/* * include/uapi/linux/nvmap.h * * structure declarations for nvmem and nvmap user-space ioctls * * Copyright (c) 2009-2020, NVIDIA CORPORATION. All rights reserved. * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope 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. */ #include #include #ifndef __UAPI_LINUX_NVMAP_H #define __UAPI_LINUX_NVMAP_H /* * DOC: NvMap Userspace API * * create a client by opening /dev/nvmap * most operations handled via following ioctls * */ enum { NVMAP_HANDLE_PARAM_SIZE = 1, NVMAP_HANDLE_PARAM_ALIGNMENT, NVMAP_HANDLE_PARAM_BASE, NVMAP_HANDLE_PARAM_HEAP, NVMAP_HANDLE_PARAM_KIND, NVMAP_HANDLE_PARAM_COMPR, /* ignored, to be removed */ }; enum { NVMAP_CACHE_OP_WB = 0, NVMAP_CACHE_OP_INV, NVMAP_CACHE_OP_WB_INV, }; enum { NVMAP_PAGES_UNRESERVE = 0, NVMAP_PAGES_RESERVE, NVMAP_INSERT_PAGES_ON_UNRESERVE, NVMAP_PAGES_PROT_AND_CLEAN, }; #define NVMAP_ELEM_SIZE_U64 (1 << 31) struct nvmap_create_handle { union { struct { union { /* size will be overwritten */ __u32 size; /* CreateHandle */ __s32 fd; /* DmaBufFd or FromFd */ }; __u32 handle; /* returns nvmap handle */ }; struct { /* one is input parameter, and other is output parameter * since its a union please note that input parameter * will be overwritten once ioctl returns */ union { __u64 ivm_id; /* CreateHandle from ivm*/ __s32 ivm_handle;/* Get ivm_id from handle */ }; }; struct { union { /* size64 will be overwritten */ __u64 size64; /* CreateHandle */ __u32 handle64; /* returns nvmap handle */ }; }; }; }; struct nvmap_create_handle_from_va { __u64 va; /* FromVA*/ __u32 size; /* non-zero for partial memory VMA. zero for end of VMA */ __u32 flags; /* wb/wc/uc/iwb, tag etc. */ union { __u32 handle; /* returns nvmap handle */ __u64 size64; /* used when size is 0 */ }; }; struct nvmap_gup_test { __u64 va; /* FromVA*/ __u32 handle; /* returns nvmap handle */ __u32 result; /* result=1 for pass, result=-err for failure */ }; struct nvmap_alloc_handle { __u32 handle; /* nvmap handle */ __u32 heap_mask; /* heaps to allocate from */ __u32 flags; /* wb/wc/uc/iwb etc. */ __u32 align; /* min alignment necessary */ }; struct nvmap_alloc_ivm_handle { __u32 handle; /* nvmap handle */ __u32 heap_mask; /* heaps to allocate from */ __u32 flags; /* wb/wc/uc/iwb etc. */ __u32 align; /* min alignment necessary */ __u32 peer; /* peer with whom handle must be shared. Used * only for NVMAP_HEAP_CARVEOUT_IVM */ }; struct nvmap_alloc_kind_handle { __u32 handle; /* nvmap handle */ __u32 heap_mask; __u32 flags; __u32 align; __u8 kind; __u8 comp_tags; }; struct nvmap_map_caller { __u32 handle; /* nvmap handle */ __u32 offset; /* offset into hmem; should be page-aligned */ __u32 length; /* number of bytes to map */ __u32 flags; /* maps as wb/iwb etc. */ unsigned long addr; /* user pointer */ }; #ifdef CONFIG_COMPAT struct nvmap_map_caller_32 { __u32 handle; /* nvmap handle */ __u32 offset; /* offset