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root/net/irda/parameters.c

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DEFINITIONS

This source file includes following definitions.
  1. irda_insert_no_value
  2. irda_extract_no_value
  3. irda_insert_integer
  4. irda_extract_integer
  5. irda_extract_string
  6. irda_extract_octseq
  7. irda_param_pack
  8. irda_param_unpack
  9. irda_param_insert
  10. irda_param_extract
  11. irda_param_extract_all

/*********************************************************************
 *
 * Filename:      parameters.c
 * Version:       1.0
 * Description:   A more general way to handle (pi,pl,pv) parameters
 * Status:        Experimental.
 * Author:        Dag Brattli <dagb@cs.uit.no>
 * Created at:    Mon Jun  7 10:25:11 1999
 * Modified at:   Sun Jan 30 14:08:39 2000
 * Modified by:   Dag Brattli <dagb@cs.uit.no>
 *
 *     Copyright (c) 1999-2000 Dag Brattli, All Rights Reserved.
 *
 *     This program is free software; you can redistribute it and/or
 *     modify it under the terms of the GNU General Public License as
 *     published by the Free Software Foundation; either version 2 of
 *     the License, or (at your option) any later version.
 *
 *     This program is distributed in the hope that it will be useful,
 *     but WITHOUT ANY WARRANTY; without even the implied warranty of
 *     MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
 *     GNU General Public License for more details.
 *
 *     You should have received a copy of the GNU General Public License
 *     along with this program; if not, write to the Free Software
 *     Foundation, Inc., 59 Temple Place, Suite 330, Boston,
 *     MA 02111-1307 USA
 *
 ********************************************************************/

#include <linux/types.h>
#include <linux/module.h>

#include <asm/unaligned.h>
#include <asm/byteorder.h>

#include <net/irda/irda.h>
#include <net/irda/parameters.h>

static int irda_extract_integer(void *self, __u8 *buf, int len, __u8 pi,
                                PV_TYPE type, PI_HANDLER func);
static int irda_extract_string(void *self, __u8 *buf, int len, __u8 pi,
                               PV_TYPE type, PI_HANDLER func);
static int irda_extract_octseq(void *self, __u8 *buf, int len, __u8 pi,
                               PV_TYPE type, PI_HANDLER func);
static int irda_extract_no_value(void *self, __u8 *buf, int len, __u8 pi,
                                 PV_TYPE type, PI_HANDLER func);

static int irda_insert_integer(void *self, __u8 *buf, int len, __u8 pi,
                               PV_TYPE type, PI_HANDLER func);
static int irda_insert_no_value(void *self, __u8 *buf, int len, __u8 pi,
                                PV_TYPE type, PI_HANDLER func);

static int irda_param_unpack(__u8 *buf, char *fmt, ...);

/* Parameter value call table. Must match PV_TYPE */
static PV_HANDLER pv_extract_table[] = {
        irda_extract_integer, /* Handler for any length integers */
        irda_extract_integer, /* Handler for 8  bits integers */
        irda_extract_integer, /* Handler for 16 bits integers */
        irda_extract_string,  /* Handler for strings */
        irda_extract_integer, /* Handler for 32 bits integers */
        irda_extract_octseq,  /* Handler for octet sequences */
        irda_extract_no_value /* Handler for no value parameters */
};

static PV_HANDLER pv_insert_table[] = {
        irda_insert_integer, /* Handler for any length integers */
        irda_insert_integer, /* Handler for 8  bits integers */
        irda_insert_integer, /* Handler for 16 bits integers */
        NULL,                /* Handler for strings */
        irda_insert_integer, /* Handler for 32 bits integers */
        NULL,                /* Handler for octet sequences */
        irda_insert_no_value /* Handler for no value parameters */
};

/*
 * Function irda_insert_no_value (self, buf, len, pi, type, func)
 */
static int irda_insert_no_value(void *self, __u8 *buf, int len, __u8 pi,
                                PV_TYPE type, PI_HANDLER func)
{
        irda_param_t p;
        int ret;

        p.pi = pi;
        p.pl = 0;

