</span><span class="hl opt">,</span> check_texture_addr0<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x04</span><span class="hl opt">,</span> check_texture_addr0<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x05</span><span class="hl opt">,</span> check_texture_addr0<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x06</span><span class="hl opt">,</span> check_texture_addr0<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x07</span><span class="hl opt">,</span> check_texture_addr0<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x08</span><span class="hl opt">,</span> check_texture_addr0<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x09</span><span class="hl opt">,</span> check_texture_addr0<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x20</span><span class="hl opt">,</span> check_texture_addr1<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x21</span><span class="hl opt">,</span> check_texture_addr1<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x22</span><span class="hl opt">,</span> check_texture_addr1<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x23</span><span class="hl opt">,</span> check_texture_addr4<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x2B</span><span class="hl opt">,</span> check_texture_addr3<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x2C</span><span class="hl opt">,</span> check_texture_addr3<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x2D</span><span class="hl opt">,</span> check_texture_addr3<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x2E</span><span class="hl opt">,</span> check_texture_addr3<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x2F</span><span class="hl opt">,</span> check_texture_addr3<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x30</span><span class="hl opt">,</span> check_texture_addr3<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x31</span><span class="hl opt">,</span> check_texture_addr3<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x32</span><span class="hl opt">,</span> check_texture_addr3<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x33</span><span class="hl opt">,</span> check_texture_addr3<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x34</span><span class="hl opt">,</span> check_texture_addr3<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x4B</span><span class="hl opt">,</span> check_texture_addr5<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x4C</span><span class="hl opt">,</span> check_texture_addr6<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x51</span><span class="hl opt">,</span> check_texture_addr7<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x52</span><span class="hl opt">,</span> check_texture_addr8<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x77</span><span class="hl opt">,</span> check_texture_addr2<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x78</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x79</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x7A</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x7B</span><span class="hl opt">,</span> check_texture_addr_mode<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x7C</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x7D</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x7E</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x7F</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x80</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x81</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x82</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x83</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x85</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x86</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x87</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x88</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x89</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x8A</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x90</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x91</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x92</span><span class="hl opt">,</span> no_check<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x93</span><span class="hl opt">,</span> no_check<span class="hl opt">}</span>
<span class="hl opt">};</span>

<span class="hl kwb">static</span> hz_init_t init_table3<span class="hl opt">[] = {</span>
	<span class="hl opt">{</span><span class="hl num">0xf2</span><span class="hl opt">,</span> check_for_header2_err<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0xf0</span><span class="hl opt">,</span> check_for_header1_err<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0xcc</span><span class="hl opt">,</span> check_for_dummy<span class="hl opt">},</span>
	<span class="hl opt">{</span><span class="hl num">0x00</span><span class="hl opt">,</span> check_number_texunits<span class="hl opt">}</span>
<span class="hl opt">};</span>

<span class="hl kwb">static</span> hazard_t table1<span class="hl opt">[</span><span class="hl num">256</span><span class="hl opt">];</span>
<span class="hl kwb">static</span> hazard_t table2<span class="hl opt">[</span><span class="hl num">256</span><span class="hl opt">];</span>
<span class="hl kwb">static</span> hazard_t table3<span class="hl opt">[</span><span class="hl num">256</span><span class="hl opt">];</span>

<span class="hl kwb">static</span> __inline__ <span class="hl kwb">int</span>
<span class="hl kwd">eat_words</span><span class="hl opt">(</span><span class="hl kwb">const uint32_t</span> <span class="hl opt">**</span> buf<span class="hl opt">,</span> <span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span> buf_end<span class="hl opt">,</span> <span class="hl kwb">unsigned</span> num_words<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwa">if</span> <span class="hl opt">((</span>buf_end <span class="hl opt">- *</span>buf<span class="hl opt">) &gt;=</span> num_words<span class="hl opt">) {</span>
		<span class="hl opt">*</span>buf <span class="hl opt">+=</span> num_words<span class="hl opt">;</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl opt">}</span>
	<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Illegal termination of DMA command buffer</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
	<span class="hl kwa">return</span> <span class="hl num">1</span><span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl com">/*</span>
<span class="hl com"> * Partially stolen from drm_memory.h</span>
<span class="hl com"> */</span>

<span class="hl kwb">static</span> __inline__ drm_local_map_t <span class="hl opt">*</span><span class="hl kwd">via_drm_lookup_agp_map</span><span class="hl opt">(</span>drm_via_state_t <span class="hl opt">*</span>seq<span class="hl opt">,</span>
							  <span class="hl kwb">unsigned long</span> offset<span class="hl opt">,</span>
							  <span class="hl kwb">unsigned long</span> size<span class="hl opt">,</span>
							  <span class="hl kwb">struct</span> drm_device <span class="hl opt">*</span>dev<span class="hl opt">)</span>
<span class="hl opt">{</span>
<span class="hl ppc">#ifdef __linux__</span>
	<span class="hl kwb">struct</span> drm_map_list <span class="hl opt">*</span>r_list<span class="hl opt">;</span>
<span class="hl ppc">#endif</span>
	drm_local_map_t <span class="hl opt">*</span>map <span class="hl opt">=</span> seq<span class="hl opt">-&gt;</span>map_cache<span class="hl opt">;</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span>map <span class="hl opt">&amp;&amp;</span> map<span class="hl opt">-&gt;</span>offset <span class="hl opt">&lt;=</span> offset
	    <span class="hl opt">&amp;&amp; (</span>offset <span class="hl opt">+</span> size<span class="hl opt">) &lt;= (</span>map<span class="hl opt">-&gt;</span>offset <span class="hl opt">+</span> map<span class="hl opt">-&gt;</span>size<span class="hl opt">)) {</span>
		<span class="hl kwa">return</span> map<span class="hl opt">;</span>
	<span class="hl opt">}</span>
<span class="hl ppc">#ifdef __linux__</span>
	<span class="hl kwd">list_for_each_entry</span><span class="hl opt">(</span>r_list<span class="hl opt">, &amp;</span>dev<span class="hl opt">-&gt;</span>maplist<span class="hl opt">,</span> head<span class="hl opt">) {</span>
		map <span class="hl opt">=</span> r_list<span class="hl opt">-&gt;</span>map<span class="hl opt">;</span>
		<span class="hl kwa">if</span> <span class="hl opt">(!</span>map<span class="hl opt">)</span>
			<span class="hl kwa">continue</span><span class="hl opt">;</span>
<span class="hl ppc">#else</span>
	<span class="hl kwd">TAILQ_FOREACH</span><span class="hl opt">(</span>map<span class="hl opt">, &amp;</span>dev<span class="hl opt">-&gt;</span>maplist<span class="hl opt">,</span> link<span class="hl opt">) {</span>
<span class="hl ppc">#endif</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>map<span class="hl opt">-&gt;</span>offset <span class="hl opt">&lt;=</span> offset
		    <span class="hl opt">&amp;&amp; (</span>offset <span class="hl opt">+</span> size<span class="hl opt">) &lt;= (</span>map<span class="hl opt">-&gt;</span>offset <span class="hl opt">+</span> map<span class="hl opt">-&gt;</span>size<span class="hl opt">)</span>
		    <span class="hl opt">&amp;&amp; !(</span>map<span class="hl opt">-&gt;</span>flags <span class="hl opt">&amp;</span> _DRM_RESTRICTED<span class="hl opt">)</span>
		    <span class="hl opt">&amp;&amp; (</span>map<span class="hl opt">-&gt;</span>type <span class="hl opt">==</span> _DRM_AGP<span class="hl opt">)) {</span>
			seq<span class="hl opt">-&gt;</span>map_cache <span class="hl opt">=</span> map<span class="hl opt">;</span>
			<span class="hl kwa">return</span> map<span class="hl opt">;</span>
		<span class="hl opt">}</span>
	<span class="hl opt">}</span>
	<span class="hl kwa">return</span> NULL<span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl com">/*</span>
<span class="hl com"> * Require that all AGP texture levels reside in the same AGP map which should</span>
<span class="hl com"> * be mappable by the client. This is not a big restriction.</span>
<span class="hl com"> * FIXME: To actually enforce this security policy strictly, drm_rmmap</span>
<span class="hl com"> * would have to wait for dma quiescent before removing an AGP map.</span>
<span class="hl com"> * The via_drm_lookup_agp_map call in reality seems to take</span>
<span class="hl com"> * very little CPU time.</span>
<span class="hl com"> */</span>

<span class="hl kwb">static</span> __inline__ <span class="hl kwb">int</span> <span class="hl kwd">finish_current_sequence</span><span class="hl opt">(</span>drm_via_state_t <span class="hl opt">*</span> cur_seq<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwa">switch</span> <span class="hl opt">(</span>cur_seq<span class="hl opt">-&gt;</span>unfinished<span class="hl opt">) {</span>
	<span class="hl kwa">case</span> z_address<span class="hl opt">:</span>
		<span class="hl kwd">DRM_DEBUG</span><span class="hl opt">(</span><span class="hl str">&quot;Z Buffer start address is 0x%x</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">,</span> cur_seq<span class="hl opt">-&gt;</span>z_addr<span class="hl opt">);</span>
		<span class="hl kwa">break</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> dest_address<span class="hl opt">:</span>
		<span class="hl kwd">DRM_DEBUG</span><span class="hl opt">(</span><span class="hl str">&quot;Destination start address is 0x%x</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">,</span>
			  cur_seq<span class="hl opt">-&gt;</span>d_addr<span class="hl opt">);</span>
		<span class="hl kwa">break</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> tex_address<span class="hl opt">:</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>cur_seq<span class="hl opt">-&gt;</span>agp_texture<span class="hl opt">) {</span>
			<span class="hl kwb">unsigned</span> start <span class="hl opt">=</span>
			    cur_seq<span class="hl opt">-&gt;</span>tex_level_lo<span class="hl opt">[</span>cur_seq<span class="hl opt">-&gt;</span>texture<span class="hl opt">];</span>
			<span class="hl kwb">unsigned</span> end <span class="hl opt">=</span> cur_seq<span class="hl opt">-&gt;</span>tex_level_hi<span class="hl opt">[</span>cur_seq<span class="hl opt">-&gt;</span>texture<span class="hl opt">];</span>
			<span class="hl kwb">unsigned long</span> lo <span class="hl opt">= ~</span><span class="hl num">0</span><span class="hl opt">,</span> hi <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">,</span> tmp<span class="hl opt">;</span>
			<span class="hl kwb">uint32_t</span> <span class="hl opt">*</span>addr<span class="hl opt">, *</span>pitch<span class="hl opt">, *</span>height<span class="hl opt">,</span> tex<span class="hl opt">;</span>
			<span class="hl kwb">unsigned</span> i<span class="hl opt">;</span>
			<span class="hl kwb">int</span> npot<span class="hl opt">;</span>

