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/* SPDX-License-Identifier: GPL-2.0-only */
#include <cbfs.h>
#include <console/console.h>
#include <drivers/vpd/vpd.h>
#include <fw_config.h>
#include <lib.h>
#include <sar.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <types.h>
#define LEGACY_BYTES_PER_GEO_OFFSET 6
#define LEGACY_BYTES_PER_SAR_LIMIT 10
#define LEGACY_NUM_SAR_LIMITS 4
#define LEGACY_SAR_BIN_SIZE 81
#define LEGACY_SAR_WGDS_BIN_SIZE 119
#define LEGACY_SAR_NUM_WGDS_GROUPS 3
static uint8_t *wifi_hextostr(const char *sar_str, size_t str_len, size_t *sar_bin_len,
bool legacy_hex_format)
{
uint8_t *sar_bin = NULL;
size_t bin_len;
if (!legacy_hex_format) {
sar_bin = malloc(str_len);
if (!sar_bin) {
printk(BIOS_ERR, "Failed to allocate space for SAR binary!\n");
return NULL;
}
memcpy(sar_bin, sar_str, str_len);
*sar_bin_len = str_len;
} else {
bin_len = ((str_len - 1) / 2);
sar_bin = malloc(bin_len);
if (!sar_bin) {
printk(BIOS_ERR, "Failed to allocate space for SAR binary!\n");
return NULL;
}
if (hexstrtobin(sar_str, (uint8_t *)sar_bin, bin_len) != bin_len) {
printk(BIOS_ERR, "sar_limits contains non-hex value!\n");
free(sar_bin);
return NULL;
}
*sar_bin_len = bin_len;
}
return sar_bin;
}
static int sar_table_size(const struct sar_profile *sar)
{
if (sar == NULL)
return 0;
return (sizeof(struct sar_profile) + ((1 + sar->dsar_set_count) * sar->chains_count *
sar->subbands_count));
}
static int wgds_table_size(const struct geo_profile *geo)
{
if (geo == NULL)
return 0;
return sizeof(struct geo_profile) + (geo->chains_count * geo->bands_count);
}
static int gain_table_size(const struct gain_profile *gain)
{
if (gain == NULL)
return 0;
return sizeof(struct gain_profile) + (gain->chains_count * gain->bands_count);
}
static int sar_avg_table_size(const struct avg_profile *sar_avg)
{
if (sar_avg == NULL)
return 0;
return sizeof(struct avg_profile);
}
static int dsm_table_size(const struct dsm_profile *dsm)
{
if (dsm == NULL)
return 0;
return sizeof(struct dsm_profile);
}
static int bsar_table_size(const struct bsar_profile *bsar)
{
if (bsar == NULL)
return 0;
return sizeof(struct bsar_profile);
}
static int wbem_table_size(const struct wbem_profile *wbem)
{
if (wbem == NULL)
return 0;
return sizeof(struct wbem_profile);
}
static bool valid_legacy_length(size_t bin_len)
{
if (bin_len == LEGACY_SAR_WGDS_BIN_SIZE)
return true;
if (bin_len == LEGACY_SAR_BIN_SIZE && !CONFIG(GEO_SAR_ENABLE))
return true;
return false;
}
static int sar_header_size(void)
{
return (MAX_PROFILE_COUNT * sizeof(uint16_t)) + sizeof(struct sar_header);
}
static int fill_wifi_sar_limits(union wifi_sar_limits *sar_limits, const uint8_t *sar_bin,
size_t sar_bin_size)
{
struct sar_header *header;
size_t i = 0, expected_sar_bin_size;
size_t header_size = sar_header_size();
if (sar_bin_size < header_size) {
printk(BIOS_ERR, "Invalid SAR format!\n");
return -1;
}
header = (struct sar_header *)sar_bin;
if (header->version != SAR_FILE_REVISION) {
