blob: ea9f6699d2ae54271836ae40e8d5b407739fd2c4 [file] [log] [blame]
#include <assert.h>
#include <endian.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include "bios.h"
#include "bios_table.h"
#define POINTER_CHECK(pointer) \
do { \
if (pointer == NULL) \
return PLDM_ERROR_INVALID_DATA; \
} while (0)
#define ATTR_TYPE_EXPECT(type, expected) \
do { \
if (type != expected && type != (expected | 0x80)) \
return PLDM_ERROR_INVALID_DATA; \
} while (0)
#define BUFFER_SIZE_EXPECT(current_size, expected_size) \
do { \
if (current_size < expected_size) \
return PLDM_ERROR_INVALID_LENGTH; \
} while (0)
#define MEMBER_SIZE(type, member) sizeof(((struct type *)0)->member)
static void set_errmsg(const char **errmsg, const char *msg)
{
if (errmsg != NULL)
*errmsg = msg;
}
static uint16_t get_bios_string_handle()
{
static uint16_t handle = 0;
assert(handle != UINT16_MAX);
return handle++;
}
size_t pldm_bios_table_string_entry_encode_length(uint16_t string_length)
{
return sizeof(struct pldm_bios_string_table_entry) -
MEMBER_SIZE(pldm_bios_string_table_entry, name) + string_length;
}
void pldm_bios_table_string_entry_encode(void *entry, size_t entry_length,
const char *str, uint16_t str_length)
{
size_t length = pldm_bios_table_string_entry_encode_length(str_length);
assert(length <= entry_length);
struct pldm_bios_string_table_entry *string_entry = entry;
string_entry->string_handle = htole16(get_bios_string_handle());
string_entry->string_length = htole16(str_length);
memcpy(string_entry->name, str, str_length);
}
int pldm_bios_table_string_entry_encode_check(void *entry, size_t entry_length,
const char *str,
uint16_t str_length)
{
if (str_length == 0)
return PLDM_ERROR_INVALID_DATA;
POINTER_CHECK(entry);
POINTER_CHECK(str);
size_t length = pldm_bios_table_string_entry_encode_length(str_length);
BUFFER_SIZE_EXPECT(entry_length, length);
pldm_bios_table_string_entry_encode(entry, entry_length, str,
str_length);
return PLDM_SUCCESS;
}
uint16_t pldm_bios_table_string_entry_decode_handle(
const struct pldm_bios_string_table_entry *entry)
{
return le16toh(entry->string_handle);
}
uint16_t pldm_bios_table_string_entry_decode_string_length(
const struct pldm_bios_string_table_entry *entry)
{
return le16toh(entry->string_length);
}
uint16_t pldm_bios_table_string_entry_decode_string(
const struct pldm_bios_string_table_entry *entry, char *buffer, size_t size)
{
uint16_t length =
pldm_bios_table_string_entry_decode_string_length(entry);
length = length < (size - 1) ? length : (size - 1);
memcpy(buffer, entry->name, length);
buffer[length] = 0;
return length;
}
int pldm_bios_table_string_entry_decode_string_check(
const struct pldm_bios_string_table_entry *entry, char *buffer, size_t size)
{
POINTER_CHECK(entry);
POINTER_CHECK(buffer);
size_t length =
pldm_bios_table_string_entry_decode_string_length(entry);
BUFFER_SIZE_EXPECT(size, length + 1);
pldm_bios_table_string_entry_decode_string(entry, buffer, size);
return PLDM_SUCCESS;
}
static size_t string_table_entry_length(const void *table_entry)
{
const struct pldm_bios_string_table_entry *entry = table_entry;
return sizeof(*entry) - sizeof(entry->name) +
pldm_bios_table_string_entry_decode_string_length(entry);
}
static uint16_t get_bios_attr_handle()
{
static uint16_t handle = 0;
assert(handle != UINT16_MAX);
return handle++;
}
static void attr_table_entry_encode_header(void *entry, size_t length,
uint8_t attr_type,
uint16_t string_handle)
{
struct pldm_bios_attr_table_entry *attr_entry = entry;
assert(sizeof(*attr_entry) <= length);
attr_entry->attr_handle = htole16(get_bios_attr_handle());
attr_entry->attr_type = attr_type;
attr_entry->string_handle = htole16(string_handle);
}
uint16_t pldm_bios_table_attr_entry_decode_attribute_handle(
const struct pldm_bios_attr_table_entry *entry)
{
return le16toh(entry->attr_handle);
}
uint8_t pldm_bios_table_attr_entry_decode_attribute_type(
const struct pldm_bios_attr_table_entry *entry)
{
return entry->attr_type;
}
uint16_t pldm_bios_table_attr_entry_decode_string_handle(
const struct pldm_bios_attr_table_entry *entry)
{
return le16toh(entry->string_handle);
}
size_t pldm_bios_table_attr_entry_enum_encode_length(uint8_t pv_num,
uint8_t def_num)
{
