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root/cebix/SheepShaver/src/ether.cpp
Revision: 1.1
Committed: 2002-02-04T16:58:13Z (22 years, 9 months ago) by cebix
Branch: MAIN
Branch point for: cebix
Log Message:
Initial revision

File Contents

# User Rev Content
1 cebix 1.1 /*
2     * ether.cpp - SheepShaver Ethernet Device Driver (DLPI)
3     *
4     * SheepShaver (C) 1997-2002 Marc Hellwig and Christian Bauer
5     *
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     /*
22     * TODO
23     * - 802.2 TEST/XID
24     * - MIB statistics
25     */
26    
27     #include <string.h>
28    
29     #include "sysdeps.h"
30     #include "ether.h"
31     #include "ether_defs.h"
32     #include "macos_util.h"
33     #include "cpu_emulation.h"
34     #include "emul_op.h"
35     #include "main.h"
36    
37     #define DEBUG 0
38     #include "debug.h"
39    
40    
41     // Packet types
42     enum {
43     kPktDIX = 0,
44     kPkt8022SAP = 1,
45     kPkt8022GroupSAP = 2,
46     kPkt8022SNAP = 3,
47     kPktIPX = 4,
48     kPktUnknown = 5
49     };
50    
51    
52     /*
53     * Stream private data structure
54     */
55    
56     static const int kGroupSAPMapSize = 128/32; // Number of 32-bit values we need for 128 bits
57     static const int kGSshift = 6;
58     static const int kGSmask = 0x1F;
59    
60     struct multicast_node {
61     multicast_node *next;
62     uint8 addr[kEnetPhysicalAddressLength];
63     };
64    
65     struct DLPIStream {
66     void SetGroupSAP(uint8 sap)
67     {
68     group_sap[sap >> kGSshift] |= (1L << ((sap >> 1) & kGSmask));
69     }
70    
71     void ClearGroupSAP(uint8 sap)
72     {
73     group_sap[sap >> kGSshift] &= ~(1L << ((sap >> 1) & kGSmask));
74     }
75    
76     void ClearAllGroupSAPs(void)
77     {
78     for (int i=0; i<kGroupSAPMapSize; i++)
79     group_sap[i] = 0;
80     }
81    
82     bool TestGroupSAP(uint8 sap)
83     {
84     return group_sap[sap >> kGSshift] & (1L << ((sap >> 1) & kGSmask));
85     }
86    
87     void AddMulticast(uint8 *addr)
88     {
89     multicast_node *n = new multicast_node;
90     memcpy(n->addr, addr, kEnetPhysicalAddressLength);
91     n->next = multicast_list;
92     multicast_list = n;
93     }
94    
95     void RemoveMulticast(uint8 *addr)
96     {
97     multicast_node *p = multicast_list;
98     while (p) {
99     if (memcmp(addr, p->addr, kEnetPhysicalAddressLength) == 0)
100     goto found;
101     p = p->next;
102     }
103     return;
104     found:
105     multicast_node *q = (multicast_node *)&multicast_list;
106     while (q) {
107     if (q->next == p) {
108     q->next = p->next;
109     delete p;
110     return;
111     }
112     q = q->next;
113     }
114     }
115    
116     uint8 *IsMulticastRegistered(uint8 *addr)
117     {
118     multicast_node *n = multicast_list;
119     while (n) {
120     if (memcmp(addr, n->addr, kEnetPhysicalAddressLength) == 0)
121     return n->addr;
122     n = n->next;
123     }
124     return NULL;
125     }
126    
127     uint32 minor_num; // Minor device number of this stream
128     uint32 dlpi_state; // DLPI state of this stream
129     uint32 flags; // Flags
130     uint16 dlsap; // SAP bound to this stream
131     bool framing_8022; // Using 802.2 framing? This is only used to report the MAC type for DL_INFO_ACK and can be set with an ioctl() call
132     queue_t *rdq; // Read queue for this stream
133     uint32 group_sap[kGroupSAPMapSize]; // Map of bound group SAPs
134     uint8 snap[k8022SNAPLength]; // SNAP bound to this stream
135     multicast_node *multicast_list; // List of enabled multicast addresses
136     };
137    
138     // Stream flags
139     enum {
140     kSnapStream = 0x00000001,
141     kAcceptMulticasts = 0x00000002,
142     kAcceptAll8022Packets = 0x00000004,
143     kFastPathMode = 0x00000008
144     };
145    
146     // List of opened streams (used internally by OpenTransport)
147     static DLPIStream *dlpi_stream_list = NULL;
148    
149     // Are we open?
