src/arch/arm64/armv8/mmu.c - coreboot - Gitiles

 /*
  * This file is part of the coreboot project.
  *
  * Copyright 2014 Google Inc.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  * 3. The name of the author may not be used to endorse or promote products
  *    derived from this software without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
  * SUCH DAMAGE.
  */

 #include <assert.h>
 #include <stdlib.h>
 #include <stdint.h>
 #include <string.h>
 #include <symbols.h>

 #include <console/console.h>
 #include <arch/mmu.h>
 #include <arch/lib_helpers.h>
 #include <arch/cache.h>
 #include <arch/cache_helpers.h>

 /* This just caches the next free table slot (okay to do since they fill up from
  * bottom to top and can never be freed up again). It will reset to its initial
  * value on stage transition, so we still need to check it for UNUSED_DESC. */
 static uint64_t *next_free_table = (void *)_ttb;

 static void print_tag(int level, uint64_t tag)
 {
 	printk(level, tag & MA_MEM_NC ? "non-cacheable | " :
 					"    cacheable | ");
 	printk(level, tag & MA_RO ?	"read-only  | " :
 					"read-write | ");
 	printk(level, tag & MA_NS ?	"non-secure | " :
 					"    secure | ");
 	printk(level, tag & MA_MEM ?	"normal\n" :
 					"device\n");
 }

 /* Func : get_block_attr
  * Desc : Get block descriptor attributes based on the value of tag in memrange
  * region
  */
 static uint64_t get_block_attr(unsigned long tag)
 {
 	uint64_t attr;

 	attr = (tag & MA_NS)? BLOCK_NS : 0;
 	attr |= (tag & MA_RO)? BLOCK_AP_RO : BLOCK_AP_RW;
 	attr |= BLOCK_ACCESS;

 	if (tag & MA_MEM) {
 		attr |= BLOCK_SH_INNER_SHAREABLE;
 		if (tag & MA_MEM_NC)
 			attr |= BLOCK_INDEX_MEM_NORMAL_NC << BLOCK_INDEX_SHIFT;
 		else
 			attr |= BLOCK_INDEX_MEM_NORMAL << BLOCK_INDEX_SHIFT;
 	} else {
 		attr |= BLOCK_INDEX_MEM_DEV_NGNRNE << BLOCK_INDEX_SHIFT;
 		attr |= BLOCK_XN;
 	}

 	return attr;
 }

 /* Func : setup_new_table
  * Desc : Get next free table from TTB and set it up to match old parent entry.
  */
 static uint64_t *setup_new_table(uint64_t desc, size_t xlat_size)
 {
 	while (next_free_table[0] != UNUSED_DESC) {
 		next_free_table += GRANULE_SIZE/sizeof(*next_free_table);
 		if (_ettb - (u8 *)next_free_table <= 0)
 			die("Ran out of page table space!");
 	}

 	void *frame_base = (void *)(desc & XLAT_ADDR_MASK);
 	printk(BIOS_DEBUG, "Backing address range [%p:%p) with new page"
 	       " table @%p\n", frame_base, frame_base +
 	       (xlat_size << BITS_RESOLVED_PER_LVL), next_free_table);

 	if (!desc) {
 		memset(next_free_table, 0, GRANULE_SIZE);
 	} else {
 		/* Can reuse old parent entry, but may need to adjust type. */
 		if (xlat_size == L3_XLAT_SIZE)
 			desc |= PAGE_DESC;

 		int i = 0;
 		for (; i < GRANULE_SIZE/sizeof(*next_free_table); i++) {
 			next_free_table[i] = desc;
 			desc += xlat_size;
 		}
 	}

 	return next_free_table;
 }

 /* Func: get_next_level_table
  * Desc: Check if the table entry is a valid descriptor. If not, initialize new
  * table, update the entry and return the table addr. If valid, return the addr
  */
 static uint64_t *get_next_level_table(uint64_t *ptr, size_t xlat_size)
 {
 	uint64_t desc = *ptr;

 	if ((desc & DESC_MASK) != TABLE_DESC) {
 		uint64_t *new_table = setup_new_table(desc, xlat_size);
 		desc = ((uint64_t)new_table) | TABLE_DESC;
 		*ptr = desc;
 	}
 	return (uint64_t *)(desc & XLAT_ADDR_MASK);
 }

