1 /* SPDX-License-Identifier: GPL-2.0 */ 2 /* 3 * Support for Medifield PNW Camera Imaging ISP subsystem. 4 * 5 * Copyright (c) 2010 Intel Corporation. All Rights Reserved. 6 * 7 * Copyright (c) 2010 Silicon Hive www.siliconhive.com. 8 * 9 * This program is free software; you can redistribute it and/or 10 * modify it under the terms of the GNU General Public License version 11 * 2 as published by the Free Software Foundation. 12 * 13 * This program is distributed in the hope that it will be useful, 14 * but WITHOUT ANY WARRANTY; without even the implied warranty of 15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 16 * GNU General Public License for more details. 17 * 18 * 19 */ 20 21 #ifndef __HMM_BO_H__ 22 #define __HMM_BO_H__ 23 24 #include <linux/kernel.h> 25 #include <linux/slab.h> 26 #include <linux/list.h> 27 #include <linux/spinlock.h> 28 #include <linux/mutex.h> 29 #include "mmu/isp_mmu.h" 30 #include "hmm/hmm_common.h" 31 #include "ia_css_types.h" 32 33 #define check_bodev_null_return(bdev, exp) \ 34 check_null_return(bdev, exp, \ 35 "NULL hmm_bo_device.\n") 36 37 #define check_bodev_null_return_void(bdev) \ 38 check_null_return_void(bdev, \ 39 "NULL hmm_bo_device.\n") 40 41 #define check_bo_status_yes_goto(bo, _status, label) \ 42 var_not_equal_goto((bo->status & (_status)), (_status), \ 43 label, \ 44 "HMM buffer status not contain %s.\n", \ 45 #_status) 46 47 #define check_bo_status_no_goto(bo, _status, label) \ 48 var_equal_goto((bo->status & (_status)), (_status), \ 49 label, \ 50 "HMM buffer status contains %s.\n", \ 51 #_status) 52 53 #define rbtree_node_to_hmm_bo(root_node) \ 54 container_of((root_node), struct hmm_buffer_object, node) 55 56 #define list_to_hmm_bo(list_ptr) \ 57 list_entry((list_ptr), struct hmm_buffer_object, list) 58 59 #define kref_to_hmm_bo(kref_ptr) \ 60 list_entry((kref_ptr), struct hmm_buffer_object, kref) 61 62 #define check_bo_null_return(bo, exp) \ 63 check_null_return(bo, exp, "NULL hmm buffer object.\n") 64 65 #define check_bo_null_return_void(bo) \ 66 check_null_return_void(bo, "NULL hmm buffer object.\n") 67 68 #define ISP_VM_START 0x0 69 #define ISP_VM_SIZE (0x7FFFFFFF) /* 2G address space */ 70 #define ISP_PTR_NULL NULL 71 72 #define HMM_BO_DEVICE_INITED 0x1 73 74 enum hmm_bo_type { 75 HMM_BO_PRIVATE, 76 HMM_BO_VMALLOC, 77 HMM_BO_LAST, 78 }; 79 80 #define HMM_BO_MASK 0x1 81 #define HMM_BO_FREE 0x0 82 #define HMM_BO_ALLOCED 0x1 83 #define HMM_BO_PAGE_ALLOCED 0x2 84 #define HMM_BO_BINDED 0x4 85 #define HMM_BO_MMAPED 0x8 86 #define HMM_BO_VMAPED 0x10 87 #define HMM_BO_VMAPED_CACHED 0x20 88 #define HMM_BO_ACTIVE 0x1000 89 90 struct hmm_bo_device { 91 struct isp_mmu mmu; 92 93 /* start/pgnr/size is used to record the virtual memory of this bo */ 94 unsigned int start; 95 unsigned int pgnr; 96 unsigned int size; 97 98 /* list lock is used to protect the entire_bo_list */ 99 spinlock_t list_lock; 100 int flag; 101 102 /* linked list for entire buffer object */ 103 struct list_head entire_bo_list; 104 /* rbtree for maintain entire allocated vm */ 105 struct rb_root allocated_rbtree; 106 /* rbtree for maintain entire free vm */ 107 struct rb_root free_rbtree; 108 struct mutex rbtree_mutex; 109 struct kmem_cache *bo_cache; 110 }; 111 112 struct hmm_buffer_object { 113 struct hmm_bo_device *bdev; 114 struct list_head list; 115 struct kref kref; 116 117 struct page **pages; 118 119 /* mutex protecting this BO */ 120 struct mutex mutex; 121 enum hmm_bo_type type; 122 int mmap_count; 123 int status; 124 void *vmap_addr; /* kernel virtual address by vmap */ 125 126 struct rb_node node; 127 unsigned int start; 128 unsigned int end; 129 unsigned int pgnr; 130 /* 131 * When insert a bo which has the same pgnr with an existed 132 * bo node in the free_rbtree, using "prev & next" pointer 133 * to maintain a bo linked list instead of insert this bo 134 * into free_rbtree directly, it will make sure each node 135 * in free_rbtree has different pgnr. 136 * "prev & next" default is NULL. 137 */ 138 struct hmm_buffer_object *prev; 139 struct hmm_buffer_object *next; 140 }; 141 142 struct hmm_buffer_object *hmm_bo_alloc(struct hmm_bo_device *bdev, 143 unsigned int pgnr); 144 145 void hmm_bo_release(struct hmm_buffer_object *bo); 146 147 int hmm_bo_device_init(struct hmm_bo_device *bdev, 148 struct isp_mmu_client *mmu_driver, 149 unsigned int vaddr_start, unsigned int size); 150 151 /* 152 * clean up all hmm_bo_device related things. 