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- drivers
- staging
- csr
- unifi_priv.h
/*
*****************************************************************************
*
* FILE : unifi_priv.h
*
* PURPOSE : Private header file for unifi driver.
*
* UDI = UniFi Debug Interface
*
* Copyright (C) 2005-2009 by Cambridge Silicon Radio Ltd.
*
* Refer to LICENSE.txt included with this source code for details on
* the license terms.
*
*****************************************************************************
*/
#ifndef __LINUX_UNIFI_PRIV_H__
#define __LINUX_UNIFI_PRIV_H__ 1
#include <linux/module.h>
#include <linux/string.h>
#include <linux/errno.h>
#include <linux/kernel.h>
#include <linux/wait.h>
#include <linux/sched.h>
#include <linux/delay.h>
#include <linux/netdevice.h>
#include <linux/wireless.h>
#include <linux/cdev.h>
#include <linux/kthread.h>
#include <linux/freezer.h>
#ifdef CSR_WIFI_SUPPORT_MMC_DRIVER
#include <linux/mmc/core.h>
#include <linux/mmc/card.h>
#include <linux/mmc/host.h>
#include <linux/mmc/sdio_func.h>
#include <linux/mmc/sdio_ids.h>
#include <linux/mmc/sdio.h>
#endif /* CSR_WIFI_SUPPORT_MMC_DRIVER */
#include <linux/fs.h>
#ifdef ANDROID_BUILD
#include <linux/wakelock.h>
#endif
#include "csr_wifi_hip_unifi.h"
#include "csr_wifi_hip_unifi_udi.h"
#include "csr_wifi_router_lib.h"
#include "unifiio.h"
#ifndef CSR_WIFI_HIP_TA_DISABLE
#include "csr_wifi_vif_utils.h"
#endif
/* Define the unifi_priv_t before include the unifi_native.h */
struct unifi_priv;
typedef struct unifi_priv unifi_priv_t;
#ifdef CSR_SUPPORT_WEXT_AP
struct CsrWifiSmeApConfig;
typedef struct CsrWifiSmeApConfig CsrWifiSmeApConfig_t;
#endif
#ifdef CSR_SUPPORT_WEXT
#include "unifi_wext.h"
#endif
#ifdef ANDROID_BUILD
extern struct wake_lock unifi_sdio_wake_lock;
#endif
#include "unifi_clients.h"
#ifdef CSR_NATIVE_LINUX
#include "sme_native/unifi_native.h"
#else
#include "unifi_sme.h"
#endif
/* The device major number to use when registering the udi driver */
#define UNIFI_NAME "unifi"
/*
* MAX_UNIFI_DEVS defines the maximum number of UniFi devices that can be present.
* This number should be set to the number of SDIO slots supported by the SDIO
* host controller on the platform.
* Note: If MAX_UNIFI_DEVS value changes, fw_init[] needs to be corrected in drv.c
*/
#define MAX_UNIFI_DEVS 2
/* 802.11 Mac header offsets */
#define MAC_HEADER_SIZE 24
#define QOS_CONTROL_HEADER_SIZE 2
#define HT_CONTROL_HEADER_SIZE 4
#define QOS_DATA 0x8
#define QOS_DATA_NULL 0xc
#define DATA_NULL 0x04
#define FRAME_CONTROL_ORDER_BIT 0x8000
#define FRAME_CONTROL_TYPE_FIELD_OFFSET 2
#define FRAME_CONTROL_SUBTYPE_FIELD_OFFSET 4
#define IEEE802_11_FRAMETYPE_DATA 0x02
#define IEEE802_11_FRAMETYPE_CONTROL 0x01
#define IEEE802_11_FRAMETYPE_MANAGEMENT 0x00
#define IEEE802_11_FRAMETYPE_RESERVED 0x03
/* octet offset from start of mac header for certain fields */
#define IEEE802_11_ADDR3_OFFSET 16
#define IEEE802_11_SEQUENCE_CONTROL_OFFSET 22
#define IEEE802_11_MAX_DATA_LEN 2304
/* frame control (FC) masks, for frame control as 16 bit integer */
#define IEEE802_11_FC_TO_DS_MASK 0x100
#define IEEE802_11_FC_FROM_DS_MASK 0x200
#define IEEE802_11_FC_MOREDATA_MASK 0x2000
#define IEEE802_11_FC_PROTECTED_MASK 0x4000
#define IEEE80211_FC_ORDER_MASK 0x8000
#define IEEE80211_FC_SUBTYPE_MASK 0x00f0
#define IEEE80211_FC_TYPE_MASK 0x000c
#define IEEE80211_FC_PROTO_VERSION_MASK 0x0003
/* selected type and subtype combinations as in 7.1.3.1 table 1
For frame control as 16 bit integer, or for ls octet
*/
#define IEEE802_11_FC_TYPE_DATA 0x08
#define IEEE802_11_FC_TYPE_NULL 0x48
#define IEEE802_11_FC_TYPE_QOS_NULL 0xc8
#define IEEE802_11_FC_TYPE_QOS_DATA 0x88
#define IEEE802_11_FC_TYPE_DATA_SUBTYPE_RESERVED 0x0D
/* qos control (QC) masks for qos control as 16 bit integer, or for ls octet */
#define IEEE802_11_QC_TID_MASK 0x0f
#define IEEE802_11_QC_A_MSDU_PRESENT 0x80
#if (defined(CSR_WIFI_SECURITY_WAPI_ENABLE) && defined(CSR_WIFI_SECURITY_WAPI_QOSCTRL_MIC_WORKAROUND))
#define IEEE802_11_QC_NON_TID_BITS_MASK 0xFFF0
#endif
#define CSR_WIFI_EAPOL_M4_HOST_TAG 0x50000000
