src/AmigaOS/ether_amiga.cpp

/*
 *  ether_amiga.cpp - Ethernet device driver, AmigaOS specific stuff
 *
 *  Basilisk II (C) 1997-2008 Christian Bauer
 *
 *  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 <exec/types.h>
#include <exec/memory.h>
#include <exec/errors.h>
#include <dos/dos.h>
#include <dos/dosextens.h>
#include <dos/dostags.h>
#include <devices/sana2.h>
#define __USE_SYSBASE
#include <proto/exec.h>
#include <proto/dos.h>
#include <inline/exec.h>
#include <inline/dos.h>
#include <clib/alib_protos.h>

#include "sysdeps.h"
#include "cpu_emulation.h"
#include "main.h"
#include "prefs.h"
#include "user_strings.h"
#include "macos_util.h"
#include "ether.h"
#include "ether_defs.h"

#define DEBUG 0
#include "debug.h"

#define MONITOR 0


// These messages are sent to the network process
const uint32 MSG_CLEANUP = 'clea';                      // Remove all protocols
const uint32 MSG_ADD_MULTI = 'addm';            // Add multicast address
const uint32 MSG_DEL_MULTI = 'delm';            // Add multicast address
const uint32 MSG_ATTACH_PH = 'atph';            // Attach protocol handler
const uint32 MSG_DETACH_PH = 'deph';            // Attach protocol handler
const uint32 MSG_WRITE = 'writ';                        // Write packet

struct NetMessage : public Message {
        NetMessage(uint32 what_, const struct MsgPort *reply_port)
        {
                what = what_;
                mn_ReplyPort = (struct MsgPort *)reply_port;
                mn_Length = sizeof(*this);
        }
        uint32 what;
        uint32 pointer;
        uint16 type;
        int16 result;
};


// List of attached protocols
static const int NUM_READ_REQUESTS = 32;        // Number of read requests that are sent to device in advance

struct NetProtocol : public Node {
        struct IOSana2Req read_io[NUM_READ_REQUESTS];
        uint8 read_buf[NUM_READ_REQUESTS][1518];        // 14 bytes header, 1500 bytes data, 4 bytes CRC
        uint16 type;
        uint32 handler;
};

static struct List prot_list;


// Global variables
static struct Process *net_proc = NULL;         // Network device handler process
static bool proc_error;                                         // Flag: process didn't initialize
static struct MsgPort *proc_port = NULL;        // Message port of process, for communication with main task
static struct MsgPort *reply_port = NULL;       // Reply port for communication with process
static struct MsgPort *read_port = NULL;        // Reply port for read IORequests (set up and owned by network process)

static bool write_done = false;                         // Flag: write request done

extern struct Task *MainTask;                           // Pointer to main task (from main_amiga.cpp)


// Prototypes
static void net_func(void);


/*
 *  Send message to network process
 */

static int16 send_to_proc(uint32 what, uint32 pointer = 0, uint16 type = 0)
{
        D(bug("sending %08lx to net_proc\n", what));
        NetMessage msg(what, reply_port);
        msg.pointer = pointer;
        msg.type = type;
        PutMsg(proc_port, &msg);
        WaitPort(reply_port);
        GetMsg(reply_port);
        D(bug(" sent\n"));
        return msg.result;
}


/*
 *  Initialization
 */

bool ether_init(void)
{
        // Do nothing if no Ethernet device specified
        if (PrefsFindString("ether") == NULL)
                return false;

        // Initialize protocol list
        NewList(&prot_list);

        // Create message port
        reply_port = CreateMsgPort();
        if (reply_port == NULL)
                goto open_error;
        D(bug("signal mask %08lx\n", 1 << reply_port->mp_SigBit));

        // Start process
        proc_error = false;
        SetSignal(0, SIGF_SINGLE);
        net_proc = CreateNewProcTags(
                NP_Entry, (ULONG)net_func,
                NP_Name, (ULONG)"Basilisk II Ethernet Task",
                NP_Priority, 1,
                TAG_END 
        );
        if (net_proc == NULL)
                goto open_error;

        // Wait for signal from process
        Wait(SIGF_SINGLE);

        // Initialization error? Then bail out
        if (proc_error)
                goto open_error;

        // Everything OK
        return true;

open_error:
        net_proc = NULL;
        if (reply_port) {
                DeleteMsgPort(reply_port);
                reply_port = NULL;
        }
        return false;
}


/*
 *  Deinitialization
 */

void ether_exit(void)
{
        // Stop process
        if (net_proc) {
                SetSignal(0, SIGF_SINGLE);
                Signal(&net_proc->pr_Task, SIGBREAKF_CTRL_C);
                Wait(SIGF_SINGLE);
        }

        // Delete reply port
        if (reply_port) {
                DeleteMsgPort(reply_port);
                reply_port = NULL;
        }
}


/*
 *  Reset
 */

void ether_reset(void)
{
        // Remove all protocols
        if (net_proc)
                send_to_proc(MSG_CLEANUP);
}


/*
 *  Add multicast address
 */

int16 ether_add_multicast(uint32 pb)
{
        return send_to_proc(MSG_ADD_MULTI, pb);
}


/*
 *  Delete multicast address
 */

int16 ether_del_multicast(uint32 pb)
{
        return send_to_proc(MSG_DEL_MULTI, pb);
}


/*
 *  Attach protocol handler
 */

int16 ether_attach_ph(uint16 type, uint32 handler)
{
        return send_to_proc(MSG_ATTACH_PH, handler, type);
}


/*
 *  Detach protocol handler
 */

int16 ether_detach_ph(uint16 type)
{
        return send_to_proc(MSG_DETACH_PH, type);
}


/*
 *  Transmit raw ethernet packet
 */

int16 ether_write(uint32 wds)
{
        send_to_proc(MSG_WRITE, wds);
        return 1;       // Command in progress
}


/*
 *  Remove protocol from protocol list
 */

static void remove_protocol(NetProtocol *p)
{
        // Remove from list
        Forbid();
        Remove(p);
        Permit();

        // Cancel read requests
        for (int i=0; i<NUM_READ_REQUESTS; i++) {
                AbortIO((struct IORequest *)(p->read_io + i));
                WaitIO((struct IORequest *)(p->read_io + i));
        }