printk(BIOS_ERR, "Invalid SAR file version: %d!\n", header->version);
return -1;
}
for (i = 0; i < MAX_PROFILE_COUNT; i++) {
if (header->offsets[i] > sar_bin_size) {
printk(BIOS_ERR, "Offset is outside the file size!\n");
return -1;
}
if (header->offsets[i])
sar_limits->profile[i] = (void *) (sar_bin + header->offsets[i]);
}
expected_sar_bin_size = header_size;
expected_sar_bin_size += sar_table_size(sar_limits->sar);
expected_sar_bin_size += wgds_table_size(sar_limits->wgds);
expected_sar_bin_size += gain_table_size(sar_limits->ppag);
expected_sar_bin_size += sar_avg_table_size(sar_limits->wtas);
expected_sar_bin_size += dsm_table_size(sar_limits->dsm);
expected_sar_bin_size += bsar_table_size(sar_limits->bsar);
expected_sar_bin_size += wbem_table_size(sar_limits->wbem);
if (sar_bin_size != expected_sar_bin_size) {
printk(BIOS_ERR, "Invalid SAR size, expected: %zu, obtained: %zu\n",
expected_sar_bin_size, sar_bin_size);
return -1;
}
return 0;
}
static int fill_wifi_sar_limits_legacy(union wifi_sar_limits *sar_limits,
const uint8_t *sar_bin, size_t sar_bin_size)
{
uint8_t *new_sar_bin;
size_t size = sar_bin_size + sizeof(struct sar_profile);
if (CONFIG(GEO_SAR_ENABLE))
size += sizeof(struct geo_profile);
new_sar_bin = malloc(size);
if (!new_sar_bin) {
printk(BIOS_ERR, "Failed to allocate space for SAR binary!\n");
return -1;
}
sar_limits->sar = (struct sar_profile *) new_sar_bin;
sar_limits->sar->revision = 0;
sar_limits->sar->dsar_set_count = CONFIG_DSAR_SET_NUM;
sar_limits->sar->chains_count = SAR_REV0_CHAINS_COUNT;
sar_limits->sar->subbands_count = SAR_REV0_SUBBANDS_COUNT;
memcpy(&sar_limits->sar->sar_table, sar_bin,
LEGACY_BYTES_PER_SAR_LIMIT * LEGACY_NUM_SAR_LIMITS);
if (!CONFIG(GEO_SAR_ENABLE))
return 0;
sar_limits->wgds = (struct geo_profile *)(new_sar_bin +
sar_table_size(sar_limits->sar));
sar_limits->wgds->revision = 0;
sar_limits->wgds->chains_count = LEGACY_SAR_NUM_WGDS_GROUPS;
sar_limits->wgds->bands_count = LEGACY_BYTES_PER_GEO_OFFSET;
memcpy(&sar_limits->wgds->wgds_table,
sar_bin + LEGACY_BYTES_PER_SAR_LIMIT * LEGACY_NUM_SAR_LIMITS + REVISION_SIZE,
LEGACY_BYTES_PER_GEO_OFFSET * LEGACY_SAR_NUM_WGDS_GROUPS);
return 0;
}
/*
* Retrieve WiFi SAR limits data from CBFS and decode it
* Legacy WiFi SAR data is expected in the format: [<WRDD><EWRD>][WGDS]
*
* [<WRDD><EWRD>] = NUM_SAR_LIMITS * BYTES_PER_SAR_LIMIT bytes.
* [WGDS]=[WGDS_REVISION][WGDS_DATA]
*
* Current SAR configuration data is expected in the format:
* "$SAR" Marker
* Version
* Offset count
* Offsets
* [SAR_REVISION,DSAR_SET_COUNT,CHAINS_COUNT,SUBBANDS_COUNT <WRDD>[EWRD]]
* [WGDS_REVISION,CHAINS_COUNT,SUBBANDS_COUNT<WGDS_DATA>]
* [PPAG_REVISION,MODE,CHAINS_COUNT,SUBBANDS_COUNT<PPAG_DATA>]
* [WTAS_REVISION, WTAS_DATA]
* [DSM_RETURN_VALUES]
* [BSAR_REVISION,IPML,LB,BR,EDR2,EDR3,LE,LE2,LE_LR]
* [WBEM_REVISION, WBEM_DATA]
*
* The configuration data will always have the revision added in the file for each of the
* block, based on the revision number and validity, size of the specific block will be
* calculated.