#define IEEE802_11_DATA_FRAME_MAC_HEADER_SIZE 36
#define MAX_ACCESS_CATOGORY 4
/* Time in us to check for inactivity of stations 5 mins */
#define INACTIVITY_CHECK_INTERVAL 300000000
/* Time in us before a station is flagged as inactive */
#define MAX_INACTIVITY_INTERVAL 300000000
/* Define for maximum BA session */
#define MAX_SUPPORTED_BA_SESSIONS_TX 1
#define MAX_SUPPORTED_BA_SESSIONS_RX 4
#define MAX_BA_WIND_SIZE 64
#define MAC_HEADER_ADDR1_OFFSET 4
#define MAC_HEADER_ADDR2_OFFSET 10
/* Define for age (in us) value for frames in MPDU reorder buffer */
#define CSR_WIFI_BA_MPDU_FRAME_AGE_TIMEOUT 30000 /* 30 milli seconds */
/* This macro used in prepare_and_add_macheader*/
#define ADDRESS_ONE_OFFSET 20
/* Defines for STA inactivity detection */
#define STA_INACTIVE_DETECTION_TRIGGER_THRESHOLD 1 /* in number of stations */
#define STA_INACTIVE_DETECTION_TIMER_INTERVAL 30 /* in seconds */
#define STA_INACTIVE_TIMEOUT_VAL 120*1000*1000 /* 120 seconds */
/* Test for modes requiring AP firmware patch */
#define CSR_WIFI_HIP_IS_AP_FW(mode) ((((mode) == CSR_WIFI_ROUTER_CTRL_MODE_AP) || \
((mode) == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO)) ? TRUE : FALSE)
/* Defines used in beacon filtering in case of P2P */
#define CSR_WIFI_P2P_WILDCARD_SSID_LENGTH 0x7
#define CSR_WIFI_80211_FRAME_SUBTYPE_BEACON 0x8
#define CSR_WIFI_BEACON_FIXED_LENGTH 12
#define CSR_WIFI_FRAME_SUBTYPE_BIT_OFFSET 4
#define CSR_WIFI_80211_FRAME_SUBTYPE_BIT_MASK ((u8)(0xF << CSR_WIFI_FRAME_SUBTYPE_BIT_OFFSET))
#define CSR_WIFI_80211_GET_FRAME_SUBTYPE(frameBuffer) \
((u8)(((u8 *)frameBuffer)[0] & CSR_WIFI_80211_FRAME_SUBTYPE_BIT_MASK) >> CSR_WIFI_FRAME_SUBTYPE_BIT_OFFSET)
/* For M4 request received via netdev*/
typedef u8 CsrWifiPacketType;
#define CSR_WIFI_UNICAST_PDU ((CsrWifiPacketType) 0x00)
#define CSR_WIFI_MULTICAST_PDU ((CsrWifiPacketType) 0x1)
#define CSR_WIFI_BROADCAST_PDU ((CsrWifiPacketType) 0x2)
#define PRIO_TO_NICE(prio) ((prio) - MAX_RT_PRIO - 20)
/* Module parameter variables */
extern int buswidth;
extern int sdio_clock;
extern int use_5g;
extern int disable_hw_reset;
extern int disable_power_control;
extern int enable_wol;
extern int sme_debug;
extern int fw_init[MAX_UNIFI_DEVS];
extern int tl_80211d;
extern int sdio_byte_mode;
extern int sdio_block_size;
extern int coredump_max;
extern int run_bh_once;
extern int bh_priority;
#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE
extern int log_hip_signals;
#endif
struct dlpriv {
const unsigned char *dl_data;
int dl_len;
void *fw_desc;
};
struct uf_thread {
struct task_struct *thread_task;
/* wait_queue for waking the unifi_thread kernel thread */
wait_queue_head_t wakeup_q;
unsigned int wakeup_flag;
/*
* Use it to block the I/O thread when
* an error occurs or UniFi is reinitialised.
*/
int block_thread;
char name[16];
int prio;
};
/*
* Link list to hold the received packets for the period the port
* remains closed.
*/
typedef struct rx_buffered_packets {
/* List link structure */
struct list_head q;
/* Packet to indicate when the port reopens */
struct sk_buff *skb;
/* Bulkdata to free in case the port closes and need to discard the packet */
bulk_data_param_t bulkdata;
/* The source address of the packet */
CsrWifiMacAddress sa;
/* The destination address of the packet */
CsrWifiMacAddress da;
/* Corresponding signal */
CSR_SIGNAL signal;
} rx_buffered_packets_t;
typedef u8 CsrWifiAcPowersaveMode;
#define CSR_WIFI_AC_TRIGGER_ONLY_ENABLED 0x00
#define CSR_WIFI_AC_DELIVERY_ONLY_ENABLE 0X01
#define CSR_WIFI_AC_TRIGGER_AND_DELIVERY_ENABLED 0X03
#define CSR_WIFI_AC_LEGACY_POWER_SAVE 0X02
#define IS_DELIVERY_ENABLED(mode) (mode & CSR_WIFI_AC_DELIVERY_ONLY_ENABLE)? 1: 0
#define IS_DELIVERY_AND_TRIGGER_ENABLED(mode) ((mode & CSR_WIFI_AC_DELIVERY_ONLY_ENABLE)||(mode & CSR_WIFI_AC_TRIGGER_AND_DELIVERY_ENABLED))? 1: 0
#define IS_DTIM_ACTIVE(flag,hostTag) ((flag == TRUE || hostTag != INVALID_HOST_TAG))
#define INVALID_HOST_TAG 0xFFFFFFFF
#define UNIFI_TRAFFIC_Q_CONTENTION UNIFI_TRAFFIC_Q_BE
/* Queue to be used for contention priority */
/*
* Link list to hold the tx packets for the period the peer
* powersave/free slots in unifi
