habanalabs/common/memory.c

e65e175bSOded Gabbay// SPDX-License-Identifier: GPL-2.0
e65e175bSOded Gabbay
e65e175bSOded Gabbay/*
e65e175bSOded Gabbay * Copyright 2016-2022 HabanaLabs, Ltd.
e65e175bSOded Gabbay * All Rights Reserved.
e65e175bSOded Gabbay */
e65e175bSOded Gabbay
e65e175bSOded Gabbay#include <uapi/drm/habanalabs_accel.h>
e65e175bSOded Gabbay#include "habanalabs.h"
e65e175bSOded Gabbay#include "../include/hw_ip/mmu/mmu_general.h"
e65e175bSOded Gabbay
e65e175bSOded Gabbay#include <linux/uaccess.h>
e65e175bSOded Gabbay#include <linux/slab.h>
e65e175bSOded Gabbay#include <linux/vmalloc.h>
e65e175bSOded Gabbay#include <linux/pci-p2pdma.h>
e65e175bSOded Gabbay
e65e175bSOded GabbayMODULE_IMPORT_NS(DMA_BUF);
e65e175bSOded Gabbay
e65e175bSOded Gabbay#define HL_MMU_DEBUG	0
e65e175bSOded Gabbay
e65e175bSOded Gabbay/* use small pages for supporting non-pow2 (32M/40M/48M) DRAM phys page sizes */
e65e175bSOded Gabbay#define DRAM_POOL_PAGE_SIZE	SZ_8M
e65e175bSOded Gabbay
e65e175bSOded Gabbay#define MEM_HANDLE_INVALID	ULONG_MAX
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic int allocate_timestamps_buffers(struct hl_fpriv *hpriv,
e65e175bSOded Gabbay			struct hl_mem_in *args, u64 *handle);
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic int set_alloc_page_size(struct hl_device *hdev, struct hl_mem_in *args, u32 *page_size)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct asic_fixed_properties *prop = &hdev->asic_prop;
e65e175bSOded Gabbay	u64 psize;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/*
e65e175bSOded Gabbay	 * for ASIC that supports setting the allocation page size by user we will address
e65e175bSOded Gabbay	 * user's choice only if it is not 0 (as 0 means taking the default page size)
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	if (prop->supports_user_set_page_size && args->alloc.page_size) {
e65e175bSOded Gabbay		psize = args->alloc.page_size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		if (!is_power_of_2(psize)) {
e65e175bSOded Gabbay			dev_err(hdev->dev, "user page size (%#llx) is not power of 2\n", psize);
e65e175bSOded Gabbay			return -EINVAL;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay	} else {
e65e175bSOded Gabbay		psize = prop->device_mem_alloc_default_page_size;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	*page_size = psize;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/*
e65e175bSOded Gabbay * The va ranges in context object contain a list with the available chunks of
e65e175bSOded Gabbay * device virtual memory.
e65e175bSOded Gabbay * There is one range for host allocations and one for DRAM allocations.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * On initialization each range contains one chunk of all of its available
e65e175bSOded Gabbay * virtual range which is a half of the total device virtual range.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * On each mapping of physical pages, a suitable virtual range chunk (with a
e65e175bSOded Gabbay * minimum size) is selected from the list. If the chunk size equals the
e65e175bSOded Gabbay * requested size, the chunk is returned. Otherwise, the chunk is split into
e65e175bSOded Gabbay * two chunks - one to return as result and a remainder to stay in the list.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * On each Unmapping of a virtual address, the relevant virtual chunk is
e65e175bSOded Gabbay * returned to the list. The chunk is added to the list and if its edges match
e65e175bSOded Gabbay * the edges of the adjacent chunks (means a contiguous chunk can be created),
e65e175bSOded Gabbay * the chunks are merged.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * On finish, the list is checked to have only one chunk of all the relevant
e65e175bSOded Gabbay * virtual range (which is a half of the device total virtual range).
e65e175bSOded Gabbay * If not (means not all mappings were unmapped), a warning is printed.
e65e175bSOded Gabbay */
e65e175bSOded Gabbay
e65e175bSOded Gabbay/*
e65e175bSOded Gabbay * alloc_device_memory() - allocate device memory.
e65e175bSOded Gabbay * @ctx: pointer to the context structure.
e65e175bSOded Gabbay * @args: host parameters containing the requested size.
e65e175bSOded Gabbay * @ret_handle: result handle.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Allocate the requested size rounded up to 'dram_page_size' pages.
e65e175bSOded Gabbay * - Return unique handle for later map/unmap/free.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic int alloc_device_memory(struct hl_ctx *ctx, struct hl_mem_in *args,
e65e175bSOded Gabbay				u32 *ret_handle)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_device *hdev = ctx->hdev;
e65e175bSOded Gabbay	struct hl_vm *vm = &hdev->vm;
e65e175bSOded Gabbay	struct hl_vm_phys_pg_pack *phys_pg_pack;
e65e175bSOded Gabbay	u64 paddr = 0, total_size, num_pgs, i;
e65e175bSOded Gabbay	u32 num_curr_pgs, page_size;
e65e175bSOded Gabbay	bool contiguous;
e65e175bSOded Gabbay	int handle, rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	num_curr_pgs = 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = set_alloc_page_size(hdev, args, &page_size);
e65e175bSOded Gabbay	if (rc)
e65e175bSOded Gabbay		return rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	num_pgs = DIV_ROUND_UP_ULL(args->alloc.mem_size, page_size);
e65e175bSOded Gabbay	total_size = num_pgs * page_size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (!total_size) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "Cannot allocate 0 bytes\n");
e65e175bSOded Gabbay		return -EINVAL;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	contiguous = args->flags & HL_MEM_CONTIGUOUS;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (contiguous) {
e65e175bSOded Gabbay		if (is_power_of_2(page_size))
e65e175bSOded Gabbay			paddr = (uintptr_t) gen_pool_dma_alloc_align(vm->dram_pg_pool,
e65e175bSOded Gabbay								     total_size, NULL, page_size);
e65e175bSOded Gabbay		else
e65e175bSOded Gabbay			paddr = gen_pool_alloc(vm->dram_pg_pool, total_size);
e65e175bSOded Gabbay		if (!paddr) {
e65e175bSOded Gabbay			dev_err(hdev->dev,
e65e175bSOded Gabbay				"Cannot allocate %llu contiguous pages with total size of %llu\n",
e65e175bSOded Gabbay				num_pgs, total_size);
e65e175bSOded Gabbay			return -ENOMEM;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	phys_pg_pack = kzalloc(sizeof(*phys_pg_pack), GFP_KERNEL);
e65e175bSOded Gabbay	if (!phys_pg_pack) {
e65e175bSOded Gabbay		rc = -ENOMEM;
e65e175bSOded Gabbay		goto pages_pack_err;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	phys_pg_pack->vm_type = VM_TYPE_PHYS_PACK;
e65e175bSOded Gabbay	phys_pg_pack->asid = ctx->asid;
e65e175bSOded Gabbay	phys_pg_pack->npages = num_pgs;
e65e175bSOded Gabbay	phys_pg_pack->page_size = page_size;
e65e175bSOded Gabbay	phys_pg_pack->total_size = total_size;
e65e175bSOded Gabbay	phys_pg_pack->flags = args->flags;
e65e175bSOded Gabbay	phys_pg_pack->contiguous = contiguous;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	phys_pg_pack->pages = kvmalloc_array(num_pgs, sizeof(u64), GFP_KERNEL);
e65e175bSOded Gabbay	if (ZERO_OR_NULL_PTR(phys_pg_pack->pages)) {
e65e175bSOded Gabbay		rc = -ENOMEM;
e65e175bSOded Gabbay		goto pages_arr_err;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (phys_pg_pack->contiguous) {
e65e175bSOded Gabbay		for (i = 0 ; i < num_pgs ; i++)
e65e175bSOded Gabbay			phys_pg_pack->pages[i] = paddr + i * page_size;
e65e175bSOded Gabbay	} else {
e65e175bSOded Gabbay		for (i = 0 ; i < num_pgs ; i++) {
e65e175bSOded Gabbay			if (is_power_of_2(page_size))
e65e175bSOded Gabbay				phys_pg_pack->pages[i] =
e65e175bSOded Gabbay					(uintptr_t)gen_pool_dma_alloc_align(vm->dram_pg_pool,
e65e175bSOded Gabbay									    page_size, NULL,
e65e175bSOded Gabbay									    page_size);
e65e175bSOded Gabbay			else
e65e175bSOded Gabbay				phys_pg_pack->pages[i] = gen_pool_alloc(vm->dram_pg_pool,
e65e175bSOded Gabbay									page_size);
e65e175bSOded Gabbay
e65e175bSOded Gabbay			if (!phys_pg_pack->pages[i]) {
e65e175bSOded Gabbay				dev_err(hdev->dev,
e65e175bSOded Gabbay					"Cannot allocate device memory (out of memory)\n");
e65e175bSOded Gabbay				rc = -ENOMEM;
e65e175bSOded Gabbay				goto page_err;
e65e175bSOded Gabbay			}
e65e175bSOded Gabbay
e65e175bSOded Gabbay			num_curr_pgs++;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	spin_lock(&vm->idr_lock);
e65e175bSOded Gabbay	handle = idr_alloc(&vm->phys_pg_pack_handles, phys_pg_pack, 1, 0,
e65e175bSOded Gabbay				GFP_ATOMIC);
e65e175bSOded Gabbay	spin_unlock(&vm->idr_lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (handle < 0) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "Failed to get handle for page\n");
e65e175bSOded Gabbay		rc = -EFAULT;
e65e175bSOded Gabbay		goto idr_err;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	for (i = 0 ; i < num_pgs ; i++)
e65e175bSOded Gabbay		kref_get(&vm->dram_pg_pool_refcount);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	phys_pg_pack->handle = handle;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	atomic64_add(phys_pg_pack->total_size, &ctx->dram_phys_mem);
e65e175bSOded Gabbay	atomic64_add(phys_pg_pack->total_size, &hdev->dram_used_mem);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	*ret_handle = handle;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbayidr_err:
e65e175bSOded Gabbaypage_err:
e65e175bSOded Gabbay	if (!phys_pg_pack->contiguous)
e65e175bSOded Gabbay		for (i = 0 ; i < num_curr_pgs ; i++)
e65e175bSOded Gabbay			gen_pool_free(vm->dram_pg_pool, phys_pg_pack->pages[i],
e65e175bSOded Gabbay					page_size);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	kvfree(phys_pg_pack->pages);
e65e175bSOded Gabbaypages_arr_err:
e65e175bSOded Gabbay	kfree(phys_pg_pack);
e65e175bSOded Gabbaypages_pack_err:
e65e175bSOded Gabbay	if (contiguous)
e65e175bSOded Gabbay		gen_pool_free(vm->dram_pg_pool, paddr, total_size);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return rc;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * dma_map_host_va() - DMA mapping of the given host virtual address.
e65e175bSOded Gabbay * @hdev: habanalabs device structure.
e65e175bSOded Gabbay * @addr: the host virtual address of the memory area.
e65e175bSOded Gabbay * @size: the size of the memory area.
e65e175bSOded Gabbay * @p_userptr: pointer to result userptr structure.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Allocate userptr structure.
e65e175bSOded Gabbay * - Pin the given host memory using the userptr structure.
e65e175bSOded Gabbay * - Perform DMA mapping to have the DMA addresses of the pages.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic int dma_map_host_va(struct hl_device *hdev, u64 addr, u64 size,
e65e175bSOded Gabbay				struct hl_userptr **p_userptr)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_userptr *userptr;
e65e175bSOded Gabbay	int rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	userptr = kzalloc(sizeof(*userptr), GFP_KERNEL);
e65e175bSOded Gabbay	if (!userptr) {
e65e175bSOded Gabbay		rc = -ENOMEM;
e65e175bSOded Gabbay		goto userptr_err;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = hl_pin_host_memory(hdev, addr, size, userptr);
e0ad6badSMoti Haimovski	if (rc)
e65e175bSOded Gabbay		goto pin_err;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	userptr->dma_mapped = true;
e65e175bSOded Gabbay	userptr->dir = DMA_BIDIRECTIONAL;
e65e175bSOded Gabbay	userptr->vm_type = VM_TYPE_USERPTR;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	*p_userptr = userptr;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = hdev->asic_funcs->asic_dma_map_sgtable(hdev, userptr->sgt, DMA_BIDIRECTIONAL);
e65e175bSOded Gabbay	if (rc) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "failed to map sgt with DMA region\n");
e65e175bSOded Gabbay		goto dma_map_err;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbaydma_map_err:
e65e175bSOded Gabbay	hl_unpin_host_memory(hdev, userptr);
e65e175bSOded Gabbaypin_err:
e65e175bSOded Gabbay	kfree(userptr);
e65e175bSOded Gabbayuserptr_err:
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return rc;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * dma_unmap_host_va() - DMA unmapping of the given host virtual address.
e65e175bSOded Gabbay * @hdev: habanalabs device structure.
e65e175bSOded Gabbay * @userptr: userptr to free.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Unpins the physical pages.
e65e175bSOded Gabbay * - Frees the userptr structure.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic void dma_unmap_host_va(struct hl_device *hdev,
e65e175bSOded Gabbay				struct hl_userptr *userptr)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	hl_unpin_host_memory(hdev, userptr);
e65e175bSOded Gabbay	kfree(userptr);
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * dram_pg_pool_do_release() - free DRAM pages pool
e65e175bSOded Gabbay * @ref: pointer to reference object.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Frees the idr structure of physical pages handles.
e65e175bSOded Gabbay * - Frees the generic pool of DRAM physical pages.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic void dram_pg_pool_do_release(struct kref *ref)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_vm *vm = container_of(ref, struct hl_vm,
e65e175bSOded Gabbay			dram_pg_pool_refcount);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/*
e65e175bSOded Gabbay	 * free the idr here as only here we know for sure that there are no
e65e175bSOded Gabbay	 * allocated physical pages and hence there are no handles in use
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	idr_destroy(&vm->phys_pg_pack_handles);
e65e175bSOded Gabbay	gen_pool_destroy(vm->dram_pg_pool);
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * free_phys_pg_pack() - free physical page pack.
e65e175bSOded Gabbay * @hdev: habanalabs device structure.
e65e175bSOded Gabbay * @phys_pg_pack: physical page pack to free.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - For DRAM memory only
e65e175bSOded Gabbay *   - iterate over the pack, free each physical block structure by
e65e175bSOded Gabbay *     returning it to the general pool.
e65e175bSOded Gabbay * - Free the hl_vm_phys_pg_pack structure.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic void free_phys_pg_pack(struct hl_device *hdev,
e65e175bSOded Gabbay				struct hl_vm_phys_pg_pack *phys_pg_pack)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_vm *vm = &hdev->vm;
e65e175bSOded Gabbay	u64 i;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (phys_pg_pack->created_from_userptr)
e65e175bSOded Gabbay		goto end;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (phys_pg_pack->contiguous) {
e65e175bSOded Gabbay		gen_pool_free(vm->dram_pg_pool, phys_pg_pack->pages[0],
e65e175bSOded Gabbay			phys_pg_pack->total_size);
e65e175bSOded Gabbay
e65e175bSOded Gabbay		for (i = 0; i < phys_pg_pack->npages ; i++)
e65e175bSOded Gabbay			kref_put(&vm->dram_pg_pool_refcount,
e65e175bSOded Gabbay				dram_pg_pool_do_release);
e65e175bSOded Gabbay	} else {
e65e175bSOded Gabbay		for (i = 0 ; i < phys_pg_pack->npages ; i++) {
e65e175bSOded Gabbay			gen_pool_free(vm->dram_pg_pool,
e65e175bSOded Gabbay				phys_pg_pack->pages[i],
e65e175bSOded Gabbay				phys_pg_pack->page_size);
e65e175bSOded Gabbay			kref_put(&vm->dram_pg_pool_refcount,
e65e175bSOded Gabbay				dram_pg_pool_do_release);
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbayend:
e65e175bSOded Gabbay	kvfree(phys_pg_pack->pages);
e65e175bSOded Gabbay	kfree(phys_pg_pack);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * free_device_memory() - free device memory.
e65e175bSOded Gabbay * @ctx: pointer to the context structure.
e65e175bSOded Gabbay * @args: host parameters containing the requested size.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Free the device memory related to the given handle.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic int free_device_memory(struct hl_ctx *ctx, struct hl_mem_in *args)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_device *hdev = ctx->hdev;
e65e175bSOded Gabbay	struct hl_vm *vm = &hdev->vm;
e65e175bSOded Gabbay	struct hl_vm_phys_pg_pack *phys_pg_pack;
e65e175bSOded Gabbay	u32 handle = args->free.handle;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	spin_lock(&vm->idr_lock);
e65e175bSOded Gabbay	phys_pg_pack = idr_find(&vm->phys_pg_pack_handles, handle);
e65e175bSOded Gabbay	if (!phys_pg_pack) {
e65e175bSOded Gabbay		spin_unlock(&vm->idr_lock);
e65e175bSOded Gabbay		dev_err(hdev->dev, "free device memory failed, no match for handle %u\n", handle);
e65e175bSOded Gabbay		return -EINVAL;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (atomic_read(&phys_pg_pack->mapping_cnt) > 0) {
e65e175bSOded Gabbay		spin_unlock(&vm->idr_lock);
e65e175bSOded Gabbay		dev_err(hdev->dev, "handle %u is mapped, cannot free\n", handle);
e65e175bSOded Gabbay		return -EINVAL;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* must remove from idr before the freeing of the physical pages as the refcount of the pool
e65e175bSOded Gabbay	 * is also the trigger of the idr destroy
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	idr_remove(&vm->phys_pg_pack_handles, handle);
e65e175bSOded Gabbay	spin_unlock(&vm->idr_lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	atomic64_sub(phys_pg_pack->total_size, &ctx->dram_phys_mem);
e65e175bSOded Gabbay	atomic64_sub(phys_pg_pack->total_size, &hdev->dram_used_mem);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	free_phys_pg_pack(hdev, phys_pg_pack);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * clear_va_list_locked() - free virtual addresses list.
