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/* SPDX-License-Identifier: GPL-2.0 */ #ifndef __ALPHA_MMU_CONTEXT_H #define __ALPHA_MMU_CONTEXT_H /* * get a new mmu context.. * * Copyright (C) 1996, Linus Torvalds */ #include <linux/mm_types.h> #include <linux/sched.h> #include <asm/machvec.h> #include <asm/compiler.h> #include <asm-generic/mm_hooks.h> /* * Force a context reload. This is needed when we change the page * table pointer or when we update the ASN of the current process. */ /* Don't get into trouble with dueling __EXTERN_INLINEs. */ #ifndef __EXTERN_INLINE #include <asm/io.h> #endif static inline unsigned long __reload_thread(struct pcb_struct *pcb) { register unsigned long a0 __asm__("$16"); register unsigned long v0 __asm__("$0"); a0 = virt_to_phys(pcb); __asm__ __volatile__( "call_pal %2 #__reload_thread" : "=r"(v0), "=r"(a0) : "i"(PAL_swpctx), "r"(a0) : "$1", "$22", "$23", "$24", "$25"); return v0; } /* * The maximum ASN's the processor supports. On the EV4 this is 63 * but the PAL-code doesn't actually use this information. On the * EV5 this is 127, and EV6 has 255. * * On the EV4, the ASNs are more-or-less useless anyway, as they are * only used as an icache tag, not for TB entries. On the EV5 and EV6, * ASN's also validate the TB entries, and thus make a lot more sense. * * The EV4 ASN's don't even match the architecture manual, ugh. And * I quote: "If a processor implements address space numbers (ASNs), * and the old PTE has the Address Space Match (ASM) bit clear (ASNs * in use) and the Valid bit set, then entries can also effectively be * made coherent by assigning a new, unused ASN to the currently * running process and not reusing the previous ASN before calling the * appropriate PALcode routine to invalidate the translation buffer (TB)". * * In short, the EV4 has a "kind of" ASN capability, but it doesn't actually * work correctly and can thus not be used (explaining the lack of PAL-code * support). */ #define EV4_MAX_ASN 63 #define EV5_MAX_ASN 127 #define EV6_MAX_ASN 255 #ifdef CONFIG_ALPHA_GENERIC # define MAX_ASN (alpha_mv.max_asn) #else # ifdef CONFIG_ALPHA_EV4 # define MAX_ASN EV4_MAX_ASN # elif defined(CONFIG_ALPHA_EV5) # define MAX_ASN EV5_MAX_ASN # else # define MAX_ASN EV6_MAX_ASN # endif #endif /* * cpu_last_asn(processor): * 63 0 * +-------------+----------------+--------------+ * | asn version | this processor | hardware asn | * +-------------+----------------+--------------+ */ #include <asm/smp.h> #ifdef CONFIG_SMP #define cpu_last_asn(cpuid) (cpu_data[cpuid].last_asn) #else extern unsigned long last_asn; #define cpu_last_asn(cpuid) last_asn #endif /* CONFIG_SMP */ #define WIDTH_HARDWARE_ASN 8 #define ASN_FIRST_VERSION (1UL << WIDTH_HARDWARE_ASN) #define HARDWARE_ASN_MASK ((1UL << WIDTH_HARDWARE_ASN) - 1) /* * NOTE! The way this is set up, the high bits of the "asn_cache" (and * the "mm->context") are the ASN _version_ code. A version of 0 is * always considered invalid, so to invalidate another process you only * need to do "p->mm->context = 0". * * If we need more ASN's than the processor has, we invalidate the old * user TLB's (tbiap()) and start a new ASN version. That will automatically * force a new asn for any other processes the next time they want to * run. */ #ifndef __EXTERN_INLINE #define __EXTERN_INLINE extern inline #define __MMU_EXTERN_INLINE #endif extern inline unsigned long __get_new_mm_context(struct mm_struct *mm, long cpu) { unsigned long asn = cpu_last_asn(cpu); unsigned