blob: 2d556e65df8d926a067f9c05a703f00786ff305a [file] [log] [blame]
/*
* Copyright (c) 2017, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <arch.h>
#include <arch_helpers.h>
#include <assert.h>
#include <cassert.h>
#include <common_def.h>
#include <debug.h>
#include <errno.h>
#include <platform_def.h>
#include <string.h>
#include <types.h>
#include <utils.h>
#include <xlat_tables_v2.h>
#ifdef AARCH32
# include "aarch32/xlat_tables_arch.h"
#else
# include "aarch64/xlat_tables_arch.h"
#endif
#include "xlat_tables_private.h"
#if PLAT_XLAT_TABLES_DYNAMIC
/*
* The following functions assume that they will be called using subtables only.
* The base table can't be unmapped, so it is not needed to do any special
* handling for it.
*/
/*
* Returns the index of the array corresponding to the specified translation
* table.
*/
static int xlat_table_get_index(xlat_ctx_t *ctx, const uint64_t *table)
{
for (int i = 0; i < ctx->tables_num; i++)
if (ctx->tables[i] == table)
return i;
/*
* Maybe we were asked to get the index of the base level table, which
* should never happen.
*/
assert(0);
return -1;
}
/* Returns a pointer to an empty translation table. */
static uint64_t *xlat_table_get_empty(xlat_ctx_t *ctx)
{
for (int i = 0; i < ctx->tables_num; i++)
if (ctx->tables_mapped_regions[i] == 0)
return ctx->tables[i];
return NULL;
}
/* Increments region count for a given table. */
static void xlat_table_inc_regions_count(xlat_ctx_t *ctx, const uint64_t *table)
{
ctx->tables_mapped_regions[xlat_table_get_index(ctx, table)]++;
}
/* Decrements region count for a given table. */
static void xlat_table_dec_regions_count(xlat_ctx_t *ctx, const uint64_t *table)
{
ctx->tables_mapped_regions[xlat_table_get_index(ctx, table)]--;
}
/* Returns 0 if the speficied table isn't empty, otherwise 1. */
static int xlat_table_is_empty(xlat_ctx_t *ctx, const uint64_t *table)
{
return !ctx->tables_mapped_regions[xlat_table_get_index(ctx, table)];
}
#else /* PLAT_XLAT_TABLES_DYNAMIC */
/* Returns a pointer to the first empty translation table. */
static uint64_t *xlat_table_get_empty(xlat_ctx_t *ctx)
{
assert(ctx->next_table < ctx->tables_num);
return ctx->tables[ctx->next_table++];
}
#endif /* PLAT_XLAT_TABLES_DYNAMIC */
/* Returns a block/page table descriptor for the given level and attributes. */
static uint64_t xlat_desc(mmap_attr_t attr, unsigned long long addr_pa,
int level, uint64_t execute_never_mask)
{
uint64_t desc;
int mem_type;
/* Make sure that the granularity is fine enough to map this address. */
assert((addr_pa & XLAT_BLOCK_MASK(level)) == 0);
desc = addr_pa;
/*
* There are different translation table descriptors for level 3 and the
* rest.
*/
desc |= (level == XLAT_TABLE_LEVEL_MAX) ? PAGE_DESC : BLOCK_DESC;
/*
* Always set the access flag, as TF doesn't manage access flag faults.
* Deduce other fields of the descriptor based on the MT_NS and MT_RW
* memory region attributes.
*/
desc |= (attr & MT_NS) ? LOWER_ATTRS(NS) : 0;
desc |= (attr & MT_RW) ? LOWER_ATTRS(AP_RW) : LOWER_ATTRS(AP_RO);
desc |= LOWER_ATTRS(ACCESS_FLAG);
/*
* Deduce shareability domain and executability of the memory region
* from the memory type of the attributes (MT_TYPE).
*
* Data accesses to device memory and non-cacheable normal memory are
* coherent for all observers in the system, and correspondingly are
* always treated as being Outer Shareable. Therefore, for these 2 types
* of memory, it is not strictly needed to set the shareability field
* in the translation tables.