e65e175bSOded Gabbay * @hdev: habanalabs device structure.
e65e175bSOded Gabbay * @va_list: list of virtual addresses to free.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Iterate over the list and free each virtual addresses block.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function should be called only when va_list lock is taken.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic void clear_va_list_locked(struct hl_device *hdev,
e65e175bSOded Gabbay		struct list_head *va_list)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_vm_va_block *va_block, *tmp;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	list_for_each_entry_safe(va_block, tmp, va_list, node) {
e65e175bSOded Gabbay		list_del(&va_block->node);
e65e175bSOded Gabbay		kfree(va_block);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * print_va_list_locked() - print virtual addresses list.
e65e175bSOded Gabbay * @hdev: habanalabs device structure.
e65e175bSOded Gabbay * @va_list: list of virtual addresses to print.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Iterate over the list and print each virtual addresses block.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function should be called only when va_list lock is taken.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic void print_va_list_locked(struct hl_device *hdev,
e65e175bSOded Gabbay		struct list_head *va_list)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay#if HL_MMU_DEBUG
e65e175bSOded Gabbay	struct hl_vm_va_block *va_block;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	dev_dbg(hdev->dev, "print va list:\n");
e65e175bSOded Gabbay
e65e175bSOded Gabbay	list_for_each_entry(va_block, va_list, node)
e65e175bSOded Gabbay		dev_dbg(hdev->dev,
e65e175bSOded Gabbay			"va block, start: 0x%llx, end: 0x%llx, size: %llu\n",
e65e175bSOded Gabbay			va_block->start, va_block->end, va_block->size);
e65e175bSOded Gabbay#endif
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * merge_va_blocks_locked() - merge a virtual block if possible.
e65e175bSOded Gabbay * @hdev: pointer to the habanalabs device structure.
e65e175bSOded Gabbay * @va_list: pointer to the virtual addresses block list.
e65e175bSOded Gabbay * @va_block: virtual block to merge with adjacent blocks.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Merge the given blocks with the adjacent blocks if their virtual ranges
e65e175bSOded Gabbay *   create a contiguous virtual range.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This Function should be called only when va_list lock is taken.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic void merge_va_blocks_locked(struct hl_device *hdev,
e65e175bSOded Gabbay		struct list_head *va_list, struct hl_vm_va_block *va_block)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_vm_va_block *prev, *next;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	prev = list_prev_entry(va_block, node);
e65e175bSOded Gabbay	if (&prev->node != va_list && prev->end + 1 == va_block->start) {
e65e175bSOded Gabbay		prev->end = va_block->end;
e65e175bSOded Gabbay		prev->size = prev->end - prev->start + 1;
e65e175bSOded Gabbay		list_del(&va_block->node);
e65e175bSOded Gabbay		kfree(va_block);
e65e175bSOded Gabbay		va_block = prev;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	next = list_next_entry(va_block, node);
e65e175bSOded Gabbay	if (&next->node != va_list && va_block->end + 1 == next->start) {
e65e175bSOded Gabbay		next->start = va_block->start;
e65e175bSOded Gabbay		next->size = next->end - next->start + 1;
e65e175bSOded Gabbay		list_del(&va_block->node);
e65e175bSOded Gabbay		kfree(va_block);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * add_va_block_locked() - add a virtual block to the virtual addresses list.
e65e175bSOded Gabbay * @hdev: pointer to the habanalabs device structure.
e65e175bSOded Gabbay * @va_list: pointer to the virtual addresses block list.
e65e175bSOded Gabbay * @start: start virtual address.
e65e175bSOded Gabbay * @end: end virtual address.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Add the given block to the virtual blocks list and merge with other blocks
e65e175bSOded Gabbay *   if a contiguous virtual block can be created.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This Function should be called only when va_list lock is taken.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic int add_va_block_locked(struct hl_device *hdev,
e65e175bSOded Gabbay		struct list_head *va_list, u64 start, u64 end)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_vm_va_block *va_block, *res = NULL;
e65e175bSOded Gabbay	u64 size = end - start + 1;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	print_va_list_locked(hdev, va_list);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	list_for_each_entry(va_block, va_list, node) {
e65e175bSOded Gabbay		/* TODO: remove upon matureness */
e65e175bSOded Gabbay		if (hl_mem_area_crosses_range(start, size, va_block->start,
e65e175bSOded Gabbay				va_block->end)) {
e65e175bSOded Gabbay			dev_err(hdev->dev,
e65e175bSOded Gabbay				"block crossing ranges at start 0x%llx, end 0x%llx\n",
e65e175bSOded Gabbay				va_block->start, va_block->end);
e65e175bSOded Gabbay			return -EINVAL;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay
e65e175bSOded Gabbay		if (va_block->end < start)
e65e175bSOded Gabbay			res = va_block;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	va_block = kmalloc(sizeof(*va_block), GFP_KERNEL);
e65e175bSOded Gabbay	if (!va_block)
e65e175bSOded Gabbay		return -ENOMEM;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	va_block->start = start;
e65e175bSOded Gabbay	va_block->end = end;
e65e175bSOded Gabbay	va_block->size = size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (!res)
e65e175bSOded Gabbay		list_add(&va_block->node, va_list);
e65e175bSOded Gabbay	else
e65e175bSOded Gabbay		list_add(&va_block->node, &res->node);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	merge_va_blocks_locked(hdev, va_list, va_block);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	print_va_list_locked(hdev, va_list);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * add_va_block() - wrapper for add_va_block_locked.
e65e175bSOded Gabbay * @hdev: pointer to the habanalabs device structure.
e65e175bSOded Gabbay * @va_range: pointer to the virtual addresses range object.
e65e175bSOded Gabbay * @start: start virtual address.
e65e175bSOded Gabbay * @end: end virtual address.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Takes the list lock and calls add_va_block_locked.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic inline int add_va_block(struct hl_device *hdev,
e65e175bSOded Gabbay		struct hl_va_range *va_range, u64 start, u64 end)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	int rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	mutex_lock(&va_range->lock);
e65e175bSOded Gabbay	rc = add_va_block_locked(hdev, &va_range->list, start, end);
e65e175bSOded Gabbay	mutex_unlock(&va_range->lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return rc;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * is_hint_crossing_range() - check if hint address crossing specified reserved.
e65e175bSOded Gabbay * @range_type: virtual space range type.
e65e175bSOded Gabbay * @start_addr: start virtual address.
e65e175bSOded Gabbay * @size: block size.
e65e175bSOded Gabbay * @prop: asic properties structure to retrieve reserved ranges from.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic inline bool is_hint_crossing_range(enum hl_va_range_type range_type,
e65e175bSOded Gabbay		u64 start_addr, u32 size, struct asic_fixed_properties *prop) {
e65e175bSOded Gabbay	bool range_cross;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (range_type == HL_VA_RANGE_TYPE_DRAM)
e65e175bSOded Gabbay		range_cross =
e65e175bSOded Gabbay			hl_mem_area_crosses_range(start_addr, size,
e65e175bSOded Gabbay			prop->hints_dram_reserved_va_range.start_addr,
e65e175bSOded Gabbay			prop->hints_dram_reserved_va_range.end_addr);
e65e175bSOded Gabbay	else if (range_type == HL_VA_RANGE_TYPE_HOST)
e65e175bSOded Gabbay		range_cross =
e65e175bSOded Gabbay			hl_mem_area_crosses_range(start_addr,	size,
e65e175bSOded Gabbay			prop->hints_host_reserved_va_range.start_addr,
e65e175bSOded Gabbay			prop->hints_host_reserved_va_range.end_addr);
e65e175bSOded Gabbay	else
e65e175bSOded Gabbay		range_cross =
e65e175bSOded Gabbay			hl_mem_area_crosses_range(start_addr, size,
e65e175bSOded Gabbay			prop->hints_host_hpage_reserved_va_range.start_addr,
e65e175bSOded Gabbay			prop->hints_host_hpage_reserved_va_range.end_addr);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return range_cross;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * get_va_block() - get a virtual block for the given size and alignment.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * @hdev: pointer to the habanalabs device structure.
e65e175bSOded Gabbay * @va_range: pointer to the virtual addresses range.
e65e175bSOded Gabbay * @size: requested block size.
e65e175bSOded Gabbay * @hint_addr: hint for requested address by the user.
e65e175bSOded Gabbay * @va_block_align: required alignment of the virtual block start address.
e65e175bSOded Gabbay * @range_type: va range type (host, dram)
e65e175bSOded Gabbay * @flags: additional memory flags, currently only uses HL_MEM_FORCE_HINT
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Iterate on the virtual block list to find a suitable virtual block for the
e65e175bSOded Gabbay *   given size, hint address and alignment.
e65e175bSOded Gabbay * - Reserve the requested block and update the list.
e65e175bSOded Gabbay * - Return the start address of the virtual block.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic u64 get_va_block(struct hl_device *hdev,
e65e175bSOded Gabbay				struct hl_va_range *va_range,
e65e175bSOded Gabbay				u64 size, u64 hint_addr, u32 va_block_align,
e65e175bSOded Gabbay				enum hl_va_range_type range_type,
e65e175bSOded Gabbay				u32 flags)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_vm_va_block *va_block, *new_va_block = NULL;
e65e175bSOded Gabbay	struct asic_fixed_properties *prop = &hdev->asic_prop;
e65e175bSOded Gabbay	u64 tmp_hint_addr, valid_start, valid_size, prev_start, prev_end,
e65e175bSOded Gabbay		align_mask, reserved_valid_start = 0, reserved_valid_size = 0,
e65e175bSOded Gabbay		dram_hint_mask = prop->dram_hints_align_mask;
e65e175bSOded Gabbay	bool add_prev = false;
e65e175bSOded Gabbay	bool is_align_pow_2  = is_power_of_2(va_range->page_size);
e65e175bSOded Gabbay	bool is_hint_dram_addr = hl_is_dram_va(hdev, hint_addr);
e65e175bSOded Gabbay	bool force_hint = flags & HL_MEM_FORCE_HINT;
fb10da93SDafna Hirschfeld	int rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (is_align_pow_2)
e65e175bSOded Gabbay		align_mask = ~((u64)va_block_align - 1);
e65e175bSOded Gabbay	else
e65e175bSOded Gabbay		/*
e65e175bSOded Gabbay		 * with non-power-of-2 range we work only with page granularity
e65e175bSOded Gabbay		 * and the start address is page aligned,
e65e175bSOded Gabbay		 * so no need for alignment checking.
e65e175bSOded Gabbay		 */
e65e175bSOded Gabbay		size = DIV_ROUND_UP_ULL(size, va_range->page_size) *
e65e175bSOded Gabbay							va_range->page_size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	tmp_hint_addr = hint_addr & ~dram_hint_mask;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* Check if we need to ignore hint address */
e65e175bSOded Gabbay	if ((is_align_pow_2 && (hint_addr & (va_block_align - 1))) ||
e65e175bSOded Gabbay			(!is_align_pow_2 && is_hint_dram_addr &&
e65e175bSOded Gabbay			do_div(tmp_hint_addr, va_range->page_size))) {
e65e175bSOded Gabbay
e65e175bSOded Gabbay		if (force_hint) {
e65e175bSOded Gabbay			/* Hint must be respected, so here we just fail */
e65e175bSOded Gabbay			dev_err(hdev->dev,
e65e175bSOded Gabbay				"Hint address 0x%llx is not page aligned - cannot be respected\n",
e65e175bSOded Gabbay				hint_addr);
e65e175bSOded Gabbay			return 0;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay
e65e175bSOded Gabbay		dev_dbg(hdev->dev,
e65e175bSOded Gabbay			"Hint address 0x%llx will be ignored because it is not aligned\n",
e65e175bSOded Gabbay			hint_addr);
e65e175bSOded Gabbay		hint_addr = 0;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	mutex_lock(&va_range->lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	print_va_list_locked(hdev, &va_range->list);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	list_for_each_entry(va_block, &va_range->list, node) {
e65e175bSOded Gabbay		/* Calc the first possible aligned addr */
e65e175bSOded Gabbay		valid_start = va_block->start;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		if (is_align_pow_2 && (valid_start & (va_block_align - 1))) {
e65e175bSOded Gabbay			valid_start &= align_mask;
e65e175bSOded Gabbay			valid_start += va_block_align;
e65e175bSOded Gabbay			if (valid_start > va_block->end)
e65e175bSOded Gabbay				continue;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay
e65e175bSOded Gabbay		valid_size = va_block->end - valid_start + 1;
e65e175bSOded Gabbay		if (valid_size < size)
e65e175bSOded Gabbay			continue;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		/*
e65e175bSOded Gabbay		 * In case hint address is 0, and hints_range_reservation
e65e175bSOded Gabbay		 * property enabled, then avoid allocating va blocks from the
e65e175bSOded Gabbay		 * range reserved for hint addresses
e65e175bSOded Gabbay		 */
e65e175bSOded Gabbay		if (prop->hints_range_reservation && !hint_addr)
e65e175bSOded Gabbay			if (is_hint_crossing_range(range_type, valid_start,
e65e175bSOded Gabbay					size, prop))
e65e175bSOded Gabbay				continue;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		/* Pick the minimal length block which has the required size */
e65e175bSOded Gabbay		if (!new_va_block || (valid_size < reserved_valid_size)) {
e65e175bSOded Gabbay			new_va_block = va_block;
e65e175bSOded Gabbay			reserved_valid_start = valid_start;
e65e175bSOded Gabbay			reserved_valid_size = valid_size;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay
e65e175bSOded Gabbay		if (hint_addr && hint_addr >= valid_start &&
e65e175bSOded Gabbay					(hint_addr + size) <= va_block->end) {
e65e175bSOded Gabbay			new_va_block = va_block;
e65e175bSOded Gabbay			reserved_valid_start = hint_addr;
e65e175bSOded Gabbay			reserved_valid_size = valid_size;
e65e175bSOded Gabbay			break;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (!new_va_block) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "no available va block for size %llu\n",
e65e175bSOded Gabbay								size);
e65e175bSOded Gabbay		goto out;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (force_hint && reserved_valid_start != hint_addr) {
e65e175bSOded Gabbay		/* Hint address must be respected. If we are here - this means
e65e175bSOded Gabbay		 * we could not respect it.
e65e175bSOded Gabbay		 */
e65e175bSOded Gabbay		dev_err(hdev->dev,
e65e175bSOded Gabbay			"Hint address 0x%llx could not be respected\n",
e65e175bSOded Gabbay			hint_addr);
e65e175bSOded Gabbay		reserved_valid_start = 0;
e65e175bSOded Gabbay		goto out;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/*
e65e175bSOded Gabbay	 * Check if there is some leftover range due to reserving the new
e65e175bSOded Gabbay	 * va block, then return it to the main virtual addresses list.
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	if (reserved_valid_start > new_va_block->start) {
e65e175bSOded Gabbay		prev_start = new_va_block->start;
e65e175bSOded Gabbay		prev_end = reserved_valid_start - 1;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		new_va_block->start = reserved_valid_start;
e65e175bSOded Gabbay		new_va_block->size = reserved_valid_size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		add_prev = true;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (new_va_block->size > size) {
e65e175bSOded Gabbay		new_va_block->start += size;
e65e175bSOded Gabbay		new_va_block->size = new_va_block->end - new_va_block->start + 1;
e65e175bSOded Gabbay	} else {
e65e175bSOded Gabbay		list_del(&new_va_block->node);
e65e175bSOded Gabbay		kfree(new_va_block);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
fb10da93SDafna Hirschfeld	if (add_prev) {
fb10da93SDafna Hirschfeld		rc = add_va_block_locked(hdev, &va_range->list, prev_start, prev_end);
fb10da93SDafna Hirschfeld		if (rc) {
fb10da93SDafna Hirschfeld			reserved_valid_start = 0;
fb10da93SDafna Hirschfeld			goto out;
fb10da93SDafna Hirschfeld		}
fb10da93SDafna Hirschfeld	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	print_va_list_locked(hdev, &va_range->list);
e65e175bSOded Gabbayout:
e65e175bSOded Gabbay	mutex_unlock(&va_range->lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return reserved_valid_start;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/*
e65e175bSOded Gabbay * hl_reserve_va_block() - reserve a virtual block of a given size.
e65e175bSOded Gabbay * @hdev: pointer to the habanalabs device structure.
e65e175bSOded Gabbay * @ctx: current context
e65e175bSOded Gabbay * @type: virtual addresses range type.
e65e175bSOded Gabbay * @size: requested block size.
e65e175bSOded Gabbay * @alignment: required alignment in bytes of the virtual block start address,
e65e175bSOded Gabbay *             0 means no alignment.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Iterate on the virtual block list to find a suitable virtual block for the
e65e175bSOded Gabbay *   given size and alignment.
e65e175bSOded Gabbay * - Reserve the requested block and update the list.
e65e175bSOded Gabbay * - Return the start address of the virtual block.
e65e175bSOded Gabbay */
e65e175bSOded Gabbayu64 hl_reserve_va_block(struct hl_device *hdev, struct hl_ctx *ctx,
e65e175bSOded Gabbay		enum hl_va_range_type type, u64 size, u32 alignment)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	return get_va_block(hdev, ctx->va_range[type], size, 0,
e65e175bSOded Gabbay			max(alignment, ctx->va_range[type]->page_size),
e65e175bSOded Gabbay			type, 0);
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * hl_get_va_range_type() - get va_range type for the given address and size.
e65e175bSOded Gabbay * @ctx: context to fetch va_range from.
e65e175bSOded Gabbay * @address: the start address of the area we want to validate.
e65e175bSOded Gabbay * @size: the size in bytes of the area we want to validate.
e65e175bSOded Gabbay * @type: returned va_range type.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * Return: true if the area is inside a valid range, false otherwise.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic int hl_get_va_range_type(struct hl_ctx *ctx, u64 address, u64 size,
e65e175bSOded Gabbay			enum hl_va_range_type *type)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	int i;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	for (i = 0 ; i < HL_VA_RANGE_TYPE_MAX; i++) {
e65e175bSOded Gabbay		if (hl_mem_area_inside_range(address, size,
e65e175bSOded Gabbay				ctx->va_range[i]->start_addr,
e65e175bSOded Gabbay				ctx->va_range[i]->end_addr)) {
e65e175bSOded Gabbay			*type = i;
e65e175bSOded Gabbay			return 0;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return -EINVAL;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * hl_unreserve_va_block() - wrapper for add_va_block to unreserve a va block.