        // Free protocol struct
        FreeMem(p, sizeof(NetProtocol));
}


/*
 *  Remove all protocols
 */

static void remove_all_protocols(void)
{
        NetProtocol *n = (NetProtocol *)prot_list.lh_Head, *next;
        while ((next = (NetProtocol *)n->ln_Succ) != NULL) {
                remove_protocol(n);
                n = next;
        }
}


/*
 *  Copy received network packet to Mac side
 */

static __saveds __regargs LONG copy_to_buff(uint8 *to /*a0*/, uint8 *from /*a1*/, uint32 packet_len /*d0*/)
{
        D(bug("CopyToBuff to %08lx, from %08lx, size %08lx\n", to, from, packet_len));

        // It would be more efficient (and take up less memory) if we
        // could invoke the packet handler from here. But we don't know
        // in what context we run, so calling Execute68k() would not be
        // a good idea, and even worse, we might run inside a hardware
        // interrupt, so we can't even trigger a Basilisk interrupt from
        // here and wait for its completion.
        CopyMem(from, to, packet_len);
#if MONITOR
        bug("Receiving Ethernet packet:\n");
        for (int i=0; i<packet_len; i++) {
                bug("%02lx ", from[i]);
        }
        bug("\n");
#endif
        return 1;
}


/*
 *  Copy data from Mac WDS to outgoing network packet
 */

static __saveds __regargs LONG copy_from_buff(uint8 *to /*a0*/, char *wds /*a1*/, uint32 packet_len /*d0*/)
{
        D(bug("CopyFromBuff to %08lx, wds %08lx, size %08lx\n", to, wds, packet_len));
#if MONITOR
        bug("Sending Ethernet packet:\n");
#endif
        for (;;) {
                int len = ReadMacInt16((uint32)wds);
                if (len == 0)
                        break;
#if MONITOR
                uint8 *adr = Mac2HostAddr(ReadMacInt32((uint32)wds + 2));
                for (int i=0; i<len; i++) {
                        bug("%02lx ", adr[i]);
                }
#endif
                CopyMem(Mac2HostAddr(ReadMacInt32((uint32)wds + 2)), to, len);
                to += len;
                wds += 6;
        }
#if MONITOR
        bug("\n");
#endif
        return 1;
}


/*
 *  Process for communication with the Ethernet device
 */

static __saveds void net_func(void)
{
        const char *str;
        BYTE od_error;
        struct MsgPort *write_port = NULL, *control_port = NULL;
        struct IOSana2Req *write_io = NULL, *control_io = NULL;
        bool opened = false;
        ULONG read_mask = 0, write_mask = 0, proc_port_mask = 0;
        struct Sana2DeviceQuery query_data = {sizeof(Sana2DeviceQuery)};
        ULONG buffer_tags[] = {
                S2_CopyToBuff, (uint32)copy_to_buff,
                S2_CopyFromBuff, (uint32)copy_from_buff,
                TAG_END
        };

        // Default: error occured
        proc_error = true;

        // Create message port for communication with main task
        proc_port = CreateMsgPort();
        if (proc_port == NULL)
                goto quit;
        proc_port_mask = 1 << proc_port->mp_SigBit;

        // Create message ports for device I/O
        read_port = CreateMsgPort();
        if (read_port == NULL)
                goto quit;
        read_mask = 1 << read_port->mp_SigBit;
        write_port = CreateMsgPort();
        if (write_port == NULL)
                goto quit;
        write_mask = 1 << write_port->mp_SigBit;
        control_port = CreateMsgPort();
        if (control_port == NULL)
                goto quit;

        // Create control IORequest
        control_io = (struct IOSana2Req *)CreateIORequest(control_port, sizeof(struct IOSana2Req));
        if (control_io == NULL)
                goto quit;
        control_io->ios2_Req.io_Message.mn_Node.ln_Type = 0;    // Avoid CheckIO() bug

        // Parse device name
        char dev_name[256];
        ULONG dev_unit;

        str = PrefsFindString("ether");
        if (str) {
                const char *FirstSlash = strchr(str, '/');
                const char *LastSlash = strrchr(str, '/');

                if (FirstSlash && FirstSlash && FirstSlash != LastSlash) {

                        // Device name contains path, i.e. "Networks/xyzzy.device"
                        const char *lp = str;
                        char *dp = dev_name;

                        while (lp != LastSlash)
                                *dp++ = *lp++;
                        *dp = '\0';

                        if (strlen(dev_name) < 1)
                                goto quit;

                        if (sscanf(LastSlash, "/%ld", &dev_unit) != 1)
                                goto quit;
                } else {
                        if (sscanf(str, "%[^/]/%ld", dev_name, &dev_unit) != 2)
                                goto quit;
                }
        } else
                goto quit;

        // Open device
        control_io->ios2_BufferManagement = buffer_tags;
        od_error = OpenDevice((UBYTE *) dev_name, dev_unit, (struct IORequest *)control_io, 0);
        if (od_error != 0 || control_io->ios2_Req.io_Device == 0) {
                printf("WARNING: OpenDevice(<%s>, unit=%d) returned error %d)\n", (UBYTE *)dev_name, dev_unit, od_error);
                goto quit;
        }
        opened = true;

        // Is it Ethernet?
        control_io->ios2_Req.io_Command = S2_DEVICEQUERY;
        control_io->ios2_StatData = (void *)&query_data;
        DoIO((struct IORequest *)control_io);
        if (control_io->ios2_Req.io_Error)
                goto quit;
        if (query_data.HardwareType != S2WireType_Ethernet) {
                WarningAlert(GetString(STR_NOT_ETHERNET_WARN));
                goto quit;
        }

        // Yes, create IORequest for writing
        write_io = (struct IOSana2Req *)CreateIORequest(write_port, sizeof(struct IOSana2Req));
        if (write_io == NULL)
                goto quit;
        memcpy(write_io, control_io, sizeof(struct IOSana2Req));
        write_io->ios2_Req.io_Message.mn_Node.ln_Type = 0;      // Avoid CheckIO() bug
        write_io->ios2_Req.io_Message.mn_ReplyPort = write_port;