return sizeof(struct pldm_bios_attr_table_entry) -
MEMBER_SIZE(pldm_bios_attr_table_entry, metadata) +
sizeof(pv_num) + pv_num * sizeof(uint16_t) + sizeof(def_num) +
def_num;
}
void pldm_bios_table_attr_entry_enum_encode(
void *entry, size_t entry_length,
const struct pldm_bios_table_attr_entry_enum_info *info)
{
size_t length = pldm_bios_table_attr_entry_enum_encode_length(
info->pv_num, info->def_num);
assert(length <= entry_length);
uint8_t attr_type = info->read_only ? PLDM_BIOS_ENUMERATION_READ_ONLY
: PLDM_BIOS_ENUMERATION;
attr_table_entry_encode_header(entry, entry_length, attr_type,
info->name_handle);
struct pldm_bios_attr_table_entry *attr_entry = entry;
attr_entry->metadata[0] = info->pv_num;
uint16_t *pv_hdls =
(uint16_t *)(attr_entry->metadata + 1 /* sizeof(pv num) */);
size_t i;
for (i = 0; i < info->pv_num; i++)
pv_hdls[i] = htole16(info->pv_handle[i]);
attr_entry->metadata[1 + info->pv_num * sizeof(uint16_t)] =
info->def_num;
memcpy(attr_entry->metadata + 1 /* sizeof(pv num) */ +
info->pv_num * sizeof(uint16_t) + 1 /* sizeof(def num)*/,
info->def_index, info->def_num);
}
int pldm_bios_table_attr_entry_enum_encode_check(
void *entry, size_t entry_length,
const struct pldm_bios_table_attr_entry_enum_info *info)
{
POINTER_CHECK(entry);
POINTER_CHECK(info);
size_t length = pldm_bios_table_attr_entry_enum_encode_length(
info->pv_num, info->def_num);
BUFFER_SIZE_EXPECT(entry_length, length);
pldm_bios_table_attr_entry_enum_encode(entry, entry_length, info);
return PLDM_SUCCESS;
}
#define ATTR_TYPE_EXPECT(type, expected) \
do { \
if (type != expected && type != (expected | 0x80)) \
return PLDM_ERROR_INVALID_DATA; \
} while (0)
uint8_t pldm_bios_table_attr_entry_enum_decode_pv_num(
const struct pldm_bios_attr_table_entry *entry)
{
return entry->metadata[0];
}
int pldm_bios_table_attr_entry_enum_decode_pv_num_check(
const struct pldm_bios_attr_table_entry *entry, uint8_t *pv_num)
{
POINTER_CHECK(entry);
POINTER_CHECK(pv_num);
ATTR_TYPE_EXPECT(entry->attr_type, PLDM_BIOS_ENUMERATION);
*pv_num = pldm_bios_table_attr_entry_enum_decode_pv_num(entry);
return PLDM_SUCCESS;
}
uint8_t pldm_bios_table_attr_entry_enum_decode_def_num(
const struct pldm_bios_attr_table_entry *entry)
{
uint8_t pv_num = pldm_bios_table_attr_entry_enum_decode_pv_num(entry);
return entry->metadata[sizeof(uint8_t) /* pv_num */ +
sizeof(uint16_t) * pv_num];
}
int pldm_bios_table_attr_entry_enum_decode_def_num_check(
const struct pldm_bios_attr_table_entry *entry, uint8_t *def_num)
{
POINTER_CHECK(entry);
POINTER_CHECK(def_num);
ATTR_TYPE_EXPECT(entry->attr_type, PLDM_BIOS_ENUMERATION);
*def_num = pldm_bios_table_attr_entry_enum_decode_def_num(entry);
return PLDM_SUCCESS;
}
uint8_t pldm_bios_table_attr_entry_enum_decode_pv_hdls(
const struct pldm_bios_attr_table_entry *entry, uint16_t *pv_hdls,
uint8_t pv_num)
{
uint8_t num = pldm_bios_table_attr_entry_enum_decode_pv_num(entry);
num = num < pv_num ? num : pv_num;
size_t i;
for (i = 0; i < num; i++) {
uint16_t *hdl = (uint16_t *)(entry->metadata + sizeof(uint8_t) +
i * sizeof(uint16_t));
pv_hdls[i] = le16toh(*hdl);
}
return num;
}
int pldm_bios_table_attr_entry_enum_decode_pv_hdls_check(
const struct pldm_bios_attr_table_entry *entry, uint16_t *pv_hdls,
uint8_t pv_num)
{
POINTER_CHECK(entry);
POINTER_CHECK(pv_hdls);
ATTR_TYPE_EXPECT(entry->attr_type, PLDM_BIOS_ENUMERATION);
uint8_t num = pldm_bios_table_attr_entry_enum_decode_pv_num(entry);
if (num != pv_num)
return PLDM_ERROR_INVALID_DATA;
pldm_bios_table_attr_entry_enum_decode_pv_hdls(entry, pv_hdls, pv_num);
return PLDM_SUCCESS;
}
uint8_t pldm_bios_table_attr_entry_enum_decode_def_indices(
const struct pldm_bios_attr_table_entry *entry, uint8_t *def_indices,
uint8_t def_num)
{
uint8_t num = pldm_bios_table_attr_entry_enum_decode_def_num(entry);
num = num < def_num ? num : def_num;
uint8_t pv_num = pldm_bios_table_attr_entry_enum_decode_pv_num(entry);
const uint8_t *p = entry->metadata +
sizeof(uint8_t) /* number of possible values*/
+ pv_num * sizeof(uint16_t) /* possible values */
+ sizeof(uint8_t); /* number of default values */
memcpy(def_indices, p, num);
return num;
}
/** @brief Get length of an enum attribute entry
*/
static size_t attr_table_entry_length_enum(const void *entry)
