/* SPDX-License-Identifier: GPL-2.0-only */ #ifndef _SAR_H_ #define _SAR_H_ #include #include #define MAX_ANT_GAINS_REVISION 2 #define MAX_DENYLIST_ENTRY 16 #define MAX_DSAR_SET_COUNT 3 #define MAX_GEO_OFFSET_REVISION 3 #define MAX_PROFILE_COUNT 16 #define MAX_SAR_REVISION 2 #define MAX_BSAR_REVISION 2 #define WBEM_REVISION 0 #define BPAG_REVISION 2 #define BBFB_REVISION 1 #define BDCM_REVISION 1 #define BBSM_REVISION 1 #define BUCS_REVISION 1 #define BDMM_REVISION 1 #define EBRD_REVISION 1 #define WPFC_REVISION 0 #define DSBR_REVISION 0 #define REVISION_SIZE 1 #define SAR_REV0_CHAINS_COUNT 2 #define SAR_REV0_SUBBANDS_COUNT 5 #define SAR_FILE_REVISION 1 #define SAR_STR_PREFIX "$SAR" #define SAR_STR_PREFIX_SIZE 4 struct geo_profile { uint8_t revision; uint8_t chains_count; uint8_t bands_count; uint8_t wgds_table[]; } __packed; struct sar_profile { uint8_t revision; uint8_t dsar_set_count; uint8_t chains_count; uint8_t subbands_count; uint8_t sar_table[]; } __packed; struct gain_profile { uint8_t revision; uint8_t mode; uint8_t chains_count; uint8_t bands_count; uint8_t ppag_table[]; } __packed; struct avg_profile { uint8_t revision; uint8_t tas_selection; uint8_t tas_list_size; uint16_t deny_list_entry[MAX_DENYLIST_ENTRY]; } __packed; struct dsm_profile { uint32_t supported_functions; uint32_t disable_active_sdr_channels; uint32_t support_indonesia_5g_band; uint32_t support_ultra_high_band; uint32_t regulatory_configurations; uint32_t uart_configurations; uint32_t enablement_11ax; uint32_t unii_4; uint32_t enablement_11be; uint32_t energy_detection_threshold; uint32_t rfi_mitigation; }; struct sar_power_table { uint8_t restriction_for_2g4; uint8_t restriction_for_5g2; uint8_t restriction_for_5g8_5g9; uint8_t restriction_for_6g1; uint8_t restriction_for_6g3; } __packed; struct bsar_profile { uint8_t revision; uint8_t increased_power_mode_limitation; union { struct rev1 { uint8_t sar_lb_power_restriction; uint8_t br_modulation; uint8_t edr2_modulation; uint8_t edr3_modulation; uint8_t le_modulation; uint8_t le2_mhz_modulation; uint8_t le_lr_modulation; } rev1; struct rev2 { struct sar_power_table set_1_chain_a; struct sar_power_table set_1_chain_b; } rev2; } revs; } __packed; struct wbem_profile { uint8_t revision; uint32_t bandwidth_320mhz_country_enablement; } __packed; struct bpag_profile { uint8_t revision; uint32_t antenna_gain_country_enablement; } __packed; struct bbfb_profile { uint8_t revision; uint8_t enable_quad_filter_bypass; } __packed; struct bdcm_profile { uint8_t revision; uint32_t dual_chain_mode; } __packed; struct bbsm_profile { uint8_t revision; uint32_t bands_selection; } __packed; struct bucs_profile { uint8_t revision; uint32_t uhb_country_selection; } __packed; struct bdmm_profile { uint8_t revision; uint8_t dual_mac_enable; } __packed; struct ebrd_profile { uint8_t revision; uint32_t dynamic_sar_enable; uint32_t number_of_optional_sar; struct { struct sar_power_table chain_a; struct sar_power_table chain_b; } sar_table_sets[3]; } __packed; struct wpfc_profile { uint8_t revision; uint8_t filter_cfg_chain_a; uint8_t filter_cfg_chain_b; uint8_t filter_cfg_chain_c; uint8_t filter_cfg_chain_d; } __packed; struct dsbr_profile { uint8_t revision; uint32_t bri_resistor_value; } __packed; struct sar_header { char marker[SAR_STR_PREFIX_SIZE]; uint8_t version; uint16_t offsets[]; } __packed; /* Wifi SAR limit table structure */ union wifi_sar_limits { struct { struct sar_profile *sar; struct geo_profile *wgds; struct gain_profile *ppag; struct avg_profile *wtas; struct dsm_profile *dsm; struct bsar_profile *bsar; struct wbem_profile *wbem; struct bpag_profile *bpag; struct bbfb_profile *bbfb; struct bdcm_profile *bdcm; struct bbsm_profile *bbsm; struct bucs_profile *bucs; struct bdmm_profile *bdmm; struct ebrd_profile *ebrd; struct wpfc_profile *wpfc; struct dsbr_profile *dsbr; }; void *profile[MAX_PROFILE_COUNT]; }; /* * Retrieve the wifi ACPI configuration data from CBFS and decode it * sar_limits: Pointer to wifi_sar_limits where the resulted data is stored * * Returns: 0 on success, -1 on errors (The .hex file doesn't exist, or the decode failed) */ int get_wifi_sar_limits(union wifi_sar_limits *sar_limits); #define WIFI_SAR_CBFS_DEFAULT_FILENAME "wifi_sar_defaults.hex" const char *get_wifi_sar_cbfs_filename(void); char *get_wifi_sar_fw_config_filename(const struct fw_config_field *field); #endif /* _SAR_H_ */