e65e175bSOded Gabbay * @hdev: pointer to the habanalabs device structure
e65e175bSOded Gabbay * @ctx: pointer to the context structure.
e65e175bSOded Gabbay * @start_addr: start virtual address.
e65e175bSOded Gabbay * @size: number of bytes to unreserve.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Takes the list lock and calls add_va_block_locked.
e65e175bSOded Gabbay */
e65e175bSOded Gabbayint hl_unreserve_va_block(struct hl_device *hdev, struct hl_ctx *ctx,
e65e175bSOded Gabbay		u64 start_addr, u64 size)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	enum hl_va_range_type type;
e65e175bSOded Gabbay	int rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = hl_get_va_range_type(ctx, start_addr, size, &type);
e65e175bSOded Gabbay	if (rc) {
e65e175bSOded Gabbay		dev_err(hdev->dev,
e65e175bSOded Gabbay			"cannot find va_range for va %#llx size %llu",
e65e175bSOded Gabbay			start_addr, size);
e65e175bSOded Gabbay		return rc;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = add_va_block(hdev, ctx->va_range[type], start_addr,
e65e175bSOded Gabbay						start_addr + size - 1);
e65e175bSOded Gabbay	if (rc)
e65e175bSOded Gabbay		dev_warn(hdev->dev,
e65e175bSOded Gabbay			"add va block failed for vaddr: 0x%llx\n", start_addr);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return rc;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * init_phys_pg_pack_from_userptr() - initialize physical page pack from host
e65e175bSOded Gabbay *                                    memory
e65e175bSOded Gabbay * @ctx: pointer to the context structure.
e65e175bSOded Gabbay * @userptr: userptr to initialize from.
e65e175bSOded Gabbay * @pphys_pg_pack: result pointer.
e65e175bSOded Gabbay * @force_regular_page: tell the function to ignore huge page optimization,
e65e175bSOded Gabbay *                      even if possible. Needed for cases where the device VA
e65e175bSOded Gabbay *                      is allocated before we know the composition of the
e65e175bSOded Gabbay *                      physical pages
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Pin the physical pages related to the given virtual block.
e65e175bSOded Gabbay * - Create a physical page pack from the physical pages related to the given
e65e175bSOded Gabbay *   virtual block.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic int init_phys_pg_pack_from_userptr(struct hl_ctx *ctx,
e65e175bSOded Gabbay				struct hl_userptr *userptr,
e65e175bSOded Gabbay				struct hl_vm_phys_pg_pack **pphys_pg_pack,
e65e175bSOded Gabbay				bool force_regular_page)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	u32 npages, page_size = PAGE_SIZE,
e65e175bSOded Gabbay		huge_page_size = ctx->hdev->asic_prop.pmmu_huge.page_size;
e65e175bSOded Gabbay	u32 pgs_in_huge_page = huge_page_size >> __ffs(page_size);
e65e175bSOded Gabbay	struct hl_vm_phys_pg_pack *phys_pg_pack;
e65e175bSOded Gabbay	bool first = true, is_huge_page_opt;
e65e175bSOded Gabbay	u64 page_mask, total_npages;
e65e175bSOded Gabbay	struct scatterlist *sg;
e65e175bSOded Gabbay	dma_addr_t dma_addr;
e65e175bSOded Gabbay	int rc, i, j;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	phys_pg_pack = kzalloc(sizeof(*phys_pg_pack), GFP_KERNEL);
e65e175bSOded Gabbay	if (!phys_pg_pack)
e65e175bSOded Gabbay		return -ENOMEM;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	phys_pg_pack->vm_type = userptr->vm_type;
e65e175bSOded Gabbay	phys_pg_pack->created_from_userptr = true;
e65e175bSOded Gabbay	phys_pg_pack->asid = ctx->asid;
e65e175bSOded Gabbay	atomic_set(&phys_pg_pack->mapping_cnt, 1);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	is_huge_page_opt = (force_regular_page ? false : true);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* Only if all dma_addrs are aligned to 2MB and their
e65e175bSOded Gabbay	 * sizes is at least 2MB, we can use huge page mapping.
e65e175bSOded Gabbay	 * We limit the 2MB optimization to this condition,
e65e175bSOded Gabbay	 * since later on we acquire the related VA range as one
e65e175bSOded Gabbay	 * consecutive block.
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	total_npages = 0;
e65e175bSOded Gabbay	for_each_sgtable_dma_sg(userptr->sgt, sg, i) {
e65e175bSOded Gabbay		npages = hl_get_sg_info(sg, &dma_addr);
e65e175bSOded Gabbay
e65e175bSOded Gabbay		total_npages += npages;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		if ((npages % pgs_in_huge_page) ||
e65e175bSOded Gabbay					(dma_addr & (huge_page_size - 1)))
e65e175bSOded Gabbay			is_huge_page_opt = false;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (is_huge_page_opt) {
e65e175bSOded Gabbay		page_size = huge_page_size;
e65e175bSOded Gabbay		do_div(total_npages, pgs_in_huge_page);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	page_mask = ~(((u64) page_size) - 1);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	phys_pg_pack->pages = kvmalloc_array(total_npages, sizeof(u64),
e65e175bSOded Gabbay						GFP_KERNEL);
e65e175bSOded Gabbay	if (ZERO_OR_NULL_PTR(phys_pg_pack->pages)) {
e65e175bSOded Gabbay		rc = -ENOMEM;
e65e175bSOded Gabbay		goto page_pack_arr_mem_err;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	phys_pg_pack->npages = total_npages;
e65e175bSOded Gabbay	phys_pg_pack->page_size = page_size;
e65e175bSOded Gabbay	phys_pg_pack->total_size = total_npages * page_size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	j = 0;
e65e175bSOded Gabbay	for_each_sgtable_dma_sg(userptr->sgt, sg, i) {
e65e175bSOded Gabbay		npages = hl_get_sg_info(sg, &dma_addr);
e65e175bSOded Gabbay
e65e175bSOded Gabbay		/* align down to physical page size and save the offset */
e65e175bSOded Gabbay		if (first) {
e65e175bSOded Gabbay			first = false;
e65e175bSOded Gabbay			phys_pg_pack->offset = dma_addr & (page_size - 1);
e65e175bSOded Gabbay			dma_addr &= page_mask;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay
e65e175bSOded Gabbay		while (npages) {
e65e175bSOded Gabbay			phys_pg_pack->pages[j++] = dma_addr;
e65e175bSOded Gabbay			dma_addr += page_size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay			if (is_huge_page_opt)
e65e175bSOded Gabbay				npages -= pgs_in_huge_page;
e65e175bSOded Gabbay			else
e65e175bSOded Gabbay				npages--;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	*pphys_pg_pack = phys_pg_pack;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbaypage_pack_arr_mem_err:
e65e175bSOded Gabbay	kfree(phys_pg_pack);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return rc;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * map_phys_pg_pack() - maps the physical page pack..
e65e175bSOded Gabbay * @ctx: pointer to the context structure.
e65e175bSOded Gabbay * @vaddr: start address of the virtual area to map from.
e65e175bSOded Gabbay * @phys_pg_pack: the pack of physical pages to map to.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Maps each chunk of virtual memory to matching physical chunk.
e65e175bSOded Gabbay * - Stores number of successful mappings in the given argument.
e65e175bSOded Gabbay * - Returns 0 on success, error code otherwise.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic int map_phys_pg_pack(struct hl_ctx *ctx, u64 vaddr,
e65e175bSOded Gabbay				struct hl_vm_phys_pg_pack *phys_pg_pack)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_device *hdev = ctx->hdev;
e65e175bSOded Gabbay	u64 next_vaddr = vaddr, paddr, mapped_pg_cnt = 0, i;
e65e175bSOded Gabbay	u32 page_size = phys_pg_pack->page_size;
e65e175bSOded Gabbay	int rc = 0;
e65e175bSOded Gabbay	bool is_host_addr;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	for (i = 0 ; i < phys_pg_pack->npages ; i++) {
e65e175bSOded Gabbay		paddr = phys_pg_pack->pages[i];
e65e175bSOded Gabbay
e65e175bSOded Gabbay		rc = hl_mmu_map_page(ctx, next_vaddr, paddr, page_size,
e65e175bSOded Gabbay				(i + 1) == phys_pg_pack->npages);
e65e175bSOded Gabbay		if (rc) {
e65e175bSOded Gabbay			dev_err(hdev->dev,
e65e175bSOded Gabbay				"map failed for handle %u, npages: %llu, mapped: %llu",
e65e175bSOded Gabbay				phys_pg_pack->handle, phys_pg_pack->npages,
e65e175bSOded Gabbay				mapped_pg_cnt);
e65e175bSOded Gabbay			goto err;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay
e65e175bSOded Gabbay		mapped_pg_cnt++;
e65e175bSOded Gabbay		next_vaddr += page_size;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbayerr:
e65e175bSOded Gabbay	is_host_addr = !hl_is_dram_va(hdev, vaddr);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	next_vaddr = vaddr;
e65e175bSOded Gabbay	for (i = 0 ; i < mapped_pg_cnt ; i++) {
e65e175bSOded Gabbay		if (hl_mmu_unmap_page(ctx, next_vaddr, page_size,
e65e175bSOded Gabbay					(i + 1) == mapped_pg_cnt))
e65e175bSOded Gabbay			dev_warn_ratelimited(hdev->dev,
e65e175bSOded Gabbay				"failed to unmap handle %u, va: 0x%llx, pa: 0x%llx, page size: %u\n",
e65e175bSOded Gabbay					phys_pg_pack->handle, next_vaddr,
e65e175bSOded Gabbay					phys_pg_pack->pages[i], page_size);
e65e175bSOded Gabbay
e65e175bSOded Gabbay		next_vaddr += page_size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		/*
e65e175bSOded Gabbay		 * unmapping on Palladium can be really long, so avoid a CPU
e65e175bSOded Gabbay		 * soft lockup bug by sleeping a little between unmapping pages
e65e175bSOded Gabbay		 *
e65e175bSOded Gabbay		 * In addition, on host num of pages could be huge,
e65e175bSOded Gabbay		 * because page size could be 4KB, so when unmapping host
e65e175bSOded Gabbay		 * pages sleep every 32K pages to avoid soft lockup
e65e175bSOded Gabbay		 */
e65e175bSOded Gabbay		if (hdev->pldm || (is_host_addr && (i & 0x7FFF) == 0))
e65e175bSOded Gabbay			usleep_range(50, 200);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return rc;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * unmap_phys_pg_pack() - unmaps the physical page pack.
e65e175bSOded Gabbay * @ctx: pointer to the context structure.
e65e175bSOded Gabbay * @vaddr: start address of the virtual area to unmap.
e65e175bSOded Gabbay * @phys_pg_pack: the pack of physical pages to unmap.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic void unmap_phys_pg_pack(struct hl_ctx *ctx, u64 vaddr,
e65e175bSOded Gabbay				struct hl_vm_phys_pg_pack *phys_pg_pack)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_device *hdev = ctx->hdev;
e65e175bSOded Gabbay	u64 next_vaddr, i;
e65e175bSOded Gabbay	bool is_host_addr;
e65e175bSOded Gabbay	u32 page_size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	is_host_addr = !hl_is_dram_va(hdev, vaddr);
e65e175bSOded Gabbay	page_size = phys_pg_pack->page_size;
e65e175bSOded Gabbay	next_vaddr = vaddr;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	for (i = 0 ; i < phys_pg_pack->npages ; i++, next_vaddr += page_size) {
e65e175bSOded Gabbay		if (hl_mmu_unmap_page(ctx, next_vaddr, page_size,
e65e175bSOded Gabbay				       (i + 1) == phys_pg_pack->npages))
e65e175bSOded Gabbay			dev_warn_ratelimited(hdev->dev,
e65e175bSOded Gabbay			"unmap failed for vaddr: 0x%llx\n", next_vaddr);
e65e175bSOded Gabbay
e65e175bSOded Gabbay		/*
e65e175bSOded Gabbay		 * unmapping on Palladium can be really long, so avoid a CPU
e65e175bSOded Gabbay		 * soft lockup bug by sleeping a little between unmapping pages
e65e175bSOded Gabbay		 *
e65e175bSOded Gabbay		 * In addition, on host num of pages could be huge,
e65e175bSOded Gabbay		 * because page size could be 4KB, so when unmapping host
e65e175bSOded Gabbay		 * pages sleep every 32K pages to avoid soft lockup
e65e175bSOded Gabbay		 */
e65e175bSOded Gabbay		if (hdev->pldm || (is_host_addr && (i & 0x7FFF) == 0))
e65e175bSOded Gabbay			usleep_range(50, 200);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * map_device_va() - map the given memory.
e65e175bSOded Gabbay * @ctx: pointer to the context structure.
e65e175bSOded Gabbay * @args: host parameters with handle/host virtual address.
e65e175bSOded Gabbay * @device_addr: pointer to result device virtual address.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - If given a physical device memory handle, map to a device virtual block
e65e175bSOded Gabbay *   and return the start address of this block.