			<span class="hl kwa">if</span> <span class="hl opt">(</span>end <span class="hl opt">&gt;</span> <span class="hl num">9</span><span class="hl opt">)</span>
				end <span class="hl opt">=</span> <span class="hl num">9</span><span class="hl opt">;</span>
			<span class="hl kwa">if</span> <span class="hl opt">(</span>start <span class="hl opt">&gt;</span> <span class="hl num">9</span><span class="hl opt">)</span>
				start <span class="hl opt">=</span> <span class="hl num">9</span><span class="hl opt">;</span>

			addr <span class="hl opt">=</span>
			    <span class="hl opt">&amp;(</span>cur_seq<span class="hl opt">-&gt;</span>t_addr<span class="hl opt">[</span>tex <span class="hl opt">=</span> cur_seq<span class="hl opt">-&gt;</span>texture<span class="hl opt">][</span>start<span class="hl opt">]);</span>
			pitch <span class="hl opt">= &amp;(</span>cur_seq<span class="hl opt">-&gt;</span>pitch<span class="hl opt">[</span>tex<span class="hl opt">][</span>start<span class="hl opt">]);</span>
			height <span class="hl opt">= &amp;(</span>cur_seq<span class="hl opt">-&gt;</span>height<span class="hl opt">[</span>tex<span class="hl opt">][</span>start<span class="hl opt">]);</span>
			npot <span class="hl opt">=</span> cur_seq<span class="hl opt">-&gt;</span>tex_npot<span class="hl opt">[</span>tex<span class="hl opt">];</span>
			<span class="hl kwa">for</span> <span class="hl opt">(</span>i <span class="hl opt">=</span> start<span class="hl opt">;</span> i <span class="hl opt">&lt;=</span> end<span class="hl opt">; ++</span>i<span class="hl opt">) {</span>
				tmp <span class="hl opt">= *</span>addr<span class="hl opt">++;</span>
				<span class="hl kwa">if</span> <span class="hl opt">(</span>tmp <span class="hl opt">&lt;</span> lo<span class="hl opt">)</span>
					lo <span class="hl opt">=</span> tmp<span class="hl opt">;</span>
				<span class="hl kwa">if</span> <span class="hl opt">(</span>i <span class="hl opt">==</span> <span class="hl num">0</span> <span class="hl opt">&amp;&amp;</span> npot<span class="hl opt">)</span>
					tmp <span class="hl opt">+= (*</span>height<span class="hl opt">++ * *</span>pitch<span class="hl opt">++);</span>
				<span class="hl kwa">else</span>
					tmp <span class="hl opt">+= (*</span>height<span class="hl opt">++ &lt;&lt; *</span>pitch<span class="hl opt">++);</span>
				<span class="hl kwa">if</span> <span class="hl opt">(</span>tmp <span class="hl opt">&gt;</span> hi<span class="hl opt">)</span>
					hi <span class="hl opt">=</span> tmp<span class="hl opt">;</span>
			<span class="hl opt">}</span>

			<span class="hl kwa">if</span> <span class="hl opt">(!</span>via_drm_lookup_agp_map
			    <span class="hl opt">(</span>cur_seq<span class="hl opt">,</span> lo<span class="hl opt">,</span> hi <span class="hl opt">-</span> lo<span class="hl opt">,</span> cur_seq<span class="hl opt">-&gt;</span>dev<span class="hl opt">)) {</span>
				DRM_ERROR
				    <span class="hl opt">(</span><span class="hl str">&quot;AGP texture is not in allowed map</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
				<span class="hl kwa">return</span> <span class="hl num">2</span><span class="hl opt">;</span>
			<span class="hl opt">}</span>
		<span class="hl opt">}</span>
		<span class="hl kwa">break</span><span class="hl opt">;</span>
	<span class="hl kwa">default</span><span class="hl opt">:</span>
		<span class="hl kwa">break</span><span class="hl opt">;</span>
	<span class="hl opt">}</span>
	cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">=</span> no_sequence<span class="hl opt">;</span>
	<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static</span> __inline__ <span class="hl kwb">int</span>
<span class="hl kwd">investigate_hazard</span><span class="hl opt">(</span><span class="hl kwb">uint32_t</span> cmd<span class="hl opt">,</span> hazard_t hz<span class="hl opt">,</span> drm_via_state_t <span class="hl opt">*</span> cur_seq<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwc">register</span> <span class="hl kwb">uint32_t</span> tmp<span class="hl opt">, *</span>tmp_addr<span class="hl opt">;</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span>cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">&amp;&amp; (</span>cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">!=</span> seqs<span class="hl opt">[</span>hz<span class="hl opt">])) {</span>
		<span class="hl kwb">int</span> ret<span class="hl opt">;</span>
		<span class="hl kwa">if</span> <span class="hl opt">((</span>ret <span class="hl opt">=</span> <span class="hl kwd">finish_current_sequence</span><span class="hl opt">(</span>cur_seq<span class="hl opt">)))</span>
			<span class="hl kwa">return</span> ret<span class="hl opt">;</span>
	<span class="hl opt">}</span>

