1 /* 2 * This file and its contents are supplied under the terms of the 3 * Common Development and Distribution License ("CDDL"), version 1.0. 4 * You may only use this file in accordance with the terms of version 5 * 1.0 of the CDDL. 6 * 7 * A full copy of the text of the CDDL should have accompanied this 8 * source. A copy of the CDDL is also available via the Internet at 9 * http://www.illumos.org/license/CDDL. 10 */ 11 /* This file is dual-licensed; see usr/src/contrib/bhyve/LICENSE */ 12 13 /* 14 * Copyright 2019 Joyent, Inc. 15 * Copyright 2023 Oxide Computer Company 16 */ 17 18 #ifndef _VMM_GPT_H 19 #define _VMM_GPT_H 20 21 #include <sys/types.h> 22 23 /* 24 * Constants for the nodes in the GPT radix tree. Note 25 * that, in accordance with hardware page table descriptions, 26 * the root of the tree is referred to as "LEVEL4" while the 27 * leaf level is "LEVEL1". 28 */ 29 typedef enum vmm_gpt_node_level { 30 LEVEL4 = 0, 31 LEVEL3, 32 LEVEL2, 33 LEVEL1, 34 MAX_GPT_LEVEL, 35 } vmm_gpt_node_level_t; 36 37 typedef enum vmm_gpt_query { 38 VGQ_ACCESSED, 39 VGQ_DIRTY, 40 } vmm_gpt_query_t; 41 42 /* 43 * The vmm_pte_ops structure contains function pointers for format-specific 44 * operations on page table entries. The operations are as follows: 45 * 46 * vpeo_map_table: Creates a PTE that maps an inner node in the page table. 47 * vpeo_map_page: Creates a leaf entry PTE that maps a page of physical memory. 48 * vpeo_pte_pfn: Returns the PFN contained in the given PTE. 49 * vpeo_pte_is_present: Returns true IFF the PTE maps a present page. 50 * vpeo_pte_prot: Returns a bitmask of protection bits for the PTE. 51 * The bits correspond to the standard mmap(2) bits: PROT_READ, PROT_WRITE, 52 * PROT_EXEC. 53 * vpeo_reset_dirty: Resets the dirty bit on the given PTE. If the second 54 * argument is `true`, the bit will be set, otherwise it will be cleared. 55 * Returns non-zero if the previous value of the bit was set. 56 * vpeo_reset_accessed: Resets the accessed bit on the given PTE. If the 57 * second argument is `true`, the bit will be set, otherwise it will be 58 * cleared. Returns non-zero if the previous value of the bit was set. 59 * vpeo_get_pmtp: Generate a properly formatted PML4 (EPTP/nCR3), given the root 60 * PFN for the GPT. 61 * vpeo_hw_ad_supported: Returns true IFF hardware A/D tracking is supported. 62 */ 63 typedef struct vmm_pte_ops vmm_pte_ops_t; 64 struct vmm_pte_ops { 65 uint64_t (*vpeo_map_table)(pfn_t); 66 uint64_t (*vpeo_map_page)(pfn_t, uint_t, uint8_t); 67 pfn_t (*vpeo_pte_pfn)(uint64_t); 68 bool (*vpeo_pte_is_present)(uint64_t); 69 uint_t (*vpeo_pte_prot)(uint64_t); 70 uint_t (*vpeo_reset_dirty)(uint64_t *, bool); 71 uint_t (*vpeo_reset_accessed)(uint64_t *, bool); 72 uint64_t (*vpeo_get_pmtp)(pfn_t, bool); 73 bool (*vpeo_hw_ad_supported)(void); 74 bool (*vpeo_query)(uint64_t *, vmm_gpt_query_t); 75 }; 76 77 extern vmm_pte_ops_t ept_pte_ops; 78 extern vmm_pte_ops_t rvi_pte_ops; 79 80 struct vmm_gpt; 81 typedef struct vmm_gpt vmm_gpt_t; 82 83 vmm_gpt_t *vmm_gpt_alloc(vmm_pte_ops_t *); 84 void vmm_gpt_free(vmm_gpt_t *); 85 86 uint64_t *vmm_gpt_lookup(vmm_gpt_t *, uint64_t); 87 void vmm_gpt_walk(vmm_gpt_t *, uint64_t, uint64_t **, vmm_gpt_node_level_t); 88 void vmm_gpt_populate_region(vmm_gpt_t *, uint64_t, uint64_t); 89 bool vmm_gpt_map_at(vmm_gpt_t *, uint64_t *, pfn_t, uint_t, uint8_t); 90 void vmm_gpt_vacate_region(vmm_gpt_t *, uint64_t, uint64_t); 91 bool vmm_gpt_map(vmm_gpt_t *, uint64_t, pfn_t, uint_t, uint8_t); 92 bool vmm_gpt_unmap(vmm_gpt_t *, uint64_t); 93 size_t vmm_gpt_unmap_region(vmm_gpt_t *, uint64_t, uint64_t); 94 uint64_t vmm_gpt_get_pmtp(vmm_gpt_t *, bool); 95 96 bool vmm_gpt_is_mapped(vmm_gpt_t *, uint64_t *, pfn_t *, uint_t *); 97 uint_t vmm_gpt_reset_accessed(vmm_gpt_t *, uint64_t *, bool); 98 uint_t vmm_gpt_reset_dirty(vmm_gpt_t *, uint64_t *, bool); 99 bool vmm_gpt_query(vmm_gpt_t *, uint64_t *, vmm_gpt_query_t); 100 bool vmm_gpt_can_track_dirty(vmm_gpt_t *); 101 102 #endif /* _VMM_GPT_H */ 103