Commit 1be910bb authored by Sandrine Bailleux's avatar Sandrine Bailleux Committed by Antonio Nino Diaz
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xlat: Introduce API to get memory attributes of a region



This patch introduces a new API in the translation tables library
(v2), that allows to query the memory attributes of a memory block
or a memory page.

Change-Id: I45a8b39a53da39e7617cbac4bff5658dc1b20a11
Co-authored-by: default avatarSandrine Bailleux <sandrine.bailleux@arm.com>
Co-authored-by: default avatarAntonio Nino Diaz <antonio.ninodiaz@arm.com>
Signed-off-by: default avatarAntonio Nino Diaz <antonio.ninodiaz@arm.com>
parent 8bf5bac8
......@@ -24,9 +24,19 @@
#define FOUR_KB_INDEX(x) ((x) >> FOUR_KB_SHIFT)
#define INVALID_DESC U(0x0)
/*
* A block descriptor points to a region of memory bigger than the granule size
* (e.g. a 2MB region when the granule size is 4KB).
*/
#define BLOCK_DESC U(0x1) /* Table levels 0-2 */
/* A table descriptor points to the next level of translation table. */
#define TABLE_DESC U(0x3) /* Table levels 0-2 */
/*
* A page descriptor points to a page, i.e. a memory region whose size is the
* translation granule size (e.g. 4KB).
*/
#define PAGE_DESC U(0x3) /* Table level 3 */
#define DESC_MASK U(0x3)
#define FIRST_LEVEL_DESC_N ONE_GB_SHIFT
......@@ -84,10 +94,22 @@
#define XLAT_BLOCK_MASK(level) (XLAT_BLOCK_SIZE(level) - 1)
/* Mask to get the address bits common to a block of a certain table level*/
#define XLAT_ADDR_MASK(level) (~XLAT_BLOCK_MASK(level))
/*
* Extract from the given virtual address the index into the given lookup level.
* This macro assumes the system is using the 4KB translation granule.
*/
#define XLAT_TABLE_IDX(virtual_addr, level) \
(((virtual_addr) >> XLAT_ADDR_SHIFT(level)) & ULL(0x1FF))
/*
* AP[1] bit is ignored by hardware and is
* treated as if it is One in EL2/EL3
* The ARMv8 translation table descriptor format defines AP[2:1] as the Access
* Permissions bits, and does not define an AP[0] bit.
*
* AP[1] is valid only for a stage 1 translation that supports two VA ranges
* (i.e. in the ARMv8A.0 architecture, that is the S-EL1&0 regime).
*
* AP[1] is RES0 for stage 1 translations that support only one VA range
* (e.g. EL3).
*/
#define AP2_SHIFT U(0x7)
#define AP2_RO U(0x1)
......@@ -121,6 +143,28 @@
#define ATTR_INDEX_MASK U(0x3)
#define ATTR_INDEX_GET(attr) (((attr) >> 2) & ATTR_INDEX_MASK)
/*
* Shift values for the attributes fields in a block or page descriptor.
* See section D4.3.3 in the ARMv8-A ARM (issue B.a).
*/
/* Memory attributes index field, AttrIndx[2:0]. */
#define ATTR_INDEX_SHIFT 2
/* Non-secure bit, NS. */
#define NS_SHIFT 5
/* Shareability field, SH[1:0] */
#define SHAREABILITY_SHIFT 8
/* The Access Flag, AF. */
#define ACCESS_FLAG_SHIFT 10
/* The not global bit, nG. */
#define NOT_GLOBAL_SHIFT 11
/* Contiguous hint bit. */
#define CONT_HINT_SHIFT 52
/* Execute-never bits, XN. */
#define PXN_SHIFT 53
#define XN_SHIFT 54
#define UXN_SHIFT XN_SHIFT
/*
* Flags to override default values used to program system registers while
* enabling the MMU.
......
......@@ -251,5 +251,23 @@ int mmap_remove_dynamic_region_ctx(xlat_ctx_t *ctx,
#endif /* PLAT_XLAT_TABLES_DYNAMIC */
/*
* Query the memory attributes of a memory page in a set of translation tables.
*
* Return 0 on success, a negative error code on error.
* On success, the attributes are stored into *attributes.
*
* ctx
* Translation context to work on.
* base_va
* Virtual address of the page to get the attributes of.
* There are no alignment restrictions on this address. The attributes of the
* memory page it lies within are returned.
* attributes
* Output parameter where to store the attributes of the targeted memory page.
*/
int get_mem_attributes(const xlat_ctx_t *ctx, uintptr_t base_va,
mmap_attr_t *attributes);
#endif /*__ASSEMBLY__*/
#endif /* __XLAT_TABLES_V2_H__ */
......@@ -1022,7 +1022,7 @@ int mmap_remove_dynamic_region(uintptr_t base_va, size_t size)
#if LOG_LEVEL >= LOG_LEVEL_VERBOSE
/* Print the attributes of the specified block descriptor. */
static void xlat_desc_print(xlat_ctx_t *ctx, uint64_t desc)
static void xlat_desc_print(const xlat_ctx_t *ctx, uint64_t desc)
{
int mem_type_index = ATTR_INDEX_GET(desc);
xlat_regime_t xlat_regime = ctx->xlat_regime;
......@@ -1315,3 +1315,195 @@ void enable_mmu_el3(unsigned int flags)
}
#endif /* AARCH32 */
/*
* Do a translation table walk to find the block or page descriptor that maps
* virtual_addr.
*
* On success, return the address of the descriptor within the translation
* table. Its lookup level is stored in '*out_level'.
* On error, return NULL.