	<span class="hl kwa">switch</span> <span class="hl opt">(</span>hz<span class="hl opt">) {</span>
	<span class="hl kwa">case</span> check_for_header2<span class="hl opt">:</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>cmd <span class="hl opt">==</span> HALCYON_HEADER2<span class="hl opt">)</span>
			<span class="hl kwa">return</span> <span class="hl num">1</span><span class="hl opt">;</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_for_header1<span class="hl opt">:</span>
		<span class="hl kwa">if</span> <span class="hl opt">((</span>cmd <span class="hl opt">&amp;</span> HALCYON_HEADER1MASK<span class="hl opt">) ==</span> HALCYON_HEADER1<span class="hl opt">)</span>
			<span class="hl kwa">return</span> <span class="hl num">1</span><span class="hl opt">;</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_for_header2_err<span class="hl opt">:</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>cmd <span class="hl opt">==</span> HALCYON_HEADER2<span class="hl opt">)</span>
			<span class="hl kwa">return</span> <span class="hl num">1</span><span class="hl opt">;</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Illegal DMA HALCYON_HEADER2 command</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">break</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_for_header1_err<span class="hl opt">:</span>
		<span class="hl kwa">if</span> <span class="hl opt">((</span>cmd <span class="hl opt">&amp;</span> HALCYON_HEADER1MASK<span class="hl opt">) ==</span> HALCYON_HEADER1<span class="hl opt">)</span>
			<span class="hl kwa">return</span> <span class="hl num">1</span><span class="hl opt">;</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Illegal DMA HALCYON_HEADER1 command</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">break</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_for_fire<span class="hl opt">:</span>
		<span class="hl kwa">if</span> <span class="hl opt">((</span>cmd <span class="hl opt">&amp;</span> HALCYON_FIREMASK<span class="hl opt">) ==</span> HALCYON_FIRECMD<span class="hl opt">)</span>
			<span class="hl kwa">return</span> <span class="hl num">1</span><span class="hl opt">;</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Illegal DMA HALCYON_FIRECMD command</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">break</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_for_dummy<span class="hl opt">:</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>HC_DUMMY <span class="hl opt">==</span> cmd<span class="hl opt">)</span>
			<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Illegal DMA HC_DUMMY command</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">break</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_for_dd<span class="hl opt">:</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl num">0xdddddddd</span> <span class="hl opt">==</span> cmd<span class="hl opt">)</span>
			<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Illegal DMA 0xdddddddd command</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">break</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_z_buffer_addr0<span class="hl opt">:</span>
		cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">=</span> z_address<span class="hl opt">;</span>
		cur_seq<span class="hl opt">-&gt;</span>z_addr <span class="hl opt">= (</span>cur_seq<span class="hl opt">-&gt;</span>z_addr <span class="hl opt">&amp;</span> <span class="hl num">0xFF000000</span><span class="hl opt">) |</span>
		    <span class="hl opt">(</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0x00FFFFFF</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_z_buffer_addr1<span class="hl opt">:</span>
		cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">=</span> z_address<span class="hl opt">;</span>
		cur_seq<span class="hl opt">-&gt;</span>z_addr <span class="hl opt">= (</span>cur_seq<span class="hl opt">-&gt;</span>z_addr <span class="hl opt">&amp;</span> <span class="hl num">0x00FFFFFF</span><span class="hl opt">) |</span>
		    <span class="hl opt">((</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0xFF</span><span class="hl opt">) &lt;&lt;</span> <span class="hl num">24</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_z_buffer_addr_mode<span class="hl opt">:</span>
		cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">=</span> z_address<span class="hl opt">;</span>
		<span class="hl kwa">if</span> <span class="hl opt">((</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0x0000C000</span><span class="hl opt">) ==</span> <span class="hl num">0</span><span class="hl opt">)</span>
			<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Attempt to place Z buffer in system memory</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl num">2</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_destination_addr0<span class="hl opt">:</span>
		cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">=</span> dest_address<span class="hl opt">;</span>
		cur_seq<span class="hl opt">-&gt;</span>d_addr <span class="hl opt">= (</span>cur_seq<span class="hl opt">-&gt;</span>d_addr <span class="hl opt">&amp;</span> <span class="hl num">0xFF000000</span><span class="hl opt">) |</span>
		    <span class="hl opt">(</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0x00FFFFFF</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_destination_addr1<span class="hl opt">:</span>
		cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">=</span> dest_address<span class="hl opt">;</span>
		cur_seq<span class="hl opt">-&gt;</span>d_addr <span class="hl opt">= (</span>cur_seq<span class="hl opt">-&gt;</span>d_addr <span class="hl opt">&amp;</span> <span class="hl num">0x00FFFFFF</span><span class="hl opt">) |</span>
		    <span class="hl opt">((</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0xFF</span><span class="hl opt">) &lt;&lt;</span> <span class="hl num">24</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_destination_addr_mode<span class="hl opt">:</span>
		cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">=</span> dest_address<span class="hl opt">;</span>
		<span class="hl kwa">if</span> <span class="hl opt">((</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0x0000C000</span><span class="hl opt">) ==</span> <span class="hl num">0</span><span class="hl opt">)</span>
			<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
		DRM_ERROR
		    <span class="hl opt">(</span><span class="hl str">&quot;Attempt to place 3D drawing buffer in system memory</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl num">2</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_texture_addr0<span class="hl opt">:</span>
		cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">=</span> tex_address<span class="hl opt">;</span>
		tmp <span class="hl opt">= (</span>cmd <span class="hl opt">&gt;&gt;</span> <span class="hl num">24</span><span class="hl opt">);</span>
		tmp_addr <span class="hl opt">= &amp;</span>cur_seq<span class="hl opt">-&gt;</span>t_addr<span class="hl opt">[</span>cur_seq<span class="hl opt">-&gt;</span>texture<span class="hl opt">][</span>tmp<span class="hl opt">];</span>
		<span class="hl opt">*</span>tmp_addr <span class="hl opt">= (*</span>tmp_addr <span class="hl opt">&amp;</span> <span class="hl num">0xFF000000</span><span class="hl opt">) | (</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0x00FFFFFF</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_texture_addr1<span class="hl opt">:</span>
		cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">=</span> tex_address<span class="hl opt">;</span>
		tmp <span class="hl opt">= ((</span>cmd <span class="hl opt">&gt;&gt;</span> <span class="hl num">24</span><span class="hl opt">) -</span> <span class="hl num">0x20</span><span class="hl opt">);</span>
		tmp <span class="hl opt">+=</span> tmp <span class="hl opt">&lt;&lt;</span> <span class="hl num">1</span><span class="hl opt">;</span>
		tmp_addr <span class="hl opt">= &amp;</span>cur_seq<span class="hl opt">-&gt;</span>t_addr<span class="hl opt">[</span>cur_seq<span class="hl opt">-&gt;</span>texture<span class="hl opt">][</span>tmp<span class="hl opt">];</span>
		<span class="hl opt">*</span>tmp_addr <span class="hl opt">= (*</span>tmp_addr <span class="hl opt">&amp;</span> <span class="hl num">0x00FFFFFF</span><span class="hl opt">) | ((</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0xFF</span><span class="hl opt">) &lt;&lt;</span> <span class="hl num">24</span><span class="hl opt">);</span>
		tmp_addr<span class="hl opt">++;</span>
		<span class="hl opt">*</span>tmp_addr <span class="hl opt">= (*</span>tmp_addr <span class="hl opt">&amp;</span> <span class="hl num">0x00FFFFFF</span><span class="hl opt">) | ((</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0xFF00</span><span class="hl opt">) &lt;&lt;</span> <span class="hl num">16</span><span class="hl opt">);</span>
		tmp_addr<span class="hl opt">++;</span>
		<span class="hl opt">*</span>tmp_addr <span class="hl opt">= (*</span>tmp_addr <span class="hl opt">&amp;</span> <span class="hl num">0x00FFFFFF</span><span class="hl opt">) | ((</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0xFF0000</span><span class="hl opt">) &lt;&lt;</span> <span class="hl num">8</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_texture_addr2<span class="hl opt">:</span>
		cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">=</span> tex_address<span class="hl opt">;</span>
		cur_seq<span class="hl opt">-&gt;</span>tex_level_lo<span class="hl opt">[</span>tmp <span class="hl opt">=</span> cur_seq<span class="hl opt">-&gt;</span>texture<span class="hl opt">] =</span> cmd <span class="hl opt">&amp;</span> <span class="hl num">0x3F</span><span class="hl opt">;</span>
		cur_seq<span class="hl opt">-&gt;</span>tex_level_hi<span class="hl opt">[</span>tmp<span class="hl opt">] = (</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0xFC0</span><span class="hl opt">) &gt;&gt;</span> <span class="hl num">6</span><span class="hl opt">;</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_texture_addr3<span class="hl opt">:</span>
		cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">=</span> tex_address<span class="hl opt">;</span>
		tmp <span class="hl opt">= ((</span>cmd <span class="hl opt">&gt;&gt;</span> <span class="hl num">24</span><span class="hl opt">) -</span> HC_SubA_HTXnL0Pit<span class="hl opt">);</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>tmp <span class="hl opt">==</span> <span class="hl num">0</span> <span class="hl opt">&amp;&amp;</span>
		    <span class="hl opt">(</span>cmd <span class="hl opt">&amp;</span> HC_HTXnEnPit_MASK<span class="hl opt">)) {</span>
			cur_seq<span class="hl opt">-&gt;</span>pitch<span class="hl opt">[</span>cur_seq<span class="hl opt">-&gt;</span>texture<span class="hl opt">][</span>tmp<span class="hl opt">] =</span>
				<span class="hl opt">(</span>cmd <span class="hl opt">&amp;</span> HC_HTXnLnPit_MASK<span class="hl opt">);</span>
			cur_seq<span class="hl opt">-&gt;</span>tex_npot<span class="hl opt">[</span>cur_seq<span class="hl opt">-&gt;</span>texture<span class="hl opt">] =</span> <span class="hl num">1</span><span class="hl opt">;</span>
		<span class="hl opt">}</span> <span class="hl kwa">else</span> <span class="hl opt">{</span>
			cur_seq<span class="hl opt">-&gt;</span>pitch<span class="hl opt">[</span>cur_seq<span class="hl opt">-&gt;</span>texture<span class="hl opt">][</span>tmp<span class="hl opt">] =</span>
				<span class="hl opt">(</span>cmd <span class="hl opt">&amp;</span> HC_HTXnLnPitE_MASK<span class="hl opt">) &gt;&gt;</span> HC_HTXnLnPitE_SHIFT<span class="hl opt">;</span>
			cur_seq<span class="hl opt">-&gt;</span>tex_npot<span class="hl opt">[</span>cur_seq<span class="hl opt">-&gt;</span>texture<span class="hl opt">] =</span> <span class="hl num">0</span><span class="hl opt">;</span>
			<span class="hl kwa">if</span> <span class="hl opt">(</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0x000FFFFF</span><span class="hl opt">) {</span>
				DRM_ERROR
					<span class="hl opt">(</span><span class="hl str">&quot;Unimplemented texture level 0 pitch mode.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
				<span class="hl kwa">return</span> <span class="hl num">2</span><span class="hl opt">;</span>
			<span class="hl opt">}</span>
		<span class="hl opt">}</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_texture_addr4<span class="hl opt">:</span>
		cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">=</span> tex_address<span class="hl opt">;</span>
		tmp_addr <span class="hl opt">= &amp;</span>cur_seq<span class="hl opt">-&gt;</span>t_addr<span class="hl opt">[</span>cur_seq<span class="hl opt">-&gt;</span>texture<span class="hl opt">][</span><span class="hl num">9</span><span class="hl opt">];</span>
		<span class="hl opt">*</span>tmp_addr <span class="hl opt">= (*</span>tmp_addr <span class="hl opt">&amp;</span> <span class="hl num">0x00FFFFFF</span><span class="hl opt">) | ((</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0xFF</span><span class="hl opt">) &lt;&lt;</span> <span class="hl num">24</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_texture_addr5<span class="hl opt">:</span>
	<span class="hl kwa">case</span> check_texture_addr6<span class="hl opt">:</span>
		cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">=</span> tex_address<span class="hl opt">;</span>
		<span class="hl com">/*</span>
<span class="hl com">		 * Texture width. We don&apos;t care since we have the pitch.</span>
<span class="hl com">		 */</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_texture_addr7<span class="hl opt">:</span>
		cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">=</span> tex_address<span class="hl opt">;</span>
		tmp_addr <span class="hl opt">= &amp;(</span>cur_seq<span class="hl opt">-&gt;</span>height<span class="hl opt">[</span>cur_seq<span class="hl opt">-&gt;</span>texture<span class="hl opt">][</span><span class="hl num">0</span><span class="hl opt">]);</span>
		tmp_addr<span class="hl opt">[</span><span class="hl num">5</span><span class="hl opt">] =</span> <span class="hl num">1</span> <span class="hl opt">&lt;&lt; ((</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0x00F00000</span><span class="hl opt">) &gt;&gt;</span> <span class="hl num">20</span><span class="hl opt">);</span>
		tmp_addr<span class="hl opt">[</span><span class="hl num">4</span><span class="hl opt">] =</span> <span class="hl num">1</span> <span class="hl opt">&lt;&lt; ((</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0x000F0000</span><span class="hl opt">) &gt;&gt;</span> <span class="hl num">16</span><span class="hl opt">);</span>
		tmp_addr<span class="hl opt">[</span><span class="hl num">3</span><span class="hl opt">] =</span> <span class="hl num">1</span> <span class="hl opt">&lt;&lt; ((</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0x0000F000</span><span class="hl opt">) &gt;&gt;</span> <span class="hl num">12</span><span class="hl opt">);</span>
		tmp_addr<span class="hl opt">[</span><span class="hl num">2</span><span class="hl opt">] =</span> <span class="hl num">1</span> <span class="hl opt">&lt;&lt; ((</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0x00000F00</span><span class="hl opt">) &gt;&gt;</span> <span class="hl num">8</span><span class="hl opt">);</span>
		tmp_addr<span class="hl opt">[</span><span class="hl num">1</span><span class="hl opt">] =</span> <span class="hl num">1</span> <span class="hl opt">&lt;&lt; ((</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0x000000F0</span><span class="hl opt">) &gt;&gt;</span> <span class="hl num">4</span><span class="hl opt">);</span>
		tmp_addr<span class="hl opt">[</span><span class="hl num">0</span><span class="hl opt">] =</span> <span class="hl num">1</span> <span class="hl opt">&lt;&lt; (</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0x0000000F</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_texture_addr8<span class="hl opt">:</span>
		cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">=</span> tex_address<span class="hl opt">;</span>
		tmp_addr <span class="hl opt">= &amp;(</span>cur_seq<span class="hl opt">-&gt;</span>height<span class="hl opt">[</span>cur_seq<span class="hl opt">-&gt;</span>texture<span class="hl opt">][</span><span class="hl num">0</span><span class="hl opt">]);</span>
		tmp_addr<span class="hl opt">[</span><span class="hl num">9</span><span class="hl opt">] =</span> <span class="hl num">1</span> <span class="hl opt">&lt;&lt; ((</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0x0000F000</span><span class="hl opt">) &gt;&gt;</span> <span class="hl num">12</span><span class="hl opt">);</span>
		tmp_addr<span class="hl opt">[</span><span class="hl num">8</span><span class="hl opt">] =</span> <span class="hl num">1</span> <span class="hl opt">&lt;&lt; ((</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0x00000F00</span><span class="hl opt">) &gt;&gt;</span> <span class="hl num">8</span><span class="hl opt">);</span>
		tmp_addr<span class="hl opt">[</span><span class="hl num">7</span><span class="hl opt">] =</span> <span class="hl num">1</span> <span class="hl opt">&lt;&lt; ((</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0x000000F0</span><span class="hl opt">) &gt;&gt;</span> <span class="hl num">4</span><span class="hl opt">);</span>
		tmp_addr<span class="hl opt">[</span><span class="hl num">6</span><span class="hl opt">] =</span> <span class="hl num">1</span> <span class="hl opt">&lt;&lt; (</span>cmd <span class="hl opt">&amp;</span> <span class="hl num">0x0000000F</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_texture_addr_mode<span class="hl opt">:</span>
		cur_seq<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">=</span> tex_address<span class="hl opt">;</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl num">2</span> <span class="hl opt">== (</span>tmp <span class="hl opt">=</span> cmd <span class="hl opt">&amp;</span> <span class="hl num">0x00000003</span><span class="hl opt">)) {</span>
			DRM_ERROR
			    <span class="hl opt">(</span><span class="hl str">&quot;Attempt to fetch texture from system memory.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
			<span class="hl kwa">return</span> <span class="hl num">2</span><span class="hl opt">;</span>
		<span class="hl opt">}</span>
		cur_seq<span class="hl opt">-&gt;</span>agp_texture <span class="hl opt">= (</span>tmp <span class="hl opt">==</span> <span class="hl num">3</span><span class="hl opt">);</span>
		cur_seq<span class="hl opt">-&gt;</span>tex_palette_size<span class="hl opt">[</span>cur_seq<span class="hl opt">-&gt;</span>texture<span class="hl opt">] =</span>
		    <span class="hl opt">(</span>cmd <span class="hl opt">&gt;&gt;</span> <span class="hl num">16</span><span class="hl opt">) &amp;</span> <span class="hl num">0x000000007</span><span class="hl opt">;</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_for_vertex_count<span class="hl opt">:</span>
		cur_seq<span class="hl opt">-&gt;</span>vertex_count <span class="hl opt">=</span> cmd <span class="hl opt">&amp;</span> <span class="hl num">0x0000FFFF</span><span class="hl opt">;</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> check_number_texunits<span class="hl opt">:</span>
		cur_seq<span class="hl opt">-&gt;</span>multitex <span class="hl opt">= (</span>cmd <span class="hl opt">&gt;&gt;</span> <span class="hl num">3</span><span class="hl opt">) &amp;</span> <span class="hl num">1</span><span class="hl opt">;</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwa">default</span><span class="hl opt">:</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Illegal DMA data: 0x%x</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">,</span> cmd<span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl num">2</span><span class="hl opt">;</span>
	<span class="hl opt">}</span>
	<span class="hl kwa">return</span> <span class="hl num">2</span><span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static</span> __inline__ <span class="hl kwb">int</span>
<span class="hl kwd">via_check_prim_list</span><span class="hl opt">(</span><span class="hl kwb">uint32_t const</span> <span class="hl opt">**</span>buffer<span class="hl opt">,</span> <span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span> buf_end<span class="hl opt">,</span>
		    drm_via_state_t <span class="hl opt">*</span> cur_seq<span class="hl opt">)</span>
<span class="hl opt">{</span>
	drm_via_private_t <span class="hl opt">*</span>dev_priv <span class="hl opt">=</span>
	    <span class="hl opt">(</span>drm_via_private_t <span class="hl opt">*)</span> cur_seq<span class="hl opt">-&gt;</span>dev<span class="hl opt">-&gt;</span>dev_private<span class="hl opt">;</span>
	<span class="hl kwb">uint32_t</span> a_fire<span class="hl opt">,</span> bcmd<span class="hl opt">,</span> dw_count<span class="hl opt">;</span>
	<span class="hl kwb">int</span> ret <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwb">int</span> have_fire<span class="hl opt">;</span>
	<span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span>buf <span class="hl opt">= *</span>buffer<span class="hl opt">;</span>

