Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Eric Anholt | 467 | 94.34% | 3 | 60.00% |
Marek Szyprowski | 18 | 3.64% | 1 | 20.00% |
Daniel Vetter | 10 | 2.02% | 1 | 20.00% |
Total | 495 | 5 |
// SPDX-License-Identifier: GPL-2.0+ /* Copyright (C) 2017-2018 Broadcom */ /** * DOC: Broadcom V3D MMU * * The V3D 3.x hardware (compared to VC4) now includes an MMU. It has * a single level of page tables for the V3D's 4GB address space to * map to AXI bus addresses, thus it could need up to 4MB of * physically contiguous memory to store the PTEs. * * Because the 4MB of contiguous memory for page tables is precious, * and switching between them is expensive, we load all BOs into the * same 4GB address space. * * To protect clients from each other, we should use the GMP to * quickly mask out (at 128kb granularity) what pages are available to * each client. This is not yet implemented. */ #include "v3d_drv.h" #include "v3d_regs.h" /* Note: All PTEs for the 1MB superpage must be filled with the * superpage bit set. */ #define V3D_PTE_SUPERPAGE BIT(31) #define V3D_PTE_WRITEABLE BIT(29) #define V3D_PTE_VALID BIT(28) static int v3d_mmu_flush_all(struct v3d_dev *v3d) { int ret; /* Make sure that another flush isn't already running when we * start this one. */ ret = wait_for(!(V3D_READ(V3D_MMU_CTL) & V3D_MMU_CTL_TLB_CLEARING), 100); if (ret) dev_err(v3d->drm.dev, "TLB clear wait idle pre-wait failed\n"); V3D_WRITE(V3D_MMU_CTL, V3D_READ(V3D_MMU_CTL) | V3D_MMU_CTL_TLB_CLEAR); V3D_WRITE(V3D_MMUC_CONTROL, V3D_MMUC_CONTROL_FLUSH | V3D_MMUC_CONTROL_ENABLE); ret = wait_for(!(V3D_READ(V3D_MMU_CTL) & V3D_MMU_CTL_TLB_CLEARING), 100); if (ret) { dev_err(v3d->drm.dev, "TLB clear wait idle failed\n"); return ret; } ret = wait_for(!(V3D_READ(V3D_MMUC_CONTROL) & V3D_MMUC_CONTROL_FLUSHING), 100); if (ret) dev_err(v3d->drm.dev, "MMUC flush wait idle failed\n"); return ret; } int v3d_mmu_set_page_table(struct v3d_dev *v3d) { V3D_WRITE(V3D_MMU_PT_PA_BASE, v3d->pt_paddr >> V3D_MMU_PAGE_SHIFT); V3D_WRITE(V3D_MMU_CTL, V3D_MMU_CTL_ENABLE | V3D_MMU_CTL_PT_INVALID_ENABLE | V3D_MMU_CTL_PT_INVALID_ABORT | V3D_MMU_CTL_PT_INVALID_INT | V3D_MMU_CTL_WRITE_VIOLATION_ABORT | V3D_MMU_CTL_WRITE_VIOLATION_INT | V3D_MMU_CTL_CAP_EXCEEDED_ABORT | V3D_MMU_CTL_CAP_EXCEEDED_INT); V3D_WRITE(V3D_MMU_ILLEGAL_ADDR, (v3d->mmu_scratch_paddr >> V3D_MMU_PAGE_SHIFT) | V3D_MMU_ILLEGAL_ADDR_ENABLE); V3D_WRITE(V3D_MMUC_CONTROL, V3D_MMUC_CONTROL_ENABLE); return v3d_mmu_flush_all(v3d); } void v3d_mmu_insert_ptes(struct v3d_bo *bo) { struct drm_gem_shmem_object *shmem_obj = &bo->base; struct v3d_dev *v3d = to_v3d_dev(shmem_obj->base.dev); u32 page = bo->node.start; u32 page_prot = V3D_PTE_WRITEABLE | V3D_PTE_VALID; struct sg_dma_page_iter dma_iter; for_each_sgtable_dma_page(shmem_obj->sgt, &dma_iter, 0) { dma_addr_t dma_addr = sg_page_iter_dma_address(&dma_iter); u32 page_address = dma_addr >> V3D_MMU_PAGE_SHIFT; u32 pte = page_prot | page_address; u32 i; BUG_ON(page_address + (PAGE_SIZE >> V3D_MMU_PAGE_SHIFT) >= BIT(24)); for (i = 0; i < PAGE_SIZE >> V3D_MMU_PAGE_SHIFT; i++) v3d->pt[page++] = pte + i; } WARN_ON_ONCE(page - bo->node.start != shmem_obj->base.size >> V3D_MMU_PAGE_SHIFT); if (v3d_mmu_flush_all(v3d)) dev_err(v3d->drm.dev, "MMU flush timeout\n"); } void v3d_mmu_remove_ptes(struct v3d_bo *bo) { struct v3d_dev *v3d = to_v3d_dev(bo->base.base.dev); u32 npages = bo->base.base.size >> V3D_MMU_PAGE_SHIFT; u32 page; for (page = bo->node.start; page < bo->node.start + npages; page++) v3d->pt[page] = 0; if (v3d_mmu_flush_all(v3d)) dev_err(v3d->drm.dev, "MMU flush timeout\n"); }
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