*
* [WGDS_DATA] = [GROUP#0][GROUP#1][GROUP#2]
*
* [GROUP#<i>] =
* Supported by Revision 0, 1 and 2
* [2.4Ghz - Max Allowed][2.4Ghz - Chain A Offset][2.4Ghz - Chain B Offset]
* [5Ghz - Max Allowed][5Ghz - Chain A Offset][5Ghz - Chain B Offset]
* Supported by Revision 1 and 2
* [6Ghz - Max Allowed][6Ghz - Chain A Offset][6Ghz - Chain B Offset]
*
* [GROUP#0] is for FCC
* [GROUP#1] is for Europe/Japan
* [GROUP#2] is for ROW
*
* [PPAG_DATA] = [ANT_gain Table Chain A] [ANT_gain Table Chain A]
*
* [ANT_gain Table] =
* Supported by Revision 0, 1 and 2
* [Antenna gain used for 2400MHz frequency]
* [Antenna gain used for 5150-5350MHz frequency]
* [Antenna gain used for 5350-5470MHz frequency]
* [Antenna gain used for 5470-5725MHz frequency]
* [Antenna gain used for 5725-5945MHz frequency]
* Supported by Revision 1 and 2
* [Antenna gain used for 5945-6165MHz frequency]
* [Antenna gain used for 6165-6405MHz frequency]
* [Antenna gain used for 6405-6525MHz frequency]
* [Antenna gain used for 6525-6705MHz frequency]
* [Antenna gain used for 6705-6865MHz frequency]
* [Antenna gain used for 6865-7105MHz frequency]
*
* [WTAS_DATA] =
* [Enable/disable the TAS feature]
* [Number of blocked countries that are not approved by the OEM to support this feature]
* [deny_list_entry_<1-16>: ISO country code to block]
* [WBEM_DATA] =
* [Enable or disable 320MHZ Bandwidth for Japan, SouthKorea]
*/
int get_wifi_sar_limits(union wifi_sar_limits *sar_limits)
{
const char *filename;
size_t sar_bin_len, sar_str_len;
uint8_t *sar_bin;
char *sar_str;
int ret = -1;
bool legacy_hex_format = false;
filename = get_wifi_sar_cbfs_filename();
if (filename == NULL) {
printk(BIOS_ERR, "Filename missing for CBFS SAR file!\n");
return ret;
}
sar_str = cbfs_map(filename, &sar_str_len);
if (!sar_str) {
printk(BIOS_ERR, "Failed to get the %s file size!\n", filename);
return ret;
}
if (strncmp(sar_str, SAR_STR_PREFIX, SAR_STR_PREFIX_SIZE) == 0) {
legacy_hex_format = false;
} else if (valid_legacy_length(sar_str_len)) {
legacy_hex_format = true;
} else {
printk(BIOS_ERR, "Invalid SAR format!\n");
goto error;
}
sar_bin = wifi_hextostr(sar_str, sar_str_len, &sar_bin_len, legacy_hex_format);
if (sar_bin == NULL) {
printk(BIOS_ERR, "Failed to parse SAR file %s\n", filename);
goto error;
}
memset(sar_limits, 0, sizeof(*sar_limits));
if (legacy_hex_format) {
ret = fill_wifi_sar_limits_legacy(sar_limits, sar_bin, sar_bin_len);
free(sar_bin);
} else {
ret = fill_wifi_sar_limits(sar_limits, sar_bin, sar_bin_len);
if (ret < 0)
free(sar_bin);
}
error:
cbfs_unmap(sar_str);
return ret;
}
__weak
const char *get_wifi_sar_cbfs_filename(void)
{
return WIFI_SAR_CBFS_DEFAULT_FILENAME;
}
char *get_wifi_sar_fw_config_filename(const struct fw_config_field *field)
{
uint64_t sar_id = fw_config_get_field(field);
if (sar_id == UNDEFINED_FW_CONFIG) {
printk(BIOS_WARNING, "fw_config unprovisioned, set sar filename to NULL\n");
return NULL;
}
static char filename[20];
printk(BIOS_INFO, "Use wifi_sar_%lld.hex.\n", sar_id);
if (snprintf(filename, sizeof(filename), "wifi_sar_%lld.hex", sar_id) < 0) {
printk(BIOS_ERR, "Error occurred with snprintf, set sar filename to NULL\n");
return NULL;
}
return filename;
}
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