*/
typedef struct tx_buffered_packets {
/* List link structure */
struct list_head q;
u16 interfaceTag;
CSR_CLIENT_TAG hostTag;
CSR_PROCESS_ID leSenderProcessId;
CSR_TRANSMISSION_CONTROL transmissionControl;
CSR_RATE rate;
/* Bulkdata to free in case the port closes and need to discard the packet */
bulk_data_desc_t bulkdata;
/* The source address of the packet */
CsrWifiMacAddress peerMacAddress;
CSR_PRIORITY priority;
} tx_buffered_packets_t;
/* station record has this data structure */
typedef struct CsrWifiRouterCtrlStaInfo_t {
/* Sme sends these parameters */
CsrWifiMacAddress peerMacAddress;
u32 assignedHandle;
u8 wmmOrQosEnabled;
CsrWifiAcPowersaveMode powersaveMode[MAX_ACCESS_CATOGORY];
u16 maxSpLength;
u8 uapsdActive;
u16 noOfSpFramesSent;
/* Router/Driver database */
#ifdef CSR_SUPPORT_SME
unifi_port_cfg_t *peerControlledPort;
unifi_port_cfg_t *peerUnControlledPort;
/* Inactivity feature parameters */
struct netInterface_priv *interfacePriv;
struct work_struct send_disconnected_ind_task;
u8 activity_flag;
u16 listenIntervalInTus;
CSR_CLIENT_TAG nullDataHostTag;
/* Activity timestamps for the station */
u32 lastActivity;
/* during m/c transmission sp suspended */
u8 uspSuspend;
CSR_PRIORITY triggerFramePriority;
#endif
CsrWifiRouterCtrlPeerStatus currentPeerState;
struct list_head dataPdu[MAX_ACCESS_CATOGORY];
struct list_head mgtFrames;
u8 spStatus;
u8 prevFrmType;
u8 prevFrmAccessCatogory;
u8 protection;
u16 aid;
u8 txSuspend;
u8 timSet;
/* Dont change the value of below macro for SET & RESET */
#define CSR_WIFI_TIM_RESET 0
#define CSR_WIFI_TIM_SET 1
#define CSR_WIFI_TIM_RESETTING 2
#define CSR_WIFI_TIM_SETTING 3
u8 timRequestPendingFlag;
u8 updateTimReqQueued;
u16 noOfPktQueued;
}CsrWifiRouterCtrlStaInfo_t;
#ifdef CSR_SUPPORT_WEXT_AP
struct CsrWifiSmeApConfig {
CsrWifiSsid ssid;
u16 channel;
CsrWifiNmeApCredentials credentials;
u8 max_connections;
u8 if_index;
};
#endif
#ifdef CSR_WIFI_RX_PATH_SPLIT
/* This is a test code and may be removed later*/
#define CSR_WIFI_RX_SIGNAL_BUFFER_SIZE (60+1)
typedef struct
{
u8 *bufptr; /* Signal Primitive */
bulk_data_param_t data_ptrs; /* Bulk Data pointers */
u16 sig_len;
}rx_buff_struct_t;
typedef struct
{
u8 writePointer; /**< write pointer */
u8 readPointer; /**< read pointer */
u8 size; /**< size of circular buffer */
rx_buff_struct_t rx_buff[CSR_WIFI_RX_SIGNAL_BUFFER_SIZE]; /**< Element of ciruclar buffer */
} rxCircularBuffer_t;
void rx_wq_handler(struct work_struct *work);
#endif
struct unifi_priv {
card_t *card;
CsrSdioFunction *sdio;
/* Index into Unifi_instances[] for this device. */
int instance;
/* Reference count for this instance */
int ref_count;
/* Firmware images */
struct dlpriv fw_sta;
struct dlpriv fw_conv; /* used for conversion of production test image */
/* Char device related structures */
struct cdev unifi_cdev;
struct cdev unifiudi_cdev;
struct device *unifi_device;
/* Which wireless interface to use (1 - 2.4GHz, 2 - 5GHz) */
CSR_IFINTERFACE if_index;
/* For multiple interface support */
struct net_device *netdev[CSR_WIFI_NUM_INTERFACES];
struct netInterface_priv *interfacePriv[CSR_WIFI_NUM_INTERFACES];
u8 totalInterfaceCount;
int prev_queue;
/* Name of node under /proc */
char proc_entry_name[64];
/*
* Flags:
* drop_unencrypted
* - Not used?
* netdev_registered
* - whether the netdev has been registered.
*/
unsigned int drop_unencrypted : 1;
/* Our list of unifi linux clients. */
ul_client_t ul_clients[MAX_UDI_CLIENTS];
/* Mutex to protect using the logging hook after UDI client is gone */
struct semaphore udi_logging_mutex;
/* Pointer to the ul_clients[] array */
ul_client_t *logging_client;
/* A ul_client_t* used to send the netdev related MIB requests. */
ul_client_t *netdev_client;
/* The SME ul_client_t pointer. */
ul_client_t *sme_cli;
/* The AMP ul_client_t pointer. */
ul_client_t *amp_client;
/*
* Semaphore for locking the top-half to one user process.
* This is necessary to prevent multiple processes calling driver
* operations. This can happen because the network driver entry points
* can be called from multiple processes.