*/
mem_type = MT_TYPE(attr);
if (mem_type == MT_DEVICE) {
desc |= LOWER_ATTRS(ATTR_DEVICE_INDEX | OSH);
/*
* Always map device memory as execute-never.
* This is to avoid the possibility of a speculative instruction
* fetch, which could be an issue if this memory region
* corresponds to a read-sensitive peripheral.
*/
desc |= execute_never_mask;
} else { /* Normal memory */
/*
* Always map read-write normal memory as execute-never.
* (Trusted Firmware doesn't self-modify its code, therefore
* R/W memory is reserved for data storage, which must not be
* executable.)
* Note that setting the XN bit here is for consistency only.
* The function that enables the MMU sets the SCTLR_ELx.WXN bit,
* which makes any writable memory region to be treated as
* execute-never, regardless of the value of the XN bit in the
* translation table.
*
* For read-only memory, rely on the MT_EXECUTE/MT_EXECUTE_NEVER
* attribute to figure out the value of the XN bit.
*/
if ((attr & MT_RW) || (attr & MT_EXECUTE_NEVER)) {
desc |= execute_never_mask;
}
if (mem_type == MT_MEMORY) {
desc |= LOWER_ATTRS(ATTR_IWBWA_OWBWA_NTR_INDEX | ISH);
} else {
assert(mem_type == MT_NON_CACHEABLE);
desc |= LOWER_ATTRS(ATTR_NON_CACHEABLE_INDEX | OSH);
}
}
return desc;
}
/*
* Enumeration of actions that can be made when mapping table entries depending
* on the previous value in that entry and information about the region being
* mapped.
*/
typedef enum {
/* Do nothing */
ACTION_NONE,
/* Write a block (or page, if in level 3) entry. */
ACTION_WRITE_BLOCK_ENTRY,
/*
* Create a new table and write a table entry pointing to it. Recurse
* into it for further processing.
*/
ACTION_CREATE_NEW_TABLE,
/*
* There is a table descriptor in this entry, read it and recurse into
* that table for further processing.
*/
ACTION_RECURSE_INTO_TABLE,
} action_t;
#if PLAT_XLAT_TABLES_DYNAMIC
/*
* Recursive function that writes to the translation tables and unmaps the
* specified region.
*/
static void xlat_tables_unmap_region(xlat_ctx_t *ctx, mmap_region_t *mm,
const uintptr_t table_base_va,
uint64_t *const table_base,
const int table_entries,
const int level)
{
assert(level >= ctx->base_level && level <= XLAT_TABLE_LEVEL_MAX);
uint64_t *subtable;
uint64_t desc;
uintptr_t table_idx_va;
uintptr_t table_idx_end_va; /* End VA of this entry */
uintptr_t region_end_va = mm->base_va + mm->size - 1;
int table_idx;
if (mm->base_va > table_base_va) {
/* Find the first index of the table affected by the region. */
table_idx_va = mm->base_va & ~XLAT_BLOCK_MASK(level);
table_idx = (table_idx_va - table_base_va) >>
XLAT_ADDR_SHIFT(level);
assert(table_idx < table_entries);
} else {
/* Start from the beginning of the table. */
table_idx_va = table_base_va;
table_idx = 0;
}
while (table_idx < table_entries) {
table_idx_end_va = table_idx_va + XLAT_BLOCK_SIZE(level) - 1;
desc = table_base[table_idx];
uint64_t desc_type = desc & DESC_MASK;
action_t action = ACTION_NONE;
if ((mm->base_va <= table_idx_va) &&
(region_end_va >= table_idx_end_va)) {
/* Region covers all block */
if (level == 3) {
/*
* Last level, only page descriptors allowed,
* erase it.
*/
assert(desc_type == PAGE_DESC);
action = ACTION_WRITE_BLOCK_ENTRY;
} else {
/*
* Other levels can have table descriptors. If
* so, recurse into it and erase descriptors
* inside it as needed. If there is a block
* descriptor, just erase it. If an invalid
* descriptor is found, this table isn't
* actually mapped, which shouldn't happen.