{
uint8_t pv_num = pldm_bios_table_attr_entry_enum_decode_pv_num(entry);
uint8_t def_num = pldm_bios_table_attr_entry_enum_decode_def_num(entry);
return pldm_bios_table_attr_entry_enum_encode_length(pv_num, def_num);
}
struct attr_table_string_entry_fields {
uint8_t string_type;
uint16_t min_length;
uint16_t max_length;
uint16_t def_length;
uint8_t def_string[1];
} __attribute__((packed));
size_t pldm_bios_table_attr_entry_string_encode_length(uint16_t def_str_len)
{
return sizeof(struct pldm_bios_attr_table_entry) -
MEMBER_SIZE(pldm_bios_attr_table_entry, metadata) +
sizeof(struct attr_table_string_entry_fields) -
MEMBER_SIZE(attr_table_string_entry_fields, def_string) +
def_str_len;
}
void pldm_bios_table_attr_entry_string_encode(
void *entry, size_t entry_length,
const struct pldm_bios_table_attr_entry_string_info *info)
{
size_t length =
pldm_bios_table_attr_entry_string_encode_length(info->def_length);
assert(length <= entry_length);
uint8_t attr_type =
info->read_only ? PLDM_BIOS_STRING_READ_ONLY : PLDM_BIOS_STRING;
attr_table_entry_encode_header(entry, entry_length, attr_type,
info->name_handle);
struct pldm_bios_attr_table_entry *attr_entry = entry;
struct attr_table_string_entry_fields *attr_fields =
(struct attr_table_string_entry_fields *)attr_entry->metadata;
attr_fields->string_type = info->string_type;
attr_fields->min_length = htole16(info->min_length);
attr_fields->max_length = htole16(info->max_length);
attr_fields->def_length = htole16(info->def_length);
if (info->def_length != 0 && info->def_string != NULL)
memcpy(attr_fields->def_string, info->def_string,
info->def_length);
}
#define PLDM_STRING_TYPE_MAX 5
#define PLDM_STRING_TYPE_VENDOR 0xff
int pldm_bios_table_attr_entry_string_info_check(
const struct pldm_bios_table_attr_entry_string_info *info,
const char **errmsg)
{
if (info->min_length > info->max_length) {
set_errmsg(errmsg, "MinimumStingLength should not be greater "
"than MaximumStringLength");
return PLDM_ERROR_INVALID_DATA;
}
if (info->min_length == info->max_length &&
info->def_length != info->min_length) {
set_errmsg(errmsg, "Wrong DefaultStringLength");
return PLDM_ERROR_INVALID_DATA;
}
if (info->def_length > info->max_length ||
info->def_length < info->min_length) {
set_errmsg(errmsg, "Wrong DefaultStringLength");
return PLDM_ERROR_INVALID_DATA;
}
if (info->string_type > PLDM_STRING_TYPE_MAX &&
info->string_type != PLDM_STRING_TYPE_VENDOR) {
set_errmsg(errmsg, "Wrong StringType");
return PLDM_ERROR_INVALID_DATA;
}
if (info->def_length != strlen(info->def_string)) {
set_errmsg(errmsg, "Length of DefaultString should be equal to "
"DefaultStringLength");
return PLDM_ERROR_INVALID_DATA;
}
return PLDM_SUCCESS;
}
int pldm_bios_table_attr_entry_string_encode_check(
void *entry, size_t entry_length,
const struct pldm_bios_table_attr_entry_string_info *info)
{
POINTER_CHECK(entry);
POINTER_CHECK(info);
size_t length =
pldm_bios_table_attr_entry_string_encode_length(info->def_length);
BUFFER_SIZE_EXPECT(entry_length, length);
if (pldm_bios_table_attr_entry_string_info_check(info, NULL) !=
PLDM_SUCCESS)
return PLDM_ERROR_INVALID_DATA;
pldm_bios_table_attr_entry_string_encode(entry, entry_length, info);
return PLDM_SUCCESS;
}
uint16_t pldm_bios_table_attr_entry_string_decode_def_string_length(
const struct pldm_bios_attr_table_entry *entry)
{
struct attr_table_string_entry_fields *fields =
(struct attr_table_string_entry_fields *)entry->metadata;
return le16toh(fields->def_length);
}
int pldm_bios_table_attr_entry_string_decode_def_string_length_check(
const struct pldm_bios_attr_table_entry *entry, uint16_t *def_string_length)
{
POINTER_CHECK(entry);
POINTER_CHECK(def_string_length);
ATTR_TYPE_EXPECT(entry->attr_type, PLDM_BIOS_STRING);
*def_string_length =
pldm_bios_table_attr_entry_string_decode_def_string_length(entry);
return PLDM_SUCCESS;
}
uint8_t pldm_bios_table_attr_entry_string_decode_string_type(
const struct pldm_bios_attr_table_entry *entry)
{
struct attr_table_string_entry_fields *fields =
(struct attr_table_string_entry_fields *)entry->metadata;
return fields->string_type;
}
uint16_t pldm_bios_table_attr_entry_string_decode_max_length(
const struct pldm_bios_attr_table_entry *entry)
