CoolPi-Armbian-Rockchip-RK3588-Upstream-Linux-6.1-LTS-Kernel/drivers/gpu/arm/bifrost/mmu/mali_kbase_mmu.h

/* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note */
/*
 *
 * (C) COPYRIGHT 2019-2023 ARM Limited. All rights reserved.
 *
 * This program is free software and is provided to you under the terms of the
 * GNU General Public License version 2 as published by the Free Software
 * Foundation, and any use by you of this program is subject to the terms
 * of such GNU license.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, you can access it online at
 * http://www.gnu.org/licenses/gpl-2.0.html.
 *
 */

#ifndef _KBASE_MMU_H_
#define _KBASE_MMU_H_

#include <uapi/gpu/arm/bifrost/mali_base_kernel.h>
#include <mali_kbase_debug.h>

#define KBASE_MMU_PAGE_ENTRIES 512

struct kbase_context;
struct kbase_device;
struct kbase_mmu_table;
struct kbase_va_region;
struct tagged_addr;

/**
 * enum kbase_caller_mmu_sync_info - MMU-synchronous caller info.
 * A pointer to this type is passed down from the outer-most callers in the kbase
 * module - where the information resides as to the synchronous / asynchronous
 * nature of the call flow, with respect to MMU operations. ie - does the call flow relate to
 * existing GPU work or does it come from requests (like ioctl) from user-space, power
 * management, etc.
 *
 * @CALLER_MMU_UNSET_SYNCHRONICITY: default value must be invalid to avoid accidental choice
 *                                  of a 'valid' value
 * @CALLER_MMU_SYNC: Arbitrary value for 'synchronous that isn't easy to choose by accident
 * @CALLER_MMU_ASYNC: Also hard to choose by accident
 */
enum kbase_caller_mmu_sync_info {
	CALLER_MMU_UNSET_SYNCHRONICITY,
	CALLER_MMU_SYNC = 0x02,
	CALLER_MMU_ASYNC
};

/**
 * enum kbase_mmu_op_type - enum for MMU operations
 * @KBASE_MMU_OP_NONE:        To help catch uninitialized struct
 * @KBASE_MMU_OP_FIRST:       The lower boundary of enum
 * @KBASE_MMU_OP_LOCK:        Lock memory region
 * @KBASE_MMU_OP_UNLOCK:      Unlock memory region
 * @KBASE_MMU_OP_FLUSH_PT:    Flush page table (CLN+INV L2 only)
 * @KBASE_MMU_OP_FLUSH_MEM:   Flush memory (CLN+INV L2+LSC)
 * @KBASE_MMU_OP_COUNT:       The upper boundary of enum
 */
enum kbase_mmu_op_type {
	KBASE_MMU_OP_NONE = 0, /* Must be zero */
	KBASE_MMU_OP_FIRST, /* Must be the first non-zero op */
	KBASE_MMU_OP_LOCK = KBASE_MMU_OP_FIRST,
	KBASE_MMU_OP_UNLOCK,
	KBASE_MMU_OP_FLUSH_PT,
	KBASE_MMU_OP_FLUSH_MEM,
	KBASE_MMU_OP_COUNT /* Must be the last in enum */
};

/**
 * kbase_mmu_as_init() - Initialising GPU address space object.
 *
 * @kbdev: The kbase device structure for the device (must be a valid pointer).
 * @i:     Array index of address space object.
 *
 * This is called from device probe to initialise an address space object
 * of the device.
 *
 * Return: 0 on success and non-zero value on failure.
 */
int kbase_mmu_as_init(struct kbase_device *kbdev, unsigned int i);

/**
 * kbase_mmu_as_term() - Terminate address space object.
 *
 * @kbdev: The kbase device structure for the device (must be a valid pointer).
 * @i:     Array index of address space object.
 *
 * This is called upon device termination to destroy
 * the address space object of the device.
 */
void kbase_mmu_as_term(struct kbase_device *kbdev, unsigned int i);