 /* Func : init_xlat_table
  * Desc : Given a base address and size, it identifies the indices within
  * different level XLAT tables which map the given base addr. Similar to table
  * walk, except that all invalid entries during the walk are updated
  * accordingly. On success, it returns the size of the block/page addressed by
  * the final table.
  */
 static uint64_t init_xlat_table(uint64_t base_addr,
 				uint64_t size,
 				uint64_t tag)
 {
 	uint64_t l1_index = (base_addr & L1_ADDR_MASK) >> L1_ADDR_SHIFT;
 	uint64_t l2_index = (base_addr & L2_ADDR_MASK) >> L2_ADDR_SHIFT;
 	uint64_t l3_index = (base_addr & L3_ADDR_MASK) >> L3_ADDR_SHIFT;
 	uint64_t *table = (uint64_t *)_ttb;
 	uint64_t desc;
 	uint64_t attr = get_block_attr(tag);

 	/* L1 table lookup
 	 * If VA has bits more than L2 can resolve, lookup starts at L1
 	 * Assumption: we don't need L0 table in coreboot */
 	if (BITS_PER_VA > L1_ADDR_SHIFT) {
 		if ((size >= L1_XLAT_SIZE) &&
 		    IS_ALIGNED(base_addr, (1UL << L1_ADDR_SHIFT))) {
 			/* If block address is aligned and size is greater than
 			 * or equal to size addressed by each L1 entry, we can
 			 * directly store a block desc */
 			desc = base_addr | BLOCK_DESC | attr;
 			table[l1_index] = desc;
 			/* L2 lookup is not required */
 			return L1_XLAT_SIZE;
 		}
 		table = get_next_level_table(&table[l1_index], L2_XLAT_SIZE);
 	}

 	/* L2 table lookup
 	 * If lookup was performed at L1, L2 table addr is obtained from L1 desc
 	 * else, lookup starts at ttbr address */
 	if ((size >= L2_XLAT_SIZE) &&
 	    IS_ALIGNED(base_addr, (1UL << L2_ADDR_SHIFT))) {
 		/* If block address is aligned and size is greater than
 		 * or equal to size addressed by each L2 entry, we can
 		 * directly store a block desc */
 		desc = base_addr | BLOCK_DESC | attr;
 		table[l2_index] = desc;
 		/* L3 lookup is not required */
 		return L2_XLAT_SIZE;
 	}

 	/* L2 entry stores a table descriptor */
 	table = get_next_level_table(&table[l2_index], L3_XLAT_SIZE);

 	/* L3 table lookup */
 	desc = base_addr | PAGE_DESC | attr;
 	table[l3_index] = desc;
 	return L3_XLAT_SIZE;
 }

 /* Func : sanity_check
  * Desc : Check address/size alignment of a table or page.
  */
 static void sanity_check(uint64_t addr, uint64_t size)
 {
 	assert(!(addr & GRANULE_SIZE_MASK) &&
 	       !(size & GRANULE_SIZE_MASK) &&
 	       size >= GRANULE_SIZE);
 }

 /* Func : mmu_config_range
  * Desc : This function repeatedly calls init_xlat_table with the base
  * address. Based on size returned from init_xlat_table, base_addr is updated
  * and subsequent calls are made for initializing the xlat table until the whole
  * region is initialized.
  */
 void mmu_config_range(void *start, size_t size, uint64_t tag)
 {
 	uint64_t base_addr = (uintptr_t)start;
 	uint64_t temp_size = size;

 	printk(BIOS_INFO, "Mapping address range [%p:%p) as ",
 	       start, start + size);
 	print_tag(BIOS_INFO, tag);

 	sanity_check(base_addr, temp_size);

 	while (temp_size)
 		temp_size -= init_xlat_table(base_addr + (size - temp_size),
 					     temp_size, tag);