*/
if (desc_type == TABLE_DESC) {
action = ACTION_RECURSE_INTO_TABLE;
} else {
assert(desc_type == BLOCK_DESC);
action = ACTION_WRITE_BLOCK_ENTRY;
}
}
} else if ((mm->base_va <= table_idx_end_va) ||
(region_end_va >= table_idx_va)) {
/*
* Region partially covers block.
*
* It can't happen in level 3.
*
* There must be a table descriptor here, if not there
* was a problem when mapping the region.
*/
assert(level < 3);
assert(desc_type == TABLE_DESC);
action = ACTION_RECURSE_INTO_TABLE;
}
if (action == ACTION_WRITE_BLOCK_ENTRY) {
table_base[table_idx] = INVALID_DESC;
xlat_arch_tlbi_va(table_idx_va);
} else if (action == ACTION_RECURSE_INTO_TABLE) {
subtable = (uint64_t *)(uintptr_t)(desc & TABLE_ADDR_MASK);
/* Recurse to write into subtable */
xlat_tables_unmap_region(ctx, mm, table_idx_va,
subtable, XLAT_TABLE_ENTRIES,
level + 1);
/*
* If the subtable is now empty, remove its reference.
*/
if (xlat_table_is_empty(ctx, subtable)) {
table_base[table_idx] = INVALID_DESC;
xlat_arch_tlbi_va(table_idx_va);
}
} else {
assert(action == ACTION_NONE);
}
table_idx++;
table_idx_va += XLAT_BLOCK_SIZE(level);
/* If reached the end of the region, exit */
if (region_end_va <= table_idx_va)
break;
}
if (level > ctx->base_level)
xlat_table_dec_regions_count(ctx, table_base);
}
#endif /* PLAT_XLAT_TABLES_DYNAMIC */
/*
* From the given arguments, it decides which action to take when mapping the
* specified region.
*/
static action_t xlat_tables_map_region_action(const mmap_region_t *mm,
const int desc_type, const unsigned long long dest_pa,
const uintptr_t table_entry_base_va, const int level)
{
uintptr_t mm_end_va = mm->base_va + mm->size - 1;
uintptr_t table_entry_end_va =
table_entry_base_va + XLAT_BLOCK_SIZE(level) - 1;
/*
* The descriptor types allowed depend on the current table level.
*/
if ((mm->base_va <= table_entry_base_va) &&
(mm_end_va >= table_entry_end_va)) {
/*
* Table entry is covered by region
* --------------------------------
*
* This means that this table entry can describe the whole
* translation with this granularity in principle.
*/
if (level == 3) {
/*
* Last level, only page descriptors are allowed.
*/
if (desc_type == PAGE_DESC) {
/*
* There's another region mapped here, don't
* overwrite.
*/
return ACTION_NONE;
} else {
assert(desc_type == INVALID_DESC);
return ACTION_WRITE_BLOCK_ENTRY;
}
} else {
/*
* Other levels. Table descriptors are allowed. Block
* descriptors too, but they have some limitations.
*/
if (desc_type == TABLE_DESC) {
/* There's already a table, recurse into it. */
return ACTION_RECURSE_INTO_TABLE;
} else if (desc_type == INVALID_DESC) {
/*
* There's nothing mapped here, create a new
* entry.
*
* Check if the destination granularity allows
* us to use a block descriptor or we need a
* finer table for it.
*
* Also, check if the current level allows block
* descriptors. If not, create a table instead.
*/
if ((dest_pa & XLAT_BLOCK_MASK(level)) ||
(level < MIN_LVL_BLOCK_DESC))
return ACTION_CREATE_NEW_TABLE;
else
return ACTION_WRITE_BLOCK_ENTRY;
} else {
/*
* There's another region mapped here, don't
* overwrite.
*/
assert(desc_type == BLOCK_DESC);
return ACTION_NONE;
}
}
} else if ((mm->base_va <= table_entry_end_va) ||
(mm_end_va >= table_entry_base_va)) {
/*
* Region partially covers table entry
* -----------------------------------
*
* This means that this table entry can't describe the whole
* translation, a finer table is needed.