{
struct attr_table_string_entry_fields *fields =
(struct attr_table_string_entry_fields *)entry->metadata;
return le16toh(fields->max_length);
}
uint16_t pldm_bios_table_attr_entry_string_decode_min_length(
const struct pldm_bios_attr_table_entry *entry)
{
struct attr_table_string_entry_fields *fields =
(struct attr_table_string_entry_fields *)entry->metadata;
return le16toh(fields->min_length);
}
uint16_t pldm_bios_table_attr_entry_string_decode_def_string(
const struct pldm_bios_attr_table_entry *entry, char *buffer, size_t size)
{
uint16_t length =
pldm_bios_table_attr_entry_string_decode_def_string_length(entry);
length = length < (size - 1) ? length : (size - 1);
struct attr_table_string_entry_fields *fields =
(struct attr_table_string_entry_fields *)entry->metadata;
memcpy(buffer, fields->def_string, length);
buffer[length] = 0;
return length;
}
/** @brief Get length of a string attribute entry
*/
static size_t attr_table_entry_length_string(const void *entry)
{
uint16_t def_str_len =
pldm_bios_table_attr_entry_string_decode_def_string_length(entry);
return pldm_bios_table_attr_entry_string_encode_length(def_str_len);
}
struct attr_table_integer_entry_fields {
uint64_t lower_bound;
uint64_t upper_bound;
uint32_t scalar_increment;
uint64_t default_value;
} __attribute__((packed));
size_t pldm_bios_table_attr_entry_integer_encode_length()
{
return sizeof(struct pldm_bios_attr_table_entry) - 1 +
sizeof(struct attr_table_integer_entry_fields);
}
void pldm_bios_table_attr_entry_integer_encode(
void *entry, size_t entry_length,
const struct pldm_bios_table_attr_entry_integer_info *info)
{
size_t length = pldm_bios_table_attr_entry_integer_encode_length();
assert(length <= entry_length);
uint8_t attr_type =
info->read_only ? PLDM_BIOS_INTEGER_READ_ONLY : PLDM_BIOS_INTEGER;
attr_table_entry_encode_header(entry, entry_length, attr_type,
info->name_handle);
struct pldm_bios_attr_table_entry *attr_entry = entry;
struct attr_table_integer_entry_fields *attr_fields =
(struct attr_table_integer_entry_fields *)attr_entry->metadata;
attr_fields->lower_bound = htole64(info->lower_bound);
attr_fields->upper_bound = htole64(info->upper_bound);
attr_fields->scalar_increment = htole32(info->scalar_increment);
attr_fields->default_value = htole64(info->default_value);
}
int pldm_bios_table_attr_entry_integer_info_check(
const struct pldm_bios_table_attr_entry_integer_info *info,
const char **errmsg)
{
if (info->lower_bound == info->upper_bound) {
if (info->default_value != info->lower_bound) {
set_errmsg(errmsg, "Wrong DefaultValue");
return PLDM_ERROR_INVALID_DATA;
}
if (info->scalar_increment != 0) {
set_errmsg(errmsg, "Wrong ScalarIncrement");
return PLDM_ERROR_INVALID_DATA;
}
return PLDM_SUCCESS;
}
if (info->lower_bound > info->upper_bound) {
set_errmsg(errmsg,
"LowerBound should not be greater than UpperBound");
return PLDM_ERROR_INVALID_DATA;
}
if (info->default_value > info->upper_bound ||
info->default_value < info->lower_bound) {
set_errmsg(errmsg, "Wrong DefaultValue");
return PLDM_ERROR_INVALID_DATA;
}
if (info->scalar_increment == 0) {
set_errmsg(errmsg, "ScalarIncrement should not be zero when "
"lower_bound != upper_bound");
return PLDM_ERROR_INVALID_DATA;
}
if ((info->default_value - info->lower_bound) %
info->scalar_increment !=
0) {
set_errmsg(errmsg, "Wrong DefaultValue or ScalarIncrement");
return PLDM_ERROR_INVALID_DATA;
}
return PLDM_SUCCESS;
}
int pldm_bios_table_attr_entry_integer_encode_check(
void *entry, size_t entry_length,
const struct pldm_bios_table_attr_entry_integer_info *info)
{
POINTER_CHECK(entry);
POINTER_CHECK(info);
size_t length = pldm_bios_table_attr_entry_integer_encode_length();
BUFFER_SIZE_EXPECT(entry_length, length);
if (pldm_bios_table_attr_entry_integer_info_check(info, NULL) !=
PLDM_SUCCESS)
return PLDM_ERROR_INVALID_DATA;
pldm_bios_table_attr_entry_integer_encode(entry, entry_length, info);
return PLDM_SUCCESS;
}
void pldm_bios_table_attr_entry_integer_decode(
const struct pldm_bios_attr_table_entry *entry, uint64_t *lower,
uint64_t *upper, uint32_t *scalar, uint64_t *def)
{
struct attr_table_integer_entry_fields *fields =
(struct attr_table_integer_entry_fields *)entry->metadata;