        /* Call handler for this parameter */
        ret = (*func)(self, &p, PV_GET);

        /* Extract values anyway, since handler may need them */
        irda_param_pack(buf, "bb", p.pi, p.pl);

        if (ret < 0)
                return ret;

        return 2; /* Inserted pl+2 bytes */
}

/*
 * Function irda_extract_no_value (self, buf, len, type, func)
 *
 *    Extracts a parameter without a pv field (pl=0)
 *
 */
static int irda_extract_no_value(void *self, __u8 *buf, int len, __u8 pi,
                                 PV_TYPE type, PI_HANDLER func)
{
        irda_param_t p;
        int ret;

        /* Extract values anyway, since handler may need them */
        irda_param_unpack(buf, "bb", &p.pi, &p.pl);

        /* Call handler for this parameter */
        ret = (*func)(self, &p, PV_PUT);

        if (ret < 0)
                return ret;

        return 2; /* Extracted pl+2 bytes */
}

/*
 * Function irda_insert_integer (self, buf, len, pi, type, func)
 */
static int irda_insert_integer(void *self, __u8 *buf, int len, __u8 pi,
                               PV_TYPE type, PI_HANDLER func)
{
        irda_param_t p;
        int n = 0;
        int err;

        p.pi = pi;             /* In case handler needs to know */
        p.pl = type & PV_MASK; /* The integer type codes the length as well */
        p.pv.i = 0;            /* Clear value */

        /* Call handler for this parameter */
        err = (*func)(self, &p, PV_GET);
        if (err < 0)
                return err;

        /*
         * If parameter length is still 0, then (1) this is an any length
         * integer, and (2) the handler function does not care which length
         * we choose to use, so we pick the one the gives the fewest bytes.
         */
        if (p.pl == 0) {
                if (p.pv.i < 0xff) {
                        IRDA_DEBUG(2, "%s(), using 1 byte\n", __func__);
                        p.pl = 1;
                } else if (p.pv.i < 0xffff) {
                        IRDA_DEBUG(2, "%s(), using 2 bytes\n", __func__);
                        p.pl = 2;
                } else {
                        IRDA_DEBUG(2, "%s(), using 4 bytes\n", __func__);
                        p.pl = 4; /* Default length */
                }
        }
        /* Check if buffer is long enough for insertion */
        if (len < (2+p.pl)) {
                IRDA_WARNING("%s: buffer too short for insertion!\n",
                             __func__);
                return -1;
        }
        IRDA_DEBUG(2, "%s(), pi=%#x, pl=%d, pi=%d\n", __func__,
                   p.pi, p.pl, p.pv.i);
        switch (p.pl) {
        case 1:
                n += irda_param_pack(buf, "bbb", p.pi, p.pl, (__u8) p.pv.i);
                break;
        case 2:
                if (type & PV_BIG_ENDIAN)
                        p.pv.i = cpu_to_be16((__u16) p.pv.i);
                else
                        p.pv.i = cpu_to_le16((__u16) p.pv.i);
                n += irda_param_pack(buf, "bbs", p.pi, p.pl, (__u16) p.pv.i);
                break;
        case 4:
                if (type & PV_BIG_ENDIAN)
                        cpu_to_be32s(&p.pv.i);
                else
                        cpu_to_le32s(&p.pv.i);
                n += irda_param_pack(buf, "bbi", p.pi, p.pl, p.pv.i);

                break;
        default:
                IRDA_WARNING("%s: length %d not supported\n",
                             __func__, p.pl);
                /* Skip parameter */
                return -1;
        }

        return p.pl+2; /* Inserted pl+2 bytes */
}

/*
 * Function irda_extract integer (self, buf, len, pi, type, func)
 *
 *    Extract a possibly variable length integer from buffer, and call
 *    handler for processing of the parameter
 */
static int irda_extract_integer(void *self, __u8 *buf, int len, __u8 pi,
                                PV_TYPE type, PI_HANDLER func)
{
        irda_param_t p;
        int n = 0;
        int extract_len;        /* Real length we extract */
        int err;

        p.pi = pi;     /* In case handler needs to know */
        p.pl = buf[1]; /* Extract length of value */
        p.pv.i = 0;    /* Clear value */
        extract_len = p.pl;     /* Default : extract all */