* There cannot be partial block overlaps in level 3. If that
* happens, some of the preliminary checks when adding the
* mmap region failed to detect that PA and VA must at least be
* aligned to PAGE_SIZE.
*/
assert(level < 3);
if (desc_type == INVALID_DESC) {
/*
* The block is not fully covered by the region. Create
* a new table, recurse into it and try to map the
* region with finer granularity.
*/
return ACTION_CREATE_NEW_TABLE;
} else {
assert(desc_type == TABLE_DESC);
/*
* The block is not fully covered by the region, but
* there is already a table here. Recurse into it and
* try to map with finer granularity.
*
* PAGE_DESC for level 3 has the same value as
* TABLE_DESC, but this code can't run on a level 3
* table because there can't be overlaps in level 3.
*/
return ACTION_RECURSE_INTO_TABLE;
}
}
/*
* This table entry is outside of the region specified in the arguments,
* don't write anything to it.
*/
return ACTION_NONE;
}
/*
* Recursive function that writes to the translation tables and maps the
* specified region. On success, it returns the VA of the last byte that was
* succesfully mapped. On error, it returns the VA of the next entry that
* should have been mapped.
*/
static uintptr_t xlat_tables_map_region(xlat_ctx_t *ctx, mmap_region_t *mm,
const uintptr_t table_base_va,
uint64_t *const table_base,
const int table_entries,
const int level)
{
assert(level >= ctx->base_level && level <= XLAT_TABLE_LEVEL_MAX);
uintptr_t mm_end_va = mm->base_va + mm->size - 1;
uintptr_t table_idx_va;
unsigned long long table_idx_pa;
uint64_t *subtable;
uint64_t desc;
int table_idx;
if (mm->base_va > table_base_va) {
/* Find the first index of the table affected by the region. */
table_idx_va = mm->base_va & ~XLAT_BLOCK_MASK(level);
table_idx = (table_idx_va - table_base_va) >>
XLAT_ADDR_SHIFT(level);
assert(table_idx < table_entries);
} else {
/* Start from the beginning of the table. */
table_idx_va = table_base_va;
table_idx = 0;
}
#if PLAT_XLAT_TABLES_DYNAMIC
if (level > ctx->base_level)
xlat_table_inc_regions_count(ctx, table_base);
#endif
while (table_idx < table_entries) {
desc = table_base[table_idx];
table_idx_pa = mm->base_pa + table_idx_va - mm->base_va;
action_t action = xlat_tables_map_region_action(mm,
desc & DESC_MASK, table_idx_pa, table_idx_va, level);
if (action == ACTION_WRITE_BLOCK_ENTRY) {
table_base[table_idx] =
xlat_desc(mm->attr, table_idx_pa, level,
ctx->execute_never_mask);
} else if (action == ACTION_CREATE_NEW_TABLE) {
subtable = xlat_table_get_empty(ctx);
if (subtable == NULL) {
/* Not enough free tables to map this region */
return table_idx_va;
}
/* Point to new subtable from this one. */
table_base[table_idx] = TABLE_DESC | (unsigned long)subtable;
/* Recurse to write into subtable */
uintptr_t end_va = xlat_tables_map_region(ctx, mm, table_idx_va,
subtable, XLAT_TABLE_ENTRIES,
level + 1);
if (end_va != table_idx_va + XLAT_BLOCK_SIZE(level) - 1)
return end_va;
} else if (action == ACTION_RECURSE_INTO_TABLE) {
subtable = (uint64_t *)(uintptr_t)(desc & TABLE_ADDR_MASK);
/* Recurse to write into subtable */
uintptr_t end_va = xlat_tables_map_region(ctx, mm, table_idx_va,
subtable, XLAT_TABLE_ENTRIES,
level + 1);
if (end_va != table_idx_va + XLAT_BLOCK_SIZE(level) - 1)
return end_va;
} else {
assert(action == ACTION_NONE);
}
table_idx++;
table_idx_va += XLAT_BLOCK_SIZE(level);
/* If reached the end of the region, exit */
if (mm_end_va <= table_idx_va)
break;
}
return table_idx_va - 1;
}
void print_mmap(mmap_region_t *const mmap)
{
#if LOG_LEVEL >= LOG_LEVEL_VERBOSE
tf_printf("mmap:\n");
mmap_region_t *mm = mmap;
while (mm->size) {
tf_printf(" VA:%p PA:0x%llx size:0x%zx attr:0x%x\n",
(void *)mm->base_va, mm->base_pa,
mm->size, mm->attr);
++mm;
};
tf_printf("\n");
#endif
}
/*
* Function that verifies that a region can be mapped.
