unix/eth.device: Fix some -O3 strict-aliasing issues

[AROS.git] / arch / all-unix / devs / networks / eth / iotask.c

/*
 * eth - TUN/ETH network driver for AROS
 * Copyright (c) 2007 Robert Norris. All rights reserved.
 * Copyright (c) 2010-2011 The AROS Development Team. All rights reserved.
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the same terms as AROS itself.
 */

#include <hidd/unixio.h>

#include "eth.h"

#include <signal.h>

/* this fires whenever data is waiting to be read on the eth descriptor */
static void eth_receive(struct eth_base *ETHBase, struct eth_unit *unit)
{
    unsigned char buf[ETH_FRAME_LEN], *packet;
    int nread, ioerr;
    struct ethhdr *eth;
    char *dest;
    WORD packet_type;
    struct eth_opener *opener, *opener_next;
    struct IOSana2Req *req, *req_next;
    BOOL bcast = FALSE, mcast = FALSE;
    BOOL accepted = 0;
    struct eth_tracker *tracker, *tracker_next;

    D(bug("[eth] [io:%d] got a packet\n", unit->num));

    /* Try to read the packet */
    nread = Hidd_UnixIO_RecvPacket(ETHBase->unixio, unit->pd, buf, ETH_FRAME_LEN, &ioerr);
    if (nread == -1)
    {
        D(bug("[eth] [io:%d] read failed (%d)\n", unit->num, ioerr));
        return;
    }

    if (!(unit->flags & eu_ONLINE)) {
        D(bug("[eth] [io:%d] we're offline, dropping it\n", unit->num));
        return;
    }

    D(bug("[eth] [io:%d] packet dump (%d bytes):\n", unit->num, nread));
    D(eth_hexdump(buf, nread));

    eth = (struct ethhdr *) buf;
    packet_type = AROS_BE2WORD(eth->h_proto);   /* AROS_BE2WORD === ntohs */

    D(bug("[eth] [io:%d] source address: %02x:%02x:%02x:%02x:%02x:%02x\n", unit->num,
          eth->h_source[0], eth->h_source[1], eth->h_source[2],
          eth->h_source[3], eth->h_source[4], eth->h_source[5]));
    D(bug("[eth] [io:%d] dest address: %02x:%02x:%02x:%02x:%02x:%02x\n", unit->num,
          eth->h_dest[0], eth->h_dest[1], eth->h_dest[2],
          eth->h_dest[3], eth->h_dest[4], eth->h_dest[5]));
    D(bug("[eth] [io:%d] packet type: 0x%04x\n", unit->num, packet_type));

    /* broadcast packets have the top 40 bits (5 bytes) set */
    dest = eth->h_dest;
    if ((*((ULONG *) (dest)) == 0xffffffff) &&
        (*((UWORD *) (dest + 4)) == 0xffff)) {
        D(bug("[eth] [io:%d] broadcast packet\n"));
        bcast = TRUE;
    }

    /* multicasts have the top bit set */
    else if ((eth->h_dest[0] & 0x1) != 0) {
        D(bug("[eth] [io:%d] multicast packet\n"));
        mcast = TRUE;
    }

    /* drop multicast packets (until we have support for them) */
    if (mcast) {
        D(bug("[eth] [io:%d] no support for multicast packets, dropping it\n", unit->num));
        return;
    }

    /* now we loop through our openers, seeing if anyone wants the packet */
    ForeachNodeSafe(&(unit->openers), opener, opener_next) {

        /* loop pending read requests */
        ForeachNodeSafe(&(opener->read_pending.mp_MsgList), req, req_next) {

            if (req->ios2_PacketType == packet_type) {
                D(bug("[eth] [io:%d] found a request that wants this packet, sending it\n", unit->num));

                /* record broadcast/multicast status */
                req->ios2_Req.io_Flags &= ~(SANA2IOF_BCAST | SANA2IOF_MCAST);
                if (bcast)
                    req->ios2_Req.io_Flags |= SANA2IOF_BCAST;
                if (mcast)
                    req->ios2_Req.io_Flags |= SANA2IOF_MCAST;

                /* copy source, dest, type */
                CopyMem(eth->h_source, req->ios2_SrcAddr, ETH_ALEN);
                CopyMem(eth->h_dest, req->ios2_DstAddr, ETH_ALEN);
                req->ios2_PacketType = packet_type;

                /* if they want the raw header, then use as-is */
                if (req->ios2_Req.io_Flags & SANA2IOF_RAW) {
                    req->ios2_DataLength = nread;
                    packet = buf;
                }

                /* otherwise rip the header off */
                else {
                    req->ios2_DataLength = nread - ETH_HLEN;
                    packet = &(buf[ETH_HLEN]);
                }