        // Configure Ethernet
        control_io->ios2_Req.io_Command = S2_GETSTATIONADDRESS;
        DoIO((struct IORequest *)control_io);
        memcpy(ether_addr, control_io->ios2_DstAddr, 6);
        memcpy(control_io->ios2_SrcAddr, control_io->ios2_DstAddr, 6);
        control_io->ios2_Req.io_Command = S2_CONFIGINTERFACE;
        DoIO((struct IORequest *)control_io);
        D(bug("Ethernet address %08lx %08lx\n", *(uint32 *)ether_addr, *(uint16 *)(ether_addr + 4)));

        // Initialization went well, inform main task
        proc_error = false;
        Signal(MainTask, SIGF_SINGLE);

        // Main loop
        for (;;) {

                // Wait for I/O and messages (CTRL_C is used for quitting the task)
                ULONG sig = Wait(proc_port_mask | read_mask | write_mask | SIGBREAKF_CTRL_C);

                // Main task wants to quit us
                if (sig & SIGBREAKF_CTRL_C)
                        break;

                // Main task sent a command to us
                if (sig & proc_port_mask) {
                        struct NetMessage *msg;
                        while (msg = (NetMessage *)GetMsg(proc_port)) {
                                D(bug("net_proc received %08lx\n", msg->what));
                                switch (msg->what) {
                                        case MSG_CLEANUP:
                                                remove_all_protocols();
                                                break;

                                        case MSG_ADD_MULTI:
                                                control_io->ios2_Req.io_Command = S2_ADDMULTICASTADDRESS;
                                                Mac2Host_memcpy(control_io->ios2_SrcAddr, msg->pointer + eMultiAddr, 6);
                                                DoIO((struct IORequest *)control_io);
                                                if (control_io->ios2_Req.io_Error == S2ERR_NOT_SUPPORTED) {
                                                        WarningAlert(GetString(STR_NO_MULTICAST_WARN));
                                                        msg->result = noErr;
                                                } else if (control_io->ios2_Req.io_Error)
                                                        msg->result = eMultiErr;
                                                else
                                                        msg->result = noErr;
                                                break;

                                        case MSG_DEL_MULTI:
                                                control_io->ios2_Req.io_Command = S2_DELMULTICASTADDRESS;
                                                Mac2Host_memcpy(control_io->ios2_SrcAddr, msg->pointer + eMultiAddr, 6);
                                                DoIO((struct IORequest *)control_io);
                                                if (control_io->ios2_Req.io_Error)
                                                        msg->result = eMultiErr;
                                                else
                                                        msg->result = noErr;
                                                break;

                                        case MSG_ATTACH_PH: {
                                                uint16 type = msg->type;
                                                uint32 handler = msg->pointer;

                                                // Protocol of that type already installed?
                                                NetProtocol *p = (NetProtocol *)prot_list.lh_Head, *next;
                                                while ((next = (NetProtocol *)p->ln_Succ) != NULL) {
                                                        if (p->type == type) {
                                                                msg->result = lapProtErr;
                                                                goto reply;
                                                        }
                                                        p = next;
                                                }

                                                // Allocate NetProtocol, set type and handler
                                                p = (NetProtocol *)AllocMem(sizeof(NetProtocol), MEMF_PUBLIC);
                                                if (p == NULL) {
                                                        msg->result = lapProtErr;
                                                        goto reply;
                                                }
                                                p->type = type;
                                                p->handler = handler;

                                                // Set up and submit read requests
                                                for (int i=0; i<NUM_READ_REQUESTS; i++) {
                                                        memcpy(p->read_io + i, control_io, sizeof(struct IOSana2Req));
                                                        p->read_io[i].ios2_Req.io_Message.mn_Node.ln_Name = (char *)p;  // Hide pointer to NetProtocol in node name
                                                        p->read_io[i].ios2_Req.io_Message.mn_Node.ln_Type = 0;                  // Avoid CheckIO() bug
                                                        p->read_io[i].ios2_Req.io_Message.mn_ReplyPort = read_port;
                                                        p->read_io[i].ios2_Req.io_Command = CMD_READ;
                                                        p->read_io[i].ios2_PacketType = type;
                                                        p->read_io[i].ios2_Data = p->read_buf[i];
                                                        p->read_io[i].ios2_Req.io_Flags = SANA2IOF_RAW;
                                                        BeginIO((struct IORequest *)(p->read_io + i));
                                                }

                                                // Add protocol to list
                                                AddTail(&prot_list, p);

                                                // Everything OK
                                                msg->result = noErr;
                                                break;
                                        }

                                        case MSG_DETACH_PH: {
                                                uint16 type = msg->type;
                                                msg->result = lapProtErr;
                                                NetProtocol *p = (NetProtocol *)prot_list.lh_Head, *next;
                                                while ((next = (NetProtocol *)p->ln_Succ) != NULL) {
                                                        if (p->type == type) {
                                                                remove_protocol(p);
                                                                msg->result = noErr;
                                                                break;
                                                        }
                                                        p = next;
                                                }
                                                break;
                                        }

                                        case MSG_WRITE: {
                                                // Get pointer to Write Data Structure
                                                uint32 wds = msg->pointer;
                                                write_io->ios2_Data = (void *)wds;

                                                // Calculate total packet length
                                                long len = 0;
                                                uint32 tmp = wds;
                                                for (;;) {
                                                        int16 w = ReadMacInt16(tmp);
                                                        if (w == 0)
                                                                break;
                                                        len += w;
                                                        tmp += 6;
                                                }
                                                write_io->ios2_DataLength = len;

                                                // Get destination address
                                                uint32 hdr = ReadMacInt32(wds + 2);
                                                Mac2Host_memcpy(write_io->ios2_DstAddr, hdr, 6);

                                                // Get packet type
                                                uint32 type = ReadMacInt16(hdr + 12);
                                                if (type <= 1500)
                                                        type = 0;               // 802.3 packet
                                                write_io->ios2_PacketType = type;