into hmem; should be page-aligned */ __u32 length; /* number of bytes to map */ __u32 flags; /* maps as wb/iwb etc. */ __u32 addr; /* user pointer*/ }; #endif struct nvmap_rw_handle { unsigned long addr; /* user pointer*/ __u32 handle; /* nvmap handle */ __u32 offset; /* offset into hmem */ __u32 elem_size; /* individual atom size */ __u32 hmem_stride; /* delta in bytes between atoms in hmem */ __u32 user_stride; /* delta in bytes between atoms in user */ __u32 count; /* number of atoms to copy */ }; struct nvmap_rw_handle_64 { unsigned long addr; /* user pointer*/ __u32 handle; /* nvmap handle */ __u64 offset; /* offset into hmem */ __u64 elem_size; /* individual atom size */ __u64 hmem_stride; /* delta in bytes between atoms in hmem */ __u64 user_stride; /* delta in bytes between atoms in user */ __u64 count; /* number of atoms to copy */ }; #ifdef CONFIG_COMPAT struct nvmap_rw_handle_32 { __u32 addr; /* user pointer */ __u32 handle; /* nvmap handle */ __u32 offset; /* offset into hmem */ __u32 elem_size; /* individual atom size */ __u32 hmem_stride; /* delta in bytes between atoms in hmem */ __u32 user_stride; /* delta in bytes between atoms in user */ __u32 count; /* number of atoms to copy */ }; #endif struct nvmap_pin_handle { __u32 *handles; /* array of handles to pin/unpin */ unsigned long *addr; /* array of addresses to return */ __u32 count; /* number of entries in handles */ }; #ifdef CONFIG_COMPAT struct nvmap_pin_handle_32 { __u32 handles; /* array of handles to pin/unpin */ __u32 addr; /* array of addresses to return */ __u32 count; /* number of entries in handles */ }; #endif struct nvmap_handle_param { __u32 handle; /* nvmap handle */ __u32 param; /* size/align/base/heap etc. */ unsigned long result; /* returns requested info*/ }; #ifdef CONFIG_COMPAT struct nvmap_handle_param_32 { __u32 handle; /* nvmap handle */ __u32 param; /* size/align/base/heap etc. */ __u32 result; /* returns requested info*/ }; #endif struct nvmap_cache_op { unsigned long addr; /* user pointer*/ __u32 handle; /* nvmap handle */ __u32 len; /* bytes to flush */ __s32 op; /* wb/wb_inv/inv */ }; struct nvmap_cache_op_64 { unsigned long addr; /* user pointer*/ __u32 handle; /* nvmap handle */ __u64 len; /* bytes to flush */ __s32 op; /* wb/wb_inv/inv */ }; #ifdef CONFIG_COMPAT struct nvmap_cache_op_32 { __u32 addr; /* user pointer*/ __u32 handle; /* nvmap handle */ __u32 len; /* bytes to flush */ __s32 op; /* wb/wb_inv/inv */ }; #endif struct nvmap_cache_op_list { __u64 handles; /* Ptr to u32 type array, holding handles */ __u64 offsets; /* Ptr to u32 type array, holding offsets * into handle mem */ __u64 sizes; /* Ptr to u32 type array, holindg sizes of memory * regions within each handle */ __u32 nr; /* Number of handles */ __s32 op; /* wb/wb_inv/inv */ }; struct nvmap_debugfs_handles_header { __u8 version; }; struct nvmap_debugfs_handles_entry { __u64 base; __u64 