*lower = le64toh(fields->lower_bound);
*upper = le64toh(fields->upper_bound);
*scalar = le32toh(fields->scalar_increment);
*def = le64toh(fields->default_value);
}
static size_t attr_table_entry_length_integer(const void *entry)
{
(void)entry;
return pldm_bios_table_attr_entry_integer_encode_length();
}
struct table_entry_length {
uint8_t attr_type;
size_t (*entry_length_handler)(const void *);
};
#define ARRAY_SIZE(a) (sizeof(a) / sizeof(a[0]))
static const struct table_entry_length *find_table_entry_length_by_type(
uint8_t attr_type, const struct table_entry_length *handlers, size_t count)
{
size_t i;
for (i = 0; i < count; i++) {
if (attr_type == handlers[i].attr_type)
return &handlers[i];
}
return NULL;
}
static const struct table_entry_length attr_table_entries[] = {
{.attr_type = PLDM_BIOS_ENUMERATION,
.entry_length_handler = attr_table_entry_length_enum},
{.attr_type = PLDM_BIOS_ENUMERATION_READ_ONLY,
.entry_length_handler = attr_table_entry_length_enum},
{.attr_type = PLDM_BIOS_STRING,
.entry_length_handler = attr_table_entry_length_string},
{.attr_type = PLDM_BIOS_STRING_READ_ONLY,
.entry_length_handler = attr_table_entry_length_string},
{.attr_type = PLDM_BIOS_INTEGER,
.entry_length_handler = attr_table_entry_length_integer},
{.attr_type = PLDM_BIOS_INTEGER_READ_ONLY,
.entry_length_handler = attr_table_entry_length_integer},
};
static size_t attr_table_entry_length(const void *table_entry)
{
const struct pldm_bios_attr_table_entry *entry = table_entry;
const struct table_entry_length *attr_table_entry =
find_table_entry_length_by_type(entry->attr_type,
attr_table_entries,
ARRAY_SIZE(attr_table_entries));
assert(attr_table_entry != NULL);
assert(attr_table_entry->entry_length_handler != NULL);
return attr_table_entry->entry_length_handler(entry);
}
uint16_t pldm_bios_table_attr_value_entry_decode_attribute_handle(
const struct pldm_bios_attr_val_table_entry *entry)
{
return le16toh(entry->attr_handle);
}
uint8_t pldm_bios_table_attr_value_entry_decode_attribute_type(
const struct pldm_bios_attr_val_table_entry *entry)
{
return entry->attr_type;
}
size_t pldm_bios_table_attr_value_entry_encode_enum_length(uint8_t count)
{
return sizeof(struct pldm_bios_attr_val_table_entry) - 1 +
sizeof(count) + count;
}
void pldm_bios_table_attr_value_entry_encode_enum(
void *entry, size_t entry_length, uint16_t attr_handle, uint8_t attr_type,
uint8_t count, const uint8_t *handles)
{
size_t length =
pldm_bios_table_attr_value_entry_encode_enum_length(count);
assert(length <= entry_length);
struct pldm_bios_attr_val_table_entry *table_entry = entry;
table_entry->attr_handle = htole16(attr_handle);
table_entry->attr_type = attr_type;
table_entry->value[0] = count;
if (count != 0)
memcpy(&table_entry->value[1], handles, count);
}
uint8_t pldm_bios_table_attr_value_entry_enum_decode_number(
const struct pldm_bios_attr_val_table_entry *entry)
{
return entry->value[0];
}
uint8_t pldm_bios_table_attr_value_entry_enum_decode_handles(
const struct pldm_bios_attr_val_table_entry *entry, uint8_t *handles,
uint8_t number)
{
uint8_t curr_num =
pldm_bios_table_attr_value_entry_enum_decode_number(entry);
number = number < curr_num ? number : curr_num;
memcpy(handles, &entry->value[1], number);
return number;
}
int pldm_bios_table_attr_value_entry_encode_enum_check(
void *entry, size_t entry_length, uint16_t attr_handle, uint8_t attr_type,
uint8_t count, uint8_t *handles)
{
POINTER_CHECK(entry);
if (count != 0 && handles == NULL)
return PLDM_ERROR_INVALID_DATA;
ATTR_TYPE_EXPECT(attr_type, PLDM_BIOS_ENUMERATION);
size_t length =
pldm_bios_table_attr_value_entry_encode_enum_length(count);
BUFFER_SIZE_EXPECT(entry_length, length);
pldm_bios_table_attr_value_entry_encode_enum(
entry, entry_length, attr_handle, attr_type, count, handles);
return PLDM_SUCCESS;
}
static size_t attr_value_table_entry_length_enum(const void *entry)
{
uint8_t number =
pldm_bios_table_attr_value_entry_enum_decode_number(entry);
return pldm_bios_table_attr_value_entry_encode_enum_length(number);
}
size_t
pldm_bios_table_attr_value_entry_encode_string_length(uint16_t string_length)
{
return sizeof(struct pldm_bios_attr_val_table_entry) - 1 +
sizeof(string_length) + string_length;