        /* Check if buffer is long enough for parsing */
        if (len < (2+p.pl)) {
                IRDA_WARNING("%s: buffer too short for parsing! "
                             "Need %d bytes, but len is only %d\n",
                             __func__, p.pl, len);
                return -1;
        }

        /*
         * Check that the integer length is what we expect it to be. If the
         * handler want a 16 bits integer then a 32 bits is not good enough
         * PV_INTEGER means that the handler is flexible.
         */
        if (((type & PV_MASK) != PV_INTEGER) && ((type & PV_MASK) != p.pl)) {
                IRDA_ERROR("%s: invalid parameter length! "
                           "Expected %d bytes, but value had %d bytes!\n",
                           __func__, type & PV_MASK, p.pl);

                /* Most parameters are bit/byte fields or little endian,
                 * so it's ok to only extract a subset of it (the subset
                 * that the handler expect). This is necessary, as some
                 * broken implementations seems to add extra undefined bits.
                 * If the parameter is shorter than we expect or is big
                 * endian, we can't play those tricks. Jean II */
                if((p.pl < (type & PV_MASK)) || (type & PV_BIG_ENDIAN)) {
                        /* Skip parameter */
                        return p.pl+2;
                } else {
                        /* Extract subset of it, fallthrough */
                        extract_len = type & PV_MASK;
                }
        }


        switch (extract_len) {
        case 1:
                n += irda_param_unpack(buf+2, "b", &p.pv.i);
                break;
        case 2:
                n += irda_param_unpack(buf+2, "s", &p.pv.i);
                if (type & PV_BIG_ENDIAN)
                        p.pv.i = be16_to_cpu((__u16) p.pv.i);
                else
                        p.pv.i = le16_to_cpu((__u16) p.pv.i);
                break;
        case 4:
                n += irda_param_unpack(buf+2, "i", &p.pv.i);
                if (type & PV_BIG_ENDIAN)
                        be32_to_cpus(&p.pv.i);
                else
                        le32_to_cpus(&p.pv.i);
                break;
        default:
                IRDA_WARNING("%s: length %d not supported\n",
                             __func__, p.pl);

                /* Skip parameter */
                return p.pl+2;
        }

        IRDA_DEBUG(2, "%s(), pi=%#x, pl=%d, pi=%d\n", __func__,
                   p.pi, p.pl, p.pv.i);
        /* Call handler for this parameter */
        err = (*func)(self, &p, PV_PUT);
        if (err < 0)
                return err;

        return p.pl+2; /* Extracted pl+2 bytes */
}

/*
 * Function irda_extract_string (self, buf, len, type, func)
 */
static int irda_extract_string(void *self, __u8 *buf, int len, __u8 pi,
                               PV_TYPE type, PI_HANDLER func)
{
        char str[33];
        irda_param_t p;
        int err;

        IRDA_DEBUG(2, "%s()\n", __func__);

        p.pi = pi;     /* In case handler needs to know */
        p.pl = buf[1]; /* Extract length of value */

        IRDA_DEBUG(2, "%s(), pi=%#x, pl=%d\n", __func__,
                   p.pi, p.pl);

        /* Check if buffer is long enough for parsing */
        if (len < (2+p.pl)) {
                IRDA_WARNING("%s: buffer too short for parsing! "
                             "Need %d bytes, but len is only %d\n",
                             __func__, p.pl, len);
                return -1;
        }

        /* Should be safe to copy string like this since we have already
         * checked that the buffer is long enough */
        strncpy(str, buf+2, p.pl);

        IRDA_DEBUG(2, "%s(), str=0x%02x 0x%02x\n", __func__,
                   (__u8) str[0], (__u8) str[1]);

