MOXA linux-2.6.x / linux-2.6.9-uc0 from sdlinux-moxaart.tgz

[linux-2.6.9-moxart.git] / drivers / isdn / sc / packet.c

/* $Id: packet.c,v 1.5.8.1 2001/09/23 22:24:59 kai Exp $
 *
 * Copyright (C) 1996  SpellCaster Telecommunications Inc.
 *
 * This software may be used and distributed according to the terms
 * of the GNU General Public License, incorporated herein by reference.
 *
 * For more information, please contact gpl-info@spellcast.com or write:
 *
 *     SpellCaster Telecommunications Inc.
 *     5621 Finch Avenue East, Unit #3
 *     Scarborough, Ontario  Canada
 *     M1B 2T9
 *     +1 (416) 297-8565
 *     +1 (416) 297-6433 Facsimile
 */

#include "includes.h"
#include "hardware.h"
#include "message.h"
#include "card.h"

extern board *sc_adapter[];
extern unsigned int cinst;

extern int get_card_from_id(int);
extern int indicate_status(int, int,ulong, char*);
extern void memcpy_toshmem(int, void *, const void *, size_t);
extern void memcpy_fromshmem(int, void *, const void *, size_t);
extern int sendmessage(int, unsigned int, unsigned int, unsigned int,
                unsigned int, unsigned int, unsigned int, unsigned int *);

int sndpkt(int devId, int channel, struct sk_buff *data)
{
        LLData  ReqLnkWrite;
        int status;
        int card;
        unsigned long len;

        card = get_card_from_id(devId);

        if(!IS_VALID_CARD(card)) {
                pr_debug("invalid param: %d is not a valid card id\n", card);
                return -ENODEV;
        }

        pr_debug("%s: sndpkt: frst = 0x%x nxt = %d  f = %d n = %d\n",
                sc_adapter[card]->devicename,
                sc_adapter[card]->channel[channel].first_sendbuf,
                sc_adapter[card]->channel[channel].next_sendbuf,
                sc_adapter[card]->channel[channel].free_sendbufs,
                sc_adapter[card]->channel[channel].num_sendbufs);

        if(!sc_adapter[card]->channel[channel].free_sendbufs) {
                pr_debug("%s: out of TX buffers\n",
                                sc_adapter[card]->devicename);
                return -EINVAL;
        }

        if(data->len > BUFFER_SIZE) {
                pr_debug("%s: data overflows buffer size (data > buffer)\n",
                        sc_adapter[card]->devicename);
                return -EINVAL;
        }

        ReqLnkWrite.buff_offset = sc_adapter[card]->channel[channel].next_sendbuf *
                BUFFER_SIZE + sc_adapter[card]->channel[channel].first_sendbuf;
        ReqLnkWrite.msg_len = data->len; /* sk_buff size */
        pr_debug("%s: writing %d bytes to buffer offset 0x%x\n",
                        sc_adapter[card]->devicename,
                        ReqLnkWrite.msg_len, ReqLnkWrite.buff_offset);
        memcpy_toshmem(card, (char *)ReqLnkWrite.buff_offset, data->data, ReqLnkWrite.msg_len);

        /*
         * sendmessage
         */
        pr_debug("%s: sndpkt size=%d, buf_offset=0x%x buf_indx=%d\n",
                sc_adapter[card]->devicename,
                ReqLnkWrite.msg_len, ReqLnkWrite.buff_offset,
                sc_adapter[card]->channel[channel].next_sendbuf);

        status = sendmessage(card, CEPID, ceReqTypeLnk, ceReqClass1, ceReqLnkWrite,
                                channel+1, sizeof(LLData), (unsigned int*)&ReqLnkWrite);
        len = data->len;
        if(status) {
                pr_debug("%s: failed to send packet, status = %d\n",
                                sc_adapter[card]->devicename, status);
                return -1;
        }
        else {
                sc_adapter[card]->channel[channel].free_sendbufs--;
                sc_adapter[card]->channel[channel].next_sendbuf =
                        ++sc_adapter[card]->channel[channel].next_sendbuf ==
                        sc_adapter[card]->channel[channel].num_sendbufs ? 0 :
                        sc_adapter[card]->channel[channel].next_sendbuf;
                        pr_debug("%s: packet sent successfully\n", sc_adapter[card]->devicename);
                dev_kfree_skb(data);
                indicate_status(card,ISDN_STAT_BSENT,channel, (char *)&len);
        }
        return len;
}

void rcvpkt(int card, RspMessage *rcvmsg)
{
        LLData newll;
        struct sk_buff *skb;

        if(!IS_VALID_CARD(card)) {
                pr_debug("invalid param: %d is not a valid card id\n", card);
                return;
        }