	<span class="hl kwa">while</span> <span class="hl opt">(</span>buf <span class="hl opt">&lt;</span> buf_end<span class="hl opt">) {</span>
		have_fire <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">;</span>
		<span class="hl kwa">if</span> <span class="hl opt">((</span>buf_end <span class="hl opt">-</span> buf<span class="hl opt">) &lt;</span> <span class="hl num">2</span><span class="hl opt">) {</span>
			DRM_ERROR
			    <span class="hl opt">(</span><span class="hl str">&quot;Unexpected termination of primitive list.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
			ret <span class="hl opt">=</span> <span class="hl num">1</span><span class="hl opt">;</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>
		<span class="hl opt">}</span>
		<span class="hl kwa">if</span> <span class="hl opt">((*</span>buf <span class="hl opt">&amp;</span> HC_ACMD_MASK<span class="hl opt">) !=</span> HC_ACMD_HCmdB<span class="hl opt">)</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>
		bcmd <span class="hl opt">= *</span>buf<span class="hl opt">++;</span>
		<span class="hl kwa">if</span> <span class="hl opt">((*</span>buf <span class="hl opt">&amp;</span> HC_ACMD_MASK<span class="hl opt">) !=</span> HC_ACMD_HCmdA<span class="hl opt">) {</span>
			<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Expected Vertex List A command, got 0x%x</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">,</span>
				  <span class="hl opt">*</span>buf<span class="hl opt">);</span>
			ret <span class="hl opt">=</span> <span class="hl num">1</span><span class="hl opt">;</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>
		<span class="hl opt">}</span>
		a_fire <span class="hl opt">=</span>
		    <span class="hl opt">*</span>buf<span class="hl opt">++ |</span> HC_HPLEND_MASK <span class="hl opt">|</span> HC_HPMValidN_MASK <span class="hl opt">|</span>
		    HC_HE3Fire_MASK<span class="hl opt">;</span>

		<span class="hl com">/*</span>
<span class="hl com">		 * How many dwords per vertex ?</span>
<span class="hl com">		 */</span>

		<span class="hl kwa">if</span> <span class="hl opt">(</span>cur_seq<span class="hl opt">-&gt;</span>agp <span class="hl opt">&amp;&amp; ((</span>bcmd <span class="hl opt">&amp; (</span><span class="hl num">0xF</span> <span class="hl opt">&lt;&lt;</span> <span class="hl num">11</span><span class="hl opt">)) ==</span> <span class="hl num">0</span><span class="hl opt">)) {</span>
			<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Illegal B command vertex data for AGP.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
			ret <span class="hl opt">=</span> <span class="hl num">1</span><span class="hl opt">;</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>
		<span class="hl opt">}</span>

		dw_count <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">;</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>bcmd <span class="hl opt">&amp; (</span><span class="hl num">1</span> <span class="hl opt">&lt;&lt;</span> <span class="hl num">7</span><span class="hl opt">))</span>
			dw_count <span class="hl opt">+= (</span>cur_seq<span class="hl opt">-&gt;</span>multitex<span class="hl opt">) ?</span> <span class="hl num">2</span> <span class="hl opt">:</span> <span class="hl num">1</span><span class="hl opt">;</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>bcmd <span class="hl opt">&amp; (</span><span class="hl num">1</span> <span class="hl opt">&lt;&lt;</span> <span class="hl num">8</span><span class="hl opt">))</span>
			dw_count <span class="hl opt">+= (</span>cur_seq<span class="hl opt">-&gt;</span>multitex<span class="hl opt">) ?</span> <span class="hl num">2</span> <span class="hl opt">:</span> <span class="hl num">1</span><span class="hl opt">;</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>bcmd <span class="hl opt">&amp; (</span><span class="hl num">1</span> <span class="hl opt">&lt;&lt;</span> <span class="hl num">9</span><span class="hl opt">))</span>
			dw_count<span class="hl opt">++;</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>bcmd <span class="hl opt">&amp; (</span><span class="hl num">1</span> <span class="hl opt">&lt;&lt;</span> <span class="hl num">10</span><span class="hl opt">))</span>
			dw_count<span class="hl opt">++;</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>bcmd <span class="hl opt">&amp; (</span><span class="hl num">1</span> <span class="hl opt">&lt;&lt;</span> <span class="hl num">11</span><span class="hl opt">))</span>
			dw_count<span class="hl opt">++;</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>bcmd <span class="hl opt">&amp; (</span><span class="hl num">1</span> <span class="hl opt">&lt;&lt;</span> <span class="hl num">12</span><span class="hl opt">))</span>
			dw_count<span class="hl opt">++;</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>bcmd <span class="hl opt">&amp; (</span><span class="hl num">1</span> <span class="hl opt">&lt;&lt;</span> <span class="hl num">13</span><span class="hl opt">))</span>
			dw_count<span class="hl opt">++;</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>bcmd <span class="hl opt">&amp; (</span><span class="hl num">1</span> <span class="hl opt">&lt;&lt;</span> <span class="hl num">14</span><span class="hl opt">))</span>
			dw_count<span class="hl opt">++;</span>