}
void pldm_bios_table_attr_value_entry_encode_string(
void *entry, size_t entry_length, uint16_t attr_handle, uint8_t attr_type,
uint16_t str_length, const char *str)
{
size_t length =
pldm_bios_table_attr_value_entry_encode_string_length(str_length);
assert(length <= entry_length);
struct pldm_bios_attr_val_table_entry *table_entry = entry;
table_entry->attr_handle = htole16(attr_handle);
table_entry->attr_type = attr_type;
if (str_length != 0)
memcpy(table_entry->value + sizeof(str_length), str,
str_length);
str_length = htole16(str_length);
memcpy(table_entry->value, &str_length, sizeof(str_length));
}
uint16_t pldm_bios_table_attr_value_entry_string_decode_length(
const struct pldm_bios_attr_val_table_entry *entry)
{
uint16_t str_length = 0;
memcpy(&str_length, entry->value, sizeof(str_length));
return le16toh(str_length);
}
void pldm_bios_table_attr_value_entry_string_decode_string(
const struct pldm_bios_attr_val_table_entry *entry,
struct variable_field *current_string)
{
current_string->length =
pldm_bios_table_attr_value_entry_string_decode_length(entry);
current_string->ptr =
entry->value + sizeof(uint16_t); // sizeof(CurrentStringLength)
}
int pldm_bios_table_attr_value_entry_encode_string_check(
void *entry, size_t entry_length, uint16_t attr_handle, uint8_t attr_type,
uint16_t str_length, const char *str)
{
POINTER_CHECK(entry);
if (str_length != 0 && str == NULL)
return PLDM_ERROR_INVALID_DATA;
ATTR_TYPE_EXPECT(attr_type, PLDM_BIOS_STRING);
size_t length =
pldm_bios_table_attr_value_entry_encode_string_length(str_length);
BUFFER_SIZE_EXPECT(entry_length, length);
pldm_bios_table_attr_value_entry_encode_string(
entry, entry_length, attr_handle, attr_type, str_length, str);
return PLDM_SUCCESS;
}
static size_t attr_value_table_entry_length_string(const void *entry)
{
uint16_t str_length =
pldm_bios_table_attr_value_entry_string_decode_length(entry);
return pldm_bios_table_attr_value_entry_encode_string_length(
str_length);
}
size_t pldm_bios_table_attr_value_entry_encode_integer_length()
{
return sizeof(struct pldm_bios_attr_val_table_entry) - 1 +
sizeof(uint64_t);
}
void pldm_bios_table_attr_value_entry_encode_integer(void *entry,
size_t entry_length,
uint16_t attr_handle,
uint8_t attr_type,
uint64_t cv)
{
size_t length =
pldm_bios_table_attr_value_entry_encode_integer_length();
assert(length <= entry_length);
struct pldm_bios_attr_val_table_entry *table_entry = entry;
table_entry->attr_handle = htole16(attr_handle);
table_entry->attr_type = attr_type;
cv = htole64(cv);
memcpy(table_entry->value, &cv, sizeof(uint64_t));
}
int pldm_bios_table_attr_value_entry_encode_integer_check(void *entry,
size_t entry_length,
uint16_t attr_handle,
uint8_t attr_type,
uint64_t cv)
{
POINTER_CHECK(entry);
size_t length =
pldm_bios_table_attr_value_entry_encode_integer_length();
ATTR_TYPE_EXPECT(attr_type, PLDM_BIOS_INTEGER);
BUFFER_SIZE_EXPECT(entry_length, length);
pldm_bios_table_attr_value_entry_encode_integer(
entry, entry_length, attr_handle, attr_type, cv);
return PLDM_SUCCESS;
}
uint64_t pldm_bios_table_attr_value_entry_integer_decode_cv(
const struct pldm_bios_attr_val_table_entry *entry)
{
uint64_t cv = 0;
memcpy(&cv, entry->value, sizeof(cv));
cv = le64toh(cv);
return cv;
}
static size_t attr_value_table_entry_length_integer(const void *entry)
{
(void)entry;
return pldm_bios_table_attr_value_entry_encode_integer_length();
}
static const struct table_entry_length attr_value_table_entries[] = {
{.attr_type = PLDM_BIOS_ENUMERATION,
.entry_length_handler = attr_value_table_entry_length_enum},
{.attr_type = PLDM_BIOS_ENUMERATION_READ_ONLY,
.entry_length_handler = attr_value_table_entry_length_enum},
{.attr_type = PLDM_BIOS_STRING,
.entry_length_handler = attr_value_table_entry_length_string},
{.attr_type = PLDM_BIOS_STRING_READ_ONLY,
.entry_length_handler = attr_value_table_entry_length_string},
{.attr_type = PLDM_BIOS_INTEGER,
.entry_length_handler = attr_value_table_entry_length_integer},
{.attr_type = PLDM_BIOS_INTEGER_READ_ONLY,
.entry_length_handler = attr_value_table_entry_length_integer},
};
static size_t attr_value_table_entry_length(const void *table_entry)
{
const struct pldm_bios_attr_val_table_entry *entry = table_entry;
