Merge branch 'akpm-current/current'

[karo-tx-linux.git] / drivers / staging / wilc1000 / coreconfigurator.c

#include "coreconfigurator.h"
#include "wilc_wlan_if.h"
#include "wilc_wlan.h"
#include <linux/errno.h>
#include <linux/slab.h>
#define TAG_PARAM_OFFSET        (MAC_HDR_LEN + TIME_STAMP_LEN + \
                                 BEACON_INTERVAL_LEN + CAP_INFO_LEN)

enum basic_frame_type {
        FRAME_TYPE_CONTROL     = 0x04,
        FRAME_TYPE_DATA        = 0x08,
        FRAME_TYPE_MANAGEMENT  = 0x00,
        FRAME_TYPE_RESERVED    = 0x0C,
        FRAME_TYPE_FORCE_32BIT = 0xFFFFFFFF
};

enum sub_frame_type {
        ASSOC_REQ             = 0x00,
        ASSOC_RSP             = 0x10,
        REASSOC_REQ           = 0x20,
        REASSOC_RSP           = 0x30,
        PROBE_REQ             = 0x40,
        PROBE_RSP             = 0x50,
        BEACON                = 0x80,
        ATIM                  = 0x90,
        DISASOC               = 0xA0,
        AUTH                  = 0xB0,
        DEAUTH                = 0xC0,
        ACTION                = 0xD0,
        PS_POLL               = 0xA4,
        RTS                   = 0xB4,
        CTS                   = 0xC4,
        ACK                   = 0xD4,
        CFEND                 = 0xE4,
        CFEND_ACK             = 0xF4,
        DATA                  = 0x08,
        DATA_ACK              = 0x18,
        DATA_POLL             = 0x28,
        DATA_POLL_ACK         = 0x38,
        NULL_FRAME            = 0x48,
        CFACK                 = 0x58,
        CFPOLL                = 0x68,
        CFPOLL_ACK            = 0x78,
        QOS_DATA              = 0x88,
        QOS_DATA_ACK          = 0x98,
        QOS_DATA_POLL         = 0xA8,
        QOS_DATA_POLL_ACK     = 0xB8,
        QOS_NULL_FRAME        = 0xC8,
        QOS_CFPOLL            = 0xE8,
        QOS_CFPOLL_ACK        = 0xF8,
        BLOCKACK_REQ          = 0x84,
        BLOCKACK              = 0x94,
        FRAME_SUBTYPE_FORCE_32BIT  = 0xFFFFFFFF
};

enum info_element_id {
        ISSID               = 0,   /* Service Set Identifier         */
        ISUPRATES           = 1,   /* Supported Rates                */
        IFHPARMS            = 2,   /* FH parameter set               */
        IDSPARMS            = 3,   /* DS parameter set               */
        ICFPARMS            = 4,   /* CF parameter set               */
        ITIM                = 5,   /* Traffic Information Map        */
        IIBPARMS            = 6,   /* IBSS parameter set             */
        ICOUNTRY            = 7,   /* Country element                */
        IEDCAPARAMS         = 12,  /* EDCA parameter set             */
        ITSPEC              = 13,  /* Traffic Specification          */
        ITCLAS              = 14,  /* Traffic Classification         */
        ISCHED              = 15,  /* Schedule                       */
        ICTEXT              = 16,  /* Challenge Text                 */
        IPOWERCONSTRAINT    = 32,  /* Power Constraint               */
        IPOWERCAPABILITY    = 33,  /* Power Capability               */
        ITPCREQUEST         = 34,  /* TPC Request                    */
        ITPCREPORT          = 35,  /* TPC Report                     */
        ISUPCHANNEL         = 36,  /* Supported channel list         */
        ICHSWANNOUNC        = 37,  /* Channel Switch Announcement    */
        IMEASUREMENTREQUEST = 38,  /* Measurement request            */
        IMEASUREMENTREPORT  = 39,  /* Measurement report             */
        IQUIET              = 40,  /* Quiet element Info             */
        IIBSSDFS            = 41,  /* IBSS DFS                       */
        IERPINFO            = 42,  /* ERP Information                */
        ITSDELAY            = 43,  /* TS Delay                       */
        ITCLASPROCESS       = 44,  /* TCLAS Processing               */
        IHTCAP              = 45,  /* HT Capabilities                */
        IQOSCAP             = 46,  /* QoS Capability                 */
        IRSNELEMENT         = 48,  /* RSN Information Element        */
        IEXSUPRATES         = 50,  /* Extended Supported Rates       */
        IEXCHSWANNOUNC      = 60,  /* Extended Ch Switch Announcement*/
        IHTOPERATION        = 61,  /* HT Information                 */
        ISECCHOFF           = 62,  /* Secondary Channel Offeset      */
        I2040COEX           = 72,  /* 20/40 Coexistence IE           */
        I2040INTOLCHREPORT  = 73,  /* 20/40 Intolerant channel report*/
        IOBSSSCAN           = 74,  /* OBSS Scan parameters           */
        IEXTCAP             = 127, /* Extended capability            */
        IWMM                = 221, /* WMM parameters                 */
        IWPAELEMENT         = 221, /* WPA Information Element        */
        INFOELEM_ID_FORCE_32BIT  = 0xFFFFFFFF
};

