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Diffstat (limited to 'arch/arm/mm/mmu.c')
-rw-r--r--arch/arm/mm/mmu.c173
1 files changed, 74 insertions, 99 deletions
diff --git a/arch/arm/mm/mmu.c b/arch/arm/mm/mmu.c
index 4e6ef896c619..6ca7d9aa896f 100644
--- a/arch/arm/mm/mmu.c
+++ b/arch/arm/mm/mmu.c
@@ -1112,22 +1112,22 @@ void __init sanity_check_meminfo(void)
}
/*
- * Find the first non-section-aligned page, and point
+ * Find the first non-pmd-aligned page, and point
* memblock_limit at it. This relies on rounding the
- * limit down to be section-aligned, which happens at
- * the end of this function.
+ * limit down to be pmd-aligned, which happens at the
+ * end of this function.
*
* With this algorithm, the start or end of almost any
- * bank can be non-section-aligned. The only exception
- * is that the start of the bank 0 must be section-
+ * bank can be non-pmd-aligned. The only exception is
+ * that the start of the bank 0 must be section-
* aligned, since otherwise memory would need to be
* allocated when mapping the start of bank 0, which
* occurs before any free memory is mapped.
*/
if (!memblock_limit) {
- if (!IS_ALIGNED(block_start, SECTION_SIZE))
+ if (!IS_ALIGNED(block_start, PMD_SIZE))
memblock_limit = block_start;
- else if (!IS_ALIGNED(block_end, SECTION_SIZE))
+ else if (!IS_ALIGNED(block_end, PMD_SIZE))
memblock_limit = arm_lowmem_limit;
}
@@ -1137,12 +1137,12 @@ void __init sanity_check_meminfo(void)
high_memory = __va(arm_lowmem_limit - 1) + 1;
/*
- * Round the memblock limit down to a section size. This
+ * Round the memblock limit down to a pmd size. This
* helps to ensure that we will allocate memory from the
- * last full section, which should be mapped.
+ * last full pmd, which should be mapped.
*/
if (memblock_limit)
- memblock_limit = round_down(memblock_limit, SECTION_SIZE);
+ memblock_limit = round_down(memblock_limit, PMD_SIZE);
if (!memblock_limit)
memblock_limit = arm_lowmem_limit;
@@ -1387,123 +1387,98 @@ static void __init map_lowmem(void)
}
}
-#ifdef CONFIG_ARM_LPAE
+#ifdef CONFIG_ARM_PV_FIXUP
+extern unsigned long __atags_pointer;
+typedef void pgtables_remap(long long offset, unsigned long pgd, void *bdata);
+pgtables_remap lpae_pgtables_remap_asm;
+
/*
* early_paging_init() recreates boot time page table setup, allowing machines
* to switch over to a high (>4G) address space on LPAE systems
*/
-void __init early_paging_init(const struct machine_desc *mdesc,
- struct proc_info_list *procinfo)
+void __init early_paging_init(const struct machine_desc *mdesc)
{
- pmdval_t pmdprot = procinfo->__cpu_mm_mmu_flags;
- unsigned long map_start, map_end;
- pgd_t *pgd0, *pgdk;
- pud_t *pud0, *pudk, *pud_start;
- pmd_t *pmd0, *pmdk;
- phys_addr_t phys;
- int i;
+ pgtables_remap *lpae_pgtables_remap;
+ unsigned long pa_pgd;
+ unsigned int cr, ttbcr;
+ long long offset;
+ void *boot_data;
- if (!(mdesc->init_meminfo))
+ if (!mdesc->pv_fixup)
return;
- /* remap kernel code and data */
- map_start = init_mm.start_code & PMD_MASK;
- map_end = ALIGN(init_mm.brk, PMD_SIZE);
+ offset = mdesc->pv_fixup();
+ if (offset == 0)
+ return;
- /* get a handle on things... */
- pgd0 = pgd_offset_k(0);
- pud_start = pud0 = pud_offset(pgd0, 0);
- pmd0 = pmd_offset(pud0, 0);
+ /*
+ * Get the address of the remap function in the 1:1 identity
+ * mapping setup by the early page table assembly code. We
+ * must get this prior to the pv update. The following barrier
+ * ensures that this is complete before we fixup any P:V offsets.
+ */
+ lpae_pgtables_remap = (pgtables_remap *)(unsigned long)__pa(lpae_pgtables_remap_asm);
+ pa_pgd = __pa(swapper_pg_dir);
+ boot_data = __va(__atags_pointer);
+ barrier();
- pgdk = pgd_offset_k(map_start);
- pudk = pud_offset(pgdk, map_start);
- pmdk = pmd_offset(pudk, map_start);
+ pr_info("Switching physical address space to 0x%08llx\n",
+ (u64)PHYS_OFFSET + offset);
- mdesc->init_meminfo();
+ /* Re-set the phys pfn offset, and the pv offset */
+ __pv_offset += offset;
+ __pv_phys_pfn_offset += PFN_DOWN(offset);
/* Run the patch stub to update the constants */
fixup_pv_table(&__pv_table_begin,
(&__pv_table_end - &__pv_table_begin) << 2);
/*
- * Cache cleaning operations for self-modifying code
- * We should clean the entries by MVA but running a
- * for loop over every pv_table entry pointer would
- * just complicate the code.