const struct table_entry_length *entry_length =
find_table_entry_length_by_type(
entry->attr_type, attr_value_table_entries,
ARRAY_SIZE(attr_value_table_entries));
assert(entry_length != NULL);
assert(entry_length->entry_length_handler != NULL);
return entry_length->entry_length_handler(entry);
}
size_t pldm_bios_table_attr_value_entry_length(
const struct pldm_bios_attr_val_table_entry *entry)
{
return attr_value_table_entry_length(entry);
}
uint16_t pldm_bios_table_attr_value_entry_decode_handle(
const struct pldm_bios_attr_val_table_entry *entry)
{
return le16toh(entry->attr_handle);
}
static size_t pad_size_get(size_t size_without_pad)
{
return ((size_without_pad % 4) ? (4 - size_without_pad % 4) : 0);
}
static uint8_t *pad_append(uint8_t *table_end, size_t pad_size)
{
while (pad_size--)
*table_end++ = 0;
return table_end;
}
static uint8_t *checksum_append(uint8_t *table_end, uint32_t checksum)
{
checksum = htole32(checksum);
memcpy(table_end, &checksum, sizeof(checksum));
return table_end + sizeof(checksum);
}
size_t pldm_bios_table_pad_checksum_size(size_t size_without_pad)
{
size_t size = pad_size_get(size_without_pad) +
sizeof(uint32_t) /*sizeof(checksum)*/;
return size;
}
size_t pldm_bios_table_append_pad_checksum(void *table, size_t size,
size_t size_without_pad)
{
size_t pad_checksum_size =
pldm_bios_table_pad_checksum_size(size_without_pad);
size_t total_length = size_without_pad + pad_checksum_size;
assert(size >= total_length);
uint8_t *table_end = (uint8_t *)table + size_without_pad;
size_t pad_size = pad_size_get(size_without_pad);
table_end = pad_append(table_end, pad_size);
uint32_t checksum = crc32(table, size_without_pad + pad_size);
checksum_append(table_end, checksum);
return total_length;
}
struct pldm_bios_table_iter {
const uint8_t *table_data;
size_t table_len;
size_t current_pos;
size_t (*entry_length_handler)(const void *table_entry);
};
struct pldm_bios_table_iter *
pldm_bios_table_iter_create(const void *table, size_t length,
enum pldm_bios_table_types type)
{
struct pldm_bios_table_iter *iter = malloc(sizeof(*iter));
assert(iter != NULL);
iter->table_data = table;
iter->table_len = length;
iter->current_pos = 0;
iter->entry_length_handler = NULL;
switch (type) {
case PLDM_BIOS_STRING_TABLE:
iter->entry_length_handler = string_table_entry_length;
break;
case PLDM_BIOS_ATTR_TABLE:
iter->entry_length_handler = attr_table_entry_length;
break;
case PLDM_BIOS_ATTR_VAL_TABLE:
iter->entry_length_handler = attr_value_table_entry_length;
break;
}
return iter;
}
void pldm_bios_table_iter_free(struct pldm_bios_table_iter *iter)
{
free(iter);
}
#define pad_and_check_max 7
bool pldm_bios_table_iter_is_end(const struct pldm_bios_table_iter *iter)
{
if (iter->table_len - iter->current_pos <= pad_and_check_max)
return true;
return false;
}
void pldm_bios_table_iter_next(struct pldm_bios_table_iter *iter)
{
if (pldm_bios_table_iter_is_end(iter))
return;
const void *entry = iter->table_data + iter->current_pos;
iter->current_pos += iter->entry_length_handler(entry);
}
const void *pldm_bios_table_iter_value(struct pldm_bios_table_iter *iter)
{
return iter->table_data + iter->current_pos;
}
typedef bool (*equal_handler)(const void *entry, const void *key);
static const void *
pldm_bios_table_entry_find_by_iter(struct pldm_bios_table_iter *iter,
const void *key, equal_handler equal)
{
const void *entry;
while (!pldm_bios_table_iter_is_end(iter)) {
entry = pldm_bios_table_iter_value(iter);
if (equal(entry, key))
return entry;
pldm_bios_table_iter_next(iter);
}
return NULL;
}
static const void *
pldm_bios_table_entry_find_from_table(const void *table, size_t length,
enum pldm_bios_table_types type,
equal_handler equal, const void *key)
{
struct pldm_bios_table_iter *iter =
pldm_bios_table_iter_create(table, length, type);
const void *entry =
pldm_bios_table_entry_find_by_iter(iter, key, equal);
pldm_bios_table_iter_free(iter);
return entry;
}
static bool string_table_handle_equal(const void *entry, const void *key)
{
const struct pldm_bios_string_table_entry *string_entry = entry;
uint16_t handle = *(uint16_t *)key;
if (pldm_bios_table_string_entry_decode_handle(string_entry) == handle)
return true;