                                                // Multicast/broadcard packet?
                                                if (write_io->ios2_DstAddr[0] & 1) {
                                                        if (*(uint32 *)(write_io->ios2_DstAddr) == 0xffffffff && *(uint16 *)(write_io->ios2_DstAddr + 4) == 0xffff)
                                                                write_io->ios2_Req.io_Command = S2_BROADCAST;
                                                        else
                                                                write_io->ios2_Req.io_Command = S2_MULTICAST;
                                                } else
                                                        write_io->ios2_Req.io_Command = CMD_WRITE;

                                                // Send packet
                                                write_done = false;
                                                write_io->ios2_Req.io_Flags = SANA2IOF_RAW;
                                                BeginIO((IORequest *)write_io);
                                                break;
                                        }
                                }
reply:                  D(bug(" net_proc replying\n"));
                                ReplyMsg(msg);
                        }
                }

                // Packet received
                if (sig & read_mask) {
                        D(bug(" packet received, triggering Ethernet interrupt\n"));
                        SetInterruptFlag(INTFLAG_ETHER);
                        TriggerInterrupt();
                }

                // Packet write completed
                if (sig & write_mask) {
                        GetMsg(write_port);
                        WriteMacInt32(ether_data + ed_Result, write_io->ios2_Req.io_Error ? excessCollsns : 0);
                        write_done = true;
                        D(bug(" packet write done, triggering Ethernet interrupt\n"));
                        SetInterruptFlag(INTFLAG_ETHER);
                        TriggerInterrupt();
                }
        }
quit:

        // Close everything
        remove_all_protocols();
        if (opened) {
                if (CheckIO((struct IORequest *)write_io) == 0) {
                        AbortIO((struct IORequest *)write_io);
                        WaitIO((struct IORequest *)write_io);
                }
                CloseDevice((struct IORequest *)control_io);
        }
        if (write_io)
                DeleteIORequest(write_io);
        if (control_io)
                DeleteIORequest(control_io);
        if (control_port)
                DeleteMsgPort(control_port);
        if (write_port)
                DeleteMsgPort(write_port);
        if (read_port)
                DeleteMsgPort(read_port);

        // Send signal to main task to confirm termination
        Forbid();
        Signal(MainTask, SIGF_SINGLE);
}


/*
 *  Ethernet interrupt - activate deferred tasks to call IODone or protocol handlers
 */

void EtherInterrupt(void)
{
        D(bug("EtherIRQ\n"));

        // Packet write done, enqueue DT to call IODone
        if (write_done) {
                EnqueueMac(ether_data + ed_DeferredTask, 0xd92);
                write_done = false;
        }

        // Call protocol handler for received packets
        IOSana2Req *io;
        while (io = (struct IOSana2Req *)GetMsg(read_port)) {

                // Get pointer to NetProtocol (hidden in node name)
                NetProtocol *p = (NetProtocol *)io->ios2_Req.io_Message.mn_Node.ln_Name;

                // No default handler
                if (p->handler == 0)
                        continue;

                // Copy header to RHA
                Host2Mac_memcpy(ether_data + ed_RHA, io->ios2_Data, 14);
                D(bug(" header %08lx%04lx %08lx%04lx %04lx\n", ReadMacInt32(ether_data + ed_RHA), ReadMacInt16(ether_data + ed_RHA + 4), ReadMacInt32(ether_data + ed_RHA + 6), ReadMacInt16(ether_data + ed_RHA + 10), ReadMacInt16(ether_data + ed_RHA + 12)));

                // Call protocol handler
                M68kRegisters r;
                r.d[0] = *(uint16 *)((uint32)io->ios2_Data + 12);       // Packet type
                r.d[1] = io->ios2_DataLength - 18;                                      // Remaining packet length (without header, for ReadPacket) (-18 because the CRC is also included)
                r.a[0] = (uint32)io->ios2_Data + 14;                            // Pointer to packet (host address, for ReadPacket)
                r.a[3] = ether_data + ed_RHA + 14;                                      // Pointer behind header in RHA
                r.a[4] = ether_data + ed_ReadPacket;                            // Pointer to ReadPacket/ReadRest routines
                D(bug(" calling protocol handler %08lx, type %08lx, length %08lx, data %08lx, rha %08lx, read_packet %08lx\n", p->handler, r.d[0], r.d[1], r.a[0], r.a[3], r.a[4]));
                Execute68k(p->handler, &r);

