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+Tiling and Isometric Lightweight Engine for Rotation (TILER) driver
+
+Dynamic Memory Manager (DMM) is a hardware block made by Texas Instruments.
+Within the DMM exists at least one TILER hardware component. Its purpose is to
+organize video/image memory in a 2-dimensional fashion to limit memory
+bandwidth and facilitate 0 effort rotation and mirroring. The TILER driver
+facilitates allocating, freeing, as well as mapping 2D blocks (areas) in the
+TILER container(s). It also facilitates rotating and mirroring the allocated
+blocks or its rectangular subsections.
+
+TERMINOLOGY
+
+"slot"
+
+The basic TILER driver operates on blocks of slots. A slot is the granularity
+of the TILER hardware device. For all current uses it is 4K, but could also be
+16 or 64K. The DMM-TILER TRM refers to this as "page" but we want to separate
+this concept from the MMU pages.
+
+"page"
+
+The granularity of the MMU, used by the kernel. This is 4K.
+
+"block"
+
+The TILER hardware component supports 1D and 2D blocks. A 2D block is a
+rectangular arrangement of slots with arbitrary width and height in a 2D
+container. A 1D block is a linear arrangement of slots with arbitrary length
+ in a 1D container. This TILER driver only supports 2D blocks.
+
+"container"
+
+The TILER driver supports an arbitrary TILER container size. However, for
+all current implementations it is 256 by 128 slots. The container currently can
+only be used as a 2D container.
+
+"reserved area"
+
+Each block resides within a reserved area in the container. This area may
+be larger than the actual set of slots that a block occupies. The reason for
+this is to protect access from one block into another. Since TILER container is
+mmap-ped into user space as individual pages, all slots that are spanned by
+that page become visible to the user. The tiler driver allows restricting the
+granularity of the reserved area (default alignment) as well as the mapped
+area (granularity).
+
+Using TILER driver KERNEL APIs:
+
+1. Allocating and freeing a 1080p YUV422 block
+
+ struct tiler_block_t blk = {0};
+ int res;
+
+ blk.width = 1920;
+ blk.height = 1080;
+ res = tiler_alloc(&blk, TILFMT_16BIT, 0, 0);
+
+ tiler_free(&blk);
+
+2. Allocating and freeing a 1080p YUV420p block
+
+ struct tiler_block_t blk_Y = {0}, blk_UV = {0};
+ int res;
+
+ blk_Y.width = 1920;
+ blk_Y.height = 1080;
+ blk_UV.widht = 960;
+ blk_UV.height = 540;
+ res = tiler_alloc(&blk_Y, TILFMT_8BIT, 0, 0) ? :
+ tiler_alloc(&blk_UV, TILFMT_16BIT, PAGE_SIZE,
+ blk_y->phys & ~PAGE_MASK);
+
+ tiler_free(&blk_Y);
+ tiler_free(&blk_UV);
+
+Note how we allocated the UV block at the same in-page offset as the Y buffer.
+This facilitates mmap-ping both Y and UV blocks into userspace as one
+contiguous buffer.
+
+3. Mmap-ing YUV420p block into user space
+
+ static int my_mmap(struct file *file, struct vm_area_struct *vma)
+ {
+ unsigned long size = (vma->vm_end - vma->vm_start);
+ unsigned long start = vma->vm_start;
+
+ if (size != tiler_size(&blk_Y) + tiler_size(&blk_UV))
+ return -EINVAL;
+
+ return tiler_mmap_blk(&blk_Y, 0, tiler_size(&blk_Y), vma, 0) ?
+ : tiler_mmap_blk(&blk_UV, 0, tiler_size(&blk_UV), vma,
+ tiler_size(&blk_Y));
+ }
+
+CONFIGURATIONS
+
+The TILER driver allows specifying a container manager (tcm) for each
+pixel format. The same container manager can be specified for more than
+one pixel formats.
+
+Each container manager also operates on a Physical Address Translator PAT
+ instance. One can also specify a "virtual" PAT (with a linear preassigned
+ memory space no actual PAT programming), but it is not implemented.
+
+PARAMETERS
+
+The TILER driver allows specifying:
+
+ granularity (tiler.grain, CONFIG_TILER_GRANULARITY):
+
+ Each block is mapped in width-chunks of granularity.
+
+ default alignment (tiler.align, CONFIG_TILER_ALIGNMENT):
+
+ Default alignment if aligment is not specified (0). Otherwise,
+ blocks are allocated at an address aligned to the value given plus an
+ offset within the alignment.
+
+ cache limit (tiler.cache, CONFIG_TILER_CACHE_LIMIT):
+
+ TILER driver keeps a cache of allocated pages to speed up allocation of
+ TILER blocks. You can set a limit of how much memory the TILER driver
+ should keep if there are no actual TILER allocations. This also means
+ that if there is less memory used than this limit, the pages of freed
+ tiler blocks will not actually be freed, but instead are put into this
+ cache.
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+/*
+ * TILER driver support functions for TI TILER hardware block.
+ *
+ * Copyright (C) 2010 Texas Instruments Incorporated - http://www.ti.com/
+ *
+ * This program is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU General Public License as
+ * published by the Free Software Foundation version 2.