static inline u16 get_beacon_period(u8 *data)
{
        u16 bcn_per;

        bcn_per  = data[0];
        bcn_per |= (data[1] << 8);

        return bcn_per;
}

static inline u32 get_beacon_timestamp_lo(u8 *data)
{
        u32 time_stamp = 0;
        u32 index    = MAC_HDR_LEN;

        time_stamp |= data[index++];
        time_stamp |= (data[index++] << 8);
        time_stamp |= (data[index++] << 16);
        time_stamp |= (data[index]   << 24);

        return time_stamp;
}

static inline u32 get_beacon_timestamp_hi(u8 *data)
{
        u32 time_stamp = 0;
        u32 index    = (MAC_HDR_LEN + 4);

        time_stamp |= data[index++];
        time_stamp |= (data[index++] << 8);
        time_stamp |= (data[index++] << 16);
        time_stamp |= (data[index]   << 24);

        return time_stamp;
}

static inline enum sub_frame_type get_sub_type(u8 *header)
{
        return ((enum sub_frame_type)(header[0] & 0xFC));
}

static inline u8 get_to_ds(u8 *header)
{
        return (header[1] & 0x01);
}

static inline u8 get_from_ds(u8 *header)
{
        return ((header[1] & 0x02) >> 1);
}

static inline void get_address1(u8 *pu8msa, u8 *addr)
{
        memcpy(addr, pu8msa + 4, 6);
}

static inline void get_address2(u8 *pu8msa, u8 *addr)
{
        memcpy(addr, pu8msa + 10, 6);
}

static inline void get_address3(u8 *pu8msa, u8 *addr)
{
        memcpy(addr, pu8msa + 16, 6);
}

static inline void get_BSSID(u8 *data, u8 *bssid)
{
        if (get_from_ds(data) == 1)
                get_address2(data, bssid);
        else if (get_to_ds(data) == 1)
                get_address1(data, bssid);
        else
                get_address3(data, bssid);
}

static inline void get_ssid(u8 *data, u8 *ssid, u8 *p_ssid_len)
{
        u8 len = 0;
        u8 i   = 0;
        u8 j   = 0;

        len = data[MAC_HDR_LEN + TIME_STAMP_LEN + BEACON_INTERVAL_LEN +
                   CAP_INFO_LEN + 1];
        j   = MAC_HDR_LEN + TIME_STAMP_LEN + BEACON_INTERVAL_LEN +
                CAP_INFO_LEN + 2;

        if (len >= MAX_SSID_LEN)
                len = 0;

        for (i = 0; i < len; i++, j++)
                ssid[i] = data[j];

        ssid[len] = '\0';

        *p_ssid_len = len;
}

static inline u16 get_cap_info(u8 *data)
{
        u16 cap_info = 0;
        u16 index    = MAC_HDR_LEN;
        enum sub_frame_type st;

        st = get_sub_type(data);

        if ((st == BEACON) || (st == PROBE_RSP))
                index += TIME_STAMP_LEN + BEACON_INTERVAL_LEN;

        cap_info  = data[index];
        cap_info |= (data[index + 1] << 8);

        return cap_info;
}

static inline u16 get_assoc_resp_cap_info(u8 *data)
{
        u16 cap_info;

        cap_info  = data[0];
        cap_info |= (data[1] << 8);

        return cap_info;
}

static inline u16 get_asoc_status(u8 *data)
{
        u16 asoc_status;

        asoc_status = data[3];
        asoc_status = (asoc_status << 8) | data[2];

        return asoc_status;
}

static inline u16 get_asoc_id(u8 *data)
{
        u16 asoc_id;

        asoc_id  = data[4];
        asoc_id |= (data[5] << 8);

        return asoc_id;
}

static u8 *get_tim_elm(u8 *pu8msa, u16 rx_len, u16 tag_param_offset)
{
        u16 index;

        index = tag_param_offset;

        while (index < (rx_len - FCS_LEN)) {
                if (pu8msa[index] == ITIM)
                        return &pu8msa[index];
                index += (IE_HDR_LEN + pu8msa[index + 1]);
        }

        return NULL;
}

static u8 get_current_channel_802_11n(u8 *pu8msa, u16 rx_len)
{
        u16 index;

