/*
* Common stats definitions for clients of dongle
* ports
*
* Portions of this code are copyright (c) 2022 Cypress Semiconductor Corporation
*
* Copyright (C) 1999-2017, Broadcom Corporation
*
* Unless you and Broadcom execute a separate written software license
* agreement governing use of this software, this software is licensed to you
* under the terms of the GNU General Public License version 2 (the "GPL"),
* available at http://www.broadcom.com/licenses/GPLv2.php, with the
* following added to such license:
*
* As a special exception, the copyright holders of this software give you
* permission to link this software with independent modules, and to copy and
* distribute the resulting executable under terms of your choice, provided that
* you also meet, for each linked independent module, the terms and conditions of
* the license of that module. An independent module is a module which is not
* derived from this software. The special exception does not apply to any
* modifications of the software.
*
* Notwithstanding the above, under no circumstances may you combine this
* software in any way with any other Broadcom software provided under a license
* other than the GPL, without Broadcom's express prior written consent.
*
*
* <<Broadcom-WL-IPTag/Open:>>
*
* $Id: dngl_stats.h 687039 2017-02-27 08:07:06Z $
*/
#ifndef _dngl_stats_h_
#define _dngl_stats_h_
#include <ethernet.h>
#include <802.11.h>
typedef struct {
unsigned long rx_packets; /* total packets received */
unsigned long tx_packets; /* total packets transmitted */
unsigned long rx_bytes; /* total bytes received */
unsigned long tx_bytes; /* total bytes transmitted */
unsigned long rx_errors; /* bad packets received */
unsigned long tx_errors; /* packet transmit problems */
unsigned long rx_dropped; /* packets dropped by dongle */
unsigned long tx_dropped; /* packets dropped by dongle */
unsigned long multicast; /* multicast packets received */
} dngl_stats_t;
typedef int32 wifi_radio;
typedef int32 wifi_channel;
typedef int32 wifi_rssi;
typedef struct { uint16 version; uint16 length; } ver_len;
typedef enum wifi_channel_width {
WIFI_CHAN_WIDTH_20 = 0,
WIFI_CHAN_WIDTH_40 = 1,
WIFI_CHAN_WIDTH_80 = 2,
WIFI_CHAN_WIDTH_160 = 3,
WIFI_CHAN_WIDTH_80P80 = 4,
WIFI_CHAN_WIDTH_5 = 5,
WIFI_CHAN_WIDTH_10 = 6,
WIFI_CHAN_WIDTH_INVALID = -1
} wifi_channel_width_t;
typedef enum {
WIFI_DISCONNECTED = 0,
WIFI_AUTHENTICATING = 1,
WIFI_ASSOCIATING = 2,
WIFI_ASSOCIATED = 3,
WIFI_EAPOL_STARTED = 4, /* if done by firmware/driver */
WIFI_EAPOL_COMPLETED = 5, /* if done by firmware/driver */
} wifi_connection_state;
typedef enum {
WIFI_ROAMING_IDLE = 0,
WIFI_ROAMING_ACTIVE = 1
} wifi_roam_state;
typedef enum {
WIFI_INTERFACE_STA = 0,
WIFI_INTERFACE_SOFTAP = 1,
WIFI_INTERFACE_IBSS = 2,
WIFI_INTERFACE_P2P_CLIENT = 3,
WIFI_INTERFACE_P2P_GO = 4,
WIFI_INTERFACE_NAN = 5,
WIFI_INTERFACE_MESH = 6
} wifi_interface_mode;
#define WIFI_CAPABILITY_QOS 0x00000001 /* set for QOS association */
#define WIFI_CAPABILITY_PROTECTED 0x00000002 /* set for protected association (802.11
* beacon frame control protected bit set)
*/
#define WIFI_CAPABILITY_INTERWORKING 0x00000004 /* set if 802.11 Extended Capabilities
* element interworking bit is set
*/
#define WIFI_CAPABILITY_HS20 0x00000008 /* set for HS20 association */
#define WIFI_CAPABILITY_SSID_UTF8 0x00000010 /* set is 802.11 Extended Capabilities
* element UTF-8 SSID bit is set
*/
#define WIFI_CAPABILITY_COUNTRY 0x00000020 /* set is 802.11 Country Element is present */
#define PACK_ATTRIBUTE __attribute__ ((packed))
typedef struct {
wifi_interface_mode mode; /* interface mode */
uint8 mac_addr[6]; /* interface mac address (self) */
uint8 PAD[2];
wifi_connection_state state; /* connection state (valid for STA, CLI only) */
wifi_roam_state roaming; /* roaming state */
uint32 capabilities; /* WIFI_CAPABILITY_XXX (self) */
uint8 ssid[DOT11_MAX_SSID_LEN+1]; /* null terminated SSID */