*/
#ifdef USE_DRIVER_LOCK
struct semaphore lock;
#endif /* USE_DRIVER_LOCK */
/* Flag to say that an operation was aborted */
int io_aborted;
struct uf_thread bh_thread;
#define UNIFI_INIT_NONE 0x00
#define UNIFI_INIT_IN_PROGRESS 0x01
#define UNIFI_INIT_FW_DOWNLOADED 0x02
#define UNIFI_INIT_COMPLETED 0x04
unsigned char init_progress;
int sme_is_present;
/* The WMM features that UniFi uses in the current BSS */
unsigned int sta_wmm_capabilities;
/* Debug only */
char last_debug_string[256];
unsigned short last_debug_word16[16];
#ifdef CSR_SUPPORT_SME
/* lock to protect the tx queues list */
spinlock_t tx_q_lock;
u8 allPeerDozing;
u8 pausedStaHandle[MAX_ACCESS_CATOGORY];
/* Max packet the driver can queue, irrespective of interface number */
u16 noOfPktQueuedInDriver;
#define CSR_WIFI_DRIVER_SUPPORT_FOR_MAX_PKT_QUEUEING 512
#define CSR_WIFI_DRIVER_MAX_PKT_QUEUING_THRESHOLD_PER_PEER 64
#define CSR_WIFI_DRIVER_MINIMUM_BROADCAST_PKT_THRESHOLD 3
u8 routerBufferEnable[MAX_ACCESS_CATOGORY];
/* lock to protect stainfo members and priv members*/
spinlock_t staRecord_lock;
#endif
#ifdef CSR_NATIVE_LINUX
#ifdef CSR_SUPPORT_WEXT
/* wireless config */
struct wext_config wext_conf;
#endif
/* Mutex to protect the MLME blocking requests */
struct semaphore mlme_blocking_mutex;
/* The ul_client that provides the blocking API for WEXT calls */
ul_client_t *wext_client;
#endif /* CSR_NATIVE_LINUX */
#ifdef CSR_SUPPORT_SME
wait_queue_head_t sme_request_wq;
/* Semaphore to protect the SME blocking requests */
struct semaphore sme_sem;
/* Structure to hold the SME blocking requests data*/
sme_reply_t sme_reply;
/* Structure to hold a traffic protocol indication */
struct ta_ind {
struct work_struct task;
CsrWifiRouterCtrlTrafficPacketType packet_type;
CsrWifiRouterCtrlProtocolDirection direction;
CsrWifiMacAddress src_addr;
int in_use;
} ta_ind_work;
struct ta_sample_ind {
struct work_struct task;
CsrWifiRouterCtrlTrafficStats stats;
int in_use;
} ta_sample_ind_work;
__be32 sta_ip_address;
CsrWifiRouterCtrlSmeVersions sme_versions;
/*
* Flag to reflect state of unifi_sys_wifi_on_*() progress.
* This indicates whether we are in an "wifi on" state when we are
* allowed to indication errors with unifi_mgt_wifi_off_ind()
*/
enum {
wifi_on_unspecified = -1,
wifi_on_in_progress = 0,
wifi_on_done = 1,
} wifi_on_state;
/* Userspace TaskId for the SME Set when a wifi on req is received */
CsrSchedQid CSR_WIFI_SME_IFACEQUEUE;
struct work_struct multicast_list_task;
/*
* The SME installs filters to ask for specific MA-UNITDATA.req
* to be passed to different SME components.
*/
#define MAX_MA_UNIDATA_IND_FILTERS 8
sme_ma_unidata_ind_filter_t sme_unidata_ind_filters[MAX_MA_UNIDATA_IND_FILTERS];
/* UNIFI_CFG related parameters */
uf_cfg_bcast_packet_filter_t packet_filters;
unsigned char *filter_tclas_ies;
/* The structure that holds all the connection configuration. */
CsrWifiSmeConnectionConfig connection_config;
#ifdef CSR_SUPPORT_WEXT
int ignore_bssid_join;
struct iw_statistics wext_wireless_stats;
/* The MIB and MAC address files contents, read from userspace */
CsrWifiSmeDataBlock mib_data;
CsrWifiMacAddress sta_mac_address;
int wep_tx_key_index;
wep_key_t wep_keys[NUM_WEPKEYS];
#ifdef CSR_SUPPORT_WEXT_AP
CsrWifiSmeApMacConfig ap_mac_config;
CsrWifiNmeApConfig group_sec_config;
CsrWifiSmeApConfig_t ap_config;
#endif
struct work_struct sme_config_task;
#endif /* CSR_SUPPORT_WEXT */
#endif /* CSR_SUPPORT_SME */
#ifdef CSR_SME_USERSPACE
void *smepriv;
#endif /* CSR_SME_USERSPACE */
card_info_t card_info;
/* Mutex to protect unifi_send_signal() */
spinlock_t send_signal_lock;
/*
* The workqueue to offload the TA run
* and the multicast addresses list set
*/
struct workqueue_struct *unifi_workqueue;
unsigned char *mib_cfm_buffer;
unsigned int mib_cfm_buffer_length;
int ptest_mode; /* Set when in production test mode */
int coredump_mode; /* Set when SME has requested a coredump */
u8 wol_suspend; /* Set when suspending with UniFi powered */
#define UF_UNCONTROLLED_PORT_Q 0
#define UF_CONTROLLED_PORT_Q 1
/* Semaphore to protect the rx queues list */
struct semaphore rx_q_sem;
/* Spinlock to protect M4 data */
spinlock_t m4_lock;
/* Mutex to protect BA RX data */
struct semaphore ba_mutex;
#if (defined(CSR_WIFI_SECURITY_WAPI_ENABLE) && defined(CSR_WIFI_SECURITY_WAPI_SW_ENCRYPTION))
/* Spinlock to protect the WAPI data */
spinlock_t wapi_lock;
#endif
/* Array to indicate if a particular Tx queue is paused, this may not be
* required in a multiqueue implementation since we can directly stop kernel
* queues */
u8 tx_q_paused_flag[UNIFI_TRAFFIC_Q_MAX];
#ifdef CSR_WIFI_RX_PATH_SPLIT
struct workqueue_struct *rx_workqueue;
struct work_struct rx_work_struct;
rxCircularBuffer_t rxSignalBuffer;
#endif
u32 rxTcpThroughput;
u32 txTcpThroughput;
u32 rxUdpThroughput;
u32 txUdpThroughput;
#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE
/*Set if multicast KeyID = 1*/
u8 wapi_multicast_filter;
/*Set if unicast KeyID = 1*/
u8 wapi_unicast_filter;
u8 wapi_unicast_queued_pkt_filter;
#ifdef CSR_WIFI_SECURITY_WAPI_QOSCTRL_MIC_WORKAROUND