- */
- flush_cache_louis();
- dsb(ishst);
- isb();
-
- /*
- * FIXME: This code is not architecturally compliant: we modify
- * the mappings in-place, indeed while they are in use by this
- * very same code. This may lead to unpredictable behaviour of
- * the CPU.
- *
- * Even modifying the mappings in a separate page table does
- * not resolve this.
- *
- * The architecture strongly recommends that when a mapping is
- * changed, that it is changed by first going via an invalid
- * mapping and back to the new mapping. This is to ensure that
- * no TLB conflicts (caused by the TLB having more than one TLB
- * entry match a translation) can occur. However, doing that
- * here will result in unmapping the code we are running.
- */
- pr_warn("WARNING: unsafe modification of in-place page tables - tainting kernel\n");
- add_taint(TAINT_CPU_OUT_OF_SPEC, LOCKDEP_STILL_OK);
-
- /*
- * Remap level 1 table. This changes the physical addresses
- * used to refer to the level 2 page tables to the high
- * physical address alias, leaving everything else the same.
- */
- for (i = 0; i < PTRS_PER_PGD; pud0++, i++) {
- set_pud(pud0,
- __pud(__pa(pmd0) | PMD_TYPE_TABLE | L_PGD_SWAPPER));
- pmd0 += PTRS_PER_PMD;
- }
-
- /*
- * Remap the level 2 table, pointing the mappings at the high
- * physical address alias of these pages.
- */
- phys = __pa(map_start);
- do {
- *pmdk++ = __pmd(phys | pmdprot);
- phys += PMD_SIZE;
- } while (phys < map_end);
-
- /*
- * Ensure that the above updates are flushed out of the cache.
- * This is not strictly correct; on a system where the caches
- * are coherent with each other, but the MMU page table walks
- * may not be coherent, flush_cache_all() may be a no-op, and
- * this will fail.
+ * We changing not only the virtual to physical mapping, but also
+ * the physical addresses used to access memory. We need to flush
+ * all levels of cache in the system with caching disabled to
+ * ensure that all data is written back, and nothing is prefetched
+ * into the caches. We also need to prevent the TLB walkers
+ * allocating into the caches too. Note that this is ARMv7 LPAE
+ * specific.
*/
+ cr = get_cr();
+ set_cr(cr & ~(CR_I | CR_C));
+ asm("mrc p15, 0, %0, c2, c0, 2" : "=r" (ttbcr));
+ asm volatile("mcr p15, 0, %0, c2, c0, 2"
+ : : "r" (ttbcr & ~(3 << 8 | 3 << 10)));
flush_cache_all();
/*
- * Re-write the TTBR values to point them at the high physical
- * alias of the page tables. We expect __va() will work on
- * cpu_get_pgd(), which returns the value of TTBR0.
+ * Fixup the page tables - this must be in the idmap region as
+ * we need to disable the MMU to do this safely, and hence it
+ * needs to be assembly. It's fairly simple, as we're using the
+ * temporary tables setup by the initial assembly code.
*/
- cpu_switch_mm(pgd0, &init_mm);
- cpu_set_ttbr(1, __pa(pgd0) + TTBR1_OFFSET);
+ lpae_pgtables_remap(offset, pa_pgd, boot_data);
- /* Finally flush any stale TLB values. */
- local_flush_bp_all();
- local_flush_tlb_all();
+ /* Re-enable the caches and cacheable TLB walks */
+ asm volatile("mcr p15, 0, %0, c2, c0, 2" : : "r" (ttbcr));
+ set_cr(cr);
}
#else
-void __init early_paging_init(const struct machine_desc *mdesc,
- struct proc_info_list *procinfo)
+void __init early_paging_init(const struct machine_desc *mdesc)
{
- if (mdesc->init_meminfo)
- mdesc->init_meminfo();
+ long long offset;
+
+ if (!mdesc->pv_fixup)
+ return;
+
+ offset = mdesc->pv_fixup();
+ if (offset == 0)
+ return;
+
+ pr_crit("Physical address space modification is only to support Keystone2.\n");
+ pr_crit("Please enable ARM_LPAE and ARM_PATCH_PHYS_VIRT support to use this\n");
+ pr_crit("feature. Your kernel may crash now, have a good day.\n");
+ add_taint(TAINT_CPU_OUT_OF_SPEC, LOCKDEP_STILL_OK);
}
#endif