uint8 bssid[ETHER_ADDR_LEN]; /* bssid */
uint8 PAD[1];
uint8 ap_country_str[3]; /* country string advertised by AP */
uint8 country_str[3]; /* country string for this association */
uint8 PAD[2];
} wifi_interface_info;
typedef wifi_interface_info *wifi_interface_handle;
/* channel information */
typedef struct {
wifi_channel_width_t width; /* channel width (20, 40, 80, 80+80, 160) */
wifi_channel center_freq; /* primary 20 MHz channel */
wifi_channel center_freq0; /* center frequency (MHz) first segment */
wifi_channel center_freq1; /* center frequency (MHz) second segment */
} wifi_channel_info;
/* wifi rate */
typedef struct {
uint32 preamble; /* 0: OFDM, 1:CCK, 2:HT 3:VHT 4..7 reserved */
uint32 nss; /* 0:1x1, 1:2x2, 3:3x3, 4:4x4 */
uint32 bw; /* 0:20MHz, 1:40Mhz, 2:80Mhz, 3:160Mhz */
uint32 rateMcsIdx; /* OFDM/CCK rate code would be as per ieee std
* in the units of 0.5mbps
*/
/* HT/VHT it would be mcs index */
uint32 reserved; /* reserved */
uint32 bitrate; /* units of 100 Kbps */
} wifi_rate;
typedef struct {
uint32 preamble :3; /* 0: OFDM, 1:CCK, 2:HT 3:VHT 4..7 reserved */
uint32 nss :2; /* 0:1x1, 1:2x2, 3:3x3, 4:4x4 */
uint32 bw :3; /* 0:20MHz, 1:40Mhz, 2:80Mhz, 3:160Mhz */
uint32 rateMcsIdx :8; /* OFDM/CCK rate code would be as per ieee std
* in the units of 0.5mbps HT/VHT it would be
* mcs index
*/
uint32 reserved :16; /* reserved */
uint32 bitrate; /* units of 100 Kbps */
} wifi_rate_v1;
/* channel statistics */
typedef struct {
wifi_channel_info channel; /* channel */
uint32 on_time; /* msecs the radio is awake (32 bits number
* accruing over time)
*/
uint32 cca_busy_time; /* msecs the CCA register is busy (32 bits number
* accruing over time)
*/
} wifi_channel_stat;
/* radio statistics */
typedef struct {
struct {
uint16 version;
uint16 length;
};
wifi_radio radio; /* wifi radio (if multiple radio supported) */
uint32 on_time; /* msecs the radio is awake (32 bits number
* accruing over time)
*/
uint32 tx_time; /* msecs the radio is transmitting (32 bits
* number accruing over time)
*/
uint32 rx_time; /* msecs the radio is in active receive (32 bits
* number accruing over time)
*/
uint32 on_time_scan; /* msecs the radio is awake due to all scan (32 bits
* number accruing over time)
*/
uint32 on_time_nbd; /* msecs the radio is awake due to NAN (32 bits
* number accruing over time)
*/
uint32 on_time_gscan; /* msecs the radio is awake due to G?scan (32 bits
* number accruing over time)
*/
uint32 on_time_roam_scan; /* msecs the radio is awake due to roam?scan (32 bits
* number accruing over time)
*/
uint32 on_time_pno_scan; /* msecs the radio is awake due to PNO scan (32 bits
* number accruing over time)
*/
uint32 on_time_hs20; /* msecs the radio is awake due to HS2.0 scans and
* GAS exchange (32 bits number accruing over time)
*/
uint32 num_channels; /* number of channels */
wifi_channel_stat channels[1]; /* channel statistics */
} wifi_radio_stat;
typedef struct {
wifi_radio radio;
uint32 on_time;
uint32 tx_time;
uint32 rx_time;
uint32 on_time_scan;
uint32 on_time_nbd;
uint32 on_time_gscan;
uint32 on_time_roam_scan;
uint32 on_time_pno_scan;
uint32 on_time_hs20;
uint32 num_channels;
} wifi_radio_stat_h;
/* per rate statistics */
typedef struct {
wifi_rate_v1 rate; /* rate information */
uint32 tx_mpdu; /* number of successfully transmitted data pkts (ACK rcvd) */
uint32 rx_mpdu; /* number of received data pkts */
uint32 mpdu_lost; /* number of data packet losses (no ACK) */
uint32 retries; /* total number of data pkt retries */
uint32 retries_short; /* number of short data pkt retries */
uint32 retries_long; /* number of long data pkt retries */
} wifi_rate_stat_v1;
typedef struct {
uint16 version;
uint16 length;
uint32 tx_mpdu; /* number of successfully transmitted data pkts (ACK rcvd) */
uint32 rx_mpdu; /* number of received data pkts */
uint32 mpdu_lost; /* number of data packet losses (no ACK) */
