linux-zen-desktop/arch/arm64/include/asm/mmu_context.h

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/* SPDX-License-Identifier: GPL-2.0-only */
/*
* Based on arch/arm/include/asm/mmu_context.h
*
* Copyright (C) 1996 Russell King.
* Copyright (C) 2012 ARM Ltd.
*/
#ifndef __ASM_MMU_CONTEXT_H
#define __ASM_MMU_CONTEXT_H
#ifndef __ASSEMBLY__
#include <linux/compiler.h>
#include <linux/sched.h>
#include <linux/sched/hotplug.h>
#include <linux/mm_types.h>
#include <linux/pgtable.h>
#include <asm/cacheflush.h>
#include <asm/cpufeature.h>
#include <asm/daifflags.h>
#include <asm/proc-fns.h>
#include <asm-generic/mm_hooks.h>
#include <asm/cputype.h>
#include <asm/sysreg.h>
#include <asm/tlbflush.h>
extern bool rodata_full;
static inline void contextidr_thread_switch(struct task_struct *next)
{
if (!IS_ENABLED(CONFIG_PID_IN_CONTEXTIDR))
return;
write_sysreg(task_pid_nr(next), contextidr_el1);
isb();
}
/*
* Set TTBR0 to reserved_pg_dir. No translations will be possible via TTBR0.
*/
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static inline void cpu_set_reserved_ttbr0_nosync(void)
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{
unsigned long ttbr = phys_to_ttbr(__pa_symbol(reserved_pg_dir));
write_sysreg(ttbr, ttbr0_el1);
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}
static inline void cpu_set_reserved_ttbr0(void)
{
cpu_set_reserved_ttbr0_nosync();
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isb();
}
void cpu_do_switch_mm(phys_addr_t pgd_phys, struct mm_struct *mm);
static inline void cpu_switch_mm(pgd_t *pgd, struct mm_struct *mm)
{
BUG_ON(pgd == swapper_pg_dir);
cpu_do_switch_mm(virt_to_phys(pgd),mm);
}
/*
* TCR.T0SZ value to use when the ID map is active. Usually equals
* TCR_T0SZ(VA_BITS), unless system RAM is positioned very high in
* physical memory, in which case it will be smaller.
*/
extern int idmap_t0sz;
/*
* Ensure TCR.T0SZ is set to the provided value.
*/
static inline void __cpu_set_tcr_t0sz(unsigned long t0sz)
{
unsigned long tcr = read_sysreg(tcr_el1);
if ((tcr & TCR_T0SZ_MASK) >> TCR_T0SZ_OFFSET == t0sz)
return;
tcr &= ~TCR_T0SZ_MASK;
tcr |= t0sz << TCR_T0SZ_OFFSET;
write_sysreg(tcr, tcr_el1);
isb();
}
#define cpu_set_default_tcr_t0sz() __cpu_set_tcr_t0sz(TCR_T0SZ(vabits_actual))
#define cpu_set_idmap_tcr_t0sz() __cpu_set_tcr_t0sz(idmap_t0sz)
/*
* Remove the idmap from TTBR0_EL1 and install the pgd of the active mm.
*
* The idmap lives in the same VA range as userspace, but uses global entries
* and may use a different TCR_EL1.T0SZ. To avoid issues resulting from
* speculative TLB fetches, we must temporarily install the reserved page
* tables while we invalidate the TLBs and set up the correct TCR_EL1.T0SZ.
*
* If current is a not a user task, the mm covers the TTBR1_EL1 page tables,
* which should not be installed in TTBR0_EL1. In this case we can leave the
* reserved page tables in place.
*/
static inline void cpu_uninstall_idmap(void)
{
struct mm_struct *mm = current->active_mm;
cpu_set_reserved_ttbr0();
local_flush_tlb_all();
cpu_set_default_tcr_t0sz();
if (mm != &init_mm && !system_uses_ttbr0_pan())
cpu_switch_mm(mm->pgd, mm);
}
static inline void __cpu_install_idmap(pgd_t *idmap)
{
cpu_set_reserved_ttbr0();
local_flush_tlb_all();
cpu_set_idmap_tcr_t0sz();
cpu_switch_mm(lm_alias(idmap), &init_mm);
}
static inline void cpu_install_idmap(void)
{
__cpu_install_idmap(idmap_pg_dir);
}
/*
* Load our new page tables. A strict BBM approach requires that we ensure that
* TLBs are free of any entries that may overlap with the global mappings we are
* about to install.
*
* For a real hibernate/resume/kexec cycle TTBR0 currently points to a zero
* page, but TLBs may contain stale ASID-tagged entries (e.g. for EFI runtime
* services), while for a userspace-driven test_resume cycle it points to
* userspace page tables (and we must point it at a zero page ourselves).
*
* We change T0SZ as part of installing the idmap. This is undone by
* cpu_uninstall_idmap() in __cpu_suspend_exit().