u8 isWapiConnection;
#endif
#endif
#ifdef CSR_WIFI_SPLIT_PATCH
CsrWifiRouterCtrlModeSetReq pending_mode_set;
#endif
u8 cmanrTestMode;
CSR_RATE cmanrTestModeTransmitRate;
};
typedef struct {
u16 queue_length[4];
u8 os_queue_paused;
} unifi_OsQosInfo;
typedef struct {
u8 active;
bulk_data_param_t bulkdata;
CSR_SIGNAL signal;
u16 sn;
u32 recv_time;
} frame_desc_struct;
typedef struct {
frame_desc_struct *buffer;
u16 wind_size;
u16 occupied_slots;
struct timer_list timer;
u16 timeout;
u16 expected_sn;
u16 start_sn;
u8 trigger_ba_after_ssn;
struct netInterface_priv *interfacePriv;
u16 tID;
CsrWifiMacAddress macAddress;
struct work_struct send_ba_err_task;
} ba_session_rx_struct;
typedef struct {
struct netInterface_priv *interfacePriv;
u16 tID;
CsrWifiMacAddress macAddress;
} ba_session_tx_struct;
typedef struct netInterface_priv
{
u16 InterfaceTag;
struct unifi_priv *privPtr;
ba_session_tx_struct *ba_session_tx[MAX_SUPPORTED_BA_SESSIONS_TX];
ba_session_rx_struct *ba_session_rx[MAX_SUPPORTED_BA_SESSIONS_RX];
frame_desc_struct ba_complete[MAX_BA_WIND_SIZE];
u8 ba_complete_index;
u8 queueEnabled[UNIFI_NO_OF_TX_QS];
struct work_struct send_m4_ready_task;
#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE
struct work_struct send_pkt_to_encrypt;
#endif
struct net_device_stats stats;
u8 interfaceMode;
u8 protect;
CsrWifiMacAddress bssid;
/*
* Flag to reflect state of CONNECTED indication signal.
* This indicates whether we are "joined" an Access Point (i.e. have
* nominated an AP and are receiving beacons) but give no indication
* of whether we are authenticated and/or associated.
*/
enum {
UnifiConnectedUnknown = -1,
UnifiNotConnected = 0,
UnifiConnected = 1,
} connected;
#ifdef CSR_SUPPORT_WEXT
/* Tracks when we are waiting for a netdevice state change callback */
u8 wait_netdev_change;
/* True if we have successfully registered for netdev callbacks */
u8 netdev_callback_registered;
#endif /* CSR_SUPPORT_WEXT */
unsigned int netdev_registered;
#define UNIFI_MAX_MULTICAST_ADDRESSES 10
/* The multicast addresses list that the thread needs to set. */
u8 mc_list[UNIFI_MAX_MULTICAST_ADDRESSES*ETH_ALEN];
/* The multicast addresses count that the thread needs to set. */
int mc_list_count;
u32 tag;
#ifdef CSR_SUPPORT_SME
/* (un)controlled port configuration */
unifi_port_config_t controlled_data_port;
unifi_port_config_t uncontrolled_data_port;
/* station record maintenance related data structures */
u8 num_stations_joined;
CsrWifiRouterCtrlStaInfo_t *(staInfo)[UNIFI_MAX_CONNECTIONS];
struct list_head genericMgtFrames;
struct list_head genericMulticastOrBroadCastFrames;
struct list_head genericMulticastOrBroadCastMgtFrames;
/* Timer for detecting station inactivity */
struct timer_list sta_activity_check_timer;
u8 sta_activity_check_enabled;
/* Timestamp when the last inactivity check was done */
u32 last_inactivity_check;
/*number of multicast or borad cast packets queued*/
u16 noOfbroadcastPktQueued;
#endif
/* A list to hold the buffered uncontrolled port packets */
struct list_head rx_uncontrolled_list;
/* A list to hold the buffered controlled port packets */
struct list_head rx_controlled_list;
/* Buffered M4 signal to take care of WPA race condition */
CSR_SIGNAL m4_signal;
bulk_data_desc_t m4_bulk_data;
#if (defined(CSR_WIFI_SECURITY_WAPI_ENABLE) && defined(CSR_WIFI_SECURITY_WAPI_SW_ENCRYPTION))
/* Buffered WAPI Unicast MA Packet Request for encryption in Sme */
CSR_SIGNAL wapi_unicast_ma_pkt_sig;
bulk_data_desc_t wapi_unicast_bulk_data;
#endif
/* This should be removed and m4_hostTag should be used for checking*/
u8 m4_sent;
CSR_CLIENT_TAG m4_hostTag;
u8 dtimActive;
u8 intraBssEnabled;
u32 multicastPduHostTag; /* Used to set the tim after getting
a confirm for it */
u8 bcTimSet;
u8 bcTimSetReqPendingFlag;
u8 bcTimSetReqQueued;
} netInterface_priv_t;
#ifdef CSR_SUPPORT_SME
#define routerStartBuffering(priv,queue) priv->routerBufferEnable[(queue)] = TRUE;
#define routerStopBuffering(priv,queue) priv->routerBufferEnable[(queue)] = FALSE;
#define isRouterBufferEnabled(priv,queue) priv->routerBufferEnable[(queue)]
#endif
#ifdef USE_DRIVER_LOCK
#define LOCK_DRIVER(_p) down_interruptible(&(_p)->lock)
#define UNLOCK_DRIVER(_p) up(&(_p)->lock)
#else
#define LOCK_DRIVER(_p) (void)(_p); /* as nothing */
#define UNLOCK_DRIVER(_p) (void)(_p); /* as nothing */
#endif /* USE_DRIVER_LOCK */
s32 CsrHipResultToStatus(CsrResult csrResult);
/*
* SDIO related functions and callbacks
*/
int uf_sdio_load(void);
void uf_sdio_unload(void);
unifi_priv_t *uf_find_instance(int inst);
int uf_find_priv(unifi_priv_t *priv);
int uf_find_netdev_priv(netInterface_priv_t *priv);
unifi_priv_t *uf_get_instance(int inst);
void uf_put_instance(int inst);
int csr_sdio_linux_install_irq(CsrSdioFunction *sdio);
int csr_sdio_linux_remove_irq(CsrSdioFunction *sdio);
void uf_add_os_device(int bus_id, struct device *os_device);
void uf_remove_os_device(int bus_id);
/*
* Claim/release SDIO
*
* For multifunction cards, we cannot grub the SDIO lock around the unifi_bh()
* as this prevents other functions using SDIO.