* Returns:
* 0: Success, the mapping is allowed.
* EINVAL: Invalid values were used as arguments.
* ERANGE: The memory limits were surpassed.
* ENOMEM: There is not enough memory in the mmap array.
* EPERM: Region overlaps another one in an invalid way.
*/
static int mmap_add_region_check(xlat_ctx_t *ctx, unsigned long long base_pa,
uintptr_t base_va, size_t size,
mmap_attr_t attr)
{
mmap_region_t *mm = ctx->mmap;
unsigned long long end_pa = base_pa + size - 1;
uintptr_t end_va = base_va + size - 1;
if (!IS_PAGE_ALIGNED(base_pa) || !IS_PAGE_ALIGNED(base_va) ||
!IS_PAGE_ALIGNED(size))
return -EINVAL;
/* Check for overflows */
if ((base_pa > end_pa) || (base_va > end_va))
return -ERANGE;
if ((base_va + (uintptr_t)size - (uintptr_t)1) > ctx->va_max_address)
return -ERANGE;
if ((base_pa + (unsigned long long)size - 1ULL) > ctx->pa_max_address)
return -ERANGE;
/* Check that there is space in the mmap array */
if (ctx->mmap[ctx->mmap_num - 1].size != 0)
return -ENOMEM;
/* Check for PAs and VAs overlaps with all other regions */
for (mm = ctx->mmap; mm->size; ++mm) {
uintptr_t mm_end_va = mm->base_va + mm->size - 1;
/*
* Check if one of the regions is completely inside the other
* one.
*/
int fully_overlapped_va =
((base_va >= mm->base_va) && (end_va <= mm_end_va)) ||
((mm->base_va >= base_va) && (mm_end_va <= end_va));
/*
* Full VA overlaps are only allowed if both regions are
* identity mapped (zero offset) or have the same VA to PA
* offset. Also, make sure that it's not the exact same area.
* This can only be done with static regions.
*/
if (fully_overlapped_va) {
#if PLAT_XLAT_TABLES_DYNAMIC
if ((attr & MT_DYNAMIC) || (mm->attr & MT_DYNAMIC))
return -EPERM;
#endif /* PLAT_XLAT_TABLES_DYNAMIC */
if ((mm->base_va - mm->base_pa) != (base_va - base_pa))
return -EPERM;
if ((base_va == mm->base_va) && (size == mm->size))
return -EPERM;
} else {
/*
* If the regions do not have fully overlapping VAs,
* then they must have fully separated VAs and PAs.
* Partial overlaps are not allowed
*/
unsigned long long mm_end_pa =
mm->base_pa + mm->size - 1;
int separated_pa =
(end_pa < mm->base_pa) || (base_pa > mm_end_pa);
int separated_va =
(end_va < mm->base_va) || (base_va > mm_end_va);
if (!(separated_va && separated_pa))
return -EPERM;
}
}
return 0;
}
void mmap_add_region_ctx(xlat_ctx_t *ctx, mmap_region_t *mm)
{
mmap_region_t *mm_cursor = ctx->mmap;
mmap_region_t *mm_last = mm_cursor + ctx->mmap_num;
unsigned long long end_pa = mm->base_pa + mm->size - 1;
uintptr_t end_va = mm->base_va + mm->size - 1;
int ret;
/* Ignore empty regions */
if (!mm->size)
return;
/* Static regions must be added before initializing the xlat tables. */
assert(!ctx->initialized);
ret = mmap_add_region_check(ctx, mm->base_pa, mm->base_va, mm->size,
mm->attr);
if (ret != 0) {
ERROR("mmap_add_region_check() failed. error %d\n", ret);
assert(0);
return;
}
/*
* Find correct place in mmap to insert new region.