*/
static inline void cpu_install_ttbr0(phys_addr_t ttbr0, unsigned long t0sz)
{
cpu_set_reserved_ttbr0();
local_flush_tlb_all();
__cpu_set_tcr_t0sz(t0sz);
/* avoid cpu_switch_mm() and its SW-PAN and CNP interactions */
write_sysreg(ttbr0, ttbr0_el1);
isb();
}
/*
* Atomically replaces the active TTBR1_EL1 PGD with a new VA-compatible PGD,
* avoiding the possibility of conflicting TLB entries being allocated.
*/
static inline void cpu_replace_ttbr1(pgd_t *pgdp, pgd_t *idmap)
{
typedef void (ttbr_replace_func)(phys_addr_t);
extern ttbr_replace_func idmap_cpu_replace_ttbr1;
ttbr_replace_func *replace_phys;
unsigned long daif;
/* phys_to_ttbr() zeros lower 2 bits of ttbr with 52-bit PA */
phys_addr_t ttbr1 = phys_to_ttbr(virt_to_phys(pgdp));
if (system_supports_cnp() && !WARN_ON(pgdp != lm_alias(swapper_pg_dir))) {
/*
* cpu_replace_ttbr1() is used when there's a boot CPU
* up (i.e. cpufeature framework is not up yet) and
* latter only when we enable CNP via cpufeature's
* enable() callback.
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* Also we rely on the system_cpucaps bit being set before
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* calling the enable() function.
*/
ttbr1 |= TTBR_CNP_BIT;
}
replace_phys = (void *)__pa_symbol(idmap_cpu_replace_ttbr1);
__cpu_install_idmap(idmap);
/*
* We really don't want to take *any* exceptions while TTBR1 is
* in the process of being replaced so mask everything.
*/
daif = local_daif_save();
replace_phys(ttbr1);
local_daif_restore(daif);
cpu_uninstall_idmap();
}
/*
* It would be nice to return ASIDs back to the allocator, but unfortunately
* that introduces a race with a generation rollover where we could erroneously
* free an ASID allocated in a future generation. We could workaround this by
* freeing the ASID from the context of the dying mm (e.g. in arch_exit_mmap),
* but we'd then need to make sure that we didn't dirty any TLBs afterwards.
* Setting a reserved TTBR0 or EPD0 would work, but it all gets ugly when you
* take CPU migration into account.
*/
void check_and_switch_context(struct mm_struct *mm);
#define init_new_context(tsk, mm) init_new_context(tsk, mm)
static inline int
init_new_context(struct task_struct *tsk, struct mm_struct *mm)
{
atomic64_set(&mm->context.id, 0);
refcount_set(&mm->context.pinned, 0);
return 0;
}
#ifdef CONFIG_ARM64_SW_TTBR0_PAN
static inline void update_saved_ttbr0(struct task_struct *tsk,
struct mm_struct *mm)
{
u64 ttbr;
if (!system_uses_ttbr0_pan())
return;
if (mm == &init_mm)
ttbr = phys_to_ttbr(__pa_symbol(reserved_pg_dir));
else
ttbr = phys_to_ttbr(virt_to_phys(mm->pgd)) | ASID(mm) << 48;
WRITE_ONCE(task_thread_info(tsk)->ttbr0, ttbr);
}
#else
static inline void update_saved_ttbr0(struct task_struct *tsk,
struct mm_struct *mm)
{
}
#endif
#define enter_lazy_tlb enter_lazy_tlb
static inline void
enter_lazy_tlb(struct mm_struct *mm, struct task_struct *tsk)
{
/*
* We don't actually care about the ttbr0 mapping, so point it at the
* zero page.
*/
update_saved_ttbr0(tsk, &init_mm);
}
static inline void __switch_mm(struct mm_struct *next)
{
/*
* init_mm.pgd does not contain any user mappings and it is always
* active for kernel addresses in TTBR1. Just set the reserved TTBR0.
*/
if (next == &init_mm) {
cpu_set_reserved_ttbr0();
return;
}
check_and_switch_context(next);
}
static inline void
switch_mm(struct mm_struct *prev, struct mm_struct *next,
struct task_struct *tsk)
{
if (prev != next)
__switch_mm(next);
/*
* Update the saved TTBR0_EL1 of the scheduled-in task as the previous
* value may have not been initialised yet (activate_mm caller) or the
* ASID has changed since the last run (following the context switch
* of another thread of the same process).
*/
update_saved_ttbr0(tsk, next);
}
static inline const struct cpumask *
task_cpu_possible_mask(struct task_struct *p)
{
if (!static_branch_unlikely(&arm64_mismatched_32bit_el0))
return cpu_possible_mask;
if (!is_compat_thread(task_thread_info(p)))
return cpu_possible_mask;
return system_32bit_el0_cpumask();
}
#define task_cpu_possible_mask task_cpu_possible_mask
void verify_cpu_asid_bits(void);
void post_ttbr_update_workaround(void);
unsigned long arm64_mm_context_get(struct mm_struct *mm);
void arm64_mm_context_put(struct mm_struct *mm);
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#define mm_untag_mask mm_untag_mask
static inline unsigned long mm_untag_mask(struct mm_struct *mm)
{
return -1UL >> 8;
}
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#include <asm-generic/mmu_context.h>
#endif /* !__ASSEMBLY__ */
#endif /* !__ASM_MMU_CONTEXT_H */