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b2441318 | 1 | /* SPDX-License-Identifier: GPL-2.0 */ |
1965aae3 PA |
2 | #ifndef _ASM_X86_MMU_CONTEXT_H |
3 | #define _ASM_X86_MMU_CONTEXT_H | |
c3c2fee3 JF |
4 | |
5 | #include <asm/desc.h> | |
60063497 | 6 | #include <linux/atomic.h> |
d17d8f9d | 7 | #include <linux/mm_types.h> |
7d06d9c9 | 8 | #include <linux/pkeys.h> |
d17d8f9d DH |
9 | |
10 | #include <trace/events/tlb.h> | |
11 | ||
c3c2fee3 JF |
12 | #include <asm/pgalloc.h> |
13 | #include <asm/tlbflush.h> | |
14 | #include <asm/paravirt.h> | |
fe3d197f | 15 | #include <asm/mpx.h> |
f39681ed AL |
16 | |
17 | extern atomic64_t last_mm_ctx_id; | |
18 | ||
c3c2fee3 | 19 | #ifndef CONFIG_PARAVIRT |
c3c2fee3 JF |
20 | static inline void paravirt_activate_mm(struct mm_struct *prev, |
21 | struct mm_struct *next) | |
22 | { | |
23 | } | |
24 | #endif /* !CONFIG_PARAVIRT */ | |
25 | ||
7911d3f7 | 26 | #ifdef CONFIG_PERF_EVENTS |
a6673429 AL |
27 | extern struct static_key rdpmc_always_available; |
28 | ||
7911d3f7 AL |
29 | static inline void load_mm_cr4(struct mm_struct *mm) |
30 | { | |
a833581e | 31 | if (static_key_false(&rdpmc_always_available) || |
a6673429 | 32 | atomic_read(&mm->context.perf_rdpmc_allowed)) |
7911d3f7 AL |
33 | cr4_set_bits(X86_CR4_PCE); |
34 | else | |
35 | cr4_clear_bits(X86_CR4_PCE); | |
36 | } | |
37 | #else | |
38 | static inline void load_mm_cr4(struct mm_struct *mm) {} | |
39 | #endif | |
40 | ||
a5b9e5a2 | 41 | #ifdef CONFIG_MODIFY_LDT_SYSCALL |
37868fe1 AL |
42 | /* |
43 | * ldt_structs can be allocated, used, and freed, but they are never | |
44 | * modified while live. | |
45 | */ | |
46 | struct ldt_struct { | |
47 | /* | |
48 | * Xen requires page-aligned LDTs with special permissions. This is | |
49 | * needed to prevent us from installing evil descriptors such as | |
50 | * call gates. On native, we could merge the ldt_struct and LDT | |
51 | * allocations, but it's not worth trying to optimize. | |
52 | */ | |
53 | struct desc_struct *entries; | |
bbf79d21 | 54 | unsigned int nr_entries; |
37868fe1 AL |
55 | }; |
56 | ||
a5b9e5a2 AL |
57 | /* |
58 | * Used for LDT copy/destruction. | |
59 | */ | |
a4828f81 TG |
60 | static inline void init_new_context_ldt(struct mm_struct *mm) |
61 | { | |
62 | mm->context.ldt = NULL; | |
63 | init_rwsem(&mm->context.ldt_usr_sem); | |
64 | } | |
65 | int ldt_dup_context(struct mm_struct *oldmm, struct mm_struct *mm); | |
39a0526f | 66 | void destroy_context_ldt(struct mm_struct *mm); |
a5b9e5a2 | 67 | #else /* CONFIG_MODIFY_LDT_SYSCALL */ |
a4828f81 TG |
68 | static inline void init_new_context_ldt(struct mm_struct *mm) { } |
69 | static inline int ldt_dup_context(struct mm_struct *oldmm, | |
70 | struct mm_struct *mm) | |
a5b9e5a2 AL |
71 | { |
72 | return 0; | |
73 | } | |
39a0526f | 74 | static inline void destroy_context_ldt(struct mm_struct *mm) {} |
a5b9e5a2 AL |
75 | #endif |
76 | ||
37868fe1 AL |
77 | static inline void load_mm_ldt(struct mm_struct *mm) |
78 | { | |
a5b9e5a2 | 79 | #ifdef CONFIG_MODIFY_LDT_SYSCALL |
37868fe1 AL |
80 | struct ldt_struct *ldt; |