/**
 * kbase_mmu_init - Initialise an object representing GPU page tables
 *
 * @kbdev:    Instance of GPU platform device, allocated from the probe method.
 * @mmut:     GPU page tables to be initialized.
 * @kctx:     Optional kbase context, may be NULL if this set of MMU tables
 *            is not associated with a context.
 * @group_id: The physical group ID from which to allocate GPU page tables.
 *            Valid range is 0..(MEMORY_GROUP_MANAGER_NR_GROUPS-1).
 *
 * The structure should be terminated using kbase_mmu_term()
 *
 * Return:    0 if successful, otherwise a negative error code.
 */
int kbase_mmu_init(struct kbase_device *kbdev, struct kbase_mmu_table *mmut,
		   struct kbase_context *kctx, int group_id);

/**
 * kbase_mmu_interrupt - Process an MMU interrupt.
 *
 * @kbdev:       Pointer to the kbase device for which the interrupt happened.
 * @irq_stat:    Value of the MMU_IRQ_STATUS register.
 *
 * Process the MMU interrupt that was reported by the &kbase_device.
 */
void kbase_mmu_interrupt(struct kbase_device *kbdev, u32 irq_stat);

/**
 * kbase_mmu_term - Terminate an object representing GPU page tables
 *
 * @kbdev: Instance of GPU platform device, allocated from the probe method.
 * @mmut:  GPU page tables to be destroyed.
 *
 * This will free any page tables that have been allocated
 */
void kbase_mmu_term(struct kbase_device *kbdev, struct kbase_mmu_table *mmut);

/**
 * kbase_mmu_create_ate - Create an address translation entry
 *
 * @kbdev:    Instance of GPU platform device, allocated from the probe method.
 * @phy:      Physical address of the page to be mapped for GPU access.
 * @flags:    Bitmask of attributes of the GPU memory region being mapped.
 * @level:    Page table level for which to build an address translation entry.
 * @group_id: The physical memory group in which the page was allocated.
 *            Valid range is 0..(MEMORY_GROUP_MANAGER_NR_GROUPS-1).
 *
 * This function creates an address translation entry to encode the physical
 * address of a page to be mapped for access by the GPU, along with any extra
 * attributes required for the GPU memory region.
 *
 * Return: An address translation entry, either in LPAE or AArch64 format
 *         (depending on the driver's configuration).
 */
u64 kbase_mmu_create_ate(struct kbase_device *kbdev, struct tagged_addr phy, unsigned long flags,
			 int level, int group_id);

int kbase_mmu_insert_pages_no_flush(struct kbase_device *kbdev, struct kbase_mmu_table *mmut,
				    u64 vpfn, struct tagged_addr *phys, size_t nr,
				    unsigned long flags, int group_id, u64 *dirty_pgds,
				    struct kbase_va_region *reg);
int kbase_mmu_insert_pages(struct kbase_device *kbdev, struct kbase_mmu_table *mmut, u64 vpfn,
			   struct tagged_addr *phys, size_t nr, unsigned long flags, int as_nr,
			   int group_id, enum kbase_caller_mmu_sync_info mmu_sync_info,
			   struct kbase_va_region *reg);