        index = TAG_PARAM_OFFSET;
        while (index < (rx_len - FCS_LEN)) {
                if (pu8msa[index] == IDSPARMS)
                        return pu8msa[index + 2];
                index += pu8msa[index + 1] + IE_HDR_LEN;
        }

        return 0;
}

s32 wilc_parse_network_info(u8 *msg_buffer,
                            struct network_info **ret_network_info)
{
        struct network_info *network_info = NULL;
        u8 msg_type = 0;
        u8 msg_id = 0;
        u16 msg_len = 0;

        u16 wid_id = (u16)WID_NIL;
        u16 wid_len  = 0;
        u8 *wid_val = NULL;

        msg_type = msg_buffer[0];

        if ('N' != msg_type) {
                PRINT_ER("Received Message format incorrect.\n");
                return -EFAULT;
        }

        msg_id = msg_buffer[1];
        msg_len = MAKE_WORD16(msg_buffer[2], msg_buffer[3]);
        wid_id = MAKE_WORD16(msg_buffer[4], msg_buffer[5]);
        wid_len = MAKE_WORD16(msg_buffer[6], msg_buffer[7]);
        wid_val = &msg_buffer[8];

        {
                u8 *msa = NULL;
                u16 rx_len = 0;
                u8 *tim_elm = NULL;
                u8 *ies = NULL;
                u16 ies_len = 0;
                u8 index = 0;
                u32 tsf_lo;
                u32 tsf_hi;

                network_info = kzalloc(sizeof(*network_info), GFP_KERNEL);
                if (!network_info)
                        return -ENOMEM;

                network_info->rssi = wid_val[0];

                msa = &wid_val[1];

                rx_len = wid_len - 1;
                network_info->cap_info = get_cap_info(msa);
                network_info->tsf_lo = get_beacon_timestamp_lo(msa);

                tsf_lo = get_beacon_timestamp_lo(msa);
                tsf_hi = get_beacon_timestamp_hi(msa);

                network_info->tsf_hi = tsf_lo | ((u64)tsf_hi << 32);

                get_ssid(msa, network_info->ssid, &network_info->ssid_len);
                get_BSSID(msa, network_info->bssid);

                network_info->ch = get_current_channel_802_11n(msa,
                                                        rx_len + FCS_LEN);

                index = MAC_HDR_LEN + TIME_STAMP_LEN;

                network_info->beacon_period = get_beacon_period(msa + index);

                index += BEACON_INTERVAL_LEN + CAP_INFO_LEN;

                tim_elm = get_tim_elm(msa, rx_len + FCS_LEN, index);
                if (tim_elm)
                        network_info->dtim_period = tim_elm[3];
                ies = &msa[MAC_HDR_LEN + TIME_STAMP_LEN + BEACON_INTERVAL_LEN +
                           CAP_INFO_LEN];
                ies_len = rx_len - (MAC_HDR_LEN + TIME_STAMP_LEN +
                                    BEACON_INTERVAL_LEN + CAP_INFO_LEN);

                if (ies_len > 0) {
                        network_info->ies = kmemdup(ies, ies_len, GFP_KERNEL);
                        if (!network_info->ies)
                                return -ENOMEM;
                }
                network_info->ies_len = ies_len;
        }

        *ret_network_info = network_info;

        return 0;
}

s32 wilc_parse_assoc_resp_info(u8 *buffer, u32 buffer_len,
                               struct connect_resp_info **ret_connect_resp_info)
{
        struct connect_resp_info *connect_resp_info = NULL;
        u16 assoc_resp_len = 0;
        u8 *ies = NULL;
        u16 ies_len = 0;

        connect_resp_info = kzalloc(sizeof(*connect_resp_info), GFP_KERNEL);
        if (!connect_resp_info)
                return -ENOMEM;

        assoc_resp_len = (u16)buffer_len;

        connect_resp_info->status = get_asoc_status(buffer);
        if (connect_resp_info->status == SUCCESSFUL_STATUSCODE) {
                connect_resp_info->capability = get_assoc_resp_cap_info(buffer);
                connect_resp_info->assoc_id = get_asoc_id(buffer);

                ies = &buffer[CAP_INFO_LEN + STATUS_CODE_LEN + AID_LEN];
                ies_len = assoc_resp_len - (CAP_INFO_LEN + STATUS_CODE_LEN +
                                            AID_LEN);

                connect_resp_info->ies = kmemdup(ies, ies_len, GFP_KERNEL);
                if (!connect_resp_info->ies)
                        return -ENOMEM;

                connect_resp_info->ies_len = ies_len;
        }

        *ret_connect_resp_info = connect_resp_info;

        return 0;
}