e65e175bSOded Gabbay * - If given a host virtual address and size, find the related physical pages,
e65e175bSOded Gabbay *   map a device virtual block to this pages and return the start address of
e65e175bSOded Gabbay *   this block.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic int map_device_va(struct hl_ctx *ctx, struct hl_mem_in *args, u64 *device_addr)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_vm_phys_pg_pack *phys_pg_pack;
e65e175bSOded Gabbay	enum hl_va_range_type va_range_type = 0;
e65e175bSOded Gabbay	struct hl_device *hdev = ctx->hdev;
e65e175bSOded Gabbay	struct hl_userptr *userptr = NULL;
e65e175bSOded Gabbay	u32 handle = 0, va_block_align;
e65e175bSOded Gabbay	struct hl_vm_hash_node *hnode;
e65e175bSOded Gabbay	struct hl_vm *vm = &hdev->vm;
e65e175bSOded Gabbay	struct hl_va_range *va_range;
e65e175bSOded Gabbay	bool is_userptr, do_prefetch;
e65e175bSOded Gabbay	u64 ret_vaddr, hint_addr;
e65e175bSOded Gabbay	enum vm_type *vm_type;
e65e175bSOded Gabbay	int rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* set map flags */
e65e175bSOded Gabbay	is_userptr = args->flags & HL_MEM_USERPTR;
e65e175bSOded Gabbay	do_prefetch = hdev->supports_mmu_prefetch && (args->flags & HL_MEM_PREFETCH);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* Assume failure */
e65e175bSOded Gabbay	*device_addr = 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (is_userptr) {
e65e175bSOded Gabbay		u64 addr = args->map_host.host_virt_addr,
e65e175bSOded Gabbay			size = args->map_host.mem_size;
e65e175bSOded Gabbay		u32 page_size = hdev->asic_prop.pmmu.page_size,
e65e175bSOded Gabbay			huge_page_size = hdev->asic_prop.pmmu_huge.page_size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		rc = dma_map_host_va(hdev, addr, size, &userptr);
e0ad6badSMoti Haimovski		if (rc)
e65e175bSOded Gabbay			return rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		rc = init_phys_pg_pack_from_userptr(ctx, userptr,
e65e175bSOded Gabbay				&phys_pg_pack, false);
e65e175bSOded Gabbay		if (rc) {
e65e175bSOded Gabbay			dev_err(hdev->dev,
e65e175bSOded Gabbay				"unable to init page pack for vaddr 0x%llx\n",
e65e175bSOded Gabbay				addr);
e65e175bSOded Gabbay			goto init_page_pack_err;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay
e65e175bSOded Gabbay		vm_type = (enum vm_type *) userptr;
e65e175bSOded Gabbay		hint_addr = args->map_host.hint_addr;
e65e175bSOded Gabbay		handle = phys_pg_pack->handle;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		/* get required alignment */
e65e175bSOded Gabbay		if (phys_pg_pack->page_size == page_size) {
e65e175bSOded Gabbay			va_range = ctx->va_range[HL_VA_RANGE_TYPE_HOST];
e65e175bSOded Gabbay			va_range_type = HL_VA_RANGE_TYPE_HOST;
e65e175bSOded Gabbay			/*
e65e175bSOded Gabbay			 * huge page alignment may be needed in case of regular
e65e175bSOded Gabbay			 * page mapping, depending on the host VA alignment
e65e175bSOded Gabbay			 */
e65e175bSOded Gabbay			if (addr & (huge_page_size - 1))
e65e175bSOded Gabbay				va_block_align = page_size;
e65e175bSOded Gabbay			else
e65e175bSOded Gabbay				va_block_align = huge_page_size;
e65e175bSOded Gabbay		} else {
e65e175bSOded Gabbay			/*
e65e175bSOded Gabbay			 * huge page alignment is needed in case of huge page
e65e175bSOded Gabbay			 * mapping
e65e175bSOded Gabbay			 */
e65e175bSOded Gabbay			va_range = ctx->va_range[HL_VA_RANGE_TYPE_HOST_HUGE];
e65e175bSOded Gabbay			va_range_type = HL_VA_RANGE_TYPE_HOST_HUGE;
e65e175bSOded Gabbay			va_block_align = huge_page_size;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay	} else {
e65e175bSOded Gabbay		handle = lower_32_bits(args->map_device.handle);
e65e175bSOded Gabbay
e65e175bSOded Gabbay		spin_lock(&vm->idr_lock);
e65e175bSOded Gabbay		phys_pg_pack = idr_find(&vm->phys_pg_pack_handles, handle);
e65e175bSOded Gabbay		if (!phys_pg_pack) {
e65e175bSOded Gabbay			spin_unlock(&vm->idr_lock);
e65e175bSOded Gabbay			dev_err(hdev->dev,
e65e175bSOded Gabbay				"no match for handle %u\n", handle);
e65e175bSOded Gabbay			return -EINVAL;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay
e65e175bSOded Gabbay		/* increment now to avoid freeing device memory while mapping */
e65e175bSOded Gabbay		atomic_inc(&phys_pg_pack->mapping_cnt);
e65e175bSOded Gabbay
e65e175bSOded Gabbay		spin_unlock(&vm->idr_lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay		vm_type = (enum vm_type *) phys_pg_pack;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		hint_addr = args->map_device.hint_addr;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		/* DRAM VA alignment is the same as the MMU page size */
e65e175bSOded Gabbay		va_range = ctx->va_range[HL_VA_RANGE_TYPE_DRAM];
e65e175bSOded Gabbay		va_range_type = HL_VA_RANGE_TYPE_DRAM;
e65e175bSOded Gabbay		va_block_align = hdev->asic_prop.dmmu.page_size;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/*
e65e175bSOded Gabbay	 * relevant for mapping device physical memory only, as host memory is
e65e175bSOded Gabbay	 * implicitly shared
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	if (!is_userptr && !(phys_pg_pack->flags & HL_MEM_SHARED) &&
e65e175bSOded Gabbay			phys_pg_pack->asid != ctx->asid) {
e65e175bSOded Gabbay		dev_err(hdev->dev,
e65e175bSOded Gabbay			"Failed to map memory, handle %u is not shared\n",
e65e175bSOded Gabbay			handle);
e65e175bSOded Gabbay		rc = -EPERM;
e65e175bSOded Gabbay		goto shared_err;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	hnode = kzalloc(sizeof(*hnode), GFP_KERNEL);
e65e175bSOded Gabbay	if (!hnode) {
e65e175bSOded Gabbay		rc = -ENOMEM;
e65e175bSOded Gabbay		goto hnode_err;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (hint_addr && phys_pg_pack->offset) {
e65e175bSOded Gabbay		if (args->flags & HL_MEM_FORCE_HINT) {
e65e175bSOded Gabbay			/* Fail if hint must be respected but it can't be */
e65e175bSOded Gabbay			dev_err(hdev->dev,
e65e175bSOded Gabbay				"Hint address 0x%llx cannot be respected because source memory is not aligned 0x%x\n",
e65e175bSOded Gabbay				hint_addr, phys_pg_pack->offset);
e65e175bSOded Gabbay			rc = -EINVAL;
e65e175bSOded Gabbay			goto va_block_err;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay		dev_dbg(hdev->dev,
e65e175bSOded Gabbay			"Hint address 0x%llx will be ignored because source memory is not aligned 0x%x\n",
e65e175bSOded Gabbay			hint_addr, phys_pg_pack->offset);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	ret_vaddr = get_va_block(hdev, va_range, phys_pg_pack->total_size,
e65e175bSOded Gabbay					hint_addr, va_block_align,
e65e175bSOded Gabbay					va_range_type, args->flags);
e65e175bSOded Gabbay	if (!ret_vaddr) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "no available va block for handle %u\n",
e65e175bSOded Gabbay				handle);
e65e175bSOded Gabbay		rc = -ENOMEM;
e65e175bSOded Gabbay		goto va_block_err;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	mutex_lock(&hdev->mmu_lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = map_phys_pg_pack(ctx, ret_vaddr, phys_pg_pack);
e65e175bSOded Gabbay	if (rc) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "mapping page pack failed for handle %u\n", handle);
e65e175bSOded Gabbay		mutex_unlock(&hdev->mmu_lock);
e65e175bSOded Gabbay		goto map_err;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = hl_mmu_invalidate_cache_range(hdev, false, *vm_type | MMU_OP_SKIP_LOW_CACHE_INV,
e65e175bSOded Gabbay				ctx->asid, ret_vaddr, phys_pg_pack->total_size);
e65e175bSOded Gabbay	mutex_unlock(&hdev->mmu_lock);
e65e175bSOded Gabbay	if (rc)
e65e175bSOded Gabbay		goto map_err;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/*
e65e175bSOded Gabbay	 * prefetch is done upon user's request. it is performed in WQ as and so can
e65e175bSOded Gabbay	 * be outside the MMU lock. the operation itself is already protected by the mmu lock
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	if (do_prefetch) {
e65e175bSOded Gabbay		rc = hl_mmu_prefetch_cache_range(ctx, *vm_type, ctx->asid, ret_vaddr,
e65e175bSOded Gabbay							phys_pg_pack->total_size);
e65e175bSOded Gabbay		if (rc)
e65e175bSOded Gabbay			goto map_err;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	ret_vaddr += phys_pg_pack->offset;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	hnode->ptr = vm_type;
e65e175bSOded Gabbay	hnode->vaddr = ret_vaddr;
e65e175bSOded Gabbay	hnode->handle = is_userptr ? MEM_HANDLE_INVALID : handle;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	mutex_lock(&ctx->mem_hash_lock);
e65e175bSOded Gabbay	hash_add(ctx->mem_hash, &hnode->node, ret_vaddr);
e65e175bSOded Gabbay	mutex_unlock(&ctx->mem_hash_lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	*device_addr = ret_vaddr;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (is_userptr)
e65e175bSOded Gabbay		free_phys_pg_pack(hdev, phys_pg_pack);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbaymap_err:
e65e175bSOded Gabbay	if (add_va_block(hdev, va_range, ret_vaddr,
e65e175bSOded Gabbay				ret_vaddr + phys_pg_pack->total_size - 1))
e65e175bSOded Gabbay		dev_warn(hdev->dev,
e65e175bSOded Gabbay			"release va block failed for handle 0x%x, vaddr: 0x%llx\n",
e65e175bSOded Gabbay				handle, ret_vaddr);
e65e175bSOded Gabbay
e65e175bSOded Gabbayva_block_err:
e65e175bSOded Gabbay	kfree(hnode);
e65e175bSOded Gabbayhnode_err:
e65e175bSOded Gabbayshared_err:
e65e175bSOded Gabbay	atomic_dec(&phys_pg_pack->mapping_cnt);
e65e175bSOded Gabbay	if (is_userptr)
e65e175bSOded Gabbay		free_phys_pg_pack(hdev, phys_pg_pack);
e65e175bSOded Gabbayinit_page_pack_err:
e65e175bSOded Gabbay	if (is_userptr)
e65e175bSOded Gabbay		dma_unmap_host_va(hdev, userptr);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return rc;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
b041e788STomer Tayar/* Should be called while the context's mem_hash_lock is taken */
b041e788STomer Tayarstatic struct hl_vm_hash_node *get_vm_hash_node_locked(struct hl_ctx *ctx, u64 vaddr)
b041e788STomer Tayar{
b041e788STomer Tayar	struct hl_vm_hash_node *hnode;
b041e788STomer Tayar
b041e788STomer Tayar	hash_for_each_possible(ctx->mem_hash, hnode, node, vaddr)
b041e788STomer Tayar		if (vaddr == hnode->vaddr)
b041e788STomer Tayar			return hnode;
b041e788STomer Tayar
b041e788STomer Tayar	return NULL;
b041e788STomer Tayar}
b041e788STomer Tayar
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * unmap_device_va() - unmap the given device virtual address.
e65e175bSOded Gabbay * @ctx: pointer to the context structure.
e65e175bSOded Gabbay * @args: host parameters with device virtual address to unmap.
e65e175bSOded Gabbay * @ctx_free: true if in context free flow, false otherwise.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - unmap the physical pages related to the given virtual address.
e65e175bSOded Gabbay * - return the device virtual block to the virtual block list.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic int unmap_device_va(struct hl_ctx *ctx, struct hl_mem_in *args,
e65e175bSOded Gabbay				bool ctx_free)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_vm_phys_pg_pack *phys_pg_pack = NULL;
e65e175bSOded Gabbay	u64 vaddr = args->unmap.device_virt_addr;
e65e175bSOded Gabbay	struct asic_fixed_properties *prop;
e65e175bSOded Gabbay	struct hl_device *hdev = ctx->hdev;
e65e175bSOded Gabbay	struct hl_userptr *userptr = NULL;
b041e788STomer Tayar	struct hl_vm_hash_node *hnode;
e65e175bSOded Gabbay	struct hl_va_range *va_range;
e65e175bSOded Gabbay	enum vm_type *vm_type;
e65e175bSOded Gabbay	bool is_userptr;
e65e175bSOded Gabbay	int rc = 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	prop = &hdev->asic_prop;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* protect from double entrance */
e65e175bSOded Gabbay	mutex_lock(&ctx->mem_hash_lock);
b041e788STomer Tayar	hnode = get_vm_hash_node_locked(ctx, vaddr);
e65e175bSOded Gabbay	if (!hnode) {
e65e175bSOded Gabbay		mutex_unlock(&ctx->mem_hash_lock);
b041e788STomer Tayar		dev_err(hdev->dev, "unmap failed, no mem hnode for vaddr 0x%llx\n", vaddr);
e65e175bSOded Gabbay		return -EINVAL;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (hnode->export_cnt) {
e65e175bSOded Gabbay		mutex_unlock(&ctx->mem_hash_lock);
e65e175bSOded Gabbay		dev_err(hdev->dev, "failed to unmap %#llx, memory is exported\n", vaddr);
e65e175bSOded Gabbay		return -EINVAL;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	hash_del(&hnode->node);
e65e175bSOded Gabbay	mutex_unlock(&ctx->mem_hash_lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	vm_type = hnode->ptr;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (*vm_type == VM_TYPE_USERPTR) {
e65e175bSOded Gabbay		is_userptr = true;
e65e175bSOded Gabbay		userptr = hnode->ptr;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		rc = init_phys_pg_pack_from_userptr(ctx, userptr, &phys_pg_pack,
e65e175bSOded Gabbay							false);
e65e175bSOded Gabbay		if (rc) {
e65e175bSOded Gabbay			dev_err(hdev->dev,
e65e175bSOded Gabbay				"unable to init page pack for vaddr 0x%llx\n",
e65e175bSOded Gabbay				vaddr);
e65e175bSOded Gabbay			goto vm_type_err;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay
e65e175bSOded Gabbay		if (phys_pg_pack->page_size ==
e65e175bSOded Gabbay					hdev->asic_prop.pmmu.page_size)
e65e175bSOded Gabbay			va_range = ctx->va_range[HL_VA_RANGE_TYPE_HOST];
e65e175bSOded Gabbay		else
e65e175bSOded Gabbay			va_range = ctx->va_range[HL_VA_RANGE_TYPE_HOST_HUGE];
e65e175bSOded Gabbay	} else if (*vm_type == VM_TYPE_PHYS_PACK) {
e65e175bSOded Gabbay		is_userptr = false;
e65e175bSOded Gabbay		va_range = ctx->va_range[HL_VA_RANGE_TYPE_DRAM];
e65e175bSOded Gabbay		phys_pg_pack = hnode->ptr;
e65e175bSOded Gabbay	} else {
e65e175bSOded Gabbay		dev_warn(hdev->dev,
e65e175bSOded Gabbay			"unmap failed, unknown vm desc for vaddr 0x%llx\n",
e65e175bSOded Gabbay				vaddr);
e65e175bSOded Gabbay		rc = -EFAULT;
e65e175bSOded Gabbay		goto vm_type_err;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (atomic_read(&phys_pg_pack->mapping_cnt) == 0) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "vaddr 0x%llx is not mapped\n", vaddr);
e65e175bSOded Gabbay		rc = -EINVAL;
e65e175bSOded Gabbay		goto mapping_cnt_err;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (!is_userptr && !is_power_of_2(phys_pg_pack->page_size))
e65e175bSOded Gabbay		vaddr = prop->dram_base_address +
e65e175bSOded Gabbay			DIV_ROUND_DOWN_ULL(vaddr - prop->dram_base_address,
e65e175bSOded Gabbay						phys_pg_pack->page_size) *
e65e175bSOded Gabbay							phys_pg_pack->page_size;
e65e175bSOded Gabbay	else
e65e175bSOded Gabbay		vaddr &= ~(((u64) phys_pg_pack->page_size) - 1);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	mutex_lock(&hdev->mmu_lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	unmap_phys_pg_pack(ctx, vaddr, phys_pg_pack);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/*
e65e175bSOded Gabbay	 * During context free this function is called in a loop to clean all
e65e175bSOded Gabbay	 * the context mappings. Hence the cache invalidation can be called once
e65e175bSOded Gabbay	 * at the loop end rather than for each iteration
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	if (!ctx_free)
e65e175bSOded Gabbay		rc = hl_mmu_invalidate_cache_range(hdev, true, *vm_type, ctx->asid, vaddr,
e65e175bSOded Gabbay							phys_pg_pack->total_size);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	mutex_unlock(&hdev->mmu_lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/*
e65e175bSOded Gabbay	 * If the context is closing we don't need to check for the MMU cache
e65e175bSOded Gabbay	 * invalidation return code and update the VA free list as in this flow
e65e175bSOded Gabbay	 * we invalidate the MMU cache outside of this unmap function and the VA
e65e175bSOded Gabbay	 * free list will be freed anyway.
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	if (!ctx_free) {
e65e175bSOded Gabbay		int tmp_rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		tmp_rc = add_va_block(hdev, va_range, vaddr,
e65e175bSOded Gabbay					vaddr + phys_pg_pack->total_size - 1);
e65e175bSOded Gabbay		if (tmp_rc) {
e65e175bSOded Gabbay			dev_warn(hdev->dev,
e65e175bSOded Gabbay					"add va block failed for vaddr: 0x%llx\n",
e65e175bSOded Gabbay					vaddr);
e65e175bSOded Gabbay			if (!rc)
e65e175bSOded Gabbay				rc = tmp_rc;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	atomic_dec(&phys_pg_pack->mapping_cnt);
e65e175bSOded Gabbay	kfree(hnode);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (is_userptr) {
e65e175bSOded Gabbay		free_phys_pg_pack(hdev, phys_pg_pack);
e65e175bSOded Gabbay		dma_unmap_host_va(hdev, userptr);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbaymapping_cnt_err:
e65e175bSOded Gabbay	if (is_userptr)
e65e175bSOded Gabbay		free_phys_pg_pack(hdev, phys_pg_pack);
e65e175bSOded Gabbayvm_type_err:
e65e175bSOded Gabbay	mutex_lock(&ctx->mem_hash_lock);
e65e175bSOded Gabbay	hash_add(ctx->mem_hash, &hnode->node, vaddr);
e65e175bSOded Gabbay	mutex_unlock(&ctx->mem_hash_lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return rc;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic int map_block(struct hl_device *hdev, u64 address, u64 *handle, u32 *size)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	u32 block_id;
e65e175bSOded Gabbay	int rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	*handle = 0;
e65e175bSOded Gabbay	if (size)
e65e175bSOded Gabbay		*size = 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = hdev->asic_funcs->get_hw_block_id(hdev, address, size, &block_id);
e65e175bSOded Gabbay	if (rc)
e65e175bSOded Gabbay		return rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	*handle = block_id | HL_MMAP_TYPE_BLOCK;
e65e175bSOded Gabbay	*handle <<= PAGE_SHIFT;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic void hw_block_vm_close(struct vm_area_struct *vma)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_vm_hw_block_list_node *lnode =
e65e175bSOded Gabbay		(struct hl_vm_hw_block_list_node *) vma->vm_private_data;
e65e175bSOded Gabbay	struct hl_ctx *ctx = lnode->ctx;
e65e175bSOded Gabbay	long new_mmap_size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	new_mmap_size = lnode->mapped_size - (vma->vm_end - vma->vm_start);
e65e175bSOded Gabbay	if (new_mmap_size > 0) {
e65e175bSOded Gabbay		lnode->mapped_size = new_mmap_size;
e65e175bSOded Gabbay		return;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	mutex_lock(&ctx->hw_block_list_lock);
e65e175bSOded Gabbay	list_del(&lnode->node);
e65e175bSOded Gabbay	mutex_unlock(&ctx->hw_block_list_lock);
e65e175bSOded Gabbay	hl_ctx_put(ctx);
e65e175bSOded Gabbay	kfree(lnode);
e65e175bSOded Gabbay	vma->vm_private_data = NULL;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic const struct vm_operations_struct hw_block_vm_ops = {
e65e175bSOded Gabbay	.close = hw_block_vm_close
e65e175bSOded Gabbay};
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * hl_hw_block_mmap() - mmap a hw block to user.