/**
 * kbase_mmu_insert_pages_skip_status_update - Map 'nr' pages pointed to by 'phys'
 * at GPU PFN 'vpfn' for GPU address space number 'as_nr'.
 *
 * @kbdev:         Instance of GPU platform device, allocated from the probe method.
 * @mmut:          GPU page tables.
 * @vpfn:          Start page frame number (in PAGE_SIZE units) of the GPU virtual pages to map.
 * @phys:          Physical address of the page to be mapped.
 * @nr:            The number of pages (in PAGE_SIZE units) to map.
 * @flags:         Bitmask of attributes of the GPU memory region being mapped.
 * @as_nr:         The GPU address space number.
 * @group_id:      The physical memory group in which the page was allocated.
 * @mmu_sync_info: MMU-synchronous caller info.
 * @reg:           The region whose physical allocation is to be mapped.
 *
 * Similar to kbase_mmu_insert_pages() but skips updating each pages metadata
 * for page migration.
 *
 * Return: 0 if successful, otherwise a negative error code.
 */
int kbase_mmu_insert_pages_skip_status_update(struct kbase_device *kbdev,
					      struct kbase_mmu_table *mmut, u64 vpfn,
					      struct tagged_addr *phys, size_t nr,
					      unsigned long flags, int as_nr, int group_id,
					      enum kbase_caller_mmu_sync_info mmu_sync_info,
					      struct kbase_va_region *reg);
int kbase_mmu_insert_aliased_pages(struct kbase_device *kbdev, struct kbase_mmu_table *mmut,
				   u64 vpfn, struct tagged_addr *phys, size_t nr,
				   unsigned long flags, int as_nr, int group_id,
				   enum kbase_caller_mmu_sync_info mmu_sync_info,
				   struct kbase_va_region *reg);
int kbase_mmu_insert_single_imported_page(struct kbase_context *kctx, u64 vpfn,
					  struct tagged_addr phys, size_t nr, unsigned long flags,
					  int group_id,
					  enum kbase_caller_mmu_sync_info mmu_sync_info);
int kbase_mmu_insert_single_aliased_page(struct kbase_context *kctx, u64 vpfn,
					 struct tagged_addr phys, size_t nr, unsigned long flags,
					 int group_id,
					 enum kbase_caller_mmu_sync_info mmu_sync_info);

int kbase_mmu_teardown_pages(struct kbase_device *kbdev, struct kbase_mmu_table *mmut, u64 vpfn,
			     struct tagged_addr *phys, size_t nr_phys_pages, size_t nr_virt_pages,
			     int as_nr);
int kbase_mmu_teardown_imported_pages(struct kbase_device *kbdev, struct kbase_mmu_table *mmut,
				      u64 vpfn, struct tagged_addr *phys, size_t nr_phys_pages,
				      size_t nr_virt_pages, int as_nr);
#define kbase_mmu_teardown_firmware_pages(kbdev, mmut, vpfn, phys, nr_phys_pages, nr_virt_pages, \
					  as_nr)                                                 \
	kbase_mmu_teardown_imported_pages(kbdev, mmut, vpfn, phys, nr_phys_pages, nr_virt_pages, \
					  as_nr)

int kbase_mmu_update_pages(struct kbase_context *kctx, u64 vpfn, struct tagged_addr *phys,
			   size_t nr, unsigned long flags, int const group_id);
#if MALI_USE_CSF
/**
 * kbase_mmu_update_csf_mcu_pages - Update MCU mappings with changes of phys and flags
 *
 * @kbdev:    Pointer to kbase device.
 * @vpfn:     GPU Virtual PFN (Page Frame Number), in PAGE_SIZE units, of the first page to update
 * @phys:     Pointer to the array of tagged physical addresses of the physical
 *            pages that are pointed to by the page table entries (that need to
 *            be updated).
 * @nr:       Number of pages (in PAGE_SIZE units) to update
 * @flags:    Flags
 * @group_id: The physical memory group in which the page was allocated.
 *            Valid range is 0..(MEMORY_GROUP_MANAGER_NR_GROUPS-1).
 *
 * Return: 0 on success, otherwise an error code.
 */
int kbase_mmu_update_csf_mcu_pages(struct kbase_device *kbdev, u64 vpfn, struct tagged_addr *phys,
				   size_t nr, unsigned long flags, int const group_id);
#endif