long next = asn + 1; if ((asn & HARDWARE_ASN_MASK) >= MAX_ASN) { tbiap(); imb(); next = (asn & ~HARDWARE_ASN_MASK) + ASN_FIRST_VERSION; } cpu_last_asn(cpu) = next; return next; } __EXTERN_INLINE void ev5_switch_mm(struct mm_struct *prev_mm, struct mm_struct *next_mm, struct task_struct *next) { /* Check if our ASN is of an older version, and thus invalid. */ unsigned long asn; unsigned long mmc; long cpu = smp_processor_id(); #ifdef CONFIG_SMP cpu_data[cpu].asn_lock = 1; barrier(); #endif asn = cpu_last_asn(cpu); mmc = next_mm->context[cpu]; if ((mmc ^ asn) & ~HARDWARE_ASN_MASK) { mmc = __get_new_mm_context(next_mm, cpu); next_mm->context[cpu] = mmc; } #ifdef CONFIG_SMP else cpu_data[cpu].need_new_asn = 1; #endif /* Always update the PCB ASN. Another thread may have allocated a new mm->context (via flush_tlb_mm) without the ASN serial number wrapping. We have no way to detect when this is needed. */ task_thread_info(next)->pcb.asn = mmc & HARDWARE_ASN_MASK; } __EXTERN_INLINE void ev4_switch_mm(struct mm_struct *prev_mm, struct mm_struct *next_mm, struct task_struct *next) { /* As described, ASN's are broken for TLB usage. But we can optimize for switching between threads -- if the mm is unchanged from current we needn't flush. */ /* ??? May not be needed because EV4 PALcode recognizes that ASN's are broken and does a tbiap itself on swpctx, under the "Must set ASN or flush" rule. At least this is true for a 1992 SRM, reports Joseph Martin (jmartin@hlo.dec.com). I'm going to leave this here anyway, just to Be Sure. -- r~ */ if (prev_mm != next_mm) tbiap(); /* Do continue to allocate ASNs, because we can still use them to avoid flushing the icache. */ ev5_switch_mm(prev_mm, next_mm, next); } extern void __load_new_mm_context(struct mm_struct *); #ifdef CONFIG_SMP #define check_mmu_context() \ do { \ int cpu = smp_processor_id(); \ cpu_data[cpu].asn_lock = 0; \ barrier(); \ if (cpu_data[cpu].need_new_asn) { \ struct mm_struct * mm = current->active_mm; \ cpu_data[cpu].need_new_asn = 0; \ if (!mm->context[cpu]) \ __load_new_mm_context(mm); \ } \ } while(0) #else #define check_mmu_context() do { } while(0) #endif __EXTERN_INLINE void ev5_activate_mm(struct mm_struct *prev_mm, struct mm_struct *next_mm) { __load_new_mm_context(next_mm); } __EXTERN_INLINE void ev4_activate_mm(struct mm_struct *prev_mm, struct mm_struct *next_mm) { __load_new_mm_context(next_mm); tbiap(); } #ifdef CONFIG_ALPHA_GENERIC # define switch_mm(a,b,c) alpha_mv.mv_switch_mm((a),(b),(c)) # define activate_mm(x,y) alpha_mv.mv_activate_mm((x),(y)) #else # ifdef CONFIG_ALPHA_EV4 # define switch_mm(a,b,c) ev4_switch_mm((a),(b),(c)) # define activate_mm(x,y) ev4_activate_mm((x),(y)) # else # define switch_mm(a,b,c) ev5_switch_mm((a),(b),(c)) # define activate_mm(x,y) ev5_activate_mm((x),(y)) # endif #endif #define init_new_context init_new_context static inline int init_new_context(struct task_struct *tsk, struct mm_struct *mm) { int i; for_each_online_cpu(i) mm->context[i] = 0; if (tsk != current) task_thread_info(tsk)->pcb.ptbr = ((unsigned long)mm->pgd - IDENT_ADDR) >> PAGE_SHIFT; return 0; } #define enter_lazy_tlb enter_lazy_tlb static inline void enter_lazy_tlb(struct mm_struct *mm, struct task_struct *tsk) { task_thread_info(tsk)->pcb.ptbr = ((unsigned long)mm->pgd - IDENT_ADDR) >> PAGE_SHIFT; } #include <asm-generic/mmu_context.h> #ifdef __MMU_EXTERN_INLINE #undef __EXTERN_INLINE #undef __MMU_EXTERN_INLINE #endif #endif /* __ALPHA_MMU_CONTEXT_H */