        switch(rcvmsg->rsp_status){
        case 0x01:
        case 0x02:
        case 0x70:
                pr_debug("%s: error status code: 0x%x\n",
                        sc_adapter[card]->devicename, rcvmsg->rsp_status);
                return;
        case 0x00: 
            if (!(skb = dev_alloc_skb(rcvmsg->msg_data.response.msg_len))) {
                        printk(KERN_WARNING "%s: rcvpkt out of memory, dropping packet\n",
                                sc_adapter[card]->devicename);
                        return;
                }
                skb_put(skb, rcvmsg->msg_data.response.msg_len);
                pr_debug("%s: getting data from offset: 0x%x\n",
                        sc_adapter[card]->devicename,
                        rcvmsg->msg_data.response.buff_offset);
                memcpy_fromshmem(card,
                        skb_put(skb, rcvmsg->msg_data.response.msg_len),
                        (char *)rcvmsg->msg_data.response.buff_offset,
                        rcvmsg->msg_data.response.msg_len);
                sc_adapter[card]->card->rcvcallb_skb(sc_adapter[card]->driverId,
                        rcvmsg->phy_link_no-1, skb);

        case 0x03:
                /*
                 * Recycle the buffer
                 */
                pr_debug("%s: buffer size : %d\n",
                                sc_adapter[card]->devicename, BUFFER_SIZE);
/*              memset_shmem(card, rcvmsg->msg_data.response.buff_offset, 0, BUFFER_SIZE); */
                newll.buff_offset = rcvmsg->msg_data.response.buff_offset;
                newll.msg_len = BUFFER_SIZE;
                pr_debug("%s: recycled buffer at offset 0x%x size %d\n",
                        sc_adapter[card]->devicename,
                        newll.buff_offset, newll.msg_len);
                sendmessage(card, CEPID, ceReqTypeLnk, ceReqClass1, ceReqLnkRead,
                        rcvmsg->phy_link_no, sizeof(LLData), (unsigned int *)&newll);
        }

}

int setup_buffers(int card, int c)
{
        unsigned int nBuffers, i, cBase;
        unsigned int buffer_size;
        LLData  RcvBuffOffset;

        if(!IS_VALID_CARD(card)) {
                pr_debug("invalid param: %d is not a valid card id\n", card);
                return -ENODEV;
        }

        /*
         * Calculate the buffer offsets (send/recv/send/recv)
         */
        pr_debug("%s: setting up channel buffer space in shared RAM\n",
                        sc_adapter[card]->devicename);
        buffer_size = BUFFER_SIZE;
        nBuffers = ((sc_adapter[card]->ramsize - BUFFER_BASE) / buffer_size) / 2;
        nBuffers = nBuffers > BUFFERS_MAX ? BUFFERS_MAX : nBuffers;
        pr_debug("%s: calculating buffer space: %d buffers, %d big\n",
                sc_adapter[card]->devicename,
                nBuffers, buffer_size);
        if(nBuffers < 2) {
                pr_debug("%s: not enough buffer space\n",
                        sc_adapter[card]->devicename);
                return -1;
        }
        cBase = (nBuffers * buffer_size) * (c - 1);
        pr_debug("%s: channel buffer offset from shared RAM: 0x%x\n",
                        sc_adapter[card]->devicename, cBase);
        sc_adapter[card]->channel[c-1].first_sendbuf = BUFFER_BASE + cBase;
        sc_adapter[card]->channel[c-1].num_sendbufs = nBuffers / 2;
        sc_adapter[card]->channel[c-1].free_sendbufs = nBuffers / 2;
        sc_adapter[card]->channel[c-1].next_sendbuf = 0;
        pr_debug("%s: send buffer setup complete: first=0x%x n=%d f=%d, nxt=%d\n",
                                sc_adapter[card]->devicename,
                                sc_adapter[card]->channel[c-1].first_sendbuf,
                                sc_adapter[card]->channel[c-1].num_sendbufs,
                                sc_adapter[card]->channel[c-1].free_sendbufs,
                                sc_adapter[card]->channel[c-1].next_sendbuf);

        /*
         * Prep the receive buffers
         */
        pr_debug("%s: adding %d RecvBuffers:\n",
                        sc_adapter[card]->devicename, nBuffers /2);
        for (i = 0 ; i < nBuffers / 2; i++) {
                RcvBuffOffset.buff_offset = 
                        ((sc_adapter[card]->channel[c-1].first_sendbuf +
                        (nBuffers / 2) * buffer_size) + (buffer_size * i));
                RcvBuffOffset.msg_len = buffer_size;
                pr_debug("%s: adding RcvBuffer #%d offset=0x%x sz=%d bufsz:%d\n",
                                sc_adapter[card]->devicename,
                                i + 1, RcvBuffOffset.buff_offset, 
                                RcvBuffOffset.msg_len,buffer_size);
                sendmessage(card, CEPID, ceReqTypeLnk, ceReqClass1, ceReqLnkRead,
                                c, sizeof(LLData), (unsigned int *)&RcvBuffOffset);
        } 
        return 0;
}

int print_skb(int card,char *skb_p, int len){
        int i,data;
        pr_debug("%s: data at 0x%x len: 0x%x\n", sc_adapter[card]->devicename,
                        skb_p,len);
        for(i=1;i<=len;i++,skb_p++){
                data = (int) (0xff & (*skb_p));
                pr_debug("%s: data =  0x%x", sc_adapter[card]->devicename,data);
                if(!(i%4))
                        pr_debug(" ");
                if(!(i%32))
                        pr_debug("\n");
        }
        pr_debug("\n");
        return 0;
}