153 */ 154 void hmm_bo_device_exit(struct hmm_bo_device *bdev); 155 156 /* 157 * whether the bo device is inited or not. 158 */ 159 int hmm_bo_device_inited(struct hmm_bo_device *bdev); 160 161 /* 162 * increse buffer object reference. 163 */ 164 void hmm_bo_ref(struct hmm_buffer_object *bo); 165 166 /* 167 * decrese buffer object reference. if reference reaches 0, 168 * release function of the buffer object will be called. 169 * 170 * this call is also used to release hmm_buffer_object or its 171 * upper level object with it embedded in. you need to call 172 * this function when it is no longer used. 173 * 174 * Note: 175 * 176 * user dont need to care about internal resource release of 177 * the buffer object in the release callback, it will be 178 * handled internally. 179 * 180 * this call will only release internal resource of the buffer 181 * object but will not free the buffer object itself, as the 182 * buffer object can be both pre-allocated statically or 183 * dynamically allocated. so user need to deal with the release 184 * of the buffer object itself manually. below example shows 185 * the normal case of using the buffer object. 186 * 187 * struct hmm_buffer_object *bo = hmm_bo_create(bdev, pgnr); 188 * ...... 189 * hmm_bo_unref(bo); 190 * 191 * or: 192 * 193 * struct hmm_buffer_object bo; 194 * 195 * hmm_bo_init(bdev, &bo, pgnr, NULL); 196 * ... 197 * hmm_bo_unref(&bo); 198 */ 199 void hmm_bo_unref(struct hmm_buffer_object *bo); 200 201 int hmm_bo_allocated(struct hmm_buffer_object *bo); 202 203 /* 204 * Allocate/Free physical pages for the bo. Type indicates if the 205 * pages will be allocated by using video driver (for share buffer) 206 * or by ISP driver itself. 207 */ 208 int hmm_bo_alloc_pages(struct hmm_buffer_object *bo, 209 enum hmm_bo_type type, 210 void *vmalloc_addr); 211 void hmm_bo_free_pages(struct hmm_buffer_object *bo); 212 int hmm_bo_page_allocated(struct hmm_buffer_object *bo); 213 214 /* 215 * bind/unbind the physical pages to a virtual address space. 216 */ 217 int hmm_bo_bind(struct hmm_buffer_object *bo); 218 void hmm_bo_unbind(struct hmm_buffer_object *bo); 219 int hmm_bo_binded(struct hmm_buffer_object *bo); 220 221 /* 222 * vmap buffer object's pages to contiguous kernel virtual address. 223 * if the buffer has been vmaped, return the virtual address directly. 224 */ 225 void *hmm_bo_vmap(struct hmm_buffer_object *bo, bool cached); 226 227 /* 228 * flush the cache for the vmapped buffer object's pages, 229 * if the buffer has not been vmapped, return directly. 230 */ 231 void hmm_bo_flush_vmap(struct hmm_buffer_object *bo); 232 233 /* 234 * vunmap buffer object's kernel virtual address. 235 */ 236 void hmm_bo_vunmap(struct hmm_buffer_object *bo); 237 238 /* 239 * mmap the bo's physical pages to specific vma. 240 * 241 * vma's address space size must be the same as bo's size, 242 * otherwise it will return -EINVAL. 243 * 244 * vma->vm_flags will be set to (VM_RESERVED | VM_IO). 245 */ 246 int hmm_bo_mmap(struct vm_area_struct *vma, 247 struct hmm_buffer_object *bo); 248 249 /* 250 * find the buffer object by its virtual address vaddr. 251 * return NULL if no such buffer object found. 252 */ 253 struct hmm_buffer_object *hmm_bo_device_search_start( 254 struct hmm_bo_device *bdev, ia_css_ptr vaddr); 255 256 /* 257 * find the buffer object by its virtual address. 258 * it does not need to be the start address of one bo, 259 * it can be an address within the range of one bo. 260 * return NULL if no such buffer object found. 261 */ 262 struct hmm_buffer_object *hmm_bo_device_search_in_range( 263 struct hmm_bo_device *bdev, ia_css_ptr vaddr); 264 265 /* 266 * find the buffer object with kernel virtual address vaddr. 267 * return NULL if no such buffer object found. 268 */ 269 struct hmm_buffer_object *hmm_bo_device_search_vmap_start( 270 struct hmm_bo_device *bdev, const void *vaddr); 271 272 #endif 273