e65e175bSOded Gabbay * @hpriv: pointer to the private data of the fd
e65e175bSOded Gabbay * @vma: pointer to vm_area_struct of the process
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * Driver increments context reference for every HW block mapped in order
e65e175bSOded Gabbay * to prevent user from closing FD without unmapping first
e65e175bSOded Gabbay */
e65e175bSOded Gabbayint hl_hw_block_mmap(struct hl_fpriv *hpriv, struct vm_area_struct *vma)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_vm_hw_block_list_node *lnode;
e65e175bSOded Gabbay	struct hl_device *hdev = hpriv->hdev;
e65e175bSOded Gabbay	struct hl_ctx *ctx = hpriv->ctx;
e65e175bSOded Gabbay	u32 block_id, block_size;
e65e175bSOded Gabbay	int rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* We use the page offset to hold the block id and thus we need to clear
e65e175bSOded Gabbay	 * it before doing the mmap itself
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	block_id = vma->vm_pgoff;
e65e175bSOded Gabbay	vma->vm_pgoff = 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* Driver only allows mapping of a complete HW block */
e65e175bSOded Gabbay	block_size = vma->vm_end - vma->vm_start;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (!access_ok((void __user *) (uintptr_t) vma->vm_start, block_size)) {
e65e175bSOded Gabbay		dev_err(hdev->dev,
e65e175bSOded Gabbay			"user pointer is invalid - 0x%lx\n",
e65e175bSOded Gabbay			vma->vm_start);
e65e175bSOded Gabbay
e65e175bSOded Gabbay		return -EINVAL;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	lnode = kzalloc(sizeof(*lnode), GFP_KERNEL);
e65e175bSOded Gabbay	if (!lnode)
e65e175bSOded Gabbay		return -ENOMEM;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = hdev->asic_funcs->hw_block_mmap(hdev, vma, block_id, block_size);
e65e175bSOded Gabbay	if (rc) {
e65e175bSOded Gabbay		kfree(lnode);
e65e175bSOded Gabbay		return rc;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	hl_ctx_get(ctx);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	lnode->ctx = ctx;
e65e175bSOded Gabbay	lnode->vaddr = vma->vm_start;
e65e175bSOded Gabbay	lnode->block_size = block_size;
e65e175bSOded Gabbay	lnode->mapped_size = lnode->block_size;
e65e175bSOded Gabbay	lnode->id = block_id;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	vma->vm_private_data = lnode;
e65e175bSOded Gabbay	vma->vm_ops = &hw_block_vm_ops;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	mutex_lock(&ctx->hw_block_list_lock);
e65e175bSOded Gabbay	list_add_tail(&lnode->node, &ctx->hw_block_mem_list);
e65e175bSOded Gabbay	mutex_unlock(&ctx->hw_block_list_lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	vma->vm_pgoff = block_id;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic int set_dma_sg(struct scatterlist *sg, u64 bar_address, u64 chunk_size,
e65e175bSOded Gabbay			struct device *dev, enum dma_data_direction dir)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	dma_addr_t addr;
e65e175bSOded Gabbay	int rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	addr = dma_map_resource(dev, bar_address, chunk_size, dir,
e65e175bSOded Gabbay				DMA_ATTR_SKIP_CPU_SYNC);
e65e175bSOded Gabbay	rc = dma_mapping_error(dev, addr);
e65e175bSOded Gabbay	if (rc)
e65e175bSOded Gabbay		return rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	sg_set_page(sg, NULL, chunk_size, 0);
e65e175bSOded Gabbay	sg_dma_address(sg) = addr;
e65e175bSOded Gabbay	sg_dma_len(sg) = chunk_size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic struct sg_table *alloc_sgt_from_device_pages(struct hl_device *hdev, u64 *pages, u64 npages,
e65e175bSOded Gabbay						u64 page_size, u64 exported_size,
e65e175bSOded Gabbay						struct device *dev, enum dma_data_direction dir)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	u64 chunk_size, bar_address, dma_max_seg_size, cur_size_to_export, cur_npages;
e65e175bSOded Gabbay	struct asic_fixed_properties *prop;
e65e175bSOded Gabbay	int rc, i, j, nents, cur_page;
e65e175bSOded Gabbay	struct scatterlist *sg;
e65e175bSOded Gabbay	struct sg_table *sgt;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	prop = &hdev->asic_prop;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	dma_max_seg_size = dma_get_max_seg_size(dev);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* We would like to align the max segment size to PAGE_SIZE, so the
e65e175bSOded Gabbay	 * SGL will contain aligned addresses that can be easily mapped to
e65e175bSOded Gabbay	 * an MMU
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	dma_max_seg_size = ALIGN_DOWN(dma_max_seg_size, PAGE_SIZE);
e65e175bSOded Gabbay	if (dma_max_seg_size < PAGE_SIZE) {
e65e175bSOded Gabbay		dev_err_ratelimited(hdev->dev,
e65e175bSOded Gabbay				"dma_max_seg_size %llu can't be smaller than PAGE_SIZE\n",
e65e175bSOded Gabbay				dma_max_seg_size);
e65e175bSOded Gabbay		return ERR_PTR(-EINVAL);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	sgt = kzalloc(sizeof(*sgt), GFP_KERNEL);
e65e175bSOded Gabbay	if (!sgt)
e65e175bSOded Gabbay		return ERR_PTR(-ENOMEM);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* remove export size restrictions in case not explicitly defined */
e65e175bSOded Gabbay	cur_size_to_export = exported_size ? exported_size : (npages * page_size);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* If the size of each page is larger than the dma max segment size,
e65e175bSOded Gabbay	 * then we can't combine pages and the number of entries in the SGL
e65e175bSOded Gabbay	 * will just be the
e65e175bSOded Gabbay	 * <number of pages> * <chunks of max segment size in each page>
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	if (page_size > dma_max_seg_size) {
e65e175bSOded Gabbay		/* we should limit number of pages according to the exported size */
e65e175bSOded Gabbay		cur_npages = DIV_ROUND_UP_SECTOR_T(cur_size_to_export, page_size);
e65e175bSOded Gabbay		nents = cur_npages * DIV_ROUND_UP_SECTOR_T(page_size, dma_max_seg_size);
e65e175bSOded Gabbay	} else {
e65e175bSOded Gabbay		cur_npages = npages;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		/* Get number of non-contiguous chunks */
e65e175bSOded Gabbay		for (i = 1, nents = 1, chunk_size = page_size ; i < cur_npages ; i++) {
e65e175bSOded Gabbay			if (pages[i - 1] + page_size != pages[i] ||
e65e175bSOded Gabbay					chunk_size + page_size > dma_max_seg_size) {
e65e175bSOded Gabbay				nents++;
e65e175bSOded Gabbay				chunk_size = page_size;
e65e175bSOded Gabbay				continue;
e65e175bSOded Gabbay			}
e65e175bSOded Gabbay
e65e175bSOded Gabbay			chunk_size += page_size;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = sg_alloc_table(sgt, nents, GFP_KERNEL | __GFP_ZERO);
e65e175bSOded Gabbay	if (rc)
e65e175bSOded Gabbay		goto error_free;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	cur_page = 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (page_size > dma_max_seg_size) {
e65e175bSOded Gabbay		u64 size_left, cur_device_address = 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		size_left = page_size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		/* Need to split each page into the number of chunks of
e65e175bSOded Gabbay		 * dma_max_seg_size
e65e175bSOded Gabbay		 */
e65e175bSOded Gabbay		for_each_sgtable_dma_sg(sgt, sg, i) {
e65e175bSOded Gabbay			if (size_left == page_size)
e65e175bSOded Gabbay				cur_device_address =
e65e175bSOded Gabbay					pages[cur_page] - prop->dram_base_address;
e65e175bSOded Gabbay			else
e65e175bSOded Gabbay				cur_device_address += dma_max_seg_size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay			/* make sure not to export over exported size */
e65e175bSOded Gabbay			chunk_size = min3(size_left, dma_max_seg_size, cur_size_to_export);
e65e175bSOded Gabbay
e65e175bSOded Gabbay			bar_address = hdev->dram_pci_bar_start + cur_device_address;
e65e175bSOded Gabbay
e65e175bSOded Gabbay			rc = set_dma_sg(sg, bar_address, chunk_size, dev, dir);
e65e175bSOded Gabbay			if (rc)
e65e175bSOded Gabbay				goto error_unmap;
e65e175bSOded Gabbay
e65e175bSOded Gabbay			cur_size_to_export -= chunk_size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay			if (size_left > dma_max_seg_size) {
e65e175bSOded Gabbay				size_left -= dma_max_seg_size;
e65e175bSOded Gabbay			} else {
e65e175bSOded Gabbay				cur_page++;
e65e175bSOded Gabbay				size_left = page_size;
e65e175bSOded Gabbay			}
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay	} else {
e65e175bSOded Gabbay		/* Merge pages and put them into the scatterlist */
e65e175bSOded Gabbay		for_each_sgtable_dma_sg(sgt, sg, i) {
e65e175bSOded Gabbay			chunk_size = page_size;
e65e175bSOded Gabbay			for (j = cur_page + 1 ; j < cur_npages ; j++) {
e65e175bSOded Gabbay				if (pages[j - 1] + page_size != pages[j] ||
e65e175bSOded Gabbay						chunk_size + page_size > dma_max_seg_size)
e65e175bSOded Gabbay					break;
e65e175bSOded Gabbay
e65e175bSOded Gabbay				chunk_size += page_size;
e65e175bSOded Gabbay			}
e65e175bSOded Gabbay
e65e175bSOded Gabbay			bar_address = hdev->dram_pci_bar_start +
e65e175bSOded Gabbay					(pages[cur_page] - prop->dram_base_address);
e65e175bSOded Gabbay
e65e175bSOded Gabbay			/* make sure not to export over exported size */
e65e175bSOded Gabbay			chunk_size = min(chunk_size, cur_size_to_export);
e65e175bSOded Gabbay			rc = set_dma_sg(sg, bar_address, chunk_size, dev, dir);
e65e175bSOded Gabbay			if (rc)
e65e175bSOded Gabbay				goto error_unmap;
e65e175bSOded Gabbay
e65e175bSOded Gabbay			cur_size_to_export -= chunk_size;
e65e175bSOded Gabbay			cur_page = j;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* Because we are not going to include a CPU list we want to have some
e65e175bSOded Gabbay	 * chance that other users will detect this by setting the orig_nents
e65e175bSOded Gabbay	 * to 0 and using only nents (length of DMA list) when going over the
e65e175bSOded Gabbay	 * sgl
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	sgt->orig_nents = 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return sgt;
e65e175bSOded Gabbay
e65e175bSOded Gabbayerror_unmap:
e65e175bSOded Gabbay	for_each_sgtable_dma_sg(sgt, sg, i) {
e65e175bSOded Gabbay		if (!sg_dma_len(sg))
e65e175bSOded Gabbay			continue;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		dma_unmap_resource(dev, sg_dma_address(sg),
e65e175bSOded Gabbay					sg_dma_len(sg), dir,
e65e175bSOded Gabbay					DMA_ATTR_SKIP_CPU_SYNC);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	sg_free_table(sgt);
e65e175bSOded Gabbay
e65e175bSOded Gabbayerror_free:
e65e175bSOded Gabbay	kfree(sgt);
e65e175bSOded Gabbay	return ERR_PTR(rc);
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic int hl_dmabuf_attach(struct dma_buf *dmabuf,
e65e175bSOded Gabbay				struct dma_buf_attachment *attachment)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_dmabuf_priv *hl_dmabuf;
e65e175bSOded Gabbay	struct hl_device *hdev;
e65e175bSOded Gabbay	int rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	hl_dmabuf = dmabuf->priv;
e65e175bSOded Gabbay	hdev = hl_dmabuf->ctx->hdev;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = pci_p2pdma_distance(hdev->pdev, attachment->dev, true);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (rc < 0)
e65e175bSOded Gabbay		attachment->peer2peer = false;
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic struct sg_table *hl_map_dmabuf(struct dma_buf_attachment *attachment,
e65e175bSOded Gabbay					enum dma_data_direction dir)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct dma_buf *dma_buf = attachment->dmabuf;
e65e175bSOded Gabbay	struct hl_vm_phys_pg_pack *phys_pg_pack;
e65e175bSOded Gabbay	struct hl_dmabuf_priv *hl_dmabuf;
e65e175bSOded Gabbay	struct hl_device *hdev;
e65e175bSOded Gabbay	struct sg_table *sgt;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	hl_dmabuf = dma_buf->priv;
e65e175bSOded Gabbay	hdev = hl_dmabuf->ctx->hdev;
e65e175bSOded Gabbay	phys_pg_pack = hl_dmabuf->phys_pg_pack;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (!attachment->peer2peer) {
e65e175bSOded Gabbay		dev_dbg(hdev->dev, "Failed to map dmabuf because p2p is disabled\n");
e65e175bSOded Gabbay		return ERR_PTR(-EPERM);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (phys_pg_pack)
e65e175bSOded Gabbay		sgt = alloc_sgt_from_device_pages(hdev,
e65e175bSOded Gabbay						phys_pg_pack->pages,
e65e175bSOded Gabbay						phys_pg_pack->npages,
e65e175bSOded Gabbay						phys_pg_pack->page_size,
e65e175bSOded Gabbay						phys_pg_pack->exported_size,
e65e175bSOded Gabbay						attachment->dev,
e65e175bSOded Gabbay						dir);
e65e175bSOded Gabbay	else
e65e175bSOded Gabbay		sgt = alloc_sgt_from_device_pages(hdev,
e65e175bSOded Gabbay						&hl_dmabuf->device_address,
e65e175bSOded Gabbay						1,
e65e175bSOded Gabbay						hl_dmabuf->dmabuf->size,
e65e175bSOded Gabbay						0,
e65e175bSOded Gabbay						attachment->dev,
e65e175bSOded Gabbay						dir);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (IS_ERR(sgt))
e65e175bSOded Gabbay		dev_err(hdev->dev, "failed (%ld) to initialize sgt for dmabuf\n", PTR_ERR(sgt));
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return sgt;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic void hl_unmap_dmabuf(struct dma_buf_attachment *attachment,
e65e175bSOded Gabbay				  struct sg_table *sgt,
e65e175bSOded Gabbay				  enum dma_data_direction dir)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct scatterlist *sg;
e65e175bSOded Gabbay	int i;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* The memory behind the dma-buf has *always* resided on the device itself, i.e. it lives
e65e175bSOded Gabbay	 * only in the 'device' domain (after all, it maps a PCI bar address which points to the
e65e175bSOded Gabbay	 * device memory).
e65e175bSOded Gabbay	 *
e65e175bSOded Gabbay	 * Therefore, it was never in the 'CPU' domain and hence, there is no need to perform
e65e175bSOded Gabbay	 * a sync of the memory to the CPU's cache, as it never resided inside that cache.
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	for_each_sgtable_dma_sg(sgt, sg, i)
e65e175bSOded Gabbay		dma_unmap_resource(attachment->dev, sg_dma_address(sg),
e65e175bSOded Gabbay					sg_dma_len(sg), dir,
e65e175bSOded Gabbay					DMA_ATTR_SKIP_CPU_SYNC);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* Need to restore orig_nents because sg_free_table use that field */
e65e175bSOded Gabbay	sgt->orig_nents = sgt->nents;
e65e175bSOded Gabbay	sg_free_table(sgt);
e65e175bSOded Gabbay	kfree(sgt);
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
6071e213STomer Tayarstatic struct hl_vm_hash_node *memhash_node_export_get(struct hl_ctx *ctx, u64 addr)
6071e213STomer Tayar{
6071e213STomer Tayar	struct hl_device *hdev = ctx->hdev;
6071e213STomer Tayar	struct hl_vm_hash_node *hnode;
6071e213STomer Tayar
6071e213STomer Tayar	/* get the memory handle */
6071e213STomer Tayar	mutex_lock(&ctx->mem_hash_lock);
b041e788STomer Tayar	hnode = get_vm_hash_node_locked(ctx, addr);
6071e213STomer Tayar	if (!hnode) {
6071e213STomer Tayar		mutex_unlock(&ctx->mem_hash_lock);
6071e213STomer Tayar		dev_dbg(hdev->dev, "map address %#llx not found\n", addr);
6071e213STomer Tayar		return ERR_PTR(-EINVAL);
6071e213STomer Tayar	}
6071e213STomer Tayar
6071e213STomer Tayar	if (upper_32_bits(hnode->handle)) {
6071e213STomer Tayar		mutex_unlock(&ctx->mem_hash_lock);
6071e213STomer Tayar		dev_dbg(hdev->dev, "invalid handle %#llx for map address %#llx\n",
6071e213STomer Tayar				hnode->handle, addr);
6071e213STomer Tayar		return ERR_PTR(-EINVAL);
6071e213STomer Tayar	}
6071e213STomer Tayar
6071e213STomer Tayar	/*
6071e213STomer Tayar	 * node found, increase export count so this memory cannot be unmapped
6071e213STomer Tayar	 * and the hash node cannot be deleted.
6071e213STomer Tayar	 */
6071e213STomer Tayar	hnode->export_cnt++;
6071e213STomer Tayar	mutex_unlock(&ctx->mem_hash_lock);
6071e213STomer Tayar
6071e213STomer Tayar	return hnode;
6071e213STomer Tayar}
6071e213STomer Tayar
6071e213STomer Tayarstatic void memhash_node_export_put(struct hl_ctx *ctx, struct hl_vm_hash_node *hnode)
6071e213STomer Tayar{
6071e213STomer Tayar	mutex_lock(&ctx->mem_hash_lock);
6071e213STomer Tayar	hnode->export_cnt--;
6071e213STomer Tayar	mutex_unlock(&ctx->mem_hash_lock);
6071e213STomer Tayar}
6071e213STomer Tayar
e65e175bSOded Gabbaystatic void hl_release_dmabuf(struct dma_buf *dmabuf)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_dmabuf_priv *hl_dmabuf = dmabuf->priv;
e65e175bSOded Gabbay	struct hl_ctx *ctx;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (!hl_dmabuf)
e65e175bSOded Gabbay		return;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	ctx = hl_dmabuf->ctx;
e65e175bSOded Gabbay
6071e213STomer Tayar	if (hl_dmabuf->memhash_hnode)
6071e213STomer Tayar		memhash_node_export_put(ctx, hl_dmabuf->memhash_hnode);
e65e175bSOded Gabbay
d43bce6eSTomer Tayar	atomic_dec(&ctx->hdev->dmabuf_export_cnt);
e65e175bSOded Gabbay	hl_ctx_put(ctx);
09524eb8STomer Tayar
09524eb8STomer Tayar	/* Paired with get_file() in export_dmabuf() */
09524eb8STomer Tayar	fput(ctx->hpriv->filp);
09524eb8STomer Tayar
e65e175bSOded Gabbay	kfree(hl_dmabuf);
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic const struct dma_buf_ops habanalabs_dmabuf_ops = {
e65e175bSOded Gabbay	.attach = hl_dmabuf_attach,
e65e175bSOded Gabbay	.map_dma_buf = hl_map_dmabuf,
e65e175bSOded Gabbay	.unmap_dma_buf = hl_unmap_dmabuf,
e65e175bSOded Gabbay	.release = hl_release_dmabuf,
e65e175bSOded Gabbay};
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic int export_dmabuf(struct hl_ctx *ctx,
e65e175bSOded Gabbay				struct hl_dmabuf_priv *hl_dmabuf,
e65e175bSOded Gabbay				u64 total_size, int flags, int *dmabuf_fd)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	DEFINE_DMA_BUF_EXPORT_INFO(exp_info);
e65e175bSOded Gabbay	struct hl_device *hdev = ctx->hdev;
e65e175bSOded Gabbay	int rc, fd;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	exp_info.ops = &habanalabs_dmabuf_ops;
e65e175bSOded Gabbay	exp_info.size = total_size;
e65e175bSOded Gabbay	exp_info.flags = flags;
e65e175bSOded Gabbay	exp_info.priv = hl_dmabuf;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	hl_dmabuf->dmabuf = dma_buf_export(&exp_info);
e65e175bSOded Gabbay	if (IS_ERR(hl_dmabuf->dmabuf)) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "failed to export dma-buf\n");
e65e175bSOded Gabbay		return PTR_ERR(hl_dmabuf->dmabuf);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	fd = dma_buf_fd(hl_dmabuf->dmabuf, flags);
e65e175bSOded Gabbay	if (fd < 0) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "failed to get a file descriptor for a dma-buf, %d\n", fd);
e65e175bSOded Gabbay		rc = fd;
e65e175bSOded Gabbay		goto err_dma_buf_put;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	hl_dmabuf->ctx = ctx;
e65e175bSOded Gabbay	hl_ctx_get(hl_dmabuf->ctx);
d43bce6eSTomer Tayar	atomic_inc(&ctx->hdev->dmabuf_export_cnt);
e65e175bSOded Gabbay
09524eb8STomer Tayar	/* Get compute device file to enforce release order, such that all exported dma-buf will be
09524eb8STomer Tayar	 * released first and only then the compute device.