/**
 * kbase_mmu_migrate_page - Migrate GPU mappings and content between memory pages
 *
 * @old_phys:     Old physical page to be replaced.
 * @new_phys:     New physical page used to replace old physical page.
 * @old_dma_addr: DMA address of the old page.
 * @new_dma_addr: DMA address of the new page.
 * @level:        MMU page table level of the provided PGD.
 *
 * The page migration process is made of 2 big steps:
 *
 * 1) Copy the content of the old page to the new page.
 * 2) Remap the virtual page, that is: replace either the ATE (if the old page
 *    was a regular page) or the PTE (if the old page was used as a PGD) in the
 *    MMU page table with the new page.
 *
 * During the process, the MMU region is locked to prevent GPU access to the
 * virtual memory page that is being remapped.
 *
 * Before copying the content of the old page to the new page and while the
 * MMU region is locked, a GPU cache flush is performed to make sure that
 * pending GPU writes are finalized to the old page before copying.
 * That is necessary because otherwise there's a risk that GPU writes might
 * be finalized to the old page, and not new page, after migration.
 * The MMU region is unlocked only at the end of the migration operation.
 *
 * Return: 0 on success, otherwise an error code.
 */
int kbase_mmu_migrate_page(struct tagged_addr old_phys, struct tagged_addr new_phys,
			   dma_addr_t old_dma_addr, dma_addr_t new_dma_addr, int level);

/**
 * kbase_mmu_flush_pa_range() - Flush physical address range from the GPU caches
 *
 * @kbdev:    Instance of GPU platform device, allocated from the probe method.
 * @kctx:     Pointer to kbase context, it can be NULL if the physical address
 *            range is not associated with User created context.
 * @phys:     Starting address of the physical range to start the operation on.
 * @size:     Number of bytes to work on.
 * @flush_op: Type of cache flush operation to perform.
 *
 * Issue a cache flush physical range command. This function won't perform any
 * flush if the GPU doesn't support FLUSH_PA_RANGE command. The flush would be
 * performed only if the context has a JASID assigned to it.
 * This function is basically a wrapper for kbase_gpu_cache_flush_pa_range_and_busy_wait().
 */
void kbase_mmu_flush_pa_range(struct kbase_device *kbdev, struct kbase_context *kctx,
			      phys_addr_t phys, size_t size, enum kbase_mmu_op_type flush_op);

/**
 * kbase_mmu_bus_fault_interrupt - Process a bus fault interrupt.
 *
 * @kbdev:       Pointer to the kbase device for which bus fault was reported.
 * @status:      Value of the GPU_FAULTSTATUS register.
 * @as_nr:       GPU address space for which the bus fault occurred.
 *
 * Process the bus fault interrupt that was reported for a particular GPU
 * address space.
 *
 * Return: zero if the operation was successful, non-zero otherwise.
 */
int kbase_mmu_bus_fault_interrupt(struct kbase_device *kbdev, u32 status, u32 as_nr);

/**
 * kbase_mmu_gpu_fault_interrupt() - Report a GPU fault.
 *
 * @kbdev:    Kbase device pointer
 * @status:   GPU fault status
 * @as_nr:    Faulty address space
 * @address:  GPU fault address
 * @as_valid: true if address space is valid
 *
 * This function builds GPU fault information to submit a work
 * for reporting the details of the fault.
 */
void kbase_mmu_gpu_fault_interrupt(struct kbase_device *kbdev, u32 status, u32 as_nr, u64 address,
				   bool as_valid);

/**
 * kbase_context_mmu_group_id_get - Decode a memory group ID from
 *                                 base_context_create_flags
 *
 * @flags: Bitmask of flags to pass to base_context_init.
 *
 * Memory allocated for GPU page tables will come from the returned group.
 *
 * Return: Physical memory group ID. Valid range is 0..(BASE_MEM_GROUP_COUNT-1).
 */
static inline int kbase_context_mmu_group_id_get(base_context_create_flags const flags)
{
	KBASE_DEBUG_ASSERT(flags == (flags & BASEP_CONTEXT_CREATE_ALLOWED_FLAGS));
	return (int)BASE_CONTEXT_MMU_GROUP_ID_GET(flags);
}

#endif /* _KBASE_MMU_H_ */