Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
John Stultz | 1969 | 99.39% | 8 | 61.54% |
Lucas De Marchi | 5 | 0.25% | 1 | 7.69% |
Jaewon Kim | 2 | 0.10% | 1 | 7.69% |
Guangming Cao | 2 | 0.10% | 1 | 7.69% |
Barry Song | 2 | 0.10% | 1 | 7.69% |
Andrew F. Davis | 1 | 0.05% | 1 | 7.69% |
Total | 1981 | 13 |
// SPDX-License-Identifier: GPL-2.0 /* * DMABUF System heap exporter * * Copyright (C) 2011 Google, Inc. * Copyright (C) 2019, 2020 Linaro Ltd. * * Portions based off of Andrew Davis' SRAM heap: * Copyright (C) 2019 Texas Instruments Incorporated - http://www.ti.com/ * Andrew F. Davis <afd@ti.com> */ #include <linux/dma-buf.h> #include <linux/dma-mapping.h> #include <linux/dma-heap.h> #include <linux/err.h> #include <linux/highmem.h> #include <linux/mm.h> #include <linux/module.h> #include <linux/scatterlist.h> #include <linux/slab.h> #include <linux/vmalloc.h> static struct dma_heap *sys_heap; struct system_heap_buffer { struct dma_heap *heap; struct list_head attachments; struct mutex lock; unsigned long len; struct sg_table sg_table; int vmap_cnt; void *vaddr; }; struct dma_heap_attachment { struct device *dev; struct sg_table *table; struct list_head list; bool mapped; }; #define LOW_ORDER_GFP (GFP_HIGHUSER | __GFP_ZERO) #define HIGH_ORDER_GFP (((GFP_HIGHUSER | __GFP_ZERO | __GFP_NOWARN \ | __GFP_NORETRY) & ~__GFP_RECLAIM) \ | __GFP_COMP) static gfp_t order_flags[] = {HIGH_ORDER_GFP, HIGH_ORDER_GFP, LOW_ORDER_GFP}; /* * The selection of the orders used for allocation (1MB, 64K, 4K) is designed * to match with the sizes often found in IOMMUs. Using order 4 pages instead * of order 0 pages can significantly improve the performance of many IOMMUs * by reducing TLB pressure and time spent updating page tables. */ static const unsigned int orders[] = {8, 4, 0}; #define NUM_ORDERS ARRAY_SIZE(orders) static struct sg_table *dup_sg_table(struct sg_table *table) { struct sg_table *new_table; int ret, i; struct scatterlist *sg, *new_sg; new_table = kzalloc(sizeof(*new_table), GFP_KERNEL); if (!new_table) return ERR_PTR(-ENOMEM); ret = sg_alloc_table(new_table, table->orig_nents, GFP_KERNEL); if (ret) { kfree(new_table); return ERR_PTR(-ENOMEM); } new_sg = new_table->sgl; for_each_sgtable_sg(table, sg, i) { sg_set_page(new_sg, sg_page(sg), sg->length, sg->offset); new_sg = sg_next(new_sg); } return new_table; } static int system_heap_attach(struct dma_buf *dmabuf, struct dma_buf_attachment *attachment) { struct system_heap_buffer *buffer = dmabuf->priv; struct dma_heap_attachment *a; struct sg_table *table; a = kzalloc(sizeof(*a), GFP_KERNEL); if (!a) return -ENOMEM; table = dup_sg_table(&buffer->sg_table); if (IS_ERR(table)) { kfree(a); return -ENOMEM; } a->table = table; a->dev = attachment->dev; INIT_LIST_HEAD(&a->list); a->mapped = false; attachment->priv = a; mutex_lock(&buffer->lock); list_add(&a->list, &buffer->attachments); mutex_unlock(&buffer->lock); return 0; } static void system_heap_detach(struct dma_buf *dmabuf, struct dma_buf_attachment *attachment) { struct system_heap_buffer *buffer = dmabuf->priv; struct dma_heap_attachment *a = attachment->priv; mutex_lock(&buffer->lock); list_del(&a->list); mutex_unlock(&buffer->lock); sg_free_table(a->table); kfree(a->table); kfree(a); } static struct sg_table *system_heap_map_dma_buf(struct dma_buf_attachment *attachment, enum dma_data_direction