                // Resend IORequest
                io->ios2_Req.io_Flags = SANA2IOF_RAW;
                BeginIO((struct IORequest *)io);
        }
        D(bug(" EtherIRQ done\n"));
}
Revision:	1.13
Committed:	2008-01-01T09:40:31Z (16 years, 5 months ago) by gbeauche
Branch:	MAIN
CVS Tags:	HEAD
Changes since 1.12:	+1 -1 lines
Log Message:	Happy New Year!
#	User	Rev	Content
1	cebix	1.1	/*
2			* ether_amiga.cpp - Ethernet device driver, AmigaOS specific stuff
3			*
4	gbeauche	1.13	* Basilisk II (C) 1997-2008 Christian Bauer
5	cebix	1.1	*
6			* This program is free software; you can redistribute it and/or modify
7			* it under the terms of the GNU General Public License as published by
8			* the Free Software Foundation; either version 2 of the License, or
9			* (at your option) any later version.
10			*
11			* This program is distributed in the hope that it will be useful,
12			* but WITHOUT ANY WARRANTY; without even the implied warranty of
13			* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14			* GNU General Public License for more details.
15			*
16			* You should have received a copy of the GNU General Public License
17			* along with this program; if not, write to the Free Software
18			* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
19			*/
20
21			#include <exec/types.h>
22			#include <exec/memory.h>
23			#include <exec/errors.h>
24			#include <dos/dos.h>
25			#include <dos/dosextens.h>
26			#include <dos/dostags.h>
27			#include <devices/sana2.h>
28	jlachmann	1.12	#define __USE_SYSBASE
29	cebix	1.1	#include <proto/exec.h>
30			#include <proto/dos.h>
31	jlachmann	1.12	#include <inline/exec.h>
32			#include <inline/dos.h>
33			#include <clib/alib_protos.h>
34	cebix	1.1
35			#include "sysdeps.h"
36			#include "cpu_emulation.h"
37			#include "main.h"
38			#include "prefs.h"
39			#include "user_strings.h"
40			#include "macos_util.h"
41			#include "ether.h"
42			#include "ether_defs.h"
43
44			#define DEBUG 0
45			#include "debug.h"
46
47			#define MONITOR 0
48
49
50			// These messages are sent to the network process
51			const uint32 MSG_CLEANUP = 'clea'; // Remove all protocols
52			const uint32 MSG_ADD_MULTI = 'addm'; // Add multicast address
53			const uint32 MSG_DEL_MULTI = 'delm'; // Add multicast address
54			const uint32 MSG_ATTACH_PH = 'atph'; // Attach protocol handler
55			const uint32 MSG_DETACH_PH = 'deph'; // Attach protocol handler
56			const uint32 MSG_WRITE = 'writ'; // Write packet
57
58			struct NetMessage : public Message {
59			NetMessage(uint32 what_, const struct MsgPort *reply_port)
60			{
61			what = what_;
62			mn_ReplyPort = (struct MsgPort *)reply_port;
63			mn_Length = sizeof(*this);
64			}
65			uint32 what;
66			uint32 pointer;
67			uint16 type;
68			int16 result;
69			};
70
71
72			// List of attached protocols
73			static const int NUM_READ_REQUESTS = 32; // Number of read requests that are sent to device in advance
74
75			struct NetProtocol : public Node {
76			struct IOSana2Req read_io[NUM_READ_REQUESTS];
77			uint8 read_buf[NUM_READ_REQUESTS][1518]; // 14 bytes header, 1500 bytes data, 4 bytes CRC
78			uint16 type;
79			uint32 handler;
80			};
81
82			static struct List prot_list;
83
84
85			// Global variables
86			static struct Process *net_proc = NULL; // Network device handler process
87			static bool proc_error; // Flag: process didn't initialize
88			static struct MsgPort *proc_port = NULL; // Message port of process, for communication with main task
89			static struct MsgPort *reply_port = NULL; // Reply port for communication with process
90			static struct MsgPort *read_port = NULL; // Reply port for read IORequests (set up and owned by network process)
91
92			static bool write_done = false; // Flag: write request done
93
94			extern struct Task *MainTask; // Pointer to main task (from main_amiga.cpp)
95
96
97			// Prototypes
98			static void net_func(void);
99
100
101			/*
102			* Send message to network process
103			*/
104
105			static int16 send_to_proc(uint32 what, uint32 pointer = 0, uint16 type = 0)
106			{
107			D(bug("sending %08lx to net_proc\n", what));
108			NetMessage msg(what, reply_port);
109			msg.pointer = pointer;
110			msg.type = type;
111			PutMsg(proc_port, &msg);
112			WaitPort(reply_port);
113			GetMsg(reply_port);
114			D(bug(" sent\n"));
115			return msg.result;
116			}
117
118
119			/*
120			* Initialization
121			*/
122
123	cebix	1.7	bool ether_init(void)
124	cebix	1.1	{
125			// Do nothing if no Ethernet device specified
126			if (PrefsFindString("ether") == NULL)
127	cebix	1.7	return false;
128	cebix	1.1
129			// Initialize protocol list
130			NewList(&prot_list);
131
132			// Create message port
133			reply_port = CreateMsgPort();
134			if (reply_port == NULL)
135			goto open_error;
136			D(bug("signal mask %08lx\n", 1 << reply_port->mp_SigBit));
137
138			// Start process
139			proc_error = false;
140			SetSignal(0, SIGF_SINGLE);
141			net_proc = CreateNewProcTags(
142	cebix	1.2	NP_Entry, (ULONG)net_func,
143			NP_Name, (ULONG)"Basilisk II Ethernet Task",
144	cebix	1.1	NP_Priority, 1,
145			TAG_END
146			);
147			if (net_proc == NULL)
148			goto open_error;
149
150			// Wait for signal from process
151			Wait(SIGF_SINGLE);
152
153			// Initialization error? Then bail out
154			if (proc_error)
155			goto open_error;
156
157			// Everything OK
158	cebix	1.7	return true;
159	cebix	1.1
160			open_error:
161			net_proc = NULL;