size; __u32 flags; __u32 share_count; __u64 mapped_size; }; struct nvmap_set_tag_label { __u32 tag; __u32 len; /* in: label length out: number of characters copied */ __u64 addr; /* in: pointer to label or NULL to remove */ }; struct nvmap_available_heaps { __u64 heaps; /* heaps bitmask */ }; struct nvmap_heap_size { __u32 heap; __u64 size; }; /** * Struct used while querying heap parameters */ struct nvmap_query_heap_params { __u32 heap_mask; __u32 flags; __u8 contig; __u64 total; __u64 free; __u64 largest_free_block; }; struct nvmap_handle_parameters { __u8 contig; __u32 import_id; __u32 handle; __u32 heap_number; __u32 access_flags; __u64 heap; __u64 align; __u64 coherency; __u64 size; }; #define NVMAP_IOC_MAGIC 'N' /* Creates a new memory handle. On input, the argument is the size of the new * handle; on return, the argument is the name of the new handle */ #define NVMAP_IOC_CREATE _IOWR(NVMAP_IOC_MAGIC, 0, struct nvmap_create_handle) #define NVMAP_IOC_CREATE_64 \ _IOWR(NVMAP_IOC_MAGIC, 1, struct nvmap_create_handle) #define NVMAP_IOC_FROM_ID _IOWR(NVMAP_IOC_MAGIC, 2, struct nvmap_create_handle) /* Actually allocates memory for the specified handle */ #define NVMAP_IOC_ALLOC _IOW(NVMAP_IOC_MAGIC, 3, struct nvmap_alloc_handle) /* Frees a memory handle, unpinning any pinned pages and unmapping any mappings */ #define NVMAP_IOC_FREE _IO(NVMAP_IOC_MAGIC, 4) /* Maps the region of the specified handle into a user-provided virtual address * that was previously created via an mmap syscall on this fd */ #define NVMAP_IOC_MMAP _IOWR(NVMAP_IOC_MAGIC, 5, struct nvmap_map_caller) #ifdef CONFIG_COMPAT #define NVMAP_IOC_MMAP_32 _IOWR(NVMAP_IOC_MAGIC, 5, struct nvmap_map_caller_32) #endif /* Reads/writes data (possibly strided) from a user-provided buffer into the * hmem at the specified offset */ #define NVMAP_IOC_WRITE _IOW(NVMAP_IOC_MAGIC, 6, struct nvmap_rw_handle) #define NVMAP_IOC_READ _IOW(NVMAP_IOC_MAGIC, 7, struct nvmap_rw_handle) #ifdef CONFIG_COMPAT #define NVMAP_IOC_WRITE_32 _IOW(NVMAP_IOC_MAGIC, 6, struct nvmap_rw_handle_32) #define NVMAP_IOC_READ_32 _IOW(NVMAP_IOC_MAGIC, 7, struct nvmap_rw_handle_32) #endif #define NVMAP_IOC_WRITE_64 \ _IOW(NVMAP_IOC_MAGIC, 6, struct nvmap_rw_handle_64) #define NVMAP_IOC_READ_64 \ _IOW(NVMAP_IOC_MAGIC, 7, struct nvmap_rw_handle_64) #define NVMAP_IOC_PARAM _IOWR(NVMAP_IOC_MAGIC, 8, struct nvmap_handle_param) #ifdef CONFIG_COMPAT #define NVMAP_IOC_PARAM_32 _IOWR(NVMAP_IOC_MAGIC, 8, struct nvmap_handle_param_32) #endif /* Pins a list of memory handles into IO-addressable memory (either IOVMM * space or physical memory, depending on the allocation), and returns the * address. Handles may be pinned recursively. */ #define NVMAP_IOC_PIN_MULT _IOWR(NVMAP_IOC_MAGIC, 10, struct nvmap_pin_handle) #define NVMAP_IOC_UNPIN_MULT _IOW(NVMAP_IOC_MAGIC, 11, struct nvmap_pin_handle) #ifdef CONFIG_COMPAT #define NVMAP_IOC_PIN_MULT_32 _IOWR(NVMAP_IOC_MAGIC, 10, struct nvmap_pin_handle_32) #define NVMAP_IOC_UNPIN_MULT_32 _IOW(NVMAP_IOC_MAGIC, 11, struct nvmap_pin_handle_32) #endif #define NVMAP_IOC_CACHE _IOW(NVMAP_IOC_MAGIC, 12, struct nvmap_cache_op) #define NVMAP_IOC_CACHE_64 _IOW(NVMAP_IOC_MAGIC, 12, struct nvmap_cache_op_64) #ifdef CONFIG_COMPAT #define NVMAP_IOC_CACHE_32 _IOW(NVMAP_IOC_MAGIC, 12, struct nvmap_cache_op_32) #endif /* Returns a global ID usable to allow a remote process to create a handle * reference to the same handle */ #define NVMAP_IOC_GET_ID _IOWR(NVMAP_IOC_MAGIC, 13, struct nvmap_create_handle) /* Returns a dma-buf fd usable to allow a remote process to create a handle * reference to the same handle */ #define NVMAP_IOC_SHARE _IOWR(NVMAP_IOC_MAGIC, 14, struct nvmap_create_handle) /* Returns a file id that allows a remote process to create a handle * reference to the same handle */ #define NVMAP_IOC_GET_FD _IOWR(NVMAP_IOC_MAGIC, 15, struct nvmap_create_handle) /* Create a new memory handle from file id passed */ #define NVMAP_IOC_FROM_FD _IOWR(NVMAP_IOC_MAGIC, 16, struct nvmap_create_handle) /* Perform cache maintenance on a list of handles. */ #define NVMAP_IOC_CACHE_LIST _IOW(NVMAP_IOC_MAGIC, 17, \ struct nvmap_cache_op_list) /* Perform reserve operation on a list of handles. */ #define NVMAP_IOC_RESERVE _IOW(NVMAP_IOC_MAGIC, 18, \ struct nvmap_cache_op_list) #define NVMAP_IOC_FROM_IVC_ID _IOWR(NVMAP_IOC_MAGIC, 19, struct nvmap_create_handle) #define NVMAP_IOC_GET_IVC_ID _IOWR(NVMAP_IOC_MAGIC, 20, struct nvmap_create_handle) #define NVMAP_IOC_GET_IVM_HEAPS _IOR(NVMAP_IOC_MAGIC, 21, unsigned int) /* Create a new memory handle from VA passed */ #define NVMAP_IOC_FROM_VA _IOWR(NVMAP_IOC_MAGIC, 22, struct nvmap_create_handle_from_va) #define NVMAP_IOC_GUP_TEST _IOWR(NVMAP_IOC_MAGIC, 23, struct nvmap_gup_test) /* Define a label for allocation tag */ #define NVMAP_IOC_SET_TAG_LABEL _IOW(NVMAP_IOC_MAGIC, 24, struct nvmap_set_tag_label) #define NVMAP_IOC_GET_AVAILABLE_HEAPS \ _IOR(NVMAP_IOC_MAGIC, 25, struct nvmap_available_heaps) #define NVMAP_IOC_GET_HEAP_SIZE \ _IOR(NVMAP_IOC_MAGIC, 26, struct nvmap_heap_size) #define NVMAP_IOC_PARAMETERS \ _IOR(NVMAP_IOC_MAGIC, 27, struct nvmap_handle_parameters) /* START of T124 IOCTLS */ /* Actually allocates memory for the specified handle, with kind */ #define NVMAP_IOC_ALLOC_KIND _IOW(NVMAP_IOC_MAGIC, 100, struct nvmap_alloc_kind_handle) /* Actually allocates memory from IVM heaps */ #define NVMAP_IOC_ALLOC_IVM _IOW(NVMAP_IOC_MAGIC, 101, struct nvmap_alloc_ivm_handle) /* Allocate seperate memory for VPR */ #define NVMAP_IOC_VPR_FLOOR_SIZE _IOW(NVMAP_IOC_MAGIC, 102, __u32) /* Get heap parameters such as total and frre size */ #define NVMAP_IOC_QUERY_HEAP_PARAMS _IOR(NVMAP_IOC_MAGIC, 105, \ struct nvmap_query_heap_params) #define NVMAP_IOC_MAXNR (_IOC_NR(NVMAP_IOC_QUERY_HEAP_PARAMS)) #endif /* __UAPI_LINUX_NVMAP_H */