*
* xlat_table_base
* Base address for the initial lookup level.
* xlat_table_base_entries
* Number of entries in the translation table for the initial lookup level.
* virt_addr_space_size
* Size in bytes of the virtual address space.
*/
static uint64_t *find_xlat_table_entry(uintptr_t virtual_addr,
void *xlat_table_base,
int xlat_table_base_entries,
unsigned long long virt_addr_space_size,
int *out_level)
{
unsigned int start_level;
uint64_t *table;
int entries;
VERBOSE("%s(%p)\n", __func__, (void *)virtual_addr);
start_level = GET_XLAT_TABLE_LEVEL_BASE(virt_addr_space_size);
VERBOSE("Starting translation table walk from level %i\n", start_level);
table = xlat_table_base;
entries = xlat_table_base_entries;
for (unsigned int level = start_level;
level <= XLAT_TABLE_LEVEL_MAX;
++level) {
int idx;
uint64_t desc;
uint64_t desc_type;
VERBOSE("Table address: %p\n", (void *)table);
idx = XLAT_TABLE_IDX(virtual_addr, level);
VERBOSE("Index into level %i table: %i\n", level, idx);
if (idx >= entries) {
VERBOSE("Invalid address\n");
return NULL;
}
desc = table[idx];
desc_type = desc & DESC_MASK;
VERBOSE("Descriptor at level %i: 0x%llx\n", level,
(unsigned long long)desc);
if (desc_type == INVALID_DESC) {
VERBOSE("Invalid entry (memory not mapped)\n");
return NULL;
}
if (level == XLAT_TABLE_LEVEL_MAX) {
/*
* There can't be table entries at the final lookup
* level.
*/
assert(desc_type == PAGE_DESC);
VERBOSE("Descriptor mapping a memory page (size: 0x%llx)\n",
(unsigned long long)XLAT_BLOCK_SIZE(XLAT_TABLE_LEVEL_MAX));
*out_level = level;
return &table[idx];
}
if (desc_type == BLOCK_DESC) {
VERBOSE("Descriptor mapping a memory block (size: 0x%llx)\n",
(unsigned long long)XLAT_BLOCK_SIZE(level));
*out_level = level;
return &table[idx];
}
assert(desc_type == TABLE_DESC);
VERBOSE("Table descriptor, continuing xlat table walk...\n");
table = (uint64_t *)(uintptr_t)(desc & TABLE_ADDR_MASK);
entries = XLAT_TABLE_ENTRIES;
}
/*
* This shouldn't be reached, the translation table walk should end at
* most at level XLAT_TABLE_LEVEL_MAX and return from inside the loop.
*/
assert(0);
return NULL;
}
static int get_mem_attributes_internal(const xlat_ctx_t *ctx, uintptr_t base_va,
mmap_attr_t *attributes, uint64_t **table_entry,
unsigned long long *addr_pa, int *table_level)
{
uint64_t *entry;
uint64_t desc;
int level;
unsigned long long virt_addr_space_size;
/*
* Sanity-check arguments.
*/
assert(ctx != NULL);
assert(ctx->initialized);
assert(ctx->xlat_regime == EL1_EL0_REGIME || ctx->xlat_regime == EL3_REGIME);
virt_addr_space_size = (unsigned long long)ctx->va_max_address + 1;
assert(virt_addr_space_size > 0);
entry = find_xlat_table_entry(base_va,
ctx->base_table,
ctx->base_table_entries,
virt_addr_space_size,
&level);
if (entry == NULL) {
WARN("Address %p is not mapped.\n", (void *)base_va);
return -EINVAL;
}
if (addr_pa != NULL) {
*addr_pa = *entry & TABLE_ADDR_MASK;
}
if (table_entry != NULL) {
*table_entry = entry;
}
if (table_level != NULL) {
*table_level = level;
}
desc = *entry;
#if LOG_LEVEL >= LOG_LEVEL_VERBOSE
VERBOSE("Attributes: ");
xlat_desc_print(ctx, desc);
tf_printf("\n");
#endif /* LOG_LEVEL >= LOG_LEVEL_VERBOSE */
assert(attributes != NULL);
*attributes = 0;
int attr_index = (desc >> ATTR_INDEX_SHIFT) & ATTR_INDEX_MASK;
if (attr_index == ATTR_IWBWA_OWBWA_NTR_INDEX) {
*attributes |= MT_MEMORY;
} else if (attr_index == ATTR_NON_CACHEABLE_INDEX) {
*attributes |= MT_NON_CACHEABLE;
} else {
assert(attr_index == ATTR_DEVICE_INDEX);
*attributes |= MT_DEVICE;
}
int ap2_bit = (desc >> AP2_SHIFT) & 1;
if (ap2_bit == AP2_RW)
*attributes |= MT_RW;
if (ctx->xlat_regime == EL1_EL0_REGIME) {
int ap1_bit = (desc >> AP1_SHIFT) & 1;
if (ap1_bit == AP1_ACCESS_UNPRIVILEGED)
*attributes |= MT_USER;
}
int ns_bit = (desc >> NS_SHIFT) & 1;
if (ns_bit == 1)
*attributes |= MT_NS;
uint64_t xn_mask = xlat_arch_regime_get_xn_desc(ctx->xlat_regime);
if ((desc & xn_mask) == xn_mask) {
*attributes |= MT_EXECUTE_NEVER;
} else {
assert((desc & xn_mask) == 0);
}
return 0;
}
int get_mem_attributes(const xlat_ctx_t *ctx, uintptr_t base_va,
mmap_attr_t *attributes)
{
return get_mem_attributes_internal(ctx, base_va, attributes,
NULL, NULL, NULL);
}
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