		<span class="hl kwa">while</span> <span class="hl opt">(</span>buf <span class="hl opt">&lt;</span> buf_end<span class="hl opt">) {</span>
			<span class="hl kwa">if</span> <span class="hl opt">(*</span>buf <span class="hl opt">==</span> a_fire<span class="hl opt">) {</span>
				<span class="hl kwa">if</span> <span class="hl opt">(</span>dev_priv<span class="hl opt">-&gt;</span>num_fire_offsets <span class="hl opt">&gt;=</span>
				    VIA_FIRE_BUF_SIZE<span class="hl opt">) {</span>
					<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Fire offset buffer full.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
					ret <span class="hl opt">=</span> <span class="hl num">1</span><span class="hl opt">;</span>
					<span class="hl kwa">break</span><span class="hl opt">;</span>
				<span class="hl opt">}</span>
				dev_priv<span class="hl opt">-&gt;</span>fire_offsets<span class="hl opt">[</span>dev_priv<span class="hl opt">-&gt;</span>
						       num_fire_offsets<span class="hl opt">++] =</span>
				    buf<span class="hl opt">;</span>
				have_fire <span class="hl opt">=</span> <span class="hl num">1</span><span class="hl opt">;</span>
				buf<span class="hl opt">++;</span>
				<span class="hl kwa">if</span> <span class="hl opt">(</span>buf <span class="hl opt">&lt;</span> buf_end <span class="hl opt">&amp;&amp; *</span>buf <span class="hl opt">==</span> a_fire<span class="hl opt">)</span>
					buf<span class="hl opt">++;</span>
				<span class="hl kwa">break</span><span class="hl opt">;</span>
			<span class="hl opt">}</span>
			<span class="hl kwa">if</span> <span class="hl opt">((*</span>buf <span class="hl opt">==</span> HALCYON_HEADER2<span class="hl opt">) ||</span>
			    <span class="hl opt">((*</span>buf <span class="hl opt">&amp;</span> HALCYON_FIREMASK<span class="hl opt">) ==</span> HALCYON_FIRECMD<span class="hl opt">)) {</span>
				<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Missing Vertex Fire command, &quot;</span>
					  <span class="hl str">&quot;Stray Vertex Fire command  or verifier &quot;</span>
					  <span class="hl str">&quot;lost sync.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
				ret <span class="hl opt">=</span> <span class="hl num">1</span><span class="hl opt">;</span>
				<span class="hl kwa">break</span><span class="hl opt">;</span>
			<span class="hl opt">}</span>
			<span class="hl kwa">if</span> <span class="hl opt">((</span>ret <span class="hl opt">=</span> <span class="hl kwd">eat_words</span><span class="hl opt">(&amp;</span>buf<span class="hl opt">,</span> buf_end<span class="hl opt">,</span> dw_count<span class="hl opt">)))</span>
				<span class="hl kwa">break</span><span class="hl opt">;</span>
		<span class="hl opt">}</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>buf <span class="hl opt">&gt;=</span> buf_end <span class="hl opt">&amp;&amp; !</span>have_fire<span class="hl opt">) {</span>
			<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Missing Vertex Fire command or verifier &quot;</span>
				  <span class="hl str">&quot;lost sync.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
			ret <span class="hl opt">=</span> <span class="hl num">1</span><span class="hl opt">;</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>
		<span class="hl opt">}</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>cur_seq<span class="hl opt">-&gt;</span>agp <span class="hl opt">&amp;&amp; ((</span>buf <span class="hl opt">-</span> cur_seq<span class="hl opt">-&gt;</span>buf_start<span class="hl opt">) &amp;</span> <span class="hl num">0x01</span><span class="hl opt">)) {</span>
			<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;AGP Primitive list end misaligned.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
			ret <span class="hl opt">=</span> <span class="hl num">1</span><span class="hl opt">;</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>
		<span class="hl opt">}</span>
	<span class="hl opt">}</span>
	<span class="hl opt">*</span>buffer <span class="hl opt">=</span> buf<span class="hl opt">;</span>
	<span class="hl kwa">return</span> ret<span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static</span> __inline__ verifier_state_t
<span class="hl kwd">via_check_header2</span><span class="hl opt">(</span><span class="hl kwb">uint32_t const</span> <span class="hl opt">**</span>buffer<span class="hl opt">,</span> <span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span> buf_end<span class="hl opt">,</span>
		  drm_via_state_t <span class="hl opt">*</span> hc_state<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">uint32_t</span> cmd<span class="hl opt">;</span>
	<span class="hl kwb">int</span> hz_mode<span class="hl opt">;</span>
	hazard_t hz<span class="hl opt">;</span>
	<span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span>buf <span class="hl opt">= *</span>buffer<span class="hl opt">;</span>
	<span class="hl kwb">const</span> hazard_t <span class="hl opt">*</span>hz_table<span class="hl opt">;</span>

	<span class="hl kwa">if</span> <span class="hl opt">((</span>buf_end <span class="hl opt">-</span> buf<span class="hl opt">) &lt;</span> <span class="hl num">2</span><span class="hl opt">) {</span>
		DRM_ERROR
		    <span class="hl opt">(</span><span class="hl str">&quot;Illegal termination of DMA HALCYON_HEADER2 sequence.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
	<span class="hl opt">}</span>
	buf<span class="hl opt">++;</span>
	cmd <span class="hl opt">= (*</span>buf<span class="hl opt">++ &amp;</span> <span class="hl num">0xFFFF0000</span><span class="hl opt">) &gt;&gt;</span> <span class="hl num">16</span><span class="hl opt">;</span>

	<span class="hl kwa">switch</span> <span class="hl opt">(</span>cmd<span class="hl opt">) {</span>
	<span class="hl kwa">case</span> HC_ParaType_CmdVdata<span class="hl opt">:</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">via_check_prim_list</span><span class="hl opt">(&amp;</span>buf<span class="hl opt">,</span> buf_end<span class="hl opt">,</span> hc_state<span class="hl opt">))</span>
			<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
		<span class="hl opt">*</span>buffer <span class="hl opt">=</span> buf<span class="hl opt">;</span>
		<span class="hl kwa">return</span> state_command<span class="hl opt">;</span>
	<span class="hl kwa">case</span> HC_ParaType_NotTex<span class="hl opt">:</span>
		hz_table <span class="hl opt">=</span> table1<span class="hl opt">;</span>
		<span class="hl kwa">break</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> HC_ParaType_Tex<span class="hl opt">:</span>
		hc_state<span class="hl opt">-&gt;</span>texture <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">;</span>
		hz_table <span class="hl opt">=</span> table2<span class="hl opt">;</span>
		<span class="hl kwa">break</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> <span class="hl opt">(</span>HC_ParaType_Tex <span class="hl opt">| (</span>HC_SubType_Tex1 <span class="hl opt">&lt;&lt;</span> <span class="hl num">8</span><span class="hl opt">)):</span>
		hc_state<span class="hl opt">-&gt;</span>texture <span class="hl opt">=</span> <span class="hl num">1</span><span class="hl opt">;</span>
		hz_table <span class="hl opt">=</span> table2<span class="hl opt">;</span>
		<span class="hl kwa">break</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> <span class="hl opt">(</span>HC_ParaType_Tex <span class="hl opt">| (</span>HC_SubType_TexGeneral <span class="hl opt">&lt;&lt;</span> <span class="hl num">8</span><span class="hl opt">)):</span>
		hz_table <span class="hl opt">=</span> table3<span class="hl opt">;</span>
		<span class="hl kwa">break</span><span class="hl opt">;</span>
	<span class="hl kwa">case</span> HC_ParaType_Auto<span class="hl opt">:</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">eat_words</span><span class="hl opt">(&amp;</span>buf<span class="hl opt">,</span> buf_end<span class="hl opt">,</span> <span class="hl num">2</span><span class="hl opt">))</span>
			<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
		<span class="hl opt">*</span>buffer <span class="hl opt">=</span> buf<span class="hl opt">;</span>
		<span class="hl kwa">return</span> state_command<span class="hl opt">;</span>
	<span class="hl kwa">case</span> <span class="hl opt">(</span>HC_ParaType_Palette <span class="hl opt">| (</span>HC_SubType_Stipple <span class="hl opt">&lt;&lt;</span> <span class="hl num">8</span><span class="hl opt">)):</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">eat_words</span><span class="hl opt">(&amp;</span>buf<span class="hl opt">,</span> buf_end<span class="hl opt">,</span> <span class="hl num">32</span><span class="hl opt">))</span>
			<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
		<span class="hl opt">*</span>buffer <span class="hl opt">=</span> buf<span class="hl opt">;</span>
		<span class="hl kwa">return</span> state_command<span class="hl opt">;</span>
	<span class="hl kwa">case</span> <span class="hl opt">(</span>HC_ParaType_Palette <span class="hl opt">| (</span>HC_SubType_TexPalette0 <span class="hl opt">&lt;&lt;</span> <span class="hl num">8</span><span class="hl opt">)):</span>
	<span class="hl kwa">case</span> <span class="hl opt">(</span>HC_ParaType_Palette <span class="hl opt">| (</span>HC_SubType_TexPalette1 <span class="hl opt">&lt;&lt;</span> <span class="hl num">8</span><span class="hl opt">)):</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Texture palettes are rejected because of &quot;</span>
			  <span class="hl str">&quot;lack of info how to determine their size.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
	<span class="hl kwa">case</span> <span class="hl opt">(</span>HC_ParaType_Palette <span class="hl opt">| (</span>HC_SubType_FogTable <span class="hl opt">&lt;&lt;</span> <span class="hl num">8</span><span class="hl opt">)):</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Fog factor palettes are rejected because of &quot;</span>
			  <span class="hl str">&quot;lack of info how to determine their size.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
	<span class="hl kwa">default</span><span class="hl opt">:</span>