*
* 1 - Lower region VA end first.
* 2 - Smaller region size first.
*
* VA 0 0xFF
*
* 1st |------|
* 2nd |------------|
* 3rd |------|
* 4th |---|
* 5th |---|
* 6th |----------|
* 7th |-------------------------------------|
*
* This is required for overlapping regions only. It simplifies adding
* regions with the loop in xlat_tables_init_internal because the outer
* ones won't overwrite block or page descriptors of regions added
* previously.
*
* Overlapping is only allowed for static regions.
*/
while ((mm_cursor->base_va + mm_cursor->size - 1) < end_va
&& mm_cursor->size)
++mm_cursor;
while ((mm_cursor->base_va + mm_cursor->size - 1 == end_va)
&& (mm_cursor->size < mm->size))
++mm_cursor;
/* Make room for new region by moving other regions up by one place */
memmove(mm_cursor + 1, mm_cursor,
(uintptr_t)mm_last - (uintptr_t)mm_cursor);
/*
* Check we haven't lost the empty sentinel from the end of the array.
* This shouldn't happen as we have checked in mmap_add_region_check
* that there is free space.
*/
assert(mm_last->size == 0);
mm_cursor->base_pa = mm->base_pa;
mm_cursor->base_va = mm->base_va;
mm_cursor->size = mm->size;
mm_cursor->attr = mm->attr;
if (end_pa > ctx->max_pa)
ctx->max_pa = end_pa;
if (end_va > ctx->max_va)
ctx->max_va = end_va;
}
#if PLAT_XLAT_TABLES_DYNAMIC
int mmap_add_dynamic_region_ctx(xlat_ctx_t *ctx, mmap_region_t *mm)
{
mmap_region_t *mm_cursor = ctx->mmap;
mmap_region_t *mm_last = mm_cursor + ctx->mmap_num;
unsigned long long end_pa = mm->base_pa + mm->size - 1;
uintptr_t end_va = mm->base_va + mm->size - 1;
int ret;
/* Nothing to do */
if (!mm->size)
return 0;
ret = mmap_add_region_check(ctx, mm->base_pa, mm->base_va, mm->size, mm->attr | MT_DYNAMIC);
if (ret != 0)
return ret;
/*
* Find the adequate entry in the mmap array in the same way done for
* static regions in mmap_add_region_ctx().
*/
while ((mm_cursor->base_va + mm_cursor->size - 1) < end_va && mm_cursor->size)
++mm_cursor;
while ((mm_cursor->base_va + mm_cursor->size - 1 == end_va) && (mm_cursor->size < mm->size))
++mm_cursor;
/* Make room for new region by moving other regions up by one place */
memmove(mm_cursor + 1, mm_cursor, (uintptr_t)mm_last - (uintptr_t)mm_cursor);
/*
* Check we haven't lost the empty sentinal from the end of the array.
* This shouldn't happen as we have checked in mmap_add_region_check
* that there is free space.
*/
assert(mm_last->size == 0);
mm_cursor->base_pa = mm->base_pa;
mm_cursor->base_va = mm->base_va;
mm_cursor->size = mm->size;
mm_cursor->attr = mm->attr | MT_DYNAMIC;
/*
* Update the translation tables if the xlat tables are initialized. If
* not, this region will be mapped when they are initialized.
*/
if (ctx->initialized) {
uintptr_t end_va = xlat_tables_map_region(ctx, mm_cursor, 0, ctx->base_table,
ctx->base_table_entries, ctx->base_level);
/* Failed to map, remove mmap entry, unmap and return error. */
if (end_va != mm_cursor->base_va + mm_cursor->size - 1) {
memmove(mm_cursor, mm_cursor + 1, (uintptr_t)mm_last - (uintptr_t)mm_cursor);
/*
* Check if the mapping function actually managed to map
* anything. If not, just return now.
*/
if (mm_cursor->base_va >= end_va)
return -ENOMEM;
/*
* Something went wrong after mapping some table entries,
* undo every change done up to this point.