                /* user filter. the packet gets blocked if
                 *  - the request is CMD_READ, and
                 *  - they provided a filter, and
                 *  - the filter returns false
                 */
                if (req->ios2_Req.io_Command == CMD_READ &&
                    opener->filter != NULL &&
                    ! CallHookPkt(opener->filter, req, packet)) {
                    D(bug("[eth] [io:%d] packet blocked by opener filter\n", unit->num));

                    continue;
                }

                /* hand it to the opener via the provided rx function */
                if (! opener->rx(req->ios2_Data, packet, req->ios2_DataLength)) {
                    D(bug("[eth] [io:%d] opener signaled error during rx copy\n", unit->num));

                    req->ios2_Req.io_Error = S2ERR_NO_RESOURCES;
                    req->ios2_WireError = S2WERR_BUFF_ERROR;
                }

                else {
                    D(bug("[eth] [io:%d] packet copied successfully\n", unit->num));
                }

                Disable();
                Remove((APTR) req);
                Enable();
                ReplyMsg((APTR) req);

                accepted = TRUE;
            }

            if (accepted)
                break;
        }

        if (accepted)
            break;
    }

    if (! accepted) {
        D(bug("[eth] [io:%d] no one claimed the packet, orphaning\n", unit->num));

        /* XXX handle orphans */
    }

    /* update tracked stats */
    ForeachNodeSafe(&(unit->trackers), tracker, tracker_next) {
        if (tracker->packet_type == packet_type) {
            tracker->stats.PacketsReceived ++;
            tracker->stats.BytesReceived += nread;
            if (! accepted)
                tracker->stats.PacketsDropped ++;
        }
    }

    /* update global stats too */
    unit->stats.PacketsReceived ++;
    if (! accepted)
        unit->stats.UnknownTypesReceived ++;
}

/* this fires whenever we can write to the eth descriptor */
static void eth_send(struct eth_base *ETHBase, struct eth_unit *unit)
{
    struct IOSana2Req *req;
    int packet_length;
    struct eth_opener *opener;
    unsigned char buf[ETH_FRAME_LEN], *packet;
    struct ethhdr *eth;
    int ioerr, nwritten = 0;
    struct eth_tracker *tracker, *tracker_next;

    if (!unit->write_queue->mp_MsgList.lh_Head->ln_Succ)
        return;

    /* grab the first pending request */
    req = (struct IOSana2Req *) unit->write_queue->mp_MsgList.lh_Head;

    eth = (struct ethhdr *) buf;

    D(bug("[eth] [io:%d] buffer has %d bytes%s\n", unit->num, req->ios2_DataLength, req->ios2_Req.io_Flags & SANA2IOF_RAW ? " (RAW is set)" : ""));

    /* build a header if they didn't send us one */
    if (! (req->ios2_Req.io_Flags & SANA2IOF_RAW)) {
        D(bug("[eth] [io:%d] adding ethernet header\n", unit->num));

        CopyMem(unit->hwaddr, eth->h_source, ETH_ALEN);
        CopyMem(req->ios2_DstAddr, eth->h_dest, ETH_ALEN);
        eth->h_proto = AROS_WORD2BE(req->ios2_PacketType);  /* AROS_WORD2BE === htons */

        packet = &(buf[ETH_HLEN]);
        packet_length = ETH_HLEN + req->ios2_DataLength;
    }

    /* otherwise just use what they give us */
    else {
        packet = buf;
        packet_length = req->ios2_DataLength;
    }

    /* user magic functions */
    opener = (struct eth_opener *) req->ios2_BufferManagement;

    /* get the opener to magick into a buffer we can use */
    if (! opener->tx(packet, req->ios2_Data, req->ios2_DataLength)) {
        D(bug("[eth] [io:%d] opener signaled error during tx copy\n", unit->num));

        req->ios2_Req.io_Error = S2ERR_NO_RESOURCES;
        req->ios2_WireError = S2WERR_BUFF_ERROR;
    }

    else {
        D(bug("[eth] [io:%d] packet dump (%d bytes):\n", unit->num, packet_length));
        D(eth_hexdump(buf, packet_length));

        D(bug("[eth] [io:%d] source address: %02x:%02x:%02x:%02x:%02x:%02x\n", unit->num,
              eth->h_source[0], eth->h_source[1], eth->h_source[2],
              eth->h_source[3], eth->h_source[4], eth->h_source[5]));
        D(bug("[eth] [io:%d] dest address: %02x:%02x:%02x:%02x:%02x:%02x\n", unit->num,
              eth->h_dest[0], eth->h_dest[1], eth->h_dest[2],
              eth->h_dest[3], eth->h_dest[4], eth->h_dest[5]));
        D(bug("[eth] [io:%d] packet type: 0x%04x\n", unit->num, AROS_BE2WORD(eth->h_proto)));

        /* got a viable buffer, send it out */
        nwritten = Hidd_UnixIO_SendPacket(ETHBase->unixio, unit->pd, buf, packet_length, &ioerr);
        if (nwritten < 0) {
            D(bug("[eth] [io:%d] write failed (%d)\n", unit->num, ioerr));
            req->ios2_Req.io_Error = S2ERR_NO_RESOURCES;
        }
        else if (nwritten < packet_length) {
            D(bug("[eth] [io:%d] short write, only %d bytes written, reporting error\n", unit->num, nwritten));
            req->ios2_Req.io_Error = S2ERR_NO_RESOURCES;
        }
        else
            D(bug("[eth] [io:%d] wrote %d bytes\n", unit->num, nwritten));
    }