09524eb8STomer Tayar	 * Paired with fput() in hl_release_dmabuf().
09524eb8STomer Tayar	 */
09524eb8STomer Tayar	get_file(ctx->hpriv->filp);
09524eb8STomer Tayar
e65e175bSOded Gabbay	*dmabuf_fd = fd;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbayerr_dma_buf_put:
e65e175bSOded Gabbay	hl_dmabuf->dmabuf->priv = NULL;
e65e175bSOded Gabbay	dma_buf_put(hl_dmabuf->dmabuf);
e65e175bSOded Gabbay	return rc;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic int validate_export_params_common(struct hl_device *hdev, u64 device_addr, u64 size)
e65e175bSOded Gabbay{
*db5ba2c1STomer Tayar	if (!PAGE_ALIGNED(device_addr)) {
e65e175bSOded Gabbay		dev_dbg(hdev->dev,
*db5ba2c1STomer Tayar			"exported device memory address 0x%llx should be aligned to PAGE_SIZE 0x%lx\n",
e65e175bSOded Gabbay			device_addr, PAGE_SIZE);
e65e175bSOded Gabbay		return -EINVAL;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
*db5ba2c1STomer Tayar	if (!size || !PAGE_ALIGNED(size)) {
e65e175bSOded Gabbay		dev_dbg(hdev->dev,
*db5ba2c1STomer Tayar			"exported device memory size %llu should be a multiple of PAGE_SIZE %lu\n",
e65e175bSOded Gabbay			size, PAGE_SIZE);
e65e175bSOded Gabbay		return -EINVAL;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic int validate_export_params_no_mmu(struct hl_device *hdev, u64 device_addr, u64 size)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct asic_fixed_properties *prop = &hdev->asic_prop;
e65e175bSOded Gabbay	u64 bar_address;
e65e175bSOded Gabbay	int rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = validate_export_params_common(hdev, device_addr, size);
e65e175bSOded Gabbay	if (rc)
e65e175bSOded Gabbay		return rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (device_addr < prop->dram_user_base_address ||
e65e175bSOded Gabbay				(device_addr + size) > prop->dram_end_address ||
e65e175bSOded Gabbay				(device_addr + size) < device_addr) {
e65e175bSOded Gabbay		dev_dbg(hdev->dev,
e65e175bSOded Gabbay			"DRAM memory range 0x%llx (+0x%llx) is outside of DRAM boundaries\n",
e65e175bSOded Gabbay			device_addr, size);
e65e175bSOded Gabbay		return -EINVAL;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	bar_address = hdev->dram_pci_bar_start + (device_addr - prop->dram_base_address);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if ((bar_address + size) > (hdev->dram_pci_bar_start + prop->dram_pci_bar_size) ||
e65e175bSOded Gabbay			(bar_address + size) < bar_address) {
e65e175bSOded Gabbay		dev_dbg(hdev->dev,
e65e175bSOded Gabbay			"DRAM memory range 0x%llx (+0x%llx) is outside of PCI BAR boundaries\n",
e65e175bSOded Gabbay			device_addr, size);
e65e175bSOded Gabbay		return -EINVAL;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic int validate_export_params(struct hl_device *hdev, u64 device_addr, u64 size, u64 offset,
e65e175bSOded Gabbay					struct hl_vm_phys_pg_pack *phys_pg_pack)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct asic_fixed_properties *prop = &hdev->asic_prop;
e65e175bSOded Gabbay	u64 bar_address;
e65e175bSOded Gabbay	int i, rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = validate_export_params_common(hdev, device_addr, size);
e65e175bSOded Gabbay	if (rc)
e65e175bSOded Gabbay		return rc;
e65e175bSOded Gabbay
*db5ba2c1STomer Tayar	if (!PAGE_ALIGNED(offset)) {
*db5ba2c1STomer Tayar		dev_dbg(hdev->dev,
*db5ba2c1STomer Tayar			"exported device memory offset %llu should be a multiple of PAGE_SIZE %lu\n",
*db5ba2c1STomer Tayar			offset, PAGE_SIZE);
*db5ba2c1STomer Tayar		return -EINVAL;
*db5ba2c1STomer Tayar	}
*db5ba2c1STomer Tayar
e65e175bSOded Gabbay	if ((offset + size) > phys_pg_pack->total_size) {
e65e175bSOded Gabbay		dev_dbg(hdev->dev, "offset %#llx and size %#llx exceed total map size %#llx\n",
e65e175bSOded Gabbay				offset, size, phys_pg_pack->total_size);
e65e175bSOded Gabbay		return -EINVAL;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	for (i = 0 ; i < phys_pg_pack->npages ; i++) {
e65e175bSOded Gabbay
e65e175bSOded Gabbay		bar_address = hdev->dram_pci_bar_start +
e65e175bSOded Gabbay					(phys_pg_pack->pages[i] - prop->dram_base_address);
e65e175bSOded Gabbay
e65e175bSOded Gabbay		if ((bar_address + phys_pg_pack->page_size) >
e65e175bSOded Gabbay				(hdev->dram_pci_bar_start + prop->dram_pci_bar_size) ||
e65e175bSOded Gabbay				(bar_address + phys_pg_pack->page_size) < bar_address) {
e65e175bSOded Gabbay			dev_dbg(hdev->dev,
e65e175bSOded Gabbay				"DRAM memory range 0x%llx (+0x%x) is outside of PCI BAR boundaries\n",
e65e175bSOded Gabbay					phys_pg_pack->pages[i],
e65e175bSOded Gabbay					phys_pg_pack->page_size);
e65e175bSOded Gabbay
e65e175bSOded Gabbay			return -EINVAL;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic struct hl_vm_phys_pg_pack *get_phys_pg_pack_from_hash_node(struct hl_device *hdev,
e65e175bSOded Gabbay							struct hl_vm_hash_node *hnode)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_vm_phys_pg_pack *phys_pg_pack;
e65e175bSOded Gabbay	struct hl_vm *vm = &hdev->vm;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	spin_lock(&vm->idr_lock);
e65e175bSOded Gabbay	phys_pg_pack = idr_find(&vm->phys_pg_pack_handles, (u32) hnode->handle);
e65e175bSOded Gabbay	if (!phys_pg_pack) {
e65e175bSOded Gabbay		spin_unlock(&vm->idr_lock);
e65e175bSOded Gabbay		dev_dbg(hdev->dev, "no match for handle 0x%x\n", (u32) hnode->handle);
e65e175bSOded Gabbay		return ERR_PTR(-EINVAL);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	spin_unlock(&vm->idr_lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (phys_pg_pack->vm_type != VM_TYPE_PHYS_PACK) {
e65e175bSOded Gabbay		dev_dbg(hdev->dev, "handle 0x%llx does not represent DRAM memory\n", hnode->handle);
e65e175bSOded Gabbay		return ERR_PTR(-EINVAL);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return phys_pg_pack;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * export_dmabuf_from_addr() - export a dma-buf object for the given memory
e65e175bSOded Gabbay *                             address and size.
e65e175bSOded Gabbay * @ctx: pointer to the context structure.
e65e175bSOded Gabbay * @addr: device address.
e65e175bSOded Gabbay * @size: size of device memory to export.
e65e175bSOded Gabbay * @offset: the offset into the buffer from which to start exporting
e65e175bSOded Gabbay * @flags: DMA-BUF file/FD flags.
e65e175bSOded Gabbay * @dmabuf_fd: pointer to result FD that represents the dma-buf object.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * Create and export a dma-buf object for an existing memory allocation inside
e65e175bSOded Gabbay * the device memory, and return a FD which is associated with the dma-buf
e65e175bSOded Gabbay * object.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * Return: 0 on success, non-zero for failure.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic int export_dmabuf_from_addr(struct hl_ctx *ctx, u64 addr, u64 size, u64 offset,
e65e175bSOded Gabbay					int flags, int *dmabuf_fd)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_vm_phys_pg_pack *phys_pg_pack = NULL;
e65e175bSOded Gabbay	struct hl_vm_hash_node *hnode = NULL;
e65e175bSOded Gabbay	struct asic_fixed_properties *prop;
e65e175bSOded Gabbay	struct hl_dmabuf_priv *hl_dmabuf;
e65e175bSOded Gabbay	struct hl_device *hdev;
e65e175bSOded Gabbay	u64 export_addr;
e65e175bSOded Gabbay	int rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	hdev = ctx->hdev;
e65e175bSOded Gabbay	prop = &hdev->asic_prop;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* offset must be 0 in devices without virtual memory support */
e65e175bSOded Gabbay	if (!prop->dram_supports_virtual_memory && offset) {
e65e175bSOded Gabbay		dev_dbg(hdev->dev, "offset is not allowed in device without virtual memory\n");
e65e175bSOded Gabbay		return -EINVAL;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	export_addr = addr + offset;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	hl_dmabuf = kzalloc(sizeof(*hl_dmabuf), GFP_KERNEL);
e65e175bSOded Gabbay	if (!hl_dmabuf)
e65e175bSOded Gabbay		return -ENOMEM;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (prop->dram_supports_virtual_memory) {
e65e175bSOded Gabbay		hnode = memhash_node_export_get(ctx, addr);
e65e175bSOded Gabbay		if (IS_ERR(hnode)) {
e65e175bSOded Gabbay			rc = PTR_ERR(hnode);
e65e175bSOded Gabbay			goto err_free_dmabuf_wrapper;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay		phys_pg_pack = get_phys_pg_pack_from_hash_node(hdev, hnode);
e65e175bSOded Gabbay		if (IS_ERR(phys_pg_pack)) {
e65e175bSOded Gabbay			rc = PTR_ERR(phys_pg_pack);
e65e175bSOded Gabbay			goto dec_memhash_export_cnt;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay		rc = validate_export_params(hdev, export_addr, size, offset, phys_pg_pack);
e65e175bSOded Gabbay		if (rc)
e65e175bSOded Gabbay			goto dec_memhash_export_cnt;
e65e175bSOded Gabbay
e65e175bSOded Gabbay		phys_pg_pack->exported_size = size;
e65e175bSOded Gabbay		hl_dmabuf->phys_pg_pack = phys_pg_pack;
e65e175bSOded Gabbay		hl_dmabuf->memhash_hnode = hnode;
e65e175bSOded Gabbay	} else {
e65e175bSOded Gabbay		rc = validate_export_params_no_mmu(hdev, export_addr, size);
e65e175bSOded Gabbay		if (rc)
e65e175bSOded Gabbay			goto err_free_dmabuf_wrapper;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	hl_dmabuf->device_address = export_addr;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = export_dmabuf(ctx, hl_dmabuf, size, flags, dmabuf_fd);
e65e175bSOded Gabbay	if (rc)
e65e175bSOded Gabbay		goto dec_memhash_export_cnt;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbaydec_memhash_export_cnt:
e65e175bSOded Gabbay	if (prop->dram_supports_virtual_memory)
e65e175bSOded Gabbay		memhash_node_export_put(ctx, hnode);
e65e175bSOded Gabbayerr_free_dmabuf_wrapper:
e65e175bSOded Gabbay	kfree(hl_dmabuf);
e65e175bSOded Gabbay	return rc;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic void ts_buff_release(struct hl_mmap_mem_buf *buf)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_ts_buff *ts_buff = buf->private;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	vfree(ts_buff->kernel_buff_address);
e65e175bSOded Gabbay	vfree(ts_buff->user_buff_address);
e65e175bSOded Gabbay	kfree(ts_buff);
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic int hl_ts_mmap(struct hl_mmap_mem_buf *buf, struct vm_area_struct *vma, void *args)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_ts_buff *ts_buff = buf->private;
e65e175bSOded Gabbay
3822a7c4SLinus Torvalds	vm_flags_set(vma, VM_DONTEXPAND | VM_DONTDUMP | VM_DONTCOPY | VM_NORESERVE);
e65e175bSOded Gabbay	return remap_vmalloc_range(vma, ts_buff->user_buff_address, 0);
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic int hl_ts_alloc_buf(struct hl_mmap_mem_buf *buf, gfp_t gfp, void *args)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_ts_buff *ts_buff = NULL;
1693fef9Sfarah kassabri	u32 num_elements;
1693fef9Sfarah kassabri	size_t size;
e65e175bSOded Gabbay	void *p;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	num_elements = *(u32 *)args;
e65e175bSOded Gabbay
1693fef9Sfarah kassabri	ts_buff = kzalloc(sizeof(*ts_buff), gfp);
e65e175bSOded Gabbay	if (!ts_buff)
e65e175bSOded Gabbay		return -ENOMEM;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* Allocate the user buffer */
e65e175bSOded Gabbay	size = num_elements * sizeof(u64);
e65e175bSOded Gabbay	p = vmalloc_user(size);
e65e175bSOded Gabbay	if (!p)
e65e175bSOded Gabbay		goto free_mem;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	ts_buff->user_buff_address = p;
e65e175bSOded Gabbay	buf->mappable_size = size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* Allocate the internal kernel buffer */
e65e175bSOded Gabbay	size = num_elements * sizeof(struct hl_user_pending_interrupt);
e65e175bSOded Gabbay	p = vzalloc(size);
e65e175bSOded Gabbay	if (!p)
e65e175bSOded Gabbay		goto free_user_buff;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	ts_buff->kernel_buff_address = p;
e65e175bSOded Gabbay	ts_buff->kernel_buff_size = size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	buf->private = ts_buff;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbayfree_user_buff:
e65e175bSOded Gabbay	vfree(ts_buff->user_buff_address);
e65e175bSOded Gabbayfree_mem:
e65e175bSOded Gabbay	kfree(ts_buff);
e65e175bSOded Gabbay	return -ENOMEM;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic struct hl_mmap_mem_buf_behavior hl_ts_behavior = {
e65e175bSOded Gabbay	.topic = "TS",
e65e175bSOded Gabbay	.mem_id = HL_MMAP_TYPE_TS_BUFF,
e65e175bSOded Gabbay	.mmap = hl_ts_mmap,
e65e175bSOded Gabbay	.alloc = hl_ts_alloc_buf,
e65e175bSOded Gabbay	.release = ts_buff_release,
e65e175bSOded Gabbay};
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * allocate_timestamps_buffers() - allocate timestamps buffers
e65e175bSOded Gabbay * This function will allocate ts buffer that will later on be mapped to the user
e65e175bSOded Gabbay * in order to be able to read the timestamp.
25ebbc57Sfarah kassabri * in addition it'll allocate an extra buffer for registration management.
e65e175bSOded Gabbay * since we cannot fail during registration for out-of-memory situation, so
e65e175bSOded Gabbay * we'll prepare a pool which will be used as user interrupt nodes and instead
e65e175bSOded Gabbay * of dynamically allocating nodes while registration we'll pick the node from
25ebbc57Sfarah kassabri * this pool. in addition it'll add node to the mapping hash which will be used
e65e175bSOded Gabbay * to map user ts buffer to the internal kernel ts buffer.
e65e175bSOded Gabbay * @hpriv: pointer to the private data of the fd
e65e175bSOded Gabbay * @args: ioctl input
e65e175bSOded Gabbay * @handle: user timestamp buffer handle as an output
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic int allocate_timestamps_buffers(struct hl_fpriv *hpriv, struct hl_mem_in *args, u64 *handle)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_mem_mgr *mmg = &hpriv->mem_mgr;
e65e175bSOded Gabbay	struct hl_mmap_mem_buf *buf;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (args->num_of_elements > TS_MAX_ELEMENTS_NUM) {
e65e175bSOded Gabbay		dev_err(mmg->dev, "Num of elements exceeds Max allowed number (0x%x > 0x%x)\n",
e65e175bSOded Gabbay				args->num_of_elements, TS_MAX_ELEMENTS_NUM);
e65e175bSOded Gabbay		return -EINVAL;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	buf = hl_mmap_mem_buf_alloc(mmg, &hl_ts_behavior, GFP_KERNEL, &args->num_of_elements);
e65e175bSOded Gabbay	if (!buf)
e65e175bSOded Gabbay		return -ENOMEM;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	*handle = buf->handle;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbayint hl_mem_ioctl(struct hl_fpriv *hpriv, void *data)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	enum hl_device_status status;
e65e175bSOded Gabbay	union hl_mem_args *args = data;
e65e175bSOded Gabbay	struct hl_device *hdev = hpriv->hdev;
e65e175bSOded Gabbay	struct hl_ctx *ctx = hpriv->ctx;
e65e175bSOded Gabbay	u64 block_handle, device_addr = 0;
e65e175bSOded Gabbay	u32 handle = 0, block_size;
e65e175bSOded Gabbay	int rc, dmabuf_fd = -EBADF;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (!hl_device_operational(hdev, &status)) {
e1e8e747SOded Gabbay		dev_dbg_ratelimited(hdev->dev,
e65e175bSOded Gabbay			"Device is %s. Can't execute MEMORY IOCTL\n",
e65e175bSOded Gabbay			hdev->status[status]);
e65e175bSOded Gabbay		return -EBUSY;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	switch (args->in.op) {
e65e175bSOded Gabbay	case HL_MEM_OP_ALLOC:
e65e175bSOded Gabbay		if (args->in.alloc.mem_size == 0) {
e65e175bSOded Gabbay			dev_err(hdev->dev,
e65e175bSOded Gabbay				"alloc size must be larger than 0\n");
e65e175bSOded Gabbay			rc = -EINVAL;
e65e175bSOded Gabbay			goto out;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay
e65e175bSOded Gabbay		/* If DRAM does not support virtual memory the driver won't
e65e175bSOded Gabbay		 * handle the allocation/freeing of that memory. However, for
e65e175bSOded Gabbay		 * system administration/monitoring purposes, the driver will
e65e175bSOded Gabbay		 * keep track of the amount of DRAM memory that is allocated
e65e175bSOded Gabbay		 * and freed by the user. Because this code totally relies on
e65e175bSOded Gabbay		 * the user's input, the driver can't ensure the validity
e65e175bSOded Gabbay		 * of this accounting.