*/
mmap_region_t unmap_mm = {
.base_pa = 0,
.base_va = mm->base_va,
.size = end_va - mm->base_va,
.attr = 0
};
xlat_tables_unmap_region(ctx, &unmap_mm, 0, ctx->base_table,
ctx->base_table_entries, ctx->base_level);
return -ENOMEM;
}
/*
* Make sure that all entries are written to the memory. There
* is no need to invalidate entries when mapping dynamic regions
* because new table/block/page descriptors only replace old
* invalid descriptors, that aren't TLB cached.
*/
dsbishst();
}
if (end_pa > ctx->max_pa)
ctx->max_pa = end_pa;
if (end_va > ctx->max_va)
ctx->max_va = end_va;
return 0;
}
/*
* Removes the region with given base Virtual Address and size from the given
* context.
*
* Returns:
* 0: Success.
* EINVAL: Invalid values were used as arguments (region not found).
* EPERM: Tried to remove a static region.
*/
int mmap_remove_dynamic_region_ctx(xlat_ctx_t *ctx, uintptr_t base_va,
size_t size)
{
mmap_region_t *mm = ctx->mmap;
mmap_region_t *mm_last = mm + ctx->mmap_num;
int update_max_va_needed = 0;
int update_max_pa_needed = 0;
/* Check sanity of mmap array. */
assert(mm[ctx->mmap_num].size == 0);
while (mm->size) {
if ((mm->base_va == base_va) && (mm->size == size))
break;
++mm;
}
/* Check that the region was found */
if (mm->size == 0)
return -EINVAL;
/* If the region is static it can't be removed */
if (!(mm->attr & MT_DYNAMIC))
return -EPERM;
/* Check if this region is using the top VAs or PAs. */
if ((mm->base_va + mm->size - 1) == ctx->max_va)
update_max_va_needed = 1;
if ((mm->base_pa + mm->size - 1) == ctx->max_pa)
update_max_pa_needed = 1;
/* Update the translation tables if needed */
if (ctx->initialized) {
xlat_tables_unmap_region(ctx, mm, 0, ctx->base_table,
ctx->base_table_entries,
ctx->base_level);
xlat_arch_tlbi_va_sync();
}
/* Remove this region by moving the rest down by one place. */
memmove(mm, mm + 1, (uintptr_t)mm_last - (uintptr_t)mm);
/* Check if we need to update the max VAs and PAs */
if (update_max_va_needed) {
ctx->max_va = 0;
mm = ctx->mmap;
while (mm->size) {
if ((mm->base_va + mm->size - 1) > ctx->max_va)
ctx->max_va = mm->base_va + mm->size - 1;
++mm;
}
}
if (update_max_pa_needed) {
ctx->max_pa = 0;
mm = ctx->mmap;
while (mm->size) {
if ((mm->base_pa + mm->size - 1) > ctx->max_pa)
ctx->max_pa = mm->base_pa + mm->size - 1;
++mm;
}
}
return 0;
}
#endif /* PLAT_XLAT_TABLES_DYNAMIC */
#if LOG_LEVEL >= LOG_LEVEL_VERBOSE
/* Print the attributes of the specified block descriptor. */
static void xlat_desc_print(uint64_t desc, uint64_t execute_never_mask)
{
int mem_type_index = ATTR_INDEX_GET(desc);
if (mem_type_index == ATTR_IWBWA_OWBWA_NTR_INDEX) {
tf_printf("MEM");
} else if (mem_type_index == ATTR_NON_CACHEABLE_INDEX) {
tf_printf("NC");
} else {
assert(mem_type_index == ATTR_DEVICE_INDEX);
tf_printf("DEV");
}
tf_printf(LOWER_ATTRS(AP_RO) & desc ? "-RO" : "-RW");
tf_printf(LOWER_ATTRS(NS) & desc ? "-NS" : "-S");
tf_printf(execute_never_mask & desc ? "-XN" : "-EXEC");
}
static const char * const level_spacers[] = {
"[LV0] ",
" [LV1] ",
" [LV2] ",
" [LV3] "
};
static const char *invalid_descriptors_ommited =
"%s(%d invalid descriptors omitted)\n";
/*
* Recursive function that reads the translation tables passed as an argument
* and prints their status.