 	/* ARMv8 MMUs snoop L1 data cache, no need to flush it. */
 	dsb();
 	tlbiall_current();
 	dsb();
 	isb();
 }

 /* Func : mmu_init
  * Desc : Initialize MMU registers and page table memory region. This must be
  * called exactly ONCE PER BOOT before trying to configure any mappings.
  */
 void mmu_init(void)
 {
 	/* Initially mark all table slots unused (first PTE == UNUSED_DESC). */
 	uint64_t *table = (uint64_t *)_ttb;
 	for (; _ettb - (u8 *)table > 0; table += GRANULE_SIZE/sizeof(*table))
 		table[0] = UNUSED_DESC;

 	/* Initialize the root table (L1) to be completely unmapped. */
 	uint64_t *root = setup_new_table(INVALID_DESC, L1_XLAT_SIZE);
 	assert((u8 *)root == _ttb);

 	/* Initialize TTBR */
 	raw_write_ttbr0_el3((uintptr_t)root);

 	/* Initialize MAIR indices */
 	raw_write_mair_el3(MAIR_ATTRIBUTES);

 	/* Initialize TCR flags */
 	raw_write_tcr_el3(TCR_TOSZ | TCR_IRGN0_NM_WBWAC | TCR_ORGN0_NM_WBWAC |
 			  TCR_SH0_IS | TCR_TG0_4KB | TCR_PS_64GB |
 			  TCR_TBI_USED);
 }

 void mmu_enable(void)
 {
 	uint32_t sctlr = raw_read_sctlr_el3();
 	sctlr |= SCTLR_C | SCTLR_M | SCTLR_I;
 	raw_write_sctlr_el3(sctlr);
 	isb();
 }

 /*
  * CAUTION: This implementation assumes that coreboot never uses non-identity
  * page tables for pages containing executed code. If you ever want to violate
  * this assumption, have fun figuring out the associated problems on your own.
  */
 void mmu_disable(void)
 {
 	flush_dcache_all(DCCISW);
 	uint32_t sctlr = raw_read_sctlr_el3();
 	sctlr &= ~(SCTLR_C | SCTLR_M);
 	raw_write_sctlr_el3(sctlr);
 	isb();
 }
	/*
	* This file is part of the coreboot project.
	*
	* Copyright 2014 Google Inc.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	* 3. The name of the author may not be used to endorse or promote products
	* derived from this software without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
	* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
	* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
	* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
	* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
	* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
	* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
	* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
	* SUCH DAMAGE.
	*/

	#include <assert.h>
	#include <stdlib.h>
	#include <stdint.h>
	#include <string.h>
	#include <symbols.h>

	#include <console/console.h>
	#include <arch/mmu.h>
	#include <arch/lib_helpers.h>
	#include <arch/cache.h>
	#include <arch/cache_helpers.h>

	/* This just caches the next free table slot (okay to do since they fill up from
	* bottom to top and can never be freed up again). It will reset to its initial
	* value on stage transition, so we still need to check it for UNUSED_DESC. */
	static uint64_t next_free_table = (void )_ttb;

	static void print_tag(int level, uint64_t tag)
	{
	printk(level, tag & MA_MEM_NC ? "non-cacheable \| " :
	" cacheable \| ");
	printk(level, tag & MA_RO ? "read-only \| " :
	"read-write \| ");
	printk(level, tag & MA_NS ? "non-secure \| " :
	" secure \| ");
	printk(level, tag & MA_MEM ? "normal\n" :
	"device\n");
	}