e65e175bSOded Gabbay		 */
e65e175bSOded Gabbay		if (!hdev->asic_prop.dram_supports_virtual_memory) {
e65e175bSOded Gabbay			atomic64_add(args->in.alloc.mem_size,
e65e175bSOded Gabbay					&ctx->dram_phys_mem);
e65e175bSOded Gabbay			atomic64_add(args->in.alloc.mem_size,
e65e175bSOded Gabbay					&hdev->dram_used_mem);
e65e175bSOded Gabbay
e65e175bSOded Gabbay			dev_dbg(hdev->dev, "DRAM alloc is not supported\n");
e65e175bSOded Gabbay			rc = 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbay			memset(args, 0, sizeof(*args));
e65e175bSOded Gabbay			args->out.handle = 0;
e65e175bSOded Gabbay			goto out;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay
e65e175bSOded Gabbay		rc = alloc_device_memory(ctx, &args->in, &handle);
e65e175bSOded Gabbay
e65e175bSOded Gabbay		memset(args, 0, sizeof(*args));
e65e175bSOded Gabbay		args->out.handle = (__u64) handle;
e65e175bSOded Gabbay		break;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	case HL_MEM_OP_FREE:
e65e175bSOded Gabbay		/* If DRAM does not support virtual memory the driver won't
e65e175bSOded Gabbay		 * handle the allocation/freeing of that memory. However, for
e65e175bSOded Gabbay		 * system administration/monitoring purposes, the driver will
e65e175bSOded Gabbay		 * keep track of the amount of DRAM memory that is allocated
e65e175bSOded Gabbay		 * and freed by the user. Because this code totally relies on
e65e175bSOded Gabbay		 * the user's input, the driver can't ensure the validity
e65e175bSOded Gabbay		 * of this accounting.
e65e175bSOded Gabbay		 */
e65e175bSOded Gabbay		if (!hdev->asic_prop.dram_supports_virtual_memory) {
e65e175bSOded Gabbay			atomic64_sub(args->in.alloc.mem_size,
e65e175bSOded Gabbay					&ctx->dram_phys_mem);
e65e175bSOded Gabbay			atomic64_sub(args->in.alloc.mem_size,
e65e175bSOded Gabbay					&hdev->dram_used_mem);
e65e175bSOded Gabbay
e65e175bSOded Gabbay			dev_dbg(hdev->dev, "DRAM alloc is not supported\n");
e65e175bSOded Gabbay			rc = 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbay			goto out;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay
e65e175bSOded Gabbay		rc = free_device_memory(ctx, &args->in);
e65e175bSOded Gabbay		break;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	case HL_MEM_OP_MAP:
e65e175bSOded Gabbay		rc = map_device_va(ctx, &args->in, &device_addr);
e65e175bSOded Gabbay
e65e175bSOded Gabbay		memset(args, 0, sizeof(*args));
e65e175bSOded Gabbay		args->out.device_virt_addr = device_addr;
e65e175bSOded Gabbay		break;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	case HL_MEM_OP_UNMAP:
e65e175bSOded Gabbay		rc = unmap_device_va(ctx, &args->in, false);
e65e175bSOded Gabbay		break;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	case HL_MEM_OP_MAP_BLOCK:
e65e175bSOded Gabbay		rc = map_block(hdev, args->in.map_block.block_addr,
e65e175bSOded Gabbay				&block_handle, &block_size);
e65e175bSOded Gabbay		args->out.block_handle = block_handle;
e65e175bSOded Gabbay		args->out.block_size = block_size;
e65e175bSOded Gabbay		break;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	case HL_MEM_OP_EXPORT_DMABUF_FD:
e65e175bSOded Gabbay		rc = export_dmabuf_from_addr(ctx,
e65e175bSOded Gabbay				args->in.export_dmabuf_fd.addr,
e65e175bSOded Gabbay				args->in.export_dmabuf_fd.mem_size,
e65e175bSOded Gabbay				args->in.export_dmabuf_fd.offset,
e65e175bSOded Gabbay				args->in.flags,
e65e175bSOded Gabbay				&dmabuf_fd);
e65e175bSOded Gabbay		memset(args, 0, sizeof(*args));
e65e175bSOded Gabbay		args->out.fd = dmabuf_fd;
e65e175bSOded Gabbay		break;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	case HL_MEM_OP_TS_ALLOC:
e65e175bSOded Gabbay		rc = allocate_timestamps_buffers(hpriv, &args->in, &args->out.handle);
e65e175bSOded Gabbay		break;
e65e175bSOded Gabbay	default:
e65e175bSOded Gabbay		dev_err(hdev->dev, "Unknown opcode for memory IOCTL\n");
e65e175bSOded Gabbay		rc = -EINVAL;
e65e175bSOded Gabbay		break;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbayout:
e65e175bSOded Gabbay	return rc;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbaystatic int get_user_memory(struct hl_device *hdev, u64 addr, u64 size,
e65e175bSOded Gabbay				u32 npages, u64 start, u32 offset,
e65e175bSOded Gabbay				struct hl_userptr *userptr)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	int rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (!access_ok((void __user *) (uintptr_t) addr, size)) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "user pointer is invalid - 0x%llx\n", addr);
e65e175bSOded Gabbay		return -EFAULT;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	userptr->pages = kvmalloc_array(npages, sizeof(struct page *), GFP_KERNEL);
e65e175bSOded Gabbay	if (!userptr->pages)
e65e175bSOded Gabbay		return -ENOMEM;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = pin_user_pages_fast(start, npages, FOLL_WRITE | FOLL_LONGTERM,
e65e175bSOded Gabbay				 userptr->pages);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (rc != npages) {
e65e175bSOded Gabbay		dev_err(hdev->dev,
e65e175bSOded Gabbay			"Failed (%d) to pin host memory with user ptr 0x%llx, size 0x%llx, npages %d\n",
e65e175bSOded Gabbay			rc, addr, size, npages);
e65e175bSOded Gabbay		if (rc < 0)
e65e175bSOded Gabbay			goto destroy_pages;
e65e175bSOded Gabbay		npages = rc;
e65e175bSOded Gabbay		rc = -EFAULT;
e65e175bSOded Gabbay		goto put_pages;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay	userptr->npages = npages;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = sg_alloc_table_from_pages(userptr->sgt,
e65e175bSOded Gabbay				       userptr->pages,
e65e175bSOded Gabbay				       npages, offset, size, GFP_KERNEL);
e65e175bSOded Gabbay	if (rc < 0) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "failed to create SG table from pages\n");
e65e175bSOded Gabbay		goto put_pages;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbayput_pages:
e65e175bSOded Gabbay	unpin_user_pages(userptr->pages, npages);
e65e175bSOded Gabbaydestroy_pages:
e65e175bSOded Gabbay	kvfree(userptr->pages);
e65e175bSOded Gabbay	return rc;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * hl_pin_host_memory() - pins a chunk of host memory.
e65e175bSOded Gabbay * @hdev: pointer to the habanalabs device structure.
e65e175bSOded Gabbay * @addr: the host virtual address of the memory area.
e65e175bSOded Gabbay * @size: the size of the memory area.
e65e175bSOded Gabbay * @userptr: pointer to hl_userptr structure.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Pins the physical pages.
e65e175bSOded Gabbay * - Create an SG list from those pages.
e65e175bSOded Gabbay */
e65e175bSOded Gabbayint hl_pin_host_memory(struct hl_device *hdev, u64 addr, u64 size,
e65e175bSOded Gabbay					struct hl_userptr *userptr)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	u64 start, end;
e65e175bSOded Gabbay	u32 npages, offset;
e65e175bSOded Gabbay	int rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (!size) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "size to pin is invalid - %llu\n", size);
e65e175bSOded Gabbay		return -EINVAL;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/*
e65e175bSOded Gabbay	 * If the combination of the address and size requested for this memory
e65e175bSOded Gabbay	 * region causes an integer overflow, return error.
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	if (((addr + size) < addr) ||
e65e175bSOded Gabbay			PAGE_ALIGN(addr + size) < (addr + size)) {
e65e175bSOded Gabbay		dev_err(hdev->dev,
e65e175bSOded Gabbay			"user pointer 0x%llx + %llu causes integer overflow\n",
e65e175bSOded Gabbay			addr, size);
e65e175bSOded Gabbay		return -EINVAL;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	userptr->pid = current->pid;
e65e175bSOded Gabbay	userptr->sgt = kzalloc(sizeof(*userptr->sgt), GFP_KERNEL);
e65e175bSOded Gabbay	if (!userptr->sgt)
e65e175bSOded Gabbay		return -ENOMEM;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	start = addr & PAGE_MASK;
e65e175bSOded Gabbay	offset = addr & ~PAGE_MASK;
e65e175bSOded Gabbay	end = PAGE_ALIGN(addr + size);
e65e175bSOded Gabbay	npages = (end - start) >> PAGE_SHIFT;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	userptr->size = size;
e65e175bSOded Gabbay	userptr->addr = addr;
e65e175bSOded Gabbay	userptr->dma_mapped = false;
e65e175bSOded Gabbay	INIT_LIST_HEAD(&userptr->job_node);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = get_user_memory(hdev, addr, size, npages, start, offset,
e65e175bSOded Gabbay				userptr);
e65e175bSOded Gabbay	if (rc) {
e65e175bSOded Gabbay		dev_err(hdev->dev,
e65e175bSOded Gabbay			"failed to get user memory for address 0x%llx\n",
e65e175bSOded Gabbay			addr);
e65e175bSOded Gabbay		goto free_sgt;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	hl_debugfs_add_userptr(hdev, userptr);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbayfree_sgt:
e65e175bSOded Gabbay	kfree(userptr->sgt);
e65e175bSOded Gabbay	return rc;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/*
e65e175bSOded Gabbay * hl_unpin_host_memory - unpins a chunk of host memory.
e65e175bSOded Gabbay * @hdev: pointer to the habanalabs device structure
e65e175bSOded Gabbay * @userptr: pointer to hl_userptr structure
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Unpins the physical pages related to the host memory
e65e175bSOded Gabbay * - Free the SG list
e65e175bSOded Gabbay */
e65e175bSOded Gabbayvoid hl_unpin_host_memory(struct hl_device *hdev, struct hl_userptr *userptr)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	hl_debugfs_remove_userptr(hdev, userptr);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (userptr->dma_mapped)
e65e175bSOded Gabbay		hdev->asic_funcs->hl_dma_unmap_sgtable(hdev, userptr->sgt, userptr->dir);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	unpin_user_pages_dirty_lock(userptr->pages, userptr->npages, true);
e65e175bSOded Gabbay	kvfree(userptr->pages);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	list_del(&userptr->job_node);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	sg_free_table(userptr->sgt);
e65e175bSOded Gabbay	kfree(userptr->sgt);
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * hl_userptr_delete_list() - clear userptr list.
e65e175bSOded Gabbay * @hdev: pointer to the habanalabs device structure.
e65e175bSOded Gabbay * @userptr_list: pointer to the list to clear.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Iterates over the list and unpins the host memory and frees the userptr
e65e175bSOded Gabbay *   structure.
e65e175bSOded Gabbay */
e65e175bSOded Gabbayvoid hl_userptr_delete_list(struct hl_device *hdev,
e65e175bSOded Gabbay				struct list_head *userptr_list)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_userptr *userptr, *tmp;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	list_for_each_entry_safe(userptr, tmp, userptr_list, job_node) {
e65e175bSOded Gabbay		hl_unpin_host_memory(hdev, userptr);
e65e175bSOded Gabbay		kfree(userptr);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	INIT_LIST_HEAD(userptr_list);
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * hl_userptr_is_pinned() - returns whether the given userptr is pinned.
e65e175bSOded Gabbay * @hdev: pointer to the habanalabs device structure.
e65e175bSOded Gabbay * @addr: user address to check.
e65e175bSOded Gabbay * @size: user block size to check.
e65e175bSOded Gabbay * @userptr_list: pointer to the list to clear.
e65e175bSOded Gabbay * @userptr: pointer to userptr to check.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Iterates over the list and checks if the given userptr is in it, means is
e65e175bSOded Gabbay *   pinned. If so, returns true, otherwise returns false.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaybool hl_userptr_is_pinned(struct hl_device *hdev, u64 addr,
e65e175bSOded Gabbay				u32 size, struct list_head *userptr_list,
e65e175bSOded Gabbay				struct hl_userptr **userptr)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	list_for_each_entry((*userptr), userptr_list, job_node) {
e65e175bSOded Gabbay		if ((addr == (*userptr)->addr) && (size == (*userptr)->size))
e65e175bSOded Gabbay			return true;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return false;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * va_range_init() - initialize virtual addresses range.
e65e175bSOded Gabbay * @hdev: pointer to the habanalabs device structure.
e65e175bSOded Gabbay * @va_ranges: pointer to va_ranges array.
e65e175bSOded Gabbay * @range_type: virtual address range type.
e65e175bSOded Gabbay * @start: range start address, inclusive.
e65e175bSOded Gabbay * @end: range end address, inclusive.
e65e175bSOded Gabbay * @page_size: page size for this va_range.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Initializes the virtual addresses list of the given range with the given
e65e175bSOded Gabbay *   addresses.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic int va_range_init(struct hl_device *hdev, struct hl_va_range **va_ranges,
e65e175bSOded Gabbay				enum hl_va_range_type range_type, u64 start,
e65e175bSOded Gabbay				u64 end, u32 page_size)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_va_range *va_range = va_ranges[range_type];
e65e175bSOded Gabbay	int rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	INIT_LIST_HEAD(&va_range->list);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/*
e65e175bSOded Gabbay	 * PAGE_SIZE alignment
e65e175bSOded Gabbay	 * it is the caller's responsibility to align the addresses if the
e65e175bSOded Gabbay	 * page size is not a power of 2
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (is_power_of_2(page_size)) {
e65e175bSOded Gabbay		start = round_up(start, page_size);
e65e175bSOded Gabbay
e65e175bSOded Gabbay		/*
e65e175bSOded Gabbay		 * The end of the range is inclusive, hence we need to align it
e65e175bSOded Gabbay		 * to the end of the last full page in the range. For example if
e65e175bSOded Gabbay		 * end = 0x3ff5 with page size 0x1000, we need to align it to
e65e175bSOded Gabbay		 * 0x2fff. The remaining 0xff5 bytes do not form a full page.
e65e175bSOded Gabbay		 */
e65e175bSOded Gabbay		end = round_down(end + 1, page_size) - 1;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (start >= end) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "too small vm range for va list\n");
e65e175bSOded Gabbay		return -EFAULT;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = add_va_block(hdev, va_range, start, end);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (rc) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "Failed to init host va list\n");
e65e175bSOded Gabbay		return rc;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	va_range->start_addr = start;
e65e175bSOded Gabbay	va_range->end_addr = end;
e65e175bSOded Gabbay	va_range->page_size = page_size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * va_range_fini() - clear a virtual addresses range.
e65e175bSOded Gabbay * @hdev: pointer to the habanalabs structure.
e65e175bSOded Gabbay * @va_range: pointer to virtual addresses range.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function does the following:
e65e175bSOded Gabbay * - Frees the virtual addresses block list and its lock.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic void va_range_fini(struct hl_device *hdev, struct hl_va_range *va_range)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	mutex_lock(&va_range->lock);
e65e175bSOded Gabbay	clear_va_list_locked(hdev, &va_range->list);
e65e175bSOded Gabbay	mutex_unlock(&va_range->lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	mutex_destroy(&va_range->lock);
e65e175bSOded Gabbay	kfree(va_range);
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * vm_ctx_init_with_ranges() - initialize virtual memory for context.
e65e175bSOded Gabbay * @ctx: pointer to the habanalabs context structure.
e65e175bSOded Gabbay * @host_range_start: host virtual addresses range start.
e65e175bSOded Gabbay * @host_range_end: host virtual addresses range end.
e65e175bSOded Gabbay * @host_page_size: host page size.
e65e175bSOded Gabbay * @host_huge_range_start: host virtual addresses range start for memory
e65e175bSOded Gabbay *                         allocated with huge pages.
e65e175bSOded Gabbay * @host_huge_range_end: host virtual addresses range end for memory allocated
e65e175bSOded Gabbay *                        with huge pages.
e65e175bSOded Gabbay * @host_huge_page_size: host huge page size.
e65e175bSOded Gabbay * @dram_range_start: dram virtual addresses range start.
e65e175bSOded Gabbay * @dram_range_end: dram virtual addresses range end.
e65e175bSOded Gabbay * @dram_page_size: dram page size.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function initializes the following:
e65e175bSOded Gabbay * - MMU for context.
e65e175bSOded Gabbay * - Virtual address to area descriptor hashtable.
e65e175bSOded Gabbay * - Virtual block list of available virtual memory.