* Since some of CSR SDIO API is used regardless of trying to lock unifi_bh()
* we have followed this scheme:
* 1. If a function needs protection only when CSR_WIFI_SINGLE_FUNCTION is defined
* then we call CsrSdioClaim/CsrSdioRelease().
* 2. If a function needs protection only when CSR_WIFI_SINGLE_FUNCTION is not defined
* then we call _sdio_claim_host/_sdio_claim_host(). Use of this should be restricted
* to the SDIO glue layer only (e.g. sdio_mmc.c).
* 3. If a function needs protection, regardless of the CSR_WIFI_SINGLE_FUNCTION
* then we call directly the sdio_claim_host/sdio_release_host().
* Use of this must be restricted to the SDIO glue layer only (e.g. sdio_mmc.c).
*
* Note: The _func and function pointers are _not_ the same.
* The former is the (struct sdio_func*) context, which restricts the use to the SDIO glue layer.
* The latter is the (CsrSdioFunction*) context, which allows calls from all layers.
*/
#ifdef CSR_WIFI_SUPPORT_MMC_DRIVER
#ifdef CSR_WIFI_SINGLE_FUNCTION
#define CsrSdioClaim(function) sdio_claim_host((function)->priv);
#define CsrSdioRelease(function) sdio_release_host((function)->priv);
#define _sdio_claim_host(_func)
#define _sdio_release_host(_func)
#else
#define CsrSdioClaim(function)
#define CsrSdioRelease(function)
#define _sdio_claim_host(_func) sdio_claim_host(_func)
#define _sdio_release_host(_func) sdio_release_host(_func)
#endif /* CSR_WIFI_SINGLE_FUNCTION */
#else
#define _sdio_claim_host(_func)
#define _sdio_release_host(_func)
#define CsrSdioClaim(function)
#define CsrSdioRelease(function)
#endif /* CSR_WIFI_SUPPORT_MMC_DRIVER */
/*
* Functions to allocate and free an ethernet device.
*/
unifi_priv_t *uf_alloc_netdevice(CsrSdioFunction *sdio_dev, int bus_id);
int uf_free_netdevice(unifi_priv_t *priv);
/* Allocating function for other interfaces */
u8 uf_alloc_netdevice_for_other_interfaces(unifi_priv_t *priv, u16 interfaceTag);
/*
* Firmware download related functions.
*/
int uf_run_unifihelper(unifi_priv_t *priv);
int uf_request_firmware_files(unifi_priv_t *priv, int is_fw);
int uf_release_firmware_files(unifi_priv_t *priv);
int uf_release_firmware(unifi_priv_t *priv, struct dlpriv *to_free);
/*
* Functions to create and delete the device nodes.
*/
int uf_create_device_nodes(unifi_priv_t *priv, int bus_id);
void uf_destroy_device_nodes(unifi_priv_t *priv);
/*
* Upper Edge Initialisation functions
*/
int uf_init_bh(unifi_priv_t *priv);
int uf_init_hw(unifi_priv_t *priv);
/* Thread related helper functions */
int uf_start_thread(unifi_priv_t *priv, struct uf_thread *thread, int (*func)(void *));
void uf_stop_thread(unifi_priv_t *priv, struct uf_thread *thread);
void uf_wait_for_thread_to_stop(unifi_priv_t *priv, struct uf_thread *thread);
/*
* Unifi Linux functions
*/
void ul_init_clients(unifi_priv_t *priv);
/* Configuration flags */
#define CLI_USING_WIRE_FORMAT 0x0002
#define CLI_SME_USERSPACE 0x0020
ul_client_t *ul_register_client(unifi_priv_t *priv,
unsigned int configuration,
udi_event_t udi_event_clbk);
int ul_deregister_client(ul_client_t *pcli);
int ul_send_signal_unpacked(unifi_priv_t *priv,
CSR_SIGNAL *sigptr,
bulk_data_param_t *bulkdata);
int ul_send_signal_raw(unifi_priv_t *priv,
unsigned char *sigptr, int siglen,
bulk_data_param_t *bulkdata);
void ul_log_config_ind(unifi_priv_t *priv, u8 *conf_param, int len);
/*
* Data plane operations
*/
/*
* data_tx.c
*/
int uf_verify_m4(unifi_priv_t *priv, const unsigned char *packet,
unsigned int length);
#ifdef CSR_SUPPORT_SME
u8 uf_check_broadcast_bssid(unifi_priv_t *priv, const bulk_data_param_t *bulkdata);
u8 uf_process_pm_bit_for_peer(unifi_priv_t * priv, CsrWifiRouterCtrlStaInfo_t * srcStaInfo,u8 pmBit,u16 interfaceTag);
void uf_process_ps_poll(unifi_priv_t *priv,u8* sa,u8* da,u8 pmBit,u16 interfaceTag);
int uf_ap_process_data_pdu(unifi_priv_t *priv, struct sk_buff *skb,
struct ethhdr *ehdr, CsrWifiRouterCtrlStaInfo_t * srcStaInfo,
const CSR_SIGNAL *signal,
bulk_data_param_t *bulkdata,
u8 macHeaderLengthInBytes);