        /* Null terminate string */
        str[p.pl+1] = '\0';

        p.pv.c = str; /* Handler will need to take a copy */

        /* Call handler for this parameter */
        err = (*func)(self, &p, PV_PUT);
        if (err < 0)
                return err;

        return p.pl+2; /* Extracted pl+2 bytes */
}

/*
 * Function irda_extract_octseq (self, buf, len, type, func)
 */
static int irda_extract_octseq(void *self, __u8 *buf, int len, __u8 pi,
                               PV_TYPE type, PI_HANDLER func)
{
        irda_param_t p;

        p.pi = pi;     /* In case handler needs to know */
        p.pl = buf[1]; /* Extract length of value */

        /* Check if buffer is long enough for parsing */
        if (len < (2+p.pl)) {
                IRDA_WARNING("%s: buffer too short for parsing! "
                             "Need %d bytes, but len is only %d\n",
                             __func__, p.pl, len);
                return -1;
        }

        IRDA_DEBUG(0, "%s(), not impl\n", __func__);

        return p.pl+2; /* Extracted pl+2 bytes */
}

/*
 * Function irda_param_pack (skb, fmt, ...)
 *
 *    Format:
 *        'i' = 32 bits integer
 *        's' = string
 *
 */
int irda_param_pack(__u8 *buf, char *fmt, ...)
{
        irda_pv_t arg;
        va_list args;
        char *p;
        int n = 0;

        va_start(args, fmt);

        for (p = fmt; *p != '\0'; p++) {
                switch (*p) {
                case 'b':  /* 8 bits unsigned byte */
                        buf[n++] = (__u8)va_arg(args, int);
                        break;
                case 's':  /* 16 bits unsigned short */
                        arg.i = (__u16)va_arg(args, int);
                        put_unaligned((__u16)arg.i, (__u16 *)(buf+n)); n+=2;
                        break;
                case 'i':  /* 32 bits unsigned integer */
                        arg.i = va_arg(args, __u32);
                        put_unaligned(arg.i, (__u32 *)(buf+n)); n+=4;
                        break;
#if 0
                case 'c': /* \0 terminated string */
                        arg.c = va_arg(args, char *);
                        strcpy(buf+n, arg.c);
                        n += strlen(arg.c) + 1;
                        break;
#endif
                default:
                        va_end(args);
                        return -1;
                }
        }
        va_end(args);

        return 0;
}
EXPORT_SYMBOL(irda_param_pack);

/*
 * Function irda_param_unpack (skb, fmt, ...)
 */
static int irda_param_unpack(__u8 *buf, char *fmt, ...)
{
        irda_pv_t arg;
        va_list args;
        char *p;
        int n = 0;

        va_start(args, fmt);

        for (p = fmt; *p != '\0'; p++) {
                switch (*p) {
                case 'b':  /* 8 bits byte */
                        arg.ip = va_arg(args, __u32 *);
                        *arg.ip = buf[n++];
                        break;
                case 's':  /* 16 bits short */
                        arg.ip = va_arg(args, __u32 *);
                        *arg.ip = get_unaligned((__u16 *)(buf+n)); n+=2;
                        break;
                case 'i':  /* 32 bits unsigned integer */
                        arg.ip = va_arg(args, __u32 *);
                        *arg.ip = get_unaligned((__u32 *)(buf+n)); n+=4;
                        break;
#if 0
                case 'c':   /* \0 terminated string */
                        arg.c = va_arg(args, char *);
                        strcpy(arg.c, buf+n);
                        n += strlen(arg.c) + 1;
                        break;
#endif
                default:
                        va_end(args);
                        return -1;
                }

        }
        va_end(args);

        return 0;
}

/*
 * Function irda_param_insert (self, pi, buf, len, info)
 *
 *    Insert the specified parameter (pi) into buffer. Returns number of
 *    bytes inserted
 */
int irda_param_insert(void *self, __u8 pi, __u8 *buf, int len,
                      pi_param_info_t *info)
{
        pi_minor_info_t *pi_minor_info;
        __u8 pi_minor;
        __u8 pi_major;
        int type;
        int ret = -1;
        int n = 0;