return false;
}
const struct pldm_bios_string_table_entry *
pldm_bios_table_string_find_by_handle(const void *table, size_t length,
uint16_t handle)
{
return pldm_bios_table_entry_find_from_table(
table, length, PLDM_BIOS_STRING_TABLE, string_table_handle_equal,
&handle);
}
struct string_equal_arg {
uint16_t str_length;
const char *str;
};
static bool string_table_string_equal(const void *entry, const void *key)
{
const struct pldm_bios_string_table_entry *string_entry = entry;
const struct string_equal_arg *arg = key;
if (arg->str_length !=
pldm_bios_table_string_entry_decode_string_length(string_entry))
return false;
if (memcmp(string_entry->name, arg->str, arg->str_length) != 0)
return false;
return true;
}
const struct pldm_bios_string_table_entry *
pldm_bios_table_string_find_by_string(const void *table, size_t length,
const char *str)
{
uint16_t str_length = strlen(str);
struct string_equal_arg arg = {str_length, str};
return pldm_bios_table_entry_find_from_table(
table, length, PLDM_BIOS_STRING_TABLE, string_table_string_equal,
&arg);
}
static bool attr_table_handle_equal(const void *entry, const void *key)
{
uint16_t handle = *(uint16_t *)key;
return pldm_bios_table_attr_entry_decode_attribute_handle(entry) ==
handle;
}
const struct pldm_bios_attr_table_entry *
pldm_bios_table_attr_find_by_handle(const void *table, size_t length,
uint16_t handle)
{
return pldm_bios_table_entry_find_from_table(
table, length, PLDM_BIOS_ATTR_TABLE, attr_table_handle_equal,
&handle);
}
static bool attr_table_string_handle_equal(const void *entry, const void *key)
{
uint16_t handle = *(uint16_t *)key;
return pldm_bios_table_attr_entry_decode_string_handle(entry) == handle;
}
const struct pldm_bios_attr_table_entry *
pldm_bios_table_attr_find_by_string_handle(const void *table, size_t length,
uint16_t handle)
{
return pldm_bios_table_entry_find_from_table(
table, length, PLDM_BIOS_ATTR_TABLE, attr_table_string_handle_equal,
&handle);
}
static bool attr_value_table_handle_equal(const void *entry, const void *key)
{
uint16_t handle = *(uint16_t *)key;
return pldm_bios_table_attr_value_entry_decode_handle(entry) == handle;
}
const struct pldm_bios_attr_val_table_entry *
pldm_bios_table_attr_value_find_by_handle(const void *table, size_t length,
uint16_t handle)
{
return pldm_bios_table_entry_find_from_table(
table, length, PLDM_BIOS_ATTR_VAL_TABLE,
attr_value_table_handle_equal, &handle);
}
int pldm_bios_table_attr_value_copy_and_update(
const void *src_table, size_t src_length, void *dest_table,
size_t *dest_length, const void *entry, size_t entry_length)
{
struct pldm_bios_table_iter *iter = pldm_bios_table_iter_create(
src_table, src_length, PLDM_BIOS_ATTR_VAL_TABLE);
int rc = PLDM_SUCCESS;
const struct pldm_bios_attr_val_table_entry *tmp, *to_update = entry;
size_t buffer_length = *dest_length, copied_length = 0, length = 0;
while (!pldm_bios_table_iter_is_end(iter)) {
tmp = pldm_bios_table_iter_attr_value_entry_value(iter);
length = attr_value_table_entry_length(tmp);
/* we need the tmp's entry_length here, iter_next will calculate
* it too, use current_pos directly to avoid calculating it
* twice */
iter->current_pos += length;
if (tmp->attr_handle == to_update->attr_handle) {
if (tmp->attr_type != to_update->attr_type) {
rc = PLDM_ERROR_INVALID_DATA;
goto out;
}
length = entry_length;
tmp = entry;
}
if (copied_length + length > buffer_length) {
rc = PLDM_ERROR_INVALID_LENGTH;
goto out;
}
memcpy((uint8_t *)dest_table + copied_length, tmp, length);
copied_length += length;
}
size_t pad_checksum_size =
pldm_bios_table_pad_checksum_size(copied_length);
if ((pad_checksum_size + copied_length) > buffer_length) {
rc = PLDM_ERROR_INVALID_LENGTH;
goto out;
}
*dest_length = pldm_bios_table_append_pad_checksum(
dest_table, buffer_length, copied_length);
out:
pldm_bios_table_iter_free(iter);
return rc;
}
bool pldm_bios_table_checksum(const uint8_t *table, size_t size)
{
if (table == NULL)
return false;
// 12: BIOSStringHandle(uint16) + BIOSStringLength(uint16) +
// Variable(4) + checksum(uint32)
if (size < 12)
return false;
uint32_t src_crc = le32toh(*(uint32_t *)(table + size - 4));
uint32_t dst_crc = crc32(table, size - 4);
return src_crc == dst_crc;
}