u8 uf_is_more_data_for_non_delivery_ac(CsrWifiRouterCtrlStaInfo_t *staRecord);
void uf_process_wmm_deliver_ac_uapsd ( unifi_priv_t * priv,
CsrWifiRouterCtrlStaInfo_t * srcStaInfo,
u16 qosControl,
u16 interfaceTag);
void uf_send_buffered_data_from_ac(unifi_priv_t *priv, CsrWifiRouterCtrlStaInfo_t * staInfo, u8 queue, struct list_head *txList);
void uf_send_buffered_data_from_delivery_ac(unifi_priv_t *priv, CsrWifiRouterCtrlStaInfo_t * staInfo, u8 queue, struct list_head *txList);
void uf_continue_uapsd(unifi_priv_t *priv, CsrWifiRouterCtrlStaInfo_t * staInfo);
void uf_send_qos_null(unifi_priv_t * priv,u16 interfaceTag, const u8 *da,CSR_PRIORITY priority,CsrWifiRouterCtrlStaInfo_t * srcStaInfo);
void uf_send_nulldata(unifi_priv_t * priv,u16 interfaceTag, const u8 *da,CSR_PRIORITY priority,CsrWifiRouterCtrlStaInfo_t * srcStaInfo);
#endif
CsrResult uf_process_ma_packet_req(unifi_priv_t *priv, u8 *peerMacAddress, CSR_CLIENT_TAG hostTag, u16 interfaceTag, CSR_TRANSMISSION_CONTROL transmissionControl, CSR_RATE TransmitRate, CSR_PRIORITY priority, CSR_PROCESS_ID senderId, bulk_data_param_t *bulkdata);
void uf_process_ma_vif_availibility_ind(unifi_priv_t *priv,u8 *sigdata, u32 siglen);
#ifdef CSR_SUPPORT_SME
void uf_send_buffered_frames(unifi_priv_t *priv,unifi_TrafficQueue queue);
int uf_process_station_records_for_sending_data(unifi_priv_t *priv,u16 interfaceTag,
CsrWifiRouterCtrlStaInfo_t *srcStaInfo,
CsrWifiRouterCtrlStaInfo_t *dstStaInfo);
void uf_prepare_send_cfm_list_for_queued_pkts(unifi_priv_t * priv,
struct list_head *frames_need_cfm_list,
struct list_head * list);
void send_auto_ma_packet_confirm(unifi_priv_t *priv,
netInterface_priv_t *interfacePriv,
struct list_head *buffered_frames_list);
void uf_flush_list(unifi_priv_t * priv, struct list_head * list);
tx_buffered_packets_t *dequeue_tx_data_pdu(unifi_priv_t *priv, struct list_head *txList);
void resume_unicast_buffered_frames(unifi_priv_t *priv, u16 interfaceTag);
void update_eosp_to_head_of_broadcast_list_head(unifi_priv_t *priv,u16 interfaceTag);
void resume_suspended_uapsd(unifi_priv_t* priv,u16 interfaceTag);
#endif
/*
* netdev.c
*/
#ifndef P80211_OUI_LEN
#define P80211_OUI_LEN 3
#endif
typedef struct {
u8 dsap; /* always 0xAA */
u8 ssap; /* always 0xAA */
u8 ctrl; /* always 0x03 */
u8 oui[P80211_OUI_LEN]; /* organizational universal id */
u16 protocol;
} __attribute__ ((packed)) llc_snap_hdr_t;
int skb_add_llc_snap(struct net_device *dev, struct sk_buff *skb, int proto);
int skb_80211_to_ether(unifi_priv_t *priv, struct sk_buff *skb,
const unsigned char *daddr, const unsigned char *saddr,
const CSR_SIGNAL *signal,
bulk_data_param_t *bulkdata);
const char *result_code_str(int result);
/* prepares & appends the Mac header for the payload */
int prepare_and_add_macheader(unifi_priv_t *priv,
struct sk_buff *skb,
struct sk_buff *newSkb,
CSR_PRIORITY priority,
bulk_data_param_t *bulkdata,
u16 interfaceTag,
const u8 *daddr,
const u8 *saddr,
u8 protection);
CSR_PRIORITY
get_packet_priority(unifi_priv_t *priv, struct sk_buff *skb, const struct ethhdr *ehdr, netInterface_priv_t *interfacePriv);
void
unifi_frame_ma_packet_req(unifi_priv_t *priv, CSR_PRIORITY priority,
CSR_RATE TransmitRate, CSR_CLIENT_TAG hostTag,
u16 interfaceTag, CSR_TRANSMISSION_CONTROL transmissionControl,
CSR_PROCESS_ID leSenderProcessId, u8 *peerMacAddress,
CSR_SIGNAL *signal);
/* Pack the LSB to include station handle & status of tim set */
#define CSR_WIFI_PACK_SENDER_ID_LSB_FOR_TIM_REQ(handle, timState) ((handle << 2) | timState)
/* get the station record handle from the sender ID */
#define CSR_WIFI_GET_STATION_HANDLE_FROM_RECEIVER_ID(receiverProcessId) (u8) ((receiverProcessId & 0xff) >> 2)
/* get the timSet status from the sender ID */
#define CSR_WIFI_GET_TIMSET_STATE_FROM_RECEIVER_ID(receiverProcessId) (u8) (receiverProcessId & 0x03)
/* handle is 6 bits to accomodate in senderId LSB (only 64 station can be associated) */
#define CSR_WIFI_BROADCAST_OR_MULTICAST_HANDLE 0x3F
void update_tim(unifi_priv_t * priv, u16 aid, u8 setTim, u16 interfaceTag, u32 handle);