*/
static void xlat_tables_print_internal(const uintptr_t table_base_va,
uint64_t *const table_base, const int table_entries,
const int level, const uint64_t execute_never_mask)
{
assert(level <= XLAT_TABLE_LEVEL_MAX);
uint64_t desc;
uintptr_t table_idx_va = table_base_va;
int table_idx = 0;
size_t level_size = XLAT_BLOCK_SIZE(level);
/*
* Keep track of how many invalid descriptors are counted in a row.
* Whenever multiple invalid descriptors are found, only the first one
* is printed, and a line is added to inform about how many descriptors
* have been omitted.
*/
int invalid_row_count = 0;
while (table_idx < table_entries) {
desc = table_base[table_idx];
if ((desc & DESC_MASK) == INVALID_DESC) {
if (invalid_row_count == 0) {
tf_printf("%sVA:%p size:0x%zx\n",
level_spacers[level],
(void *)table_idx_va, level_size);
}
invalid_row_count++;
} else {
if (invalid_row_count > 1) {
tf_printf(invalid_descriptors_ommited,
level_spacers[level],
invalid_row_count - 1);
}
invalid_row_count = 0;
/*
* Check if this is a table or a block. Tables are only
* allowed in levels other than 3, but DESC_PAGE has the
* same value as DESC_TABLE, so we need to check.
*/
if (((desc & DESC_MASK) == TABLE_DESC) &&
(level < XLAT_TABLE_LEVEL_MAX)) {
/*
* Do not print any PA for a table descriptor,
* as it doesn't directly map physical memory
* but instead points to the next translation
* table in the translation table walk.
*/
tf_printf("%sVA:%p size:0x%zx\n",
level_spacers[level],
(void *)table_idx_va, level_size);
uintptr_t addr_inner = desc & TABLE_ADDR_MASK;
xlat_tables_print_internal(table_idx_va,
(uint64_t *)addr_inner,
XLAT_TABLE_ENTRIES, level+1,
execute_never_mask);
} else {
tf_printf("%sVA:%p PA:0x%llx size:0x%zx ",
level_spacers[level],
(void *)table_idx_va,
(unsigned long long)(desc & TABLE_ADDR_MASK),
level_size);
xlat_desc_print(desc, execute_never_mask);
tf_printf("\n");
}
}
table_idx++;
table_idx_va += level_size;
}
if (invalid_row_count > 1) {
tf_printf(invalid_descriptors_ommited,
level_spacers[level], invalid_row_count - 1);
}
}
#endif /* LOG_LEVEL >= LOG_LEVEL_VERBOSE */
void xlat_tables_print(xlat_ctx_t *ctx)
{
#if LOG_LEVEL >= LOG_LEVEL_VERBOSE
xlat_tables_print_internal(0, ctx->base_table, ctx->base_table_entries,
ctx->base_level, ctx->execute_never_mask);
#endif /* LOG_LEVEL >= LOG_LEVEL_VERBOSE */
}
void init_xlation_table(xlat_ctx_t *ctx)
{
mmap_region_t *mm = ctx->mmap;
/* All tables must be zeroed before mapping any region. */
for (int i = 0; i < ctx->base_table_entries; i++)
ctx->base_table[i] = INVALID_DESC;
for (int j = 0; j < ctx->tables_num; j++) {
#if PLAT_XLAT_TABLES_DYNAMIC
ctx->tables_mapped_regions[j] = 0;
#endif
for (int i = 0; i < XLAT_TABLE_ENTRIES; i++)
ctx->tables[j][i] = INVALID_DESC;
}
while (mm->size) {
uintptr_t end_va = xlat_tables_map_region(ctx, mm, 0, ctx->base_table,
ctx->base_table_entries, ctx->base_level);
if (end_va != mm->base_va + mm->size - 1) {
ERROR("Not enough memory to map region:\n"
" VA:%p PA:0x%llx size:0x%zx attr:0x%x\n",
(void *)mm->base_va, mm->base_pa, mm->size, mm->attr);
panic();
}
mm++;
}
ctx->initialized = 1;
}