81 | ||
3382290e WD |
82 | /* READ_ONCE synchronizes with smp_store_release */ |
83 | ldt = READ_ONCE(mm->context.ldt); | |
37868fe1 AL |
84 | |
85 | /* | |
86 | * Any change to mm->context.ldt is followed by an IPI to all | |
87 | * CPUs with the mm active. The LDT will not be freed until | |
88 | * after the IPI is handled by all such CPUs. This means that, | |
89 | * if the ldt_struct changes before we return, the values we see | |
90 | * will be safe, and the new values will be loaded before we run | |
91 | * any user code. | |
92 | * | |
93 | * NB: don't try to convert this to use RCU without extreme care. | |
94 | * We would still need IRQs off, because we don't want to change | |
95 | * the local LDT after an IPI loaded a newer value than the one | |
96 | * that we can see. | |
97 | */ | |
98 | ||
99 | if (unlikely(ldt)) | |
bbf79d21 | 100 | set_ldt(ldt->entries, ldt->nr_entries); |
37868fe1 AL |
101 | else |
102 | clear_LDT(); | |
a5b9e5a2 AL |
103 | #else |
104 | clear_LDT(); | |
105 | #endif | |
73534258 AL |
106 | } |
107 | ||
108 | static inline void switch_ldt(struct mm_struct *prev, struct mm_struct *next) | |
109 | { | |
110 | #ifdef CONFIG_MODIFY_LDT_SYSCALL | |
111 | /* | |
112 | * Load the LDT if either the old or new mm had an LDT. | |
113 | * | |
114 | * An mm will never go from having an LDT to not having an LDT. Two | |
115 | * mms never share an LDT, so we don't gain anything by checking to | |
116 | * see whether the LDT changed. There's also no guarantee that | |
117 | * prev->context.ldt actually matches LDTR, but, if LDTR is non-NULL, | |
118 | * then prev->context.ldt will also be non-NULL. | |
119 | * | |
120 | * If we really cared, we could optimize the case where prev == next | |
121 | * and we're exiting lazy mode. Most of the time, if this happens, | |
122 | * we don't actually need to reload LDTR, but modify_ldt() is mostly | |
123 | * used by legacy code and emulators where we don't need this level of | |
124 | * performance. | |
125 | * | |
126 | * This uses | instead of || because it generates better code. | |
127 | */ | |
128 | if (unlikely((unsigned long)prev->context.ldt | | |
129 | (unsigned long)next->context.ldt)) | |
130 | load_mm_ldt(next); | |
131 | #endif | |
37868fe1 AL |
132 | |
133 | DEBUG_LOCKS_WARN_ON(preemptible()); | |
134 | } | |
135 | ||
b956575b | 136 | void enter_lazy_tlb(struct mm_struct *mm, struct task_struct *tsk); |
6826c8ff | 137 | |
39a0526f DH |
138 | static inline int init_new_context(struct task_struct *tsk, |
139 | struct mm_struct *mm) | |
140 | { | |
c2b3496b PZ |
141 | mutex_init(&mm->context.lock); |
142 | ||
f39681ed AL |
143 | mm->context.ctx_id = atomic64_inc_return(&last_mm_ctx_id); |
144 | atomic64_set(&mm->context.tlb_gen, 0); | |
145 | ||
a4828f81 | 146 | #ifdef CONFIG_X86_INTEL_MEMORY_PROTECTION_KEYS |
e8c24d3a DH |
147 | if (cpu_feature_enabled(X86_FEATURE_OSPKE)) { |
148 | /* pkey 0 is the default and always allocated */ | |
149 | mm->context.pkey_allocation_map = 0x1; | |
150 | /* -1 means unallocated or invalid */ | |
151 | mm->context.execute_only_pkey = -1; | |