void uf_handle_tim_cfm(unifi_priv_t *priv, CSR_MLME_SET_TIM_CONFIRM *cfm, u16 senderProcessId);
/* Clear the Peer station Record, in case of wifioff/unexpected card removal */
void CsrWifiRouterCtrlInterfaceReset(unifi_priv_t *priv, u16 interfaceTag);
void scroll_ba_window(unifi_priv_t *priv,
netInterface_priv_t *interfacePriv,
ba_session_rx_struct *ba_session,
u16 sn);
u8 blockack_session_stop(unifi_priv_t *priv,
u16 interfaceTag,
CsrWifiRouterCtrlBlockAckRole role,
u16 tID,
CsrWifiMacAddress macAddress);
#ifdef CSR_SUPPORT_SME
/* Fetch the protection information from interface Mode */
s8 uf_get_protection_bit_from_interfacemode(unifi_priv_t *priv, u16 interfaceTag, const u8 *daddr);
#endif
/* Fetch the station record handler from data base for matching Mac address */
#ifdef CSR_SUPPORT_SME
CsrWifiRouterCtrlStaInfo_t *CsrWifiRouterCtrlGetStationRecordFromPeerMacAddress(unifi_priv_t *priv,
const u8 *peerMacAddress,
u16 interfaceTag);
/* Fetch the station record handler from data base for matching handle */
CsrWifiRouterCtrlStaInfo_t * CsrWifiRouterCtrlGetStationRecordFromHandle(unifi_priv_t *priv,
u32 handle,
u16 interfaceTag);
void uf_update_sta_activity(unifi_priv_t *priv, u16 interfaceTag, const u8 *peerMacAddress);
void uf_process_ma_pkt_cfm_for_ap(unifi_priv_t *priv,u16 interfaceTag, const CSR_MA_PACKET_CONFIRM *pkt_cfm);
#endif
void uf_resume_data_plane(unifi_priv_t *priv, int queue,
CsrWifiMacAddress peer_address,
u16 interfaceTag);
void uf_free_pending_rx_packets(unifi_priv_t *priv, int queue,
CsrWifiMacAddress peer_address,u16 interfaceTag);
int uf_register_netdev(unifi_priv_t *priv, int numOfInterface);
void uf_unregister_netdev(unifi_priv_t *priv);
void uf_net_get_name(struct net_device *dev, char *name, int len);
void uf_send_queue_info(unifi_priv_t *priv);
u16 uf_get_vif_identifier(CsrWifiRouterCtrlMode mode, u16 tag);
void uf_process_rx_pending_queue(unifi_priv_t *priv, int queue,
CsrWifiMacAddress source_address,
int indicate, u16 interfaceTag);
#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE
int uf_register_hip_offline_debug(unifi_priv_t *priv);
int uf_unregister_hip_offline_debug(unifi_priv_t *priv);
#endif
/*
* inet.c
*/
void uf_register_inet_notifier(void);
void uf_unregister_inet_notifier(void);
/*
* Suspend / Resume handlers
*/
void unifi_resume(void *ospriv);
void unifi_suspend(void *ospriv);
#define QOS_CAPABILITY_WMM_ENABLED 0x0001
#define QOS_CAPABILITY_WMM_UAPSD 0x0002
#define QOS_CAPABILITY_ACM_BE_ENABLED 0x0010
#define QOS_CAPABILITY_ACM_BK_ENABLED 0x0020
#define QOS_CAPABILITY_ACM_VI_ENABLED 0x0040
#define QOS_CAPABILITY_ACM_VO_ENABLED 0x0080
#define QOS_CAPABILITY_TS_BE_ENABLED 0x0100
#define QOS_CAPABILITY_TS_BK_ENABLED 0x0200
#define QOS_CAPABILITY_TS_VI_ENABLED 0x0400
#define QOS_CAPABILITY_TS_VO_ENABLED 0x0800
/* EAPOL PDUS */
#ifndef ETH_P_PAE
#define ETH_P_PAE 0x888e
#endif
#ifndef ETH_P_WAI
#define ETH_P_WAI 0x88b4
#endif
/*
* unifi_dbg.c
*/
void debug_string_indication(unifi_priv_t *priv,
const unsigned char *extra,
unsigned int extralen);
void debug_word16_indication(unifi_priv_t *priv, const CSR_SIGNAL *sigptr);
void debug_generic_indication(unifi_priv_t *priv, const CSR_SIGNAL *sigptr);
/*
* putest.c
*/
int unifi_putest_start(unifi_priv_t *priv, unsigned char *arg);
int unifi_putest_cmd52_block_read(unifi_priv_t *priv, unsigned char *arg);
int unifi_putest_stop(unifi_priv_t *priv, unsigned char *arg);
int unifi_putest_set_sdio_clock(unifi_priv_t *priv, unsigned char *arg);
int unifi_putest_cmd52_read(unifi_priv_t *priv, unsigned char *arg);
int unifi_putest_coredump_prepare(unifi_priv_t *priv, unsigned char *arg);
int unifi_putest_cmd52_write(unifi_priv_t *priv, unsigned char *arg);
int unifi_putest_gp_read16(unifi_priv_t *priv, unsigned char *arg);
int unifi_putest_gp_write16(unifi_priv_t *priv, unsigned char *arg);
int unifi_putest_dl_fw(unifi_priv_t *priv, unsigned char *arg);
int unifi_putest_dl_fw_buff(unifi_priv_t *priv, unsigned char *arg);
#endif /* __LINUX_UNIFI_PRIV_H__ */