/* * Copyright (C) 2005,2006,2007,2008,2009 Imagination Technologies * * Meta 1 MMU handling code. * */ #include #include #include #include #define DM3_BASE (LINSYSDIRECT_BASE + (MMCU_DIRECTMAPn_ADDR_SCALE * 3)) /* * This contains the physical address of the top level 2k pgd table. */ static unsigned long mmu_base_phys; /* * Given a physical address, return a mapped virtual address that can be used * to access that location. * In practice, we use the DirectMap region to make this happen. */ static unsigned long map_addr(unsigned long phys) { static unsigned long dm_base = 0xFFFFFFFF; int offset; offset = phys - dm_base; /* Are we in the current map range ? */ if ((offset < 0) || (offset >= MMCU_DIRECTMAPn_ADDR_SCALE)) { /* Calculate new DM area */ dm_base = phys & ~(MMCU_DIRECTMAPn_ADDR_SCALE - 1); /* Actually map it in! */ metag_out32(dm_base, MMCU_DIRECTMAP3_ADDR); /* And calculate how far into that area our reference is */ offset = phys - dm_base; } return DM3_BASE + offset; } /* * Return the physical address of the base of our pgd table. */ static inline unsigned long __get_mmu_base(void) { unsigned long base_phys; unsigned int stride; if (is_global_space(PAGE_OFFSET)) stride = 4; else stride = hard_processor_id(); /* [0..3] */ base_phys = metag_in32(MMCU_TABLE_PHYS_ADDR); base_phys += (0x800 * stride); return base_phys; } /* Given a virtual address, return the virtual address of the relevant pgd */ static unsigned long pgd_entry_addr(unsigned long virt) { unsigned long pgd_phys; unsigned long pgd_virt; if (!mmu_base_phys) mmu_base_phys = __get_mmu_base(); /* * Are we trying to map a global address. If so, then index * the global pgd table instead of our local one. */ if (is_global_space(virt)) { /* Scale into 2gig map */ virt &= ~0x80000000; } /* Base of the pgd table plus our 4Meg entry, 4bytes each */ pgd_phys = mmu_base_phys + ((virt >> PGDIR_SHIFT) * 4); pgd_virt = map_addr(pgd_phys); return pgd_virt; } /* Given a virtual address, return the virtual address of the relevant pte */ static unsigned long pgtable_entry_addr(unsigned long virt) { unsigned long pgtable_phys; unsigned long pgtable_virt, pte_virt; /* Find the physical address of the 4MB page table*/ pgtable_phys = metag_in32(pgd_entry_addr(virt)) & MMCU_ENTRY_ADDR_BITS; /* Map it to a virtual address */ pgtable_virt = map_addr(pgtable_phys); /* And index into it for our pte */ pte_virt = pgtable_virt + ((virt >> PAGE_SHIFT) & 0x3FF) * 4; return pte_virt; } unsigned long mmu_read_first_level_page(unsigned long vaddr) { return metag_in32(pgd_entry_addr(vaddr)); } unsigned long mmu_read_second_level_page(unsigned long vaddr) { return metag_in32(pgtable_entry_addr(vaddr)); } unsigned long mmu_get_base(void) { static unsigned long __base; /* Find the base of our MMU pgd table */ if (!__base) __base = pgd_entry_addr(0); return __base; } void __init mmu_init(unsigned long mem_end) { unsigned long entry, addr; pgd_t *p_swapper_pg_dir; /* * Now copy over any MMU pgd entries already in the mmu page tables * over to our root init process (swapper_pg_dir) map. This map is * then inherited by all other processes, which means all processes * inherit a map of the kernel space. */ addr = PAGE_OFFSET; entry = pgd_index(PAGE_OFFSET); p_swapper_pg_dir = pgd_offset_k(0) + entry; while (addr <= META_MEMORY_LIMIT) { unsigned long pgd_entry; /* copy over the current MMU value */ pgd_entry = mmu_read_first_level_page(addr); pgd_val(*p_swapper_pg_dir) = pgd_entry; p_swapper_pg_dir++; addr += PGDIR_SIZE; entry++; } }