		<span class="hl com">/*</span>
<span class="hl com">		 * There are some unimplemented HC_ParaTypes here, that</span>
<span class="hl com">		 * need to be implemented if the Mesa driver is extended.</span>
<span class="hl com">		 */</span>

		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Invalid or unimplemented HALCYON_HEADER2 &quot;</span>
			  <span class="hl str">&quot;DMA subcommand: 0x%x. Previous dword: 0x%x</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">,</span>
			  cmd<span class="hl opt">, *(</span>buf <span class="hl opt">-</span> <span class="hl num">2</span><span class="hl opt">));</span>
		<span class="hl opt">*</span>buffer <span class="hl opt">=</span> buf<span class="hl opt">;</span>
		<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
	<span class="hl opt">}</span>

	<span class="hl kwa">while</span> <span class="hl opt">(</span>buf <span class="hl opt">&lt;</span> buf_end<span class="hl opt">) {</span>
		cmd <span class="hl opt">= *</span>buf<span class="hl opt">++;</span>
		<span class="hl kwa">if</span> <span class="hl opt">((</span>hz <span class="hl opt">=</span> hz_table<span class="hl opt">[</span>cmd <span class="hl opt">&gt;&gt;</span> <span class="hl num">24</span><span class="hl opt">])) {</span>
			<span class="hl kwa">if</span> <span class="hl opt">((</span>hz_mode <span class="hl opt">=</span> <span class="hl kwd">investigate_hazard</span><span class="hl opt">(</span>cmd<span class="hl opt">,</span> hz<span class="hl opt">,</span> hc_state<span class="hl opt">))) {</span>
				<span class="hl kwa">if</span> <span class="hl opt">(</span>hz_mode <span class="hl opt">==</span> <span class="hl num">1</span><span class="hl opt">) {</span>
					buf<span class="hl opt">--;</span>
					<span class="hl kwa">break</span><span class="hl opt">;</span>
				<span class="hl opt">}</span>
				<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
			<span class="hl opt">}</span>
		<span class="hl opt">}</span> <span class="hl kwa">else if</span> <span class="hl opt">(</span>hc_state<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">&amp;&amp;</span>
			   <span class="hl kwd">finish_current_sequence</span><span class="hl opt">(</span>hc_state<span class="hl opt">)) {</span>
			<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
		<span class="hl opt">}</span>
	<span class="hl opt">}</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span>hc_state<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">&amp;&amp;</span> <span class="hl kwd">finish_current_sequence</span><span class="hl opt">(</span>hc_state<span class="hl opt">)) {</span>
		<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
	<span class="hl opt">}</span>
	<span class="hl opt">*</span>buffer <span class="hl opt">=</span> buf<span class="hl opt">;</span>
	<span class="hl kwa">return</span> state_command<span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static</span> __inline__ verifier_state_t
<span class="hl kwd">via_parse_header2</span><span class="hl opt">(</span>drm_via_private_t <span class="hl opt">*</span> dev_priv<span class="hl opt">,</span> <span class="hl kwb">uint32_t const</span> <span class="hl opt">**</span>buffer<span class="hl opt">,</span>
		  <span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span> buf_end<span class="hl opt">,</span> <span class="hl kwb">int</span> <span class="hl opt">*</span>fire_count<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">uint32_t</span> cmd<span class="hl opt">;</span>
	<span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span>buf <span class="hl opt">= *</span>buffer<span class="hl opt">;</span>
	<span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span>next_fire<span class="hl opt">;</span>
	<span class="hl kwb">int</span> burst <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">;</span>

	next_fire <span class="hl opt">=</span> dev_priv<span class="hl opt">-&gt;</span>fire_offsets<span class="hl opt">[*</span>fire_count<span class="hl opt">];</span>
	buf<span class="hl opt">++;</span>
	cmd <span class="hl opt">= (*</span>buf <span class="hl opt">&amp;</span> <span class="hl num">0xFFFF0000</span><span class="hl opt">) &gt;&gt;</span> <span class="hl num">16</span><span class="hl opt">;</span>
	<span class="hl kwd">VIA_WRITE</span><span class="hl opt">(</span>HC_REG_TRANS_SET <span class="hl opt">+</span> HC_REG_BASE<span class="hl opt">, *</span>buf<span class="hl opt">++);</span>
	<span class="hl kwa">switch</span> <span class="hl opt">(</span>cmd<span class="hl opt">) {</span>
	<span class="hl kwa">case</span> HC_ParaType_CmdVdata<span class="hl opt">:</span>
		<span class="hl kwa">while</span> <span class="hl opt">((</span>buf <span class="hl opt">&lt;</span> buf_end<span class="hl opt">) &amp;&amp;</span>
		       <span class="hl opt">(*</span>fire_count <span class="hl opt">&lt;</span> dev_priv<span class="hl opt">-&gt;</span>num_fire_offsets<span class="hl opt">) &amp;&amp;</span>
		       <span class="hl opt">(*</span>buf <span class="hl opt">&amp;</span> HC_ACMD_MASK<span class="hl opt">) ==</span> HC_ACMD_HCmdB<span class="hl opt">) {</span>
			<span class="hl kwa">while</span> <span class="hl opt">(</span>buf <span class="hl opt">&lt;=</span> next_fire<span class="hl opt">) {</span>
				<span class="hl kwd">VIA_WRITE</span><span class="hl opt">(</span>HC_REG_TRANS_SPACE <span class="hl opt">+</span> HC_REG_BASE <span class="hl opt">+</span>
					  <span class="hl opt">(</span>burst <span class="hl opt">&amp;</span> <span class="hl num">63</span><span class="hl opt">), *</span>buf<span class="hl opt">++);</span>
				burst <span class="hl opt">+=</span> <span class="hl num">4</span><span class="hl opt">;</span>
			<span class="hl opt">}</span>
			<span class="hl kwa">if</span> <span class="hl opt">((</span>buf <span class="hl opt">&lt;</span> buf_end<span class="hl opt">)</span>
			    <span class="hl opt">&amp;&amp; ((*</span>buf <span class="hl opt">&amp;</span> HALCYON_FIREMASK<span class="hl opt">) ==</span> HALCYON_FIRECMD<span class="hl opt">))</span>
				buf<span class="hl opt">++;</span>

			<span class="hl kwa">if</span> <span class="hl opt">(++(*</span>fire_count<span class="hl opt">) &lt;</span> dev_priv<span class="hl opt">-&gt;</span>num_fire_offsets<span class="hl opt">)</span>
				next_fire <span class="hl opt">=</span> dev_priv<span class="hl opt">-&gt;</span>fire_offsets<span class="hl opt">[*</span>fire_count<span class="hl opt">];</span>
		<span class="hl opt">}</span>
		<span class="hl kwa">break</span><span class="hl opt">;</span>
	<span class="hl kwa">default</span><span class="hl opt">:</span>
		<span class="hl kwa">while</span> <span class="hl opt">(</span>buf <span class="hl opt">&lt;</span> buf_end<span class="hl opt">) {</span>

			<span class="hl kwa">if</span> <span class="hl opt">(*</span>buf <span class="hl opt">==</span> HC_HEADER2 <span class="hl opt">||</span>
			    <span class="hl opt">(*</span>buf <span class="hl opt">&amp;</span> HALCYON_HEADER1MASK<span class="hl opt">) ==</span> HALCYON_HEADER1 <span class="hl opt">||</span>
			    <span class="hl opt">(*</span>buf <span class="hl opt">&amp;</span> VIA_VIDEOMASK<span class="hl opt">) ==</span> VIA_VIDEO_HEADER5 <span class="hl opt">||</span>
			    <span class="hl opt">(*</span>buf <span class="hl opt">&amp;</span> VIA_VIDEOMASK<span class="hl opt">) ==</span> VIA_VIDEO_HEADER6<span class="hl opt">)</span>
				<span class="hl kwa">break</span><span class="hl opt">;</span>