uint32 retries; /* total number of data pkt retries */
uint32 retries_short; /* number of short data pkt retries */
uint32 retries_long; /* number of long data pkt retries */
wifi_rate rate;
} wifi_rate_stat;
/* access categories */
typedef enum {
WIFI_AC_VO = 0,
WIFI_AC_VI = 1,
WIFI_AC_BE = 2,
WIFI_AC_BK = 3,
WIFI_AC_MAX = 4
} wifi_traffic_ac;
/* wifi peer type */
typedef enum
{
WIFI_PEER_STA,
WIFI_PEER_AP,
WIFI_PEER_P2P_GO,
WIFI_PEER_P2P_CLIENT,
WIFI_PEER_NAN,
WIFI_PEER_TDLS,
WIFI_PEER_INVALID
} wifi_peer_type;
/* per peer statistics */
typedef struct {
wifi_peer_type type; /* peer type (AP, TDLS, GO etc.) */
uint8 peer_mac_address[6]; /* mac address */
uint32 capabilities; /* peer WIFI_CAPABILITY_XXX */
uint32 num_rate; /* number of rates */
wifi_rate_stat rate_stats[1]; /* per rate statistics, number of entries = num_rate */
} wifi_peer_info;
/* per access category statistics */
typedef struct {
wifi_traffic_ac ac; /* access category (VI, VO, BE, BK) */
uint32 tx_mpdu; /* number of successfully transmitted unicast data pkts
* (ACK rcvd)
*/
uint32 rx_mpdu; /* number of received unicast mpdus */
uint32 tx_mcast; /* number of succesfully transmitted multicast
* data packets
*/
/* STA case: implies ACK received from AP for the
* unicast packet in which mcast pkt was sent
*/
uint32 rx_mcast; /* number of received multicast data packets */
uint32 rx_ampdu; /* number of received unicast a-mpdus */
uint32 tx_ampdu; /* number of transmitted unicast a-mpdus */
uint32 mpdu_lost; /* number of data pkt losses (no ACK) */
uint32 retries; /* total number of data pkt retries */
uint32 retries_short; /* number of short data pkt retries */
uint32 retries_long; /* number of long data pkt retries */
uint32 contention_time_min; /* data pkt min contention time (usecs) */
uint32 contention_time_max; /* data pkt max contention time (usecs) */
uint32 contention_time_avg; /* data pkt avg contention time (usecs) */
uint32 contention_num_samples; /* num of data pkts used for contention statistics */
} wifi_wmm_ac_stat;
/* interface statistics */
typedef struct {
wifi_interface_handle iface; /* wifi interface */
wifi_interface_info info; /* current state of the interface */
uint32 beacon_rx; /* access point beacon received count from
* connected AP
*/
uint64 average_tsf_offset; /* average beacon offset encountered (beacon_TSF - TBTT)
* The average_tsf_offset field is used so as to calculate
* the typical beacon contention time on the channel as well
* may be used to debug beacon synchronization and related
* power consumption issue
*/
uint32 leaky_ap_detected; /* indicate that this AP
* typically leaks packets beyond
* the driver guard time.
*/
uint32 leaky_ap_avg_num_frames_leaked; /* average number of frame leaked by AP after
* frame with PM bit set was ACK'ed by AP
*/
uint32 leaky_ap_guard_time; /* guard time currently in force
* (when implementing IEEE power management
* based on frame control PM bit), How long
* driver waits before shutting down the radio and after
* receiving an ACK for a data frame with PM bit set)
*/
uint32 mgmt_rx; /* access point mgmt frames received count from
* connected AP (including Beacon)
*/
uint32 mgmt_action_rx; /* action frames received count */
uint32 mgmt_action_tx; /* action frames transmit count */
wifi_rssi rssi_mgmt; /* access Point Beacon and Management frames RSSI
* (averaged)
*/
wifi_rssi rssi_data; /* access Point Data Frames RSSI (averaged) from
* connected AP
*/
wifi_rssi rssi_ack; /* access Point ACK RSSI (averaged) from
* connected AP
*/
wifi_wmm_ac_stat ac[WIFI_AC_MAX]; /* per ac data packet statistics */
uint32 num_peers; /* number of peers */
wifi_peer_info peer_info[1]; /* per peer statistics */
} wifi_iface_stat;
#endif /* _dngl_stats_h_ */
Orange Pi5 kernel
Deprecated Linux kernel 5.10.110 for OrangePi 5/5B/5+ boards
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