152 | } | |
a4828f81 TG |
153 | #endif |
154 | init_new_context_ldt(mm); | |
155 | return 0; | |
39a0526f DH |
156 | } |
157 | static inline void destroy_context(struct mm_struct *mm) | |
158 | { | |
159 | destroy_context_ldt(mm); | |
160 | } | |
161 | ||
69c0319a AL |
162 | extern void switch_mm(struct mm_struct *prev, struct mm_struct *next, |
163 | struct task_struct *tsk); | |
6826c8ff | 164 | |
078194f8 AL |
165 | extern void switch_mm_irqs_off(struct mm_struct *prev, struct mm_struct *next, |
166 | struct task_struct *tsk); | |
167 | #define switch_mm_irqs_off switch_mm_irqs_off | |
c3c2fee3 JF |
168 | |
169 | #define activate_mm(prev, next) \ | |
170 | do { \ | |
171 | paravirt_activate_mm((prev), (next)); \ | |
172 | switch_mm((prev), (next), NULL); \ | |
173 | } while (0); | |
174 | ||
6826c8ff BG |
175 | #ifdef CONFIG_X86_32 |
176 | #define deactivate_mm(tsk, mm) \ | |
177 | do { \ | |
ccbeed3a | 178 | lazy_load_gs(0); \ |
6826c8ff BG |
179 | } while (0) |
180 | #else | |
181 | #define deactivate_mm(tsk, mm) \ | |
182 | do { \ | |
183 | load_gs_index(0); \ | |
184 | loadsegment(fs, 0); \ | |
185 | } while (0) | |
186 | #endif | |
c3c2fee3 | 187 | |
c10e83f5 | 188 | static inline int arch_dup_mmap(struct mm_struct *oldmm, struct mm_struct *mm) |
a1ea1c03 DH |
189 | { |
190 | paravirt_arch_dup_mmap(oldmm, mm); | |
a4828f81 | 191 | return ldt_dup_context(oldmm, mm); |
a1ea1c03 DH |
192 | } |
193 | ||
194 | static inline void arch_exit_mmap(struct mm_struct *mm) | |
195 | { | |
196 | paravirt_arch_exit_mmap(mm); | |
197 | } | |
198 | ||
b0e9b09b DH |
199 | #ifdef CONFIG_X86_64 |
200 | static inline bool is_64bit_mm(struct mm_struct *mm) | |
201 | { | |
97f2645f | 202 | return !IS_ENABLED(CONFIG_IA32_EMULATION) || |
b0e9b09b DH |
203 | !(mm->context.ia32_compat == TIF_IA32); |
204 | } | |
205 | #else | |
206 | static inline bool is_64bit_mm(struct mm_struct *mm) | |
207 | { | |
208 | return false; | |
209 | } | |
210 | #endif | |
211 | ||
fe3d197f DH |
212 | static inline void arch_bprm_mm_init(struct mm_struct *mm, |
213 | struct vm_area_struct *vma) | |
214 | { | |
215 | mpx_mm_init(mm); | |
216 | } | |
217 | ||
1de4fa14 DH |
218 | static inline void arch_unmap(struct mm_struct *mm, struct vm_area_struct *vma, |
219 | unsigned long start, unsigned long end) | |
220 | { | |
c922228e DH |
221 | /* |
222 | * mpx_notify_unmap() goes and reads a rarely-hot | |
223 | * cacheline in the mm_struct. That can be expensive | |
224 | * enough to be seen in profiles. | |
225 | * | |
226 | * The mpx_notify_unmap() call and its contents have been | |
227 | * observed to affect munmap() performance on hardware | |
228 | * where MPX is not present. | |
229 | * | |
230 | * The unlikely() optimizes for the fast case: no MPX | |
231 | * in the CPU, or no MPX use in the process. Even if | |
232 | * we get this wrong (in the unlikely event that MPX | |
233 | * is widely enabled on some system) the overhead of | |
234 | * MPX itself (reading bounds tables) is expected to | |
235 | * overwhelm the overhead of getting this unlikely() | |