    /* update stats */
    if (req->ios2_Req.io_Error == 0) {

        /* tracked */
        ForeachNodeSafe(&(unit->trackers), tracker, tracker_next) {
            if (tracker->packet_type == req->ios2_PacketType) {
                tracker->stats.PacketsSent ++;
                tracker->stats.BytesSent += nwritten;
            }
        }

        /* global */
        unit->stats.PacketsSent ++;
    }

    /* remove and reply to the request */
    Disable();
    Remove((APTR) req);
    Enable();
    ReplyMsg((APTR) req);
};

static void IOHandler(int fd, int mode, void *data)
{
    struct eth_unit *unit = data;
    D(bug("[eth] IO interrupt received\n"));
    Signal(unit->iotask, 1 << unit->io_signal);
}


void eth_iotask(struct eth_base *ETHBase, struct eth_unit *unit)
{
    struct MsgPort *reply_port;
    struct Message *msg;
    ULONG write_signal_mask, abort_signal_mask, io_signal_mask, signal_mask;
    ULONG signaled = 0;
    short write_flag = 0;

    D(bug("[eth] [io:%d] iotask starting up\n", unit->num));

    /* Prepare write queue */
    unit->write_queue = CreateMsgPort();
    D(bug("[eth] Write port %p\n", unit->write_queue));

    /* make some signals, one of them to shut us down, and one for I/O */
    unit->abort_signal = AllocSignal(-1);
    unit->io_signal    = AllocSignal(-1);
    write_signal_mask = 1 << unit->write_queue->mp_SigBit;
    abort_signal_mask = 1 << unit->abort_signal;
    io_signal_mask    = 1 << unit->io_signal;

    /* bundle all the signals together */
    signal_mask = write_signal_mask | abort_signal_mask | io_signal_mask;
    D(bug("[eth] signal mask 0x%08X\n", signal_mask));

    /* start waiting for read events */
    unit->irq.fd          = unit->fd;
    unit->irq.mode        = vHidd_UnixIO_RW;
    unit->irq.handler     = IOHandler;
    unit->irq.handlerData = unit;
    Hidd_UnixIO_AddInterrupt(ETHBase->unixio, &unit->irq);

    reply_port = CreateMsgPort();
    msg = (struct Message *) AllocVec(sizeof(struct Message), MEMF_PUBLIC | MEMF_CLEAR);
    msg->mn_ReplyPort = reply_port;
    msg->mn_Length = sizeof(struct Message);
    PutMsg(unit->iosyncport, msg);
    WaitPort(reply_port);
    GetMsg(reply_port);
    FreeVec(msg);
    DeleteMsgPort(reply_port);

    D(bug("[eth] [io:%d] iotask entering loop\n", unit->num));

    while (1)
    {
        int events;

        do
        {
            events = Hidd_UnixIO_Poll(ETHBase->unixio, unit->fd, vHidd_UnixIO_Read | write_flag, NULL);

            if (events == -1)
                continue;

            if (events & vHidd_UnixIO_Read)
            {
                D(bug("[eth] [io:%d] ready for read\n", unit->num));
                eth_receive(ETHBase, unit);
            }

            if (events & vHidd_UnixIO_Write)
            {
                D(bug("[eth] [io:%d] ready for write\n", unit->num));
                eth_send(ETHBase, unit);

                if (IsMsgPortEmpty(unit->write_queue)) {
                    D(bug("[eth] [io:%d] all packets sent, will ignore future write events\n", unit->num));
                    write_flag = 0;
                }
            }
        } while (events);

        D(bug("[eth] [io:%d] waiting for an event\n", unit->num));

        signaled = Wait(signal_mask);

        D(bug("[eth] [io:%d] iotask signaled\n", unit->num));
        if (signaled & write_signal_mask)
        {
            D(bug("[eth] [io:%d] write requested, enabling\n", unit->num));
            write_flag = vHidd_UnixIO_Write;
        }

        if (signaled & abort_signal_mask) {
            D(bug("[eth] [io:%d] iotask received abort signal\n", unit->num));
            break;
        }

        D(bug("[eth] [io:%d] event processed, replying and looping\n", unit->num));
    }

    D(bug("[eth] [io:%d] iotask exiting\n", unit->num));

    Hidd_UnixIO_RemInterrupt(ETHBase->unixio, &unit->irq);

    FreeSignal(unit->abort_signal);
    FreeSignal(unit->io_signal);

    DeleteMsgPort(unit->write_queue);

    msg = (struct Message *) AllocVec(sizeof(struct Message), MEMF_PUBLIC | MEMF_CLEAR);
    // FIXME: message may be freed before receiver gets it!
    PutMsg(unit->iosyncport, msg);
    FreeVec(msg);
}