			<span class="hl kwd">VIA_WRITE</span><span class="hl opt">(</span>HC_REG_TRANS_SPACE <span class="hl opt">+</span> HC_REG_BASE <span class="hl opt">+</span>
				  <span class="hl opt">(</span>burst <span class="hl opt">&amp;</span> <span class="hl num">63</span><span class="hl opt">), *</span>buf<span class="hl opt">++);</span>
			burst <span class="hl opt">+=</span> <span class="hl num">4</span><span class="hl opt">;</span>
		<span class="hl opt">}</span>
	<span class="hl opt">}</span>
	<span class="hl opt">*</span>buffer <span class="hl opt">=</span> buf<span class="hl opt">;</span>
	<span class="hl kwa">return</span> state_command<span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static</span> __inline__ <span class="hl kwb">int</span> <span class="hl kwd">verify_mmio_address</span><span class="hl opt">(</span><span class="hl kwb">uint32_t</span> address<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwa">if</span> <span class="hl opt">((</span>address <span class="hl opt">&gt;</span> <span class="hl num">0x3FF</span><span class="hl opt">) &amp;&amp; (</span>address <span class="hl opt">&lt;</span> <span class="hl num">0xC00</span><span class="hl opt">)) {</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Invalid VIDEO DMA command. &quot;</span>
			  <span class="hl str">&quot;Attempt to access 3D- or command burst area.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl num">1</span><span class="hl opt">;</span>
	<span class="hl opt">}</span> <span class="hl kwa">else if</span> <span class="hl opt">((</span>address <span class="hl opt">&gt;</span> <span class="hl num">0xCFF</span><span class="hl opt">) &amp;&amp; (</span>address <span class="hl opt">&lt;</span> <span class="hl num">0x1300</span><span class="hl opt">)) {</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Invalid VIDEO DMA command. &quot;</span>
			  <span class="hl str">&quot;Attempt to access PCI DMA area.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl num">1</span><span class="hl opt">;</span>
	<span class="hl opt">}</span> <span class="hl kwa">else if</span> <span class="hl opt">(</span>address <span class="hl opt">&gt;</span> <span class="hl num">0x13FF</span><span class="hl opt">) {</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Invalid VIDEO DMA command. &quot;</span>
			  <span class="hl str">&quot;Attempt to access VGA registers.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl num">1</span><span class="hl opt">;</span>
	<span class="hl opt">}</span>
	<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static</span> __inline__ <span class="hl kwb">int</span>
<span class="hl kwd">verify_video_tail</span><span class="hl opt">(</span><span class="hl kwb">uint32_t const</span> <span class="hl opt">**</span>buffer<span class="hl opt">,</span> <span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span> buf_end<span class="hl opt">,</span>
		  <span class="hl kwb">uint32_t</span> dwords<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span>buf <span class="hl opt">= *</span>buffer<span class="hl opt">;</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span>buf_end <span class="hl opt">-</span> buf <span class="hl opt">&lt;</span> dwords<span class="hl opt">) {</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Illegal termination of video command.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl num">1</span><span class="hl opt">;</span>
	<span class="hl opt">}</span>
	<span class="hl kwa">while</span> <span class="hl opt">(</span>dwords<span class="hl opt">--) {</span>
		<span class="hl kwa">if</span> <span class="hl opt">(*</span>buf<span class="hl opt">++) {</span>
			<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Illegal video command tail.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
			<span class="hl kwa">return</span> <span class="hl num">1</span><span class="hl opt">;</span>
		<span class="hl opt">}</span>
	<span class="hl opt">}</span>
	<span class="hl opt">*</span>buffer <span class="hl opt">=</span> buf<span class="hl opt">;</span>
	<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static</span> __inline__ verifier_state_t
<span class="hl kwd">via_check_header1</span><span class="hl opt">(</span><span class="hl kwb">uint32_t const</span> <span class="hl opt">**</span>buffer<span class="hl opt">,</span> <span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span> buf_end<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">uint32_t</span> cmd<span class="hl opt">;</span>
	<span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span>buf <span class="hl opt">= *</span>buffer<span class="hl opt">;</span>
	verifier_state_t ret <span class="hl opt">=</span> state_command<span class="hl opt">;</span>

	<span class="hl kwa">while</span> <span class="hl opt">(</span>buf <span class="hl opt">&lt;</span> buf_end<span class="hl opt">) {</span>
		cmd <span class="hl opt">= *</span>buf<span class="hl opt">;</span>
		<span class="hl kwa">if</span> <span class="hl opt">((</span>cmd <span class="hl opt">&gt; ((</span><span class="hl num">0x3FF</span> <span class="hl opt">&gt;&gt;</span> <span class="hl num">2</span><span class="hl opt">) |</span> HALCYON_HEADER1<span class="hl opt">)) &amp;&amp;</span>
		    <span class="hl opt">(</span>cmd <span class="hl opt">&lt; ((</span><span class="hl num">0xC00</span> <span class="hl opt">&gt;&gt;</span> <span class="hl num">2</span><span class="hl opt">) |</span> HALCYON_HEADER1<span class="hl opt">))) {</span>
			<span class="hl kwa">if</span> <span class="hl opt">((</span>cmd <span class="hl opt">&amp;</span> HALCYON_HEADER1MASK<span class="hl opt">) !=</span> HALCYON_HEADER1<span class="hl opt">)</span>
				<span class="hl kwa">break</span><span class="hl opt">;</span>
			<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Invalid HALCYON_HEADER1 command. &quot;</span>
				  <span class="hl str">&quot;Attempt to access 3D- or command burst area.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
			ret <span class="hl opt">=</span> state_error<span class="hl opt">;</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>
		<span class="hl opt">}</span> <span class="hl kwa">else if</span> <span class="hl opt">(</span>cmd <span class="hl opt">&gt; ((</span><span class="hl num">0xCFF</span> <span class="hl opt">&gt;&gt;</span> <span class="hl num">2</span><span class="hl opt">) |</span> HALCYON_HEADER1<span class="hl opt">)) {</span>
			<span class="hl kwa">if</span> <span class="hl opt">((</span>cmd <span class="hl opt">&amp;</span> HALCYON_HEADER1MASK<span class="hl opt">) !=</span> HALCYON_HEADER1<span class="hl opt">)</span>
				<span class="hl kwa">break</span><span class="hl opt">;</span>
			<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Invalid HALCYON_HEADER1 command. &quot;</span>
				  <span class="hl str">&quot;Attempt to access VGA registers.</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
			ret <span class="hl opt">=</span> state_error<span class="hl opt">;</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>
		<span class="hl opt">}</span> <span class="hl kwa">else</span> <span class="hl opt">{</span>
			buf <span class="hl opt">+=</span> <span class="hl num">2</span><span class="hl opt">;</span>
		<span class="hl opt">}</span>
	<span class="hl opt">}</span>
	<span class="hl opt">*</span>buffer <span class="hl opt">=</span> buf<span class="hl opt">;</span>
	<span class="hl kwa">return</span> ret<span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static</span> __inline__ verifier_state_t
<span class="hl kwd">via_parse_header1</span><span class="hl opt">(</span>drm_via_private_t <span class="hl opt">*</span> dev_priv<span class="hl opt">,</span> <span class="hl kwb">uint32_t const</span> <span class="hl opt">**</span>buffer<span class="hl opt">,</span>
		  <span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span> buf_end<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwc">register</span> <span class="hl kwb">uint32_t</span> cmd<span class="hl opt">;</span>
	<span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span>buf <span class="hl opt">= *</span>buffer<span class="hl opt">;</span>

	<span class="hl kwa">while</span> <span class="hl opt">(</span>buf <span class="hl opt">&lt;</span> buf_end<span class="hl opt">) {</span>
		cmd <span class="hl opt">= *</span>buf<span class="hl opt">;</span>
		<span class="hl kwa">if</span> <span class="hl opt">((</span>cmd <span class="hl opt">&amp;</span> HALCYON_HEADER1MASK<span class="hl opt">) !=</span> HALCYON_HEADER1<span class="hl opt">)</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>
		<span class="hl kwd">VIA_WRITE</span><span class="hl opt">((</span>cmd <span class="hl opt">&amp; ~</span>HALCYON_HEADER1MASK<span class="hl opt">) &lt;&lt;</span> <span class="hl num">2</span><span class="hl opt">, *++</span>buf<span class="hl opt">);</span>
		buf<span class="hl opt">++;</span>
	<span class="hl opt">}</span>
	<span class="hl opt">*</span>buffer <span class="hl opt">=</span> buf<span class="hl opt">;</span>
	<span class="hl kwa">return</span> state_command<span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static</span> __inline__ verifier_state_t
<span class="hl kwd">via_check_vheader5</span><span class="hl opt">(</span><span class="hl kwb">uint32_t const</span> <span class="hl opt">**</span>buffer<span class="hl opt">,</span> <span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span> buf_end<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">uint32_t</span> data<span class="hl opt">;</span>
	<span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span>buf <span class="hl opt">= *</span>buffer<span class="hl opt">;</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span>buf_end <span class="hl opt">-</span> buf <span class="hl opt">&lt;</span> <span class="hl num">4</span><span class="hl opt">) {</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Illegal termination of video header5 command</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
	<span class="hl opt">}</span>

	data <span class="hl opt">= *</span>buf<span class="hl opt">++ &amp; ~</span>VIA_VIDEOMASK<span class="hl opt">;</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">verify_mmio_address</span><span class="hl opt">(</span>data<span class="hl opt">))</span>
		<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>

	data <span class="hl opt">= *</span>buf<span class="hl opt">++;</span>
	<span class="hl kwa">if</span> <span class="hl opt">(*</span>buf<span class="hl opt">++ !=</span> <span class="hl num">0x00F50000</span><span class="hl opt">) {</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Illegal header5 header data</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
	<span class="hl opt">}</span>
	<span class="hl kwa">if</span> <span class="hl opt">(*</span>buf<span class="hl opt">++ !=</span> <span class="hl num">0x00000000</span><span class="hl opt">) {</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Illegal header5 header data</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
	<span class="hl opt">}</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">eat_words</span><span class="hl opt">(&amp;</span>buf<span class="hl opt">,</span> buf_end<span class="hl opt">,</span> data<span class="hl opt">))</span>
		<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
	<span class="hl kwa">if</span> <span class="hl opt">((</span>data <span class="hl opt">&amp;</span> <span class="hl num">3</span><span class="hl opt">) &amp;&amp;</span> <span class="hl kwd">verify_video_tail</span><span class="hl opt">(&amp;</span>buf<span class="hl opt">,</span> buf_end<span class="hl opt">,</span> <span class="hl num">4</span> <span class="hl opt">- (</span>data <span class="hl opt">&amp;</span> <span class="hl num">3</span><span class="hl opt">)))</span>
		<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
	<span class="hl opt">*</span>buffer <span class="hl opt">=</span> buf<span class="hl opt">;</span>
	<span class="hl kwa">return</span> state_command<span class="hl opt">;</span>