direction) { struct dma_heap_attachment *a = attachment->priv; struct sg_table *table = a->table; int ret; ret = dma_map_sgtable(attachment->dev, table, direction, 0); if (ret) return ERR_PTR(ret); a->mapped = true; return table; } static void system_heap_unmap_dma_buf(struct dma_buf_attachment *attachment, struct sg_table *table, enum dma_data_direction direction) { struct dma_heap_attachment *a = attachment->priv; a->mapped = false; dma_unmap_sgtable(attachment->dev, table, direction, 0); } static int system_heap_dma_buf_begin_cpu_access(struct dma_buf *dmabuf, enum dma_data_direction direction) { struct system_heap_buffer *buffer = dmabuf->priv; struct dma_heap_attachment *a; mutex_lock(&buffer->lock); if (buffer->vmap_cnt) invalidate_kernel_vmap_range(buffer->vaddr, buffer->len); list_for_each_entry(a, &buffer->attachments, list) { if (!a->mapped) continue; dma_sync_sgtable_for_cpu(a->dev, a->table, direction); } mutex_unlock(&buffer->lock); return 0; } static int system_heap_dma_buf_end_cpu_access(struct dma_buf *dmabuf, enum dma_data_direction direction) { struct system_heap_buffer *buffer = dmabuf->priv; struct dma_heap_attachment *a; mutex_lock(&buffer->lock); if (buffer->vmap_cnt) flush_kernel_vmap_range(buffer->vaddr, buffer->len); list_for_each_entry(a, &buffer->attachments, list) { if (!a->mapped) continue; dma_sync_sgtable_for_device(a->dev, a->table, direction); } mutex_unlock(&buffer->lock); return 0; } static int system_heap_mmap(struct dma_buf *dmabuf, struct vm_area_struct *vma) { struct system_heap_buffer *buffer = dmabuf->priv; struct sg_table *table = &buffer->sg_table; unsigned long addr = vma->vm_start; struct sg_page_iter piter; int ret; for_each_sgtable_page(table, &piter, vma->vm_pgoff) { struct page *page = sg_page_iter_page(&piter); ret = remap_pfn_range(vma, addr, page_to_pfn(page), PAGE_SIZE, vma->vm_page_prot); if (ret) return ret; addr += PAGE_SIZE; if (addr >= vma->vm_end) return 0; } return 0; } static void *system_heap_do_vmap(struct system_heap_buffer *buffer) { struct sg_table *table = &buffer->sg_table; int npages = PAGE_ALIGN(buffer->len) / PAGE_SIZE; struct page **pages = vmalloc(sizeof(struct page *) * npages); struct page **tmp = pages; struct sg_page_iter piter; void *vaddr; if (!pages) return ERR_PTR(-ENOMEM); for_each_sgtable_page(table, &piter, 0) { WARN_ON(tmp - pages >= npages); *tmp++ = sg_page_iter_page(&piter); } vaddr = vmap(pages, npages, VM_MAP, PAGE_KERNEL); vfree(pages); if (!vaddr) return ERR_PTR(-ENOMEM); return vaddr; } static int system_heap_vmap(struct dma_buf *dmabuf, struct iosys_map *map) { struct system_heap_buffer *buffer = dmabuf->priv; void *vaddr; int ret = 0; mutex_lock(&buffer->lock); if (buffer->vmap_cnt) { buffer->vmap_cnt++; iosys_map_set_vaddr(map, buffer->vaddr); goto out; } vaddr = system_heap_do_vmap(buffer); if (IS_ERR(vaddr)) { ret = PTR_ERR(vaddr); goto out; } buffer->vaddr = vaddr; buffer->vmap_cnt++; iosys_map_set_vaddr(map, buffer->vaddr); out: mutex_unlock(&buffer->lock); return ret; } static void system_heap_vunmap(struct dma_buf *dmabuf, struct iosys_map *map) { struct system_heap_buffer *buffer = dmabuf->priv; mutex_lock(&buffer->lock); if (!