162			if (reply_port) {
163			DeleteMsgPort(reply_port);
164			reply_port = NULL;
165			}
166	cebix	1.7	return false;
167	cebix	1.1	}
168
169
170			/*
171			* Deinitialization
172			*/
173
174	cebix	1.7	void ether_exit(void)
175	cebix	1.1	{
176			// Stop process
177			if (net_proc) {
178			SetSignal(0, SIGF_SINGLE);
179			Signal(&net_proc->pr_Task, SIGBREAKF_CTRL_C);
180			Wait(SIGF_SINGLE);
181			}
182
183			// Delete reply port
184			if (reply_port) {
185			DeleteMsgPort(reply_port);
186			reply_port = NULL;
187			}
188			}
189
190
191			/*
192			* Reset
193			*/
194
195	cebix	1.8	void ether_reset(void)
196	cebix	1.1	{
197			// Remove all protocols
198	cebix	1.7	if (net_proc)
199	cebix	1.1	send_to_proc(MSG_CLEANUP);
200			}
201
202
203			/*
204			* Add multicast address
205			*/
206
207			int16 ether_add_multicast(uint32 pb)
208			{
209			return send_to_proc(MSG_ADD_MULTI, pb);
210			}
211
212
213			/*
214			* Delete multicast address
215			*/
216
217			int16 ether_del_multicast(uint32 pb)
218			{
219			return send_to_proc(MSG_DEL_MULTI, pb);
220			}
221
222
223			/*
224			* Attach protocol handler
225			*/
226
227			int16 ether_attach_ph(uint16 type, uint32 handler)
228			{
229			return send_to_proc(MSG_ATTACH_PH, handler, type);
230			}
231
232
233			/*
234			* Detach protocol handler
235			*/
236
237			int16 ether_detach_ph(uint16 type)
238			{
239			return send_to_proc(MSG_DETACH_PH, type);
240			}
241
242
243			/*
244			* Transmit raw ethernet packet
245			*/
246
247			int16 ether_write(uint32 wds)
248			{
249			send_to_proc(MSG_WRITE, wds);
250			return 1; // Command in progress
251			}
252
253
254			/*
255			* Remove protocol from protocol list
256			*/
257
258			static void remove_protocol(NetProtocol *p)
259			{
260			// Remove from list
261			Forbid();
262			Remove(p);
263			Permit();
264
265			// Cancel read requests
266			for (int i=0; i<NUM_READ_REQUESTS; i++) {
267			AbortIO((struct IORequest *)(p->read_io + i));
268			WaitIO((struct IORequest *)(p->read_io + i));
269			}
270
271			// Free protocol struct
272			FreeMem(p, sizeof(NetProtocol));
273			}
274
275
276			/*
277			* Remove all protocols
278			*/
279
280			static void remove_all_protocols(void)
281			{
282			NetProtocol n = (NetProtocol )prot_list.lh_Head, *next;
283			while ((next = (NetProtocol *)n->ln_Succ) != NULL) {
284			remove_protocol(n);
285			n = next;
286			}
287			}
288
289
290			/*
291			* Copy received network packet to Mac side
292			*/
293
294	cebix	1.2	static __saveds __regargs LONG copy_to_buff(uint8 to /a0/, uint8 from /a1/, uint32 packet_len /d0/)
295	cebix	1.1	{
296			D(bug("CopyToBuff to %08lx, from %08lx, size %08lx\n", to, from, packet_len));
297
298			// It would be more efficient (and take up less memory) if we
299			// could invoke the packet handler from here. But we don't know
300			// in what context we run, so calling Execute68k() would not be
301			// a good idea, and even worse, we might run inside a hardware
302			// interrupt, so we can't even trigger a Basilisk interrupt from
303			// here and wait for its completion.
304			CopyMem(from, to, packet_len);
305			#if MONITOR
306			bug("Receiving Ethernet packet:\n");
307			for (int i=0; i<packet_len; i++) {
308			bug("%02lx ", from[i]);
309			}
310			bug("\n");
311			#endif
312			return 1;
313			}
314
315
316			/*
317			* Copy data from Mac WDS to outgoing network packet
318			*/
319
320	cebix	1.2	static __saveds __regargs LONG copy_from_buff(uint8 to /a0/, char wds /a1/, uint32 packet_len /d0/)
321	cebix	1.1	{
322			D(bug("CopyFromBuff to %08lx, wds %08lx, size %08lx\n", to, wds, packet_len));
323			#if MONITOR
324			bug("Sending Ethernet packet:\n");
325			#endif
326			for (;;) {
327	cebix	1.2	int len = ReadMacInt16((uint32)wds);
328	cebix	1.1	if (len == 0)
329			break;
330			#if MONITOR
331	cebix	1.2	uint8 *adr = Mac2HostAddr(ReadMacInt32((uint32)wds + 2));
332	cebix	1.1	for (int i=0; i<len; i++) {
333			bug("%02lx ", adr[i]);
334			}
335			#endif
336	cebix	1.2	CopyMem(Mac2HostAddr(ReadMacInt32((uint32)wds + 2)), to, len);
337	cebix	1.1	to += len;
338			wds += 6;
339			}
340			#if MONITOR
341			bug("\n");
342			#endif
343			return 1;
344			}
345
346
347			/*
348			* Process for communication with the Ethernet device
349			*/
350
351			static __saveds void net_func(void)
352			{
353	jlachmann	1.5	const char *str;
354			BYTE od_error;
355	cebix	1.1	struct MsgPort write_port = NULL, control_port = NULL;
356			struct IOSana2Req write_io = NULL, control_io = NULL;
357			bool opened = false;
358			ULONG read_mask = 0, write_mask = 0, proc_port_mask = 0;
359			struct Sana2DeviceQuery query_data = {sizeof(Sana2DeviceQuery)};
360			ULONG buffer_tags[] = {
361			S2_CopyToBuff, (uint32)copy_to_buff,
362			S2_CopyFromBuff, (uint32)copy_from_buff,
363			TAG_END
364			};
365
366			// Default: error occured
367			proc_error = true;
368
369			// Create message port for communication with main task
370			proc_port = CreateMsgPort();
371			if (proc_port == NULL)
372			goto quit;
373			proc_port_mask = 1 << proc_port->mp_SigBit;
374
375			// Create message ports for device I/O
376			read_port = CreateMsgPort();
377			if (read_port == NULL)
378			goto quit;
379			read_mask = 1 << read_port->mp_SigBit;
380			write_port = CreateMsgPort();
381			if (write_port == NULL)
382			goto quit;
383			write_mask = 1 << write_port->mp_SigBit;
384			control_port = CreateMsgPort();
385			if (control_port == NULL)