	/* Func : get_block_attr
	* Desc : Get block descriptor attributes based on the value of tag in memrange
	* region
	*/
	static uint64_t get_block_attr(unsigned long tag)
	{
	uint64_t attr;

	attr = (tag & MA_NS)? BLOCK_NS : 0;
	attr \|= (tag & MA_RO)? BLOCK_AP_RO : BLOCK_AP_RW;
	attr \|= BLOCK_ACCESS;

	if (tag & MA_MEM) {
	attr \|= BLOCK_SH_INNER_SHAREABLE;
	if (tag & MA_MEM_NC)
	attr \|= BLOCK_INDEX_MEM_NORMAL_NC << BLOCK_INDEX_SHIFT;
	else
	attr \|= BLOCK_INDEX_MEM_NORMAL << BLOCK_INDEX_SHIFT;
	} else {
	attr \|= BLOCK_INDEX_MEM_DEV_NGNRNE << BLOCK_INDEX_SHIFT;
	attr \|= BLOCK_XN;
	}

	return attr;
	}

	/* Func : setup_new_table
	* Desc : Get next free table from TTB and set it up to match old parent entry.
	*/
	static uint64_t *setup_new_table(uint64_t desc, size_t xlat_size)
	{
	while (next_free_table[0] != UNUSED_DESC) {
	next_free_table += GRANULE_SIZE/sizeof(*next_free_table);
	if (_ettb - (u8 *)next_free_table <= 0)
	die("Ran out of page table space!");
	}

	void frame_base = (void )(desc & XLAT_ADDR_MASK);
	printk(BIOS_DEBUG, "Backing address range [%p:%p) with new page"
	" table @%p\n", frame_base, frame_base +
	(xlat_size << BITS_RESOLVED_PER_LVL), next_free_table);

	if (!desc) {
	memset(next_free_table, 0, GRANULE_SIZE);
	} else {
	/* Can reuse old parent entry, but may need to adjust type. */
	if (xlat_size == L3_XLAT_SIZE)
	desc \|= PAGE_DESC;

	int i = 0;
	for (; i < GRANULE_SIZE/sizeof(*next_free_table); i++) {
	next_free_table[i] = desc;
	desc += xlat_size;
	}
	}

	return next_free_table;
	}

	/* Func: get_next_level_table
	* Desc: Check if the table entry is a valid descriptor. If not, initialize new
	* table, update the entry and return the table addr. If valid, return the addr
	*/
	static uint64_t get_next_level_table(uint64_t ptr, size_t xlat_size)
	{
	uint64_t desc = *ptr;

	if ((desc & DESC_MASK) != TABLE_DESC) {
	uint64_t *new_table = setup_new_table(desc, xlat_size);
	desc = ((uint64_t)new_table) \| TABLE_DESC;
	*ptr = desc;
	}
	return (uint64_t *)(desc & XLAT_ADDR_MASK);
	}

	/* Func : init_xlat_table
	* Desc : Given a base address and size, it identifies the indices within
	* different level XLAT tables which map the given base addr. Similar to table
	* walk, except that all invalid entries during the walk are updated
	* accordingly. On success, it returns the size of the block/page addressed by
	* the final table.
	*/
	static uint64_t init_xlat_table(uint64_t base_addr,
	uint64_t size,
	uint64_t tag)
	{
	uint64_t l1_index = (base_addr & L1_ADDR_MASK) >> L1_ADDR_SHIFT;
	uint64_t l2_index = (base_addr & L2_ADDR_MASK) >> L2_ADDR_SHIFT;
	uint64_t l3_index = (base_addr & L3_ADDR_MASK) >> L3_ADDR_SHIFT;
	uint64_t table = (uint64_t )_ttb;
	uint64_t desc;
	uint64_t attr = get_block_attr(tag);

	/* L1 table lookup
	* If VA has bits more than L2 can resolve, lookup starts at L1
	* Assumption: we don't need L0 table in coreboot */
	if (BITS_PER_VA > L1_ADDR_SHIFT) {
	if ((size >= L1_XLAT_SIZE) &&
	IS_ALIGNED(base_addr, (1UL << L1_ADDR_SHIFT))) {
	/* If block address is aligned and size is greater than
	* or equal to size addressed by each L1 entry, we can
	* directly store a block desc */
	desc = base_addr \| BLOCK_DESC \| attr;
	table[l1_index] = desc;
	/* L2 lookup is not required */
	return L1_XLAT_SIZE;
	}
	table = get_next_level_table(&table[l1_index], L2_XLAT_SIZE);
	}