--buffer->vmap_cnt) { vunmap(buffer->vaddr); buffer->vaddr = NULL; } mutex_unlock(&buffer->lock); iosys_map_clear(map); } static void system_heap_dma_buf_release(struct dma_buf *dmabuf) { struct system_heap_buffer *buffer = dmabuf->priv; struct sg_table *table; struct scatterlist *sg; int i; table = &buffer->sg_table; for_each_sgtable_sg(table, sg, i) { struct page *page = sg_page(sg); __free_pages(page, compound_order(page)); } sg_free_table(table); kfree(buffer); } static const struct dma_buf_ops system_heap_buf_ops = { .attach = system_heap_attach, .detach = system_heap_detach, .map_dma_buf = system_heap_map_dma_buf, .unmap_dma_buf = system_heap_unmap_dma_buf, .begin_cpu_access = system_heap_dma_buf_begin_cpu_access, .end_cpu_access = system_heap_dma_buf_end_cpu_access, .mmap = system_heap_mmap, .vmap = system_heap_vmap, .vunmap = system_heap_vunmap, .release = system_heap_dma_buf_release, }; static struct page *alloc_largest_available(unsigned long size, unsigned int max_order) { struct page *page; int i; for (i = 0; i < NUM_ORDERS; i++) { if (size < (PAGE_SIZE << orders[i])) continue; if (max_order < orders[i]) continue; page = alloc_pages(order_flags[i], orders[i]); if (!page) continue; return page; } return NULL; } static struct dma_buf *system_heap_allocate(struct dma_heap *heap, unsigned long len, u32 fd_flags, u64 heap_flags) { struct system_heap_buffer *buffer; DEFINE_DMA_BUF_EXPORT_INFO(exp_info); unsigned long size_remaining = len; unsigned int max_order = orders[0]; struct dma_buf *dmabuf; struct sg_table *table; struct scatterlist *sg; struct list_head pages; struct page *page, *tmp_page; int i, ret = -ENOMEM; buffer = kzalloc(sizeof(*buffer), GFP_KERNEL); if (!buffer) return ERR_PTR(-ENOMEM); INIT_LIST_HEAD(&buffer->attachments); mutex_init(&buffer->lock); buffer->heap = heap; buffer->len = len; INIT_LIST_HEAD(&pages); i = 0; while (size_remaining > 0) { /* * Avoid trying to allocate memory if the process * has been killed by SIGKILL */ if (fatal_signal_pending(current)) { ret = -EINTR; goto free_buffer; } page = alloc_largest_available(size_remaining, max_order); if (!page) goto free_buffer; list_add_tail(&page->lru, &pages); size_remaining -= page_size(page); max_order = compound_order(page); i++; } table = &buffer->sg_table; if (sg_alloc_table(table, i, GFP_KERNEL)) goto free_buffer; sg = table->sgl; list_for_each_entry_safe(page, tmp_page, &pages, lru) { sg_set_page(sg, page, page_size(page), 0); sg = sg_next(sg); list_del(&page->lru); } /* create the dmabuf */ exp_info.exp_name = dma_heap_get_name(heap); exp_info.ops = &system_heap_buf_ops; exp_info.size = buffer->len; exp_info.flags = fd_flags; exp_info.priv = buffer; dmabuf = dma_buf_export(&exp_info); if (IS_ERR(dmabuf)) { ret = PTR_ERR(dmabuf); goto free_pages; } return dmabuf; free_pages: for_each_sgtable_sg(table, sg, i) { struct page *p = sg_page(sg); __free_pages(p, compound_order(p)); } sg_free_table(table); free_buffer: list_for_each_entry_safe(page, tmp_page, &pages, lru) __free_pages(page, compound_order(page)); kfree(buffer); return ERR_PTR(ret); } static const struct dma_heap_ops system_heap_ops = { .allocate = system_heap_allocate, }; static int system_heap_create(void) { struct dma_heap_export_info exp_info; exp_info.name = "system"; exp_info.ops = &system_heap_ops; exp_info.priv = NULL; sys_heap = dma_heap_add(&exp_info); if (IS_ERR(sys_heap)) return PTR_ERR(sys_heap); return 0; } module_init(system_heap_create);
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