        IRDA_ASSERT(buf != NULL, return ret;);
        IRDA_ASSERT(info != NULL, return ret;);

        pi_minor = pi & info->pi_mask;
        pi_major = pi >> info->pi_major_offset;

        /* Check if the identifier value (pi) is valid */
        if ((pi_major > info->len-1) ||
            (pi_minor > info->tables[pi_major].len-1))
        {
                IRDA_DEBUG(0, "%s(), no handler for parameter=0x%02x\n",
                           __func__, pi);

                /* Skip this parameter */
                return -1;
        }

        /* Lookup the info on how to parse this parameter */
        pi_minor_info = &info->tables[pi_major].pi_minor_call_table[pi_minor];

        /* Find expected data type for this parameter identifier (pi)*/
        type = pi_minor_info->type;

        /*  Check if handler has been implemented */
        if (!pi_minor_info->func) {
                IRDA_MESSAGE("%s: no handler for pi=%#x\n", __func__, pi);
                /* Skip this parameter */
                return -1;
        }

        /* Insert parameter value */
        ret = (*pv_insert_table[type & PV_MASK])(self, buf+n, len, pi, type,
                                                 pi_minor_info->func);
        return ret;
}
EXPORT_SYMBOL(irda_param_insert);

/*
 * Function irda_param_extract (self, buf, len, info)
 *
 *    Parse all parameters. If len is correct, then everything should be
 *    safe. Returns the number of bytes that was parsed
 *
 */
static int irda_param_extract(void *self, __u8 *buf, int len,
                              pi_param_info_t *info)
{
        pi_minor_info_t *pi_minor_info;
        __u8 pi_minor;
        __u8 pi_major;
        int type;
        int ret = -1;
        int n = 0;

        IRDA_ASSERT(buf != NULL, return ret;);
        IRDA_ASSERT(info != NULL, return ret;);

        pi_minor = buf[n] & info->pi_mask;
        pi_major = buf[n] >> info->pi_major_offset;

        /* Check if the identifier value (pi) is valid */
        if ((pi_major > info->len-1) ||
            (pi_minor > info->tables[pi_major].len-1))
        {
                IRDA_DEBUG(0, "%s(), no handler for parameter=0x%02x\n",
                           __func__, buf[0]);

                /* Skip this parameter */
                return 2 + buf[n + 1];  /* Continue */
        }

        /* Lookup the info on how to parse this parameter */
        pi_minor_info = &info->tables[pi_major].pi_minor_call_table[pi_minor];

        /* Find expected data type for this parameter identifier (pi)*/
        type = pi_minor_info->type;

        IRDA_DEBUG(3, "%s(), pi=[%d,%d], type=%d\n", __func__,
                   pi_major, pi_minor, type);

        /*  Check if handler has been implemented */
        if (!pi_minor_info->func) {
                IRDA_MESSAGE("%s: no handler for pi=%#x\n",
                             __func__, buf[n]);
                /* Skip this parameter */
                return 2 + buf[n + 1]; /* Continue */
        }

        /* Parse parameter value */
        ret = (*pv_extract_table[type & PV_MASK])(self, buf+n, len, buf[n],
                                                  type, pi_minor_info->func);
        return ret;
}

/*
 * Function irda_param_extract_all (self, buf, len, info)
 *
 *    Parse all parameters. If len is correct, then everything should be
 *    safe. Returns the number of bytes that was parsed
 *
 */
int irda_param_extract_all(void *self, __u8 *buf, int len,
                           pi_param_info_t *info)
{
        int ret = -1;
        int n = 0;

        IRDA_ASSERT(buf != NULL, return ret;);
        IRDA_ASSERT(info != NULL, return ret;);

        /*
         * Parse all parameters. Each parameter must be at least two bytes
         * long or else there is no point in trying to parse it
         */
        while (len > 2) {
                ret = irda_param_extract(self, buf+n, len, info);
                if (ret < 0)
                        return ret;

                n += ret;
                len -= ret;
        }
        return n;
}
EXPORT_SYMBOL(irda_param_extract_all);

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