	/* L2 table lookup
	* If lookup was performed at L1, L2 table addr is obtained from L1 desc
	* else, lookup starts at ttbr address */
	if ((size >= L2_XLAT_SIZE) &&
	IS_ALIGNED(base_addr, (1UL << L2_ADDR_SHIFT))) {
	/* If block address is aligned and size is greater than
	* or equal to size addressed by each L2 entry, we can
	* directly store a block desc */
	desc = base_addr \| BLOCK_DESC \| attr;
	table[l2_index] = desc;
	/* L3 lookup is not required */
	return L2_XLAT_SIZE;
	}

	/* L2 entry stores a table descriptor */
	table = get_next_level_table(&table[l2_index], L3_XLAT_SIZE);

	/* L3 table lookup */
	desc = base_addr \| PAGE_DESC \| attr;
	table[l3_index] = desc;
	return L3_XLAT_SIZE;
	}

	/* Func : sanity_check
	* Desc : Check address/size alignment of a table or page.
	*/
	static void sanity_check(uint64_t addr, uint64_t size)
	{
	assert(!(addr & GRANULE_SIZE_MASK) &&
	!(size & GRANULE_SIZE_MASK) &&
	size >= GRANULE_SIZE);
	}

	/* Func : mmu_config_range
	* Desc : This function repeatedly calls init_xlat_table with the base
	* address. Based on size returned from init_xlat_table, base_addr is updated
	* and subsequent calls are made for initializing the xlat table until the whole
	* region is initialized.
	*/
	void mmu_config_range(void *start, size_t size, uint64_t tag)
	{
	uint64_t base_addr = (uintptr_t)start;
	uint64_t temp_size = size;

	printk(BIOS_INFO, "Mapping address range [%p:%p) as ",
	start, start + size);
	print_tag(BIOS_INFO, tag);

	sanity_check(base_addr, temp_size);

	while (temp_size)
	temp_size -= init_xlat_table(base_addr + (size - temp_size),
	temp_size, tag);

	/* ARMv8 MMUs snoop L1 data cache, no need to flush it. */
	dsb();
	tlbiall_current();
	dsb();
	isb();
	}

	/* Func : mmu_init
	* Desc : Initialize MMU registers and page table memory region. This must be
	* called exactly ONCE PER BOOT before trying to configure any mappings.
	*/
	void mmu_init(void)
	{
	/* Initially mark all table slots unused (first PTE == UNUSED_DESC). */
	uint64_t table = (uint64_t )_ttb;
	for (; _ettb - (u8 )table > 0; table += GRANULE_SIZE/sizeof(table))
	table[0] = UNUSED_DESC;

	/* Initialize the root table (L1) to be completely unmapped. */
	uint64_t *root = setup_new_table(INVALID_DESC, L1_XLAT_SIZE);
	assert((u8 *)root == _ttb);

	/* Initialize TTBR */
	raw_write_ttbr0_el3((uintptr_t)root);

	/* Initialize MAIR indices */
	raw_write_mair_el3(MAIR_ATTRIBUTES);

	/* Initialize TCR flags */
	raw_write_tcr_el3(TCR_TOSZ \| TCR_IRGN0_NM_WBWAC \| TCR_ORGN0_NM_WBWAC \|
	TCR_SH0_IS \| TCR_TG0_4KB \| TCR_PS_64GB \|
	TCR_TBI_USED);
	}

	void mmu_enable(void)
	{
	uint32_t sctlr = raw_read_sctlr_el3();
	sctlr \|= SCTLR_C \| SCTLR_M \| SCTLR_I;
	raw_write_sctlr_el3(sctlr);
	isb();
	}

	/*
	* CAUTION: This implementation assumes that coreboot never uses non-identity
	* page tables for pages containing executed code. If you ever want to violate
	* this assumption, have fun figuring out the associated problems on your own.
	*/
	void mmu_disable(void)
	{
	flush_dcache_all(DCCISW);
	uint32_t sctlr = raw_read_sctlr_el3();
	sctlr &= ~(SCTLR_C \| SCTLR_M);
	raw_write_sctlr_el3(sctlr);
	isb();
	}