386			goto quit;
387
388			// Create control IORequest
389			control_io = (struct IOSana2Req *)CreateIORequest(control_port, sizeof(struct IOSana2Req));
390			if (control_io == NULL)
391			goto quit;
392			control_io->ios2_Req.io_Message.mn_Node.ln_Type = 0; // Avoid CheckIO() bug
393
394			// Parse device name
395			char dev_name[256];
396			ULONG dev_unit;
397	jlachmann	1.5
398			str = PrefsFindString("ether");
399	cebix	1.10	if (str) {
400	jlachmann	1.5	const char *FirstSlash = strchr(str, '/');
401			const char *LastSlash = strrchr(str, '/');
402
403	cebix	1.10	if (FirstSlash && FirstSlash && FirstSlash != LastSlash) {
404
405	jlachmann	1.5	// Device name contains path, i.e. "Networks/xyzzy.device"
406			const char *lp = str;
407			char *dp = dev_name;
408
409			while (lp != LastSlash)
410			dp++ = lp++;
411			*dp = '\0';
412
413			if (strlen(dev_name) < 1)
414			goto quit;
415
416	cebix	1.10	if (sscanf(LastSlash, "/%ld", &dev_unit) != 1)
417	jlachmann	1.5	goto quit;
418	cebix	1.10	} else {
419			if (sscanf(str, "%[^/]/%ld", dev_name, &dev_unit) != 2)
420	jlachmann	1.5	goto quit;
421			}
422	cebix	1.10	} else
423	cebix	1.1	goto quit;
424
425			// Open device
426			control_io->ios2_BufferManagement = buffer_tags;
427	jlachmann	1.12	od_error = OpenDevice((UBYTE ) dev_name, dev_unit, (struct IORequest )control_io, 0);
428	cebix	1.10	if (od_error != 0 \|\| control_io->ios2_Req.io_Device == 0) {
429	jlachmann	1.5	printf("WARNING: OpenDevice(<%s>, unit=%d) returned error %d)\n", (UBYTE *)dev_name, dev_unit, od_error);
430	cebix	1.1	goto quit;
431	cebix	1.10	}
432	cebix	1.1	opened = true;
433
434			// Is it Ethernet?
435			control_io->ios2_Req.io_Command = S2_DEVICEQUERY;
436			control_io->ios2_StatData = (void *)&query_data;
437			DoIO((struct IORequest *)control_io);
438			if (control_io->ios2_Req.io_Error)
439			goto quit;
440			if (query_data.HardwareType != S2WireType_Ethernet) {
441			WarningAlert(GetString(STR_NOT_ETHERNET_WARN));
442			goto quit;
443			}
444
445			// Yes, create IORequest for writing
446			write_io = (struct IOSana2Req *)CreateIORequest(write_port, sizeof(struct IOSana2Req));
447			if (write_io == NULL)
448			goto quit;
449			memcpy(write_io, control_io, sizeof(struct IOSana2Req));
450			write_io->ios2_Req.io_Message.mn_Node.ln_Type = 0; // Avoid CheckIO() bug
451			write_io->ios2_Req.io_Message.mn_ReplyPort = write_port;
452
453			// Configure Ethernet
454			control_io->ios2_Req.io_Command = S2_GETSTATIONADDRESS;
455			DoIO((struct IORequest *)control_io);
456			memcpy(ether_addr, control_io->ios2_DstAddr, 6);
457			memcpy(control_io->ios2_SrcAddr, control_io->ios2_DstAddr, 6);
458			control_io->ios2_Req.io_Command = S2_CONFIGINTERFACE;
459			DoIO((struct IORequest *)control_io);
460			D(bug("Ethernet address %08lx %08lx\n", (uint32 )ether_addr, (uint16 )(ether_addr + 4)));
461
462			// Initialization went well, inform main task
463			proc_error = false;
464			Signal(MainTask, SIGF_SINGLE);
465
466			// Main loop
467			for (;;) {
468
469			// Wait for I/O and messages (CTRL_C is used for quitting the task)
470			ULONG sig = Wait(proc_port_mask \| read_mask \| write_mask \| SIGBREAKF_CTRL_C);
471
472			// Main task wants to quit us
473			if (sig & SIGBREAKF_CTRL_C)
474			break;
475
476			// Main task sent a command to us
477			if (sig & proc_port_mask) {
478			struct NetMessage *msg;
479			while (msg = (NetMessage *)GetMsg(proc_port)) {
480			D(bug("net_proc received %08lx\n", msg->what));
481			switch (msg->what) {
482			case MSG_CLEANUP:
483			remove_all_protocols();
484			break;
485
486			case MSG_ADD_MULTI:
487			control_io->ios2_Req.io_Command = S2_ADDMULTICASTADDRESS;
488	cebix	1.3	Mac2Host_memcpy(control_io->ios2_SrcAddr, msg->pointer + eMultiAddr, 6);
489	cebix	1.1	DoIO((struct IORequest *)control_io);
490			if (control_io->ios2_Req.io_Error == S2ERR_NOT_SUPPORTED) {
491			WarningAlert(GetString(STR_NO_MULTICAST_WARN));
492			msg->result = noErr;
493			} else if (control_io->ios2_Req.io_Error)
494			msg->result = eMultiErr;
495			else
496			msg->result = noErr;
497			break;
498
499			case MSG_DEL_MULTI:
500			control_io->ios2_Req.io_Command = S2_DELMULTICASTADDRESS;
501	cebix	1.3	Mac2Host_memcpy(control_io->ios2_SrcAddr, msg->pointer + eMultiAddr, 6);
502	cebix	1.1	DoIO((struct IORequest *)control_io);
503			if (control_io->ios2_Req.io_Error)
504			msg->result = eMultiErr;
505			else
506			msg->result = noErr;
507			break;
508
509			case MSG_ATTACH_PH: {
510			uint16 type = msg->type;
511			uint32 handler = msg->pointer;
512
513			// Protocol of that type already installed?
514			NetProtocol p = (NetProtocol )prot_list.lh_Head, *next;
515			while ((next = (NetProtocol *)p->ln_Succ) != NULL) {
516			if (p->type == type) {
517			msg->result = lapProtErr;
518			goto reply;
519			}
520			p = next;
521			}
522
523			// Allocate NetProtocol, set type and handler
524			p = (NetProtocol *)AllocMem(sizeof(NetProtocol), MEMF_PUBLIC);
525			if (p == NULL) {
526			msg->result = lapProtErr;
527			goto reply;
528			}
529			p->type = type;
530			p->handler = handler;
531
532			// Set up and submit read requests
533			for (int i=0; i<NUM_READ_REQUESTS; i++) {
534			memcpy(p->read_io + i, control_io, sizeof(struct IOSana2Req));
535			p->read_io[i].ios2_Req.io_Message.mn_Node.ln_Name = (char *)p; // Hide pointer to NetProtocol in node name
536			p->read_io[i].ios2_Req.io_Message.mn_Node.ln_Type = 0; // Avoid CheckIO() bug