+ *
+ * This program is distributed "as is" WITHOUT ANY WARRANTY of any
+ * kind, whether express or implied; without even the implied warranty
+ * of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ */
+
+#ifndef TILER_H
+#define TILER_H
+
+#include <linux/mm.h>
+
+/* API Definitions */
+
+/* return true if physical address is in the tiler container */
+bool is_tiler_addr(u32 phys);
+
+enum tiler_fmt {
+ TILFMT_MIN = -2,
+ TILFMT_INVALID = -2,
+ TILFMT_NONE = -1,
+ TILFMT_8BIT = 0,
+ TILFMT_16BIT = 1,
+ TILFMT_32BIT = 2,
+ TILFMT_MAX = 2,
+ TILFMT_PAGE = 3, /* for completeness */
+};
+
+/* tiler block info */
+struct tiler_block_t {
+ u32 phys; /* system space (L3) tiler addr */
+ u32 width; /* width */
+ u32 height; /* height */
+};
+
+/* tiler (image/video frame) view */
+struct tiler_view_t {
+ u32 tsptr; /* tiler space addr */
+ u32 width; /* width */
+ u32 height; /* height */
+ u32 bpp; /* bytes per pixel */
+ s32 h_inc; /* horizontal increment */
+ s32 v_inc; /* vertical increment */
+};
+
+/* get tiler format for a physical address */
+enum tiler_fmt tiler_fmt(u32 phys);
+
+/* get tiler block bytes-per-pixel */
+u32 tiler_bpp(const struct tiler_block_t *b);
+
+/* get tiler block physical stride */
+u32 tiler_pstride(const struct tiler_block_t *b);
+
+/* get tiler block virtual stride */
+static inline u32 tiler_vstride(const struct tiler_block_t *b)
+{
+ return PAGE_ALIGN((b->phys & ~PAGE_MASK) + tiler_bpp(b) * b->width);
+}
+
+/* returns the virtual size of the block (for mmap) */
+static inline u32 tiler_size(const struct tiler_block_t *b)
+{
+ return b->height * tiler_vstride(b);
+}
+
+/*
+ * Reserves a 2D TILER block area and memory.
+ *
+ * @blk: pointer to tiler block data. This must be set up ('phys' member must
+ * be 0) with the tiler block information.
+ * @fmt: TILER block format
+ * @align: block alignment (default: normally PAGE_SIZE)
+ * @offs: block offset
+ *
+ */
+s32 tiler_alloc(struct tiler_block_t *blk, enum tiler_fmt fmt, u32 align,
+ u32 offs);
+
+/*
+ * Mmaps a portion of a tiler block to a virtual address. Use this method in
+ * your driver's mmap function to potentially combine multiple tiler blocks as
+ * one virtual buffer.
+ *
+ * @blk: pointer to tiler block data
+ * @offs: offset from where to map (must be page aligned)
+ * @size: size of area to map (must be page aligned)
+ * @vma: VMM memory area to map to
+ * @voffs: offset (from vm_start) in the VMM memory area to start mapping at
+ *
+ */
+s32 tiler_mmap_blk(struct tiler_block_t *blk, u32 offs, u32 size,
+ struct vm_area_struct *vma, u32 voffs);
+
+/*
+ * Frees TILER memory. Since there may be multiple references for the same area
+ * if duplicated by tiler_dup, the area is only actually freed if all references
+ * have been freed.
+ *
+ * @blk: pointer to a tiler block data as filled by tiler_alloc, tiler_map
+ * or tiler_dup. 'phys' member will be set to 0 on success.
+ */
+void tiler_free(struct tiler_block_t *blk);
+
+/*
+ * Create a view based on a tiler address and width and height
+ *
+ * This method should only be used as a last resort, e.g. if tilview object
+ * cannot be passed because of incoherence with other view 2D objects that must
+ * be supported.
+ *
+ * @view: Pointer to a view where the information will be stored
+ * @ssptr: MUST BE a tiler address
+ * @width: view width
+ * @height: view height
+ */
+void tilview_create(struct tiler_view_t *view, u32 phys, u32 width, u32 height);
+
+/*
+ * Obtains the view information for a tiler block
+ *
+ * @view: Pointer to a view where the information will be stored
+ * @blk: Pointer to an existing allocated tiler block
+ */
+void tilview_get(struct tiler_view_t *view, struct tiler_block_t *blk);
+
+/*
+ * Crops a tiler view to a rectangular portion. Crop area must be fully within
+ * the orginal tiler view: 0 <= left <= left + width <= view->width, also:
+ * 0 <= top <= top + height <= view->height.
+ *
+ * @view: Pointer to tiler view to be cropped
+ * @left: x of top-left corner
+ * @top: y of top-left corner
+ * @width: crop width
+ * @height: crop height
+ *
+ * The view will be reduced to the crop region if the crop region is correct.
+ * Otherwise, no modifications are made.
+ */
+s32 tilview_crop(struct tiler_view_t *view, u32 left, u32 top, u32 width,
+ u32 height);
+
+/*
+ * Rotates a tiler view clockwise by a specified degree.
+ *
+ * @view: Pointer to tiler view to be cropped
+ * @rotate: Degree of rotation (clockwise). Must be a multiple of 90.
+ *
+ * View is not modified on error; otherwise, it is updated in place.
+ */
+s32 tilview_rotate(struct tiler_view_t *view, s32 rotation);
+
+/*
+ * Mirrors a tiler view horizontally and/or vertically.
+ *
+ * @view: Pointer to tiler view to be cropped
+ * @flip_x: Mirror horizontally (left-to-right)
+ * @flip_y: Mirror vertically (top-to-bottom)
+ *
+ * View is not modified on error; otherwise, it is updated in place.
+ */
+s32 tilview_flip(struct tiler_view_t *view, bool flip_x, bool flip_y);
+
+#endif