236 | * consistently wrong. | |
237 | */ | |
238 | if (unlikely(cpu_feature_enabled(X86_FEATURE_MPX))) | |
239 | mpx_notify_unmap(mm, vma, start, end); | |
1de4fa14 DH |
240 | } |
241 | ||
7d06d9c9 | 242 | #ifdef CONFIG_X86_INTEL_MEMORY_PROTECTION_KEYS |
8f62c883 DH |
243 | static inline int vma_pkey(struct vm_area_struct *vma) |
244 | { | |
8f62c883 DH |
245 | unsigned long vma_pkey_mask = VM_PKEY_BIT0 | VM_PKEY_BIT1 | |
246 | VM_PKEY_BIT2 | VM_PKEY_BIT3; | |
7d06d9c9 DH |
247 | |
248 | return (vma->vm_flags & vma_pkey_mask) >> VM_PKEY_SHIFT; | |
249 | } | |
250 | #else | |
251 | static inline int vma_pkey(struct vm_area_struct *vma) | |
252 | { | |
253 | return 0; | |
8f62c883 | 254 | } |
7d06d9c9 | 255 | #endif |
8f62c883 | 256 | |
33a709b2 DH |
257 | /* |
258 | * We only want to enforce protection keys on the current process | |
259 | * because we effectively have no access to PKRU for other | |
260 | * processes or any way to tell *which * PKRU in a threaded | |
261 | * process we could use. | |
262 | * | |
263 | * So do not enforce things if the VMA is not from the current | |
264 | * mm, or if we are in a kernel thread. | |
265 | */ | |
266 | static inline bool vma_is_foreign(struct vm_area_struct *vma) | |
267 | { | |
268 | if (!current->mm) | |
269 | return true; | |
270 | /* | |
271 | * Should PKRU be enforced on the access to this VMA? If | |
272 | * the VMA is from another process, then PKRU has no | |
273 | * relevance and should not be enforced. | |
274 | */ | |
275 | if (current->mm != vma->vm_mm) | |
276 | return true; | |
277 | ||
278 | return false; | |
279 | } | |
280 | ||
1b2ee126 | 281 | static inline bool arch_vma_access_permitted(struct vm_area_struct *vma, |
d61172b4 | 282 | bool write, bool execute, bool foreign) |
33a709b2 | 283 | { |
d61172b4 DH |
284 | /* pkeys never affect instruction fetches */ |
285 | if (execute) | |
286 | return true; | |
33a709b2 | 287 | /* allow access if the VMA is not one from this process */ |
1b2ee126 | 288 | if (foreign || vma_is_foreign(vma)) |
33a709b2 DH |
289 | return true; |
290 | return __pkru_allows_pkey(vma_pkey(vma), write); | |
291 | } | |
292 | ||
d6e41f11 AL |
293 | /* |
294 | * This can be used from process context to figure out what the value of | |
6c690ee1 | 295 | * CR3 is without needing to do a (slow) __read_cr3(). |
d6e41f11 AL |
296 | * |
297 | * It's intended to be used for code like KVM that sneakily changes CR3 | |
298 | * and needs to restore it. It needs to be used very carefully. | |
299 | */ | |
300 | static inline unsigned long __get_current_cr3_fast(void) | |
301 | { | |
50fb83a6 | 302 | unsigned long cr3 = build_cr3(this_cpu_read(cpu_tlbstate.loaded_mm)->pgd, |
47061a24 | 303 | this_cpu_read(cpu_tlbstate.loaded_mm_asid)); |
10af6235 | 304 | |
d6e41f11 | 305 | /* For now, be very restrictive about when this can be called. */ |
4c07f904 | 306 | VM_WARN_ON(in_nmi() || preemptible()); |
d6e41f11 | 307 | |
6c690ee1 | 308 | VM_BUG_ON(cr3 != __read_cr3()); |
d6e41f11 AL |
309 | return cr3; |
310 | } | |
311 | ||
1965aae3 | 312 | #endif /* _ASM_X86_MMU_CONTEXT_H */ |