537			p->read_io[i].ios2_Req.io_Message.mn_ReplyPort = read_port;
538			p->read_io[i].ios2_Req.io_Command = CMD_READ;
539			p->read_io[i].ios2_PacketType = type;
540			p->read_io[i].ios2_Data = p->read_buf[i];
541			p->read_io[i].ios2_Req.io_Flags = SANA2IOF_RAW;
542			BeginIO((struct IORequest *)(p->read_io + i));
543			}
544
545			// Add protocol to list
546			AddTail(&prot_list, p);
547
548			// Everything OK
549			msg->result = noErr;
550			break;
551			}
552
553			case MSG_DETACH_PH: {
554			uint16 type = msg->type;
555			msg->result = lapProtErr;
556			NetProtocol p = (NetProtocol )prot_list.lh_Head, *next;
557			while ((next = (NetProtocol *)p->ln_Succ) != NULL) {
558			if (p->type == type) {
559			remove_protocol(p);
560			msg->result = noErr;
561			break;
562			}
563			p = next;
564			}
565			break;
566			}
567
568			case MSG_WRITE: {
569			// Get pointer to Write Data Structure
570			uint32 wds = msg->pointer;
571			write_io->ios2_Data = (void *)wds;
572
573			// Calculate total packet length
574			long len = 0;
575			uint32 tmp = wds;
576			for (;;) {
577			int16 w = ReadMacInt16(tmp);
578			if (w == 0)
579			break;
580			len += w;
581			tmp += 6;
582			}
583			write_io->ios2_DataLength = len;
584
585	cebix	1.9	// Get destination address
586	cebix	1.1	uint32 hdr = ReadMacInt32(wds + 2);
587	cebix	1.3	Mac2Host_memcpy(write_io->ios2_DstAddr, hdr, 6);
588	cebix	1.1
589			// Get packet type
590			uint32 type = ReadMacInt16(hdr + 12);
591			if (type <= 1500)
592			type = 0; // 802.3 packet
593			write_io->ios2_PacketType = type;
594
595			// Multicast/broadcard packet?
596			if (write_io->ios2_DstAddr[0] & 1) {
597			if ((uint32 )(write_io->ios2_DstAddr) == 0xffffffff && (uint16 )(write_io->ios2_DstAddr + 4) == 0xffff)
598			write_io->ios2_Req.io_Command = S2_BROADCAST;
599			else
600			write_io->ios2_Req.io_Command = S2_MULTICAST;
601			} else
602			write_io->ios2_Req.io_Command = CMD_WRITE;
603
604			// Send packet
605			write_done = false;
606			write_io->ios2_Req.io_Flags = SANA2IOF_RAW;
607			BeginIO((IORequest *)write_io);
608			break;
609			}
610			}
611			reply: D(bug(" net_proc replying\n"));
612			ReplyMsg(msg);
613			}
614			}
615
616			// Packet received
617			if (sig & read_mask) {
618			D(bug(" packet received, triggering Ethernet interrupt\n"));
619			SetInterruptFlag(INTFLAG_ETHER);
620			TriggerInterrupt();
621			}
622
623			// Packet write completed
624			if (sig & write_mask) {
625			GetMsg(write_port);
626			WriteMacInt32(ether_data + ed_Result, write_io->ios2_Req.io_Error ? excessCollsns : 0);
627			write_done = true;
628			D(bug(" packet write done, triggering Ethernet interrupt\n"));
629			SetInterruptFlag(INTFLAG_ETHER);
630			TriggerInterrupt();
631			}
632			}
633			quit:
634
635			// Close everything
636			remove_all_protocols();
637			if (opened) {
638			if (CheckIO((struct IORequest *)write_io) == 0) {
639			AbortIO((struct IORequest *)write_io);
640			WaitIO((struct IORequest *)write_io);
641			}
642			CloseDevice((struct IORequest *)control_io);
643			}
644			if (write_io)
645			DeleteIORequest(write_io);
646			if (control_io)
647			DeleteIORequest(control_io);
648			if (control_port)
649			DeleteMsgPort(control_port);
650			if (write_port)
651			DeleteMsgPort(write_port);
652			if (read_port)
653			DeleteMsgPort(read_port);
654
655			// Send signal to main task to confirm termination
656			Forbid();
657			Signal(MainTask, SIGF_SINGLE);
658			}
659
660
661			/*
662			* Ethernet interrupt - activate deferred tasks to call IODone or protocol handlers
663			*/
664
665			void EtherInterrupt(void)
666			{
667			D(bug("EtherIRQ\n"));
668
669			// Packet write done, enqueue DT to call IODone
670			if (write_done) {
671	cebix	1.2	EnqueueMac(ether_data + ed_DeferredTask, 0xd92);
672	cebix	1.1	write_done = false;
673			}
674
675			// Call protocol handler for received packets
676			IOSana2Req *io;
677			while (io = (struct IOSana2Req *)GetMsg(read_port)) {
678
679			// Get pointer to NetProtocol (hidden in node name)
680			NetProtocol p = (NetProtocol )io->ios2_Req.io_Message.mn_Node.ln_Name;
681
682			// No default handler
683			if (p->handler == 0)
684			continue;
685
686			// Copy header to RHA
687	cebix	1.3	Host2Mac_memcpy(ether_data + ed_RHA, io->ios2_Data, 14);
688	cebix	1.1	D(bug(" header %08lx%04lx %08lx%04lx %04lx\n", ReadMacInt32(ether_data + ed_RHA), ReadMacInt16(ether_data + ed_RHA + 4), ReadMacInt32(ether_data + ed_RHA + 6), ReadMacInt16(ether_data + ed_RHA + 10), ReadMacInt16(ether_data + ed_RHA + 12)));
689
690			// Call protocol handler
691			M68kRegisters r;
692			r.d[0] = (uint16 )((uint32)io->ios2_Data + 12); // Packet type
693			r.d[1] = io->ios2_DataLength - 18; // Remaining packet length (without header, for ReadPacket) (-18 because the CRC is also included)
694			r.a[0] = (uint32)io->ios2_Data + 14; // Pointer to packet (host address, for ReadPacket)
695			r.a[3] = ether_data + ed_RHA + 14; // Pointer behind header in RHA
696			r.a[4] = ether_data + ed_ReadPacket; // Pointer to ReadPacket/ReadRest routines
697			D(bug(" calling protocol handler %08lx, type %08lx, length %08lx, data %08lx, rha %08lx, read_packet %08lx\n", p->handler, r.d[0], r.d[1], r.a[0], r.a[3], r.a[4]));
698			Execute68k(p->handler, &r);
699
700			// Resend IORequest
701			io->ios2_Req.io_Flags = SANA2IOF_RAW;
702			BeginIO((struct IORequest *)io);
703			}
704			D(bug(" EtherIRQ done\n"));
705			}