<span class="hl opt">}</span>

<span class="hl kwb">static</span> __inline__ verifier_state_t
<span class="hl kwd">via_parse_vheader5</span><span class="hl opt">(</span>drm_via_private_t <span class="hl opt">*</span> dev_priv<span class="hl opt">,</span> <span class="hl kwb">uint32_t const</span> <span class="hl opt">**</span>buffer<span class="hl opt">,</span>
		   <span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span> buf_end<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">uint32_t</span> addr<span class="hl opt">,</span> count<span class="hl opt">,</span> i<span class="hl opt">;</span>
	<span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span>buf <span class="hl opt">= *</span>buffer<span class="hl opt">;</span>

	addr <span class="hl opt">= *</span>buf<span class="hl opt">++ &amp; ~</span>VIA_VIDEOMASK<span class="hl opt">;</span>
	i <span class="hl opt">=</span> count <span class="hl opt">= *</span>buf<span class="hl opt">;</span>
	buf <span class="hl opt">+=</span> <span class="hl num">3</span><span class="hl opt">;</span>
	<span class="hl kwa">while</span> <span class="hl opt">(</span>i<span class="hl opt">--) {</span>
		<span class="hl kwd">VIA_WRITE</span><span class="hl opt">(</span>addr<span class="hl opt">, *</span>buf<span class="hl opt">++);</span>
	<span class="hl opt">}</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span>count <span class="hl opt">&amp;</span> <span class="hl num">3</span><span class="hl opt">)</span>
		buf <span class="hl opt">+=</span> <span class="hl num">4</span> <span class="hl opt">- (</span>count <span class="hl opt">&amp;</span> <span class="hl num">3</span><span class="hl opt">);</span>
	<span class="hl opt">*</span>buffer <span class="hl opt">=</span> buf<span class="hl opt">;</span>
	<span class="hl kwa">return</span> state_command<span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static</span> __inline__ verifier_state_t
<span class="hl kwd">via_check_vheader6</span><span class="hl opt">(</span><span class="hl kwb">uint32_t const</span> <span class="hl opt">**</span>buffer<span class="hl opt">,</span> <span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span> buf_end<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">uint32_t</span> data<span class="hl opt">;</span>
	<span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span>buf <span class="hl opt">= *</span>buffer<span class="hl opt">;</span>
	<span class="hl kwb">uint32_t</span> i<span class="hl opt">;</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span>buf_end <span class="hl opt">-</span> buf <span class="hl opt">&lt;</span> <span class="hl num">4</span><span class="hl opt">) {</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Illegal termination of video header6 command</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
	<span class="hl opt">}</span>
	buf<span class="hl opt">++;</span>
	data <span class="hl opt">= *</span>buf<span class="hl opt">++;</span>
	<span class="hl kwa">if</span> <span class="hl opt">(*</span>buf<span class="hl opt">++ !=</span> <span class="hl num">0x00F60000</span><span class="hl opt">) {</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Illegal header6 header data</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
	<span class="hl opt">}</span>
	<span class="hl kwa">if</span> <span class="hl opt">(*</span>buf<span class="hl opt">++ !=</span> <span class="hl num">0x00000000</span><span class="hl opt">) {</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Illegal header6 header data</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
	<span class="hl opt">}</span>
	<span class="hl kwa">if</span> <span class="hl opt">((</span>buf_end <span class="hl opt">-</span> buf<span class="hl opt">) &lt; (</span>data <span class="hl opt">&lt;&lt;</span> <span class="hl num">1</span><span class="hl opt">)) {</span>
		<span class="hl kwd">DRM_ERROR</span><span class="hl opt">(</span><span class="hl str">&quot;Illegal termination of video header6 command</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
	<span class="hl opt">}</span>
	<span class="hl kwa">for</span> <span class="hl opt">(</span>i <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">;</span> i <span class="hl opt">&lt;</span> data<span class="hl opt">; ++</span>i<span class="hl opt">) {</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">verify_mmio_address</span><span class="hl opt">(*</span>buf<span class="hl opt">++))</span>
			<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
		buf<span class="hl opt">++;</span>
	<span class="hl opt">}</span>
	data <span class="hl opt">&lt;&lt;=</span> <span class="hl num">1</span><span class="hl opt">;</span>
	<span class="hl kwa">if</span> <span class="hl opt">((</span>data <span class="hl opt">&amp;</span> <span class="hl num">3</span><span class="hl opt">) &amp;&amp;</span> <span class="hl kwd">verify_video_tail</span><span class="hl opt">(&amp;</span>buf<span class="hl opt">,</span> buf_end<span class="hl opt">,</span> <span class="hl num">4</span> <span class="hl opt">- (</span>data <span class="hl opt">&amp;</span> <span class="hl num">3</span><span class="hl opt">)))</span>
		<span class="hl kwa">return</span> state_error<span class="hl opt">;</span>
	<span class="hl opt">*</span>buffer <span class="hl opt">=</span> buf<span class="hl opt">;</span>
	<span class="hl kwa">return</span> state_command<span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static</span> __inline__ verifier_state_t
<span class="hl kwd">via_parse_vheader6</span><span class="hl opt">(</span>drm_via_private_t <span class="hl opt">*</span> dev_priv<span class="hl opt">,</span> <span class="hl kwb">uint32_t const</span> <span class="hl opt">**</span>buffer<span class="hl opt">,</span>
		   <span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span> buf_end<span class="hl opt">)</span>
<span class="hl opt">{</span>

	<span class="hl kwb">uint32_t</span> addr<span class="hl opt">,</span> count<span class="hl opt">,</span> i<span class="hl opt">;</span>
	<span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span>buf <span class="hl opt">= *</span>buffer<span class="hl opt">;</span>

	i <span class="hl opt">=</span> count <span class="hl opt">= *++</span>buf<span class="hl opt">;</span>
	buf <span class="hl opt">+=</span> <span class="hl num">3</span><span class="hl opt">;</span>
	<span class="hl kwa">while</span> <span class="hl opt">(</span>i<span class="hl opt">--) {</span>
		addr <span class="hl opt">= *</span>buf<span class="hl opt">++;</span>
		<span class="hl kwd">VIA_WRITE</span><span class="hl opt">(</span>addr<span class="hl opt">, *</span>buf<span class="hl opt">++);</span>
	<span class="hl opt">}</span>
	count <span class="hl opt">&lt;&lt;=</span> <span class="hl num">1</span><span class="hl opt">;</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span>count <span class="hl opt">&amp;</span> <span class="hl num">3</span><span class="hl opt">)</span>
		buf <span class="hl opt">+=</span> <span class="hl num">4</span> <span class="hl opt">- (</span>count <span class="hl opt">&amp;</span> <span class="hl num">3</span><span class="hl opt">);</span>
	<span class="hl opt">*</span>buffer <span class="hl opt">=</span> buf<span class="hl opt">;</span>
	<span class="hl kwa">return</span> state_command<span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">int</span>
<span class="hl kwd">via_verify_command_stream</span><span class="hl opt">(</span><span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span> buf<span class="hl opt">,</span> <span class="hl kwb">unsigned int</span> size<span class="hl opt">,</span>
			  <span class="hl kwb">struct</span> drm_device <span class="hl opt">*</span> dev<span class="hl opt">,</span> <span class="hl kwb">int</span> agp<span class="hl opt">)</span>
<span class="hl opt">{</span>

	drm_via_private_t <span class="hl opt">*</span>dev_priv <span class="hl opt">= (</span>drm_via_private_t <span class="hl opt">*)</span> dev<span class="hl opt">-&gt;</span>dev_private<span class="hl opt">;</span>
	drm_via_state_t <span class="hl opt">*</span>hc_state <span class="hl opt">= &amp;</span>dev_priv<span class="hl opt">-&gt;</span>hc_state<span class="hl opt">;</span>
	drm_via_state_t saved_state <span class="hl opt">= *</span>hc_state<span class="hl opt">;</span>
	<span class="hl kwb">uint32_t</span> cmd<span class="hl opt">;</span>
	<span class="hl kwb">const uint32_t</span> <span class="hl opt">*</span>buf_end <span class="hl opt">=</span> buf <span class="hl opt">+ (</span>size <span class="hl opt">&gt;&gt;</span> <span class="hl num">2</span><span class="hl opt">);</span>
	verifier_state_t state <span class="hl opt">=</span> state_command<span class="hl opt">;</span>
	<span class="hl kwb">int</span> cme_video<span class="hl opt">;</span>
	<span class="hl kwb">int</span> supported_3d<span class="hl opt">;</span>

	cme_video <span class="hl opt">= (</span>dev_priv<span class="hl opt">-&gt;</span>chipset <span class="hl opt">==</span> VIA_PRO_GROUP_A <span class="hl opt">||</span>
		     dev_priv<span class="hl opt">-&gt;</span>chipset <span class="hl opt">==</span> VIA_DX9_0<span class="hl opt">);</span>

	supported_3d <span class="hl opt">=</span> dev_priv<span class="hl opt">-&gt;</span>chipset <span class="hl opt">!=</span> VIA_DX9_0<span class="hl opt">;</span>

	hc_state<span class="hl opt">-&gt;</span>dev <span class="hl opt">=</span> dev<span class="hl opt">;</span>
	hc_state<span class="hl opt">-&gt;</span>unfinished <span class="hl opt">=</span> no_sequence<span class="hl opt">;</span>
	hc_state<span class="hl opt">-&gt;</span>map_cache <span class="hl opt">=</span> NULL<span class="hl opt">;</span>
	hc_state<span class="hl opt">-&gt;</span>agp <span class="hl opt">=</span> agp<span class="hl opt">;</span>
	hc_state<span class="hl opt">-&gt;</span>buf_start <span class="hl opt">=</span> buf<span class="hl opt">;</span>
	dev_priv<span class="hl opt">-&gt;</span>num_fire_offsets <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">;</span>

	<span class="hl kwa">while</span> <span class="hl opt">(</span>buf <span class="hl opt">&lt;</span> buf_end<span class="hl opt">) {</span>

		<span class="hl kwa">switch</span> <span class="hl opt">(</span>state<span class="hl opt">) {</span>
		<span class="hl kwa">case</span> state_header2<span class="hl opt">:</span>
			state <span class="hl opt">=</span> <span class="hl kwd">via_check_header2</span><span class="hl opt">(&amp;</span>buf<span class="hl opt">,</span> buf_end<span class="hl opt">,</span> hc_state<span class="hl opt">);</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>
		<span class="hl kwa">case</span> state_header1<span class="hl opt">:</span>
			state <span class="hl opt">=</span> <span class="hl kwd">via_check_header1</span><span class="hl opt">(&amp;</span>buf<span class="hl opt">,</span> buf_end<span class="hl opt">);</span>
			<span class="hl kwa">break</span><span class="hl opt">;