e65e175bSOded Gabbay */
e65e175bSOded Gabbaystatic int vm_ctx_init_with_ranges(struct hl_ctx *ctx,
e65e175bSOded Gabbay					u64 host_range_start,
e65e175bSOded Gabbay					u64 host_range_end,
e65e175bSOded Gabbay					u32 host_page_size,
e65e175bSOded Gabbay					u64 host_huge_range_start,
e65e175bSOded Gabbay					u64 host_huge_range_end,
e65e175bSOded Gabbay					u32 host_huge_page_size,
e65e175bSOded Gabbay					u64 dram_range_start,
e65e175bSOded Gabbay					u64 dram_range_end,
e65e175bSOded Gabbay					u32 dram_page_size)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_device *hdev = ctx->hdev;
e65e175bSOded Gabbay	int i, rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	for (i = 0 ; i < HL_VA_RANGE_TYPE_MAX ; i++) {
e65e175bSOded Gabbay		ctx->va_range[i] =
e65e175bSOded Gabbay			kzalloc(sizeof(struct hl_va_range), GFP_KERNEL);
e65e175bSOded Gabbay		if (!ctx->va_range[i]) {
e65e175bSOded Gabbay			rc = -ENOMEM;
e65e175bSOded Gabbay			goto free_va_range;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = hl_mmu_ctx_init(ctx);
e65e175bSOded Gabbay	if (rc) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "failed to init context %d\n", ctx->asid);
e65e175bSOded Gabbay		goto free_va_range;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	mutex_init(&ctx->mem_hash_lock);
e65e175bSOded Gabbay	hash_init(ctx->mem_hash);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	mutex_init(&ctx->va_range[HL_VA_RANGE_TYPE_HOST]->lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = va_range_init(hdev, ctx->va_range, HL_VA_RANGE_TYPE_HOST,
e65e175bSOded Gabbay			host_range_start, host_range_end, host_page_size);
e65e175bSOded Gabbay	if (rc) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "failed to init host vm range\n");
e65e175bSOded Gabbay		goto mmu_ctx_fini;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (hdev->pmmu_huge_range) {
e65e175bSOded Gabbay		mutex_init(&ctx->va_range[HL_VA_RANGE_TYPE_HOST_HUGE]->lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay		rc = va_range_init(hdev,
e65e175bSOded Gabbay			ctx->va_range, HL_VA_RANGE_TYPE_HOST_HUGE,
e65e175bSOded Gabbay			host_huge_range_start, host_huge_range_end,
e65e175bSOded Gabbay			host_huge_page_size);
e65e175bSOded Gabbay		if (rc) {
e65e175bSOded Gabbay			dev_err(hdev->dev,
e65e175bSOded Gabbay				"failed to init host huge vm range\n");
e65e175bSOded Gabbay			goto clear_host_va_range;
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay	} else {
e65e175bSOded Gabbay		kfree(ctx->va_range[HL_VA_RANGE_TYPE_HOST_HUGE]);
e65e175bSOded Gabbay		ctx->va_range[HL_VA_RANGE_TYPE_HOST_HUGE] =
e65e175bSOded Gabbay				ctx->va_range[HL_VA_RANGE_TYPE_HOST];
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	mutex_init(&ctx->va_range[HL_VA_RANGE_TYPE_DRAM]->lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = va_range_init(hdev, ctx->va_range, HL_VA_RANGE_TYPE_DRAM,
e65e175bSOded Gabbay			dram_range_start, dram_range_end, dram_page_size);
e65e175bSOded Gabbay	if (rc) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "failed to init dram vm range\n");
e65e175bSOded Gabbay		goto clear_host_huge_va_range;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	hl_debugfs_add_ctx_mem_hash(hdev, ctx);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbayclear_host_huge_va_range:
e65e175bSOded Gabbay	mutex_destroy(&ctx->va_range[HL_VA_RANGE_TYPE_DRAM]->lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (hdev->pmmu_huge_range) {
e65e175bSOded Gabbay		mutex_lock(&ctx->va_range[HL_VA_RANGE_TYPE_HOST_HUGE]->lock);
e65e175bSOded Gabbay		clear_va_list_locked(hdev,
e65e175bSOded Gabbay			&ctx->va_range[HL_VA_RANGE_TYPE_HOST_HUGE]->list);
e65e175bSOded Gabbay		mutex_unlock(&ctx->va_range[HL_VA_RANGE_TYPE_HOST_HUGE]->lock);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbayclear_host_va_range:
e65e175bSOded Gabbay	if (hdev->pmmu_huge_range)
e65e175bSOded Gabbay		mutex_destroy(&ctx->va_range[HL_VA_RANGE_TYPE_HOST_HUGE]->lock);
e65e175bSOded Gabbay	mutex_lock(&ctx->va_range[HL_VA_RANGE_TYPE_HOST]->lock);
e65e175bSOded Gabbay	clear_va_list_locked(hdev, &ctx->va_range[HL_VA_RANGE_TYPE_HOST]->list);
e65e175bSOded Gabbay	mutex_unlock(&ctx->va_range[HL_VA_RANGE_TYPE_HOST]->lock);
e65e175bSOded Gabbaymmu_ctx_fini:
e65e175bSOded Gabbay	mutex_destroy(&ctx->va_range[HL_VA_RANGE_TYPE_HOST]->lock);
e65e175bSOded Gabbay	mutex_destroy(&ctx->mem_hash_lock);
e65e175bSOded Gabbay	hl_mmu_ctx_fini(ctx);
e65e175bSOded Gabbayfree_va_range:
e65e175bSOded Gabbay	for (i = 0 ; i < HL_VA_RANGE_TYPE_MAX ; i++)
e65e175bSOded Gabbay		kfree(ctx->va_range[i]);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return rc;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbayint hl_vm_ctx_init(struct hl_ctx *ctx)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct asic_fixed_properties *prop = &ctx->hdev->asic_prop;
e65e175bSOded Gabbay	u64 host_range_start, host_range_end, host_huge_range_start,
e65e175bSOded Gabbay		host_huge_range_end, dram_range_start, dram_range_end;
e65e175bSOded Gabbay	u32 host_page_size, host_huge_page_size, dram_page_size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	atomic64_set(&ctx->dram_phys_mem, 0);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/*
e65e175bSOded Gabbay	 *   In case of DRAM mapping, the returned address is the physical
e65e175bSOded Gabbay	 *   address of the memory related to the given handle.
e65e175bSOded Gabbay	 */
583f12a8SOfir Bitton	if (ctx->hdev->mmu_disable)
e65e175bSOded Gabbay		return 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	dram_range_start = prop->dmmu.start_addr;
e65e175bSOded Gabbay	dram_range_end = prop->dmmu.end_addr - 1;
e65e175bSOded Gabbay	dram_page_size = prop->dram_page_size ?
e65e175bSOded Gabbay				prop->dram_page_size : prop->dmmu.page_size;
e65e175bSOded Gabbay	host_range_start = prop->pmmu.start_addr;
e65e175bSOded Gabbay	host_range_end = prop->pmmu.end_addr - 1;
e65e175bSOded Gabbay	host_page_size = prop->pmmu.page_size;
e65e175bSOded Gabbay	host_huge_range_start = prop->pmmu_huge.start_addr;
e65e175bSOded Gabbay	host_huge_range_end = prop->pmmu_huge.end_addr - 1;
e65e175bSOded Gabbay	host_huge_page_size = prop->pmmu_huge.page_size;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return vm_ctx_init_with_ranges(ctx, host_range_start, host_range_end,
e65e175bSOded Gabbay			host_page_size, host_huge_range_start,
e65e175bSOded Gabbay			host_huge_range_end, host_huge_page_size,
e65e175bSOded Gabbay			dram_range_start, dram_range_end, dram_page_size);
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * hl_vm_ctx_fini() - virtual memory teardown of context.
e65e175bSOded Gabbay * @ctx: pointer to the habanalabs context structure.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function perform teardown the following:
e65e175bSOded Gabbay * - Virtual block list of available virtual memory.
e65e175bSOded Gabbay * - Virtual address to area descriptor hashtable.
e65e175bSOded Gabbay * - MMU for context.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * In addition this function does the following:
e65e175bSOded Gabbay * - Unmaps the existing hashtable nodes if the hashtable is not empty. The
e65e175bSOded Gabbay *   hashtable should be empty as no valid mappings should exist at this
e65e175bSOded Gabbay *   point.
e65e175bSOded Gabbay * - Frees any existing physical page list from the idr which relates to the
e65e175bSOded Gabbay *   current context asid.
e65e175bSOded Gabbay * - This function checks the virtual block list for correctness. At this point
e65e175bSOded Gabbay *   the list should contain one element which describes the whole virtual
e65e175bSOded Gabbay *   memory range of the context. Otherwise, a warning is printed.
e65e175bSOded Gabbay */
e65e175bSOded Gabbayvoid hl_vm_ctx_fini(struct hl_ctx *ctx)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_vm_phys_pg_pack *phys_pg_list, *tmp_phys_node;
e65e175bSOded Gabbay	struct hl_device *hdev = ctx->hdev;
e65e175bSOded Gabbay	struct hl_vm_hash_node *hnode;
e65e175bSOded Gabbay	struct hl_vm *vm = &hdev->vm;
e65e175bSOded Gabbay	struct hlist_node *tmp_node;
e65e175bSOded Gabbay	struct list_head free_list;
e65e175bSOded Gabbay	struct hl_mem_in args;
e65e175bSOded Gabbay	int i;
e65e175bSOded Gabbay
583f12a8SOfir Bitton	if (hdev->mmu_disable)
e65e175bSOded Gabbay		return;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	hl_debugfs_remove_ctx_mem_hash(hdev, ctx);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/*
e65e175bSOded Gabbay	 * Clearly something went wrong on hard reset so no point in printing
e65e175bSOded Gabbay	 * another side effect error
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	if (!hdev->reset_info.hard_reset_pending && !hash_empty(ctx->mem_hash))
e65e175bSOded Gabbay		dev_dbg(hdev->dev,
e65e175bSOded Gabbay			"user released device without removing its memory mappings\n");
e65e175bSOded Gabbay
e65e175bSOded Gabbay	hash_for_each_safe(ctx->mem_hash, i, tmp_node, hnode, node) {
e65e175bSOded Gabbay		dev_dbg(hdev->dev,
e65e175bSOded Gabbay			"hl_mem_hash_node of vaddr 0x%llx of asid %d is still alive\n",
e65e175bSOded Gabbay			hnode->vaddr, ctx->asid);
e65e175bSOded Gabbay		args.unmap.device_virt_addr = hnode->vaddr;
e65e175bSOded Gabbay		unmap_device_va(ctx, &args, true);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	mutex_lock(&hdev->mmu_lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* invalidate the cache once after the unmapping loop */
e65e175bSOded Gabbay	hl_mmu_invalidate_cache(hdev, true, MMU_OP_USERPTR);
e65e175bSOded Gabbay	hl_mmu_invalidate_cache(hdev, true, MMU_OP_PHYS_PACK);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	mutex_unlock(&hdev->mmu_lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	INIT_LIST_HEAD(&free_list);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	spin_lock(&vm->idr_lock);
e65e175bSOded Gabbay	idr_for_each_entry(&vm->phys_pg_pack_handles, phys_pg_list, i)
e65e175bSOded Gabbay		if (phys_pg_list->asid == ctx->asid) {
e65e175bSOded Gabbay			dev_dbg(hdev->dev,
e65e175bSOded Gabbay				"page list 0x%px of asid %d is still alive\n",
e65e175bSOded Gabbay				phys_pg_list, ctx->asid);
e65e175bSOded Gabbay
e65e175bSOded Gabbay			atomic64_sub(phys_pg_list->total_size, &hdev->dram_used_mem);
e65e175bSOded Gabbay			idr_remove(&vm->phys_pg_pack_handles, i);
e65e175bSOded Gabbay			list_add(&phys_pg_list->node, &free_list);
e65e175bSOded Gabbay		}
e65e175bSOded Gabbay	spin_unlock(&vm->idr_lock);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	list_for_each_entry_safe(phys_pg_list, tmp_phys_node, &free_list, node)
e65e175bSOded Gabbay		free_phys_pg_pack(hdev, phys_pg_list);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	va_range_fini(hdev, ctx->va_range[HL_VA_RANGE_TYPE_DRAM]);
e65e175bSOded Gabbay	va_range_fini(hdev, ctx->va_range[HL_VA_RANGE_TYPE_HOST]);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (hdev->pmmu_huge_range)
e65e175bSOded Gabbay		va_range_fini(hdev, ctx->va_range[HL_VA_RANGE_TYPE_HOST_HUGE]);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	mutex_destroy(&ctx->mem_hash_lock);
e65e175bSOded Gabbay	hl_mmu_ctx_fini(ctx);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/* In this case we need to clear the global accounting of DRAM usage
e65e175bSOded Gabbay	 * because the user notifies us on allocations. If the user is no more,
e65e175bSOded Gabbay	 * all DRAM is available
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	if (ctx->asid != HL_KERNEL_ASID_ID &&
e65e175bSOded Gabbay			!hdev->asic_prop.dram_supports_virtual_memory)
e65e175bSOded Gabbay		atomic64_set(&hdev->dram_used_mem, 0);
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * hl_vm_init() - initialize virtual memory module.
e65e175bSOded Gabbay * @hdev: pointer to the habanalabs device structure.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function initializes the following:
e65e175bSOded Gabbay * - MMU module.
e65e175bSOded Gabbay * - DRAM physical pages pool of 2MB.
e65e175bSOded Gabbay * - Idr for device memory allocation handles.
e65e175bSOded Gabbay */
e65e175bSOded Gabbayint hl_vm_init(struct hl_device *hdev)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct asic_fixed_properties *prop = &hdev->asic_prop;
e65e175bSOded Gabbay	struct hl_vm *vm = &hdev->vm;
e65e175bSOded Gabbay	int rc;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (is_power_of_2(prop->dram_page_size))
e65e175bSOded Gabbay		vm->dram_pg_pool =
e65e175bSOded Gabbay			gen_pool_create(__ffs(prop->dram_page_size), -1);
e65e175bSOded Gabbay	else
e65e175bSOded Gabbay		vm->dram_pg_pool =
e65e175bSOded Gabbay			gen_pool_create(__ffs(DRAM_POOL_PAGE_SIZE), -1);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (!vm->dram_pg_pool) {
e65e175bSOded Gabbay		dev_err(hdev->dev, "Failed to create dram page pool\n");
e65e175bSOded Gabbay		return -ENOMEM;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	kref_init(&vm->dram_pg_pool_refcount);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	rc = gen_pool_add(vm->dram_pg_pool, prop->dram_user_base_address,
e65e175bSOded Gabbay			prop->dram_end_address - prop->dram_user_base_address,
e65e175bSOded Gabbay			-1);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (rc) {
e65e175bSOded Gabbay		dev_err(hdev->dev,
e65e175bSOded Gabbay			"Failed to add memory to dram page pool %d\n", rc);
e65e175bSOded Gabbay		goto pool_add_err;
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	spin_lock_init(&vm->idr_lock);
e65e175bSOded Gabbay	idr_init(&vm->phys_pg_pack_handles);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	atomic64_set(&hdev->dram_used_mem, 0);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	vm->init_done = true;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return 0;
e65e175bSOded Gabbay
e65e175bSOded Gabbaypool_add_err:
e65e175bSOded Gabbay	gen_pool_destroy(vm->dram_pg_pool);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	return rc;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * hl_vm_fini() - virtual memory module teardown.
e65e175bSOded Gabbay * @hdev: pointer to the habanalabs device structure.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function perform teardown to the following:
e65e175bSOded Gabbay * - Idr for device memory allocation handles.
e65e175bSOded Gabbay * - DRAM physical pages pool of 2MB.
e65e175bSOded Gabbay * - MMU module.
e65e175bSOded Gabbay */
e65e175bSOded Gabbayvoid hl_vm_fini(struct hl_device *hdev)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_vm *vm = &hdev->vm;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (!vm->init_done)
e65e175bSOded Gabbay		return;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	/*
e65e175bSOded Gabbay	 * At this point all the contexts should be freed and hence no DRAM
e65e175bSOded Gabbay	 * memory should be in use. Hence the DRAM pool should be freed here.
e65e175bSOded Gabbay	 */
e65e175bSOded Gabbay	if (kref_put(&vm->dram_pg_pool_refcount, dram_pg_pool_do_release) != 1)
e65e175bSOded Gabbay		dev_warn(hdev->dev, "dram_pg_pool was not destroyed on %s\n",
e65e175bSOded Gabbay				__func__);
e65e175bSOded Gabbay
e65e175bSOded Gabbay	vm->init_done = false;
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * hl_hw_block_mem_init() - HW block memory initialization.
e65e175bSOded Gabbay * @ctx: pointer to the habanalabs context structure.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function initializes the HW block virtual mapped addresses list and
e65e175bSOded Gabbay * it's lock.
e65e175bSOded Gabbay */
e65e175bSOded Gabbayvoid hl_hw_block_mem_init(struct hl_ctx *ctx)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	mutex_init(&ctx->hw_block_list_lock);
e65e175bSOded Gabbay	INIT_LIST_HEAD(&ctx->hw_block_mem_list);
e65e175bSOded Gabbay}
e65e175bSOded Gabbay
e65e175bSOded Gabbay/**
e65e175bSOded Gabbay * hl_hw_block_mem_fini() - HW block memory teardown.
e65e175bSOded Gabbay * @ctx: pointer to the habanalabs context structure.
e65e175bSOded Gabbay *
e65e175bSOded Gabbay * This function clears the HW block virtual mapped addresses list and destroys
e65e175bSOded Gabbay * it's lock.
e65e175bSOded Gabbay */
e65e175bSOded Gabbayvoid hl_hw_block_mem_fini(struct hl_ctx *ctx)
e65e175bSOded Gabbay{
e65e175bSOded Gabbay	struct hl_vm_hw_block_list_node *lnode, *tmp;
e65e175bSOded Gabbay
e65e175bSOded Gabbay	if (!list_empty(&ctx->hw_block_mem_list))
e65e175bSOded Gabbay		dev_crit(ctx->hdev->dev, "HW block mem list isn't empty\n");
e65e175bSOded Gabbay
e65e175bSOded Gabbay	list_for_each_entry_safe(lnode, tmp, &ctx->hw_block_mem_list, node) {
e65e175bSOded Gabbay		list_del(&lnode->node);
e65e175bSOded Gabbay		kfree(lnode);
e65e175bSOded Gabbay	}
e65e175bSOded Gabbay
e65e175bSOded Gabbay	mutex_destroy(&ctx->hw_block_list_lock);
e65e175bSOded Gabbay}