150     bool ether_driver_opened = false;
151    
152     // Our ethernet hardware address
153     static uint8 hardware_address[6] = {0, 0, 0, 0, 0, 0};
154    
155     // Statistics
156     int32 num_wput = 0;
157     int32 num_error_acks = 0;
158     int32 num_tx_packets = 0;
159     int32 num_tx_raw_packets = 0;
160     int32 num_tx_normal_packets = 0;
161     int32 num_tx_buffer_full = 0;
162     int32 num_rx_packets = 0;
163     int32 num_ether_irq = 0;
164     int32 num_unitdata_ind = 0;
165     int32 num_rx_fastpath = 0;
166     int32 num_rx_no_mem = 0;
167     int32 num_rx_dropped = 0;
168     int32 num_rx_stream_not_ready = 0;
169     int32 num_rx_no_unitdata_mem = 0;
170    
171    
172     // Function pointers of imported functions
173     typedef mblk_t *(*allocb_ptr)(size_t size, int pri);
174     static uint32 allocb_tvect = 0;
175     mblk_t *allocb(size_t arg1, int arg2)
176     {
177     return (mblk_t *)CallMacOS2(allocb_ptr, allocb_tvect, arg1, arg2);
178     }
179     typedef void (*freeb_ptr)(mblk_t *);
180     static uint32 freeb_tvect = 0;
181     static inline void freeb(mblk_t *arg1)
182     {
183     CallMacOS1(freeb_ptr, freeb_tvect, arg1);
184     }
185     typedef int16 (*freemsg_ptr)(mblk_t *);
186     static uint32 freemsg_tvect = 0;
187     static inline int16 freemsg(mblk_t *arg1)
188     {
189     return (int16)CallMacOS1(freemsg_ptr, freemsg_tvect, arg1);
190     }
191     typedef mblk_t *(*copyb_ptr)(mblk_t *);
192     static uint32 copyb_tvect = 0;
193     static inline mblk_t *copyb(mblk_t *arg1)
194     {
195     return (mblk_t *)CallMacOS1(copyb_ptr, copyb_tvect, arg1);
196     }
197     typedef mblk_t *(*dupmsg_ptr)(mblk_t *);
198     static uint32 dupmsg_tvect = 0;
199     static inline mblk_t *dupmsg(mblk_t *arg1)
200     {
201     return (mblk_t *)CallMacOS1(dupmsg_ptr, dupmsg_tvect, arg1);
202     }
203     typedef mblk_t *(*getq_ptr)(queue_t *);
204     static uint32 getq_tvect = 0;
205     static inline mblk_t *getq(queue_t *arg1)
206     {
207     return (mblk_t *)CallMacOS1(getq_ptr, getq_tvect, arg1);
208     }
209     typedef int (*putq_ptr)(queue_t *, mblk_t *);
210     static uint32 putq_tvect = 0;
211     static inline int putq(queue_t *arg1, mblk_t *arg2)
212     {
213     return (int)CallMacOS2(putq_ptr, putq_tvect, arg1, arg2);
214     }
215     typedef int (*putnext_ptr)(queue_t *, mblk_t *);
216     static uint32 putnext_tvect = 0;
217     static inline int putnext(queue_t *arg1, mblk_t *arg2)
218     {
219     return (int)CallMacOS2(putnext_ptr, putnext_tvect, arg1, arg2);
220     }
221     typedef int (*putnextctl1_ptr)(queue_t *, int type, int c);
222     static uint32 putnextctl1_tvect = 0;
223     static inline int putnextctl1(queue_t *arg1, int arg2, int arg3)
224     {
225     return (int)CallMacOS3(putnextctl1_ptr, putnextctl1_tvect, arg1, arg2, arg3);
226     }
227     typedef int (*canputnext_ptr)(queue_t *);
228     static uint32 canputnext_tvect = 0;
229     static inline int canputnext(queue_t *arg1)
230     {
231     return (int)CallMacOS1(canputnext_ptr, canputnext_tvect, arg1);
232     }
233     typedef int (*qreply_ptr)(queue_t *, mblk_t *);
234     static uint32 qreply_tvect = 0;
235     static inline int qreply(queue_t *arg1, mblk_t *arg2)
236     {
237     return (int)CallMacOS2(qreply_ptr, qreply_tvect, arg1, arg2);
238     }
239     typedef void (*flushq_ptr)(queue_t *, int flag);
240     static uint32 flushq_tvect = 0;
241     static inline void flushq(queue_t *arg1, int arg2)
242     {
243     CallMacOS2(flushq_ptr, flushq_tvect, arg1, arg2);
244     }
245     typedef int (*msgdsize_ptr)(const mblk_t *);
246     static uint32 msgdsize_tvect = 0;
247     static inline int msgdsize(const mblk_t *arg1)
248     {
249     return (int)CallMacOS1(msgdsize_ptr, msgdsize_tvect, arg1);
250     }
251     typedef void (*otenterint_ptr)(void);
252     static uint32 otenterint_tvect = 0;
253     void OTEnterInterrupt(void)
254     {
255     CallMacOS(otenterint_ptr, otenterint_tvect);
256     }
257     typedef void (*otleaveint_ptr)(void);
258     static uint32 otleaveint_tvect = 0;
259     void OTLeaveInterrupt(void)
260     {
261     CallMacOS(otleaveint_ptr, otleaveint_tvect);
262     }
263     typedef int (*mi_open_comm_ptr)(DLPIStream **mi_opp_orig, size_t size, queue_t *q, void *dev, int flag, int sflag, void *credp);
264     static uint32 mi_open_comm_tvect = 0;
265     static inline int mi_open_comm(DLPIStream **arg1, size_t arg2, queue_t *arg3, void *arg4, int arg5, int arg6, void *arg7)
266     {
267     return (int)CallMacOS7(mi_open_comm_ptr, mi_open_comm_tvect, arg1, arg2, arg3, arg4, arg5, arg6, arg7);
268     }
269     typedef int (*mi_close_comm_ptr)(DLPIStream **mi_opp_orig, queue_t *q);
270     static uint32 mi_close_comm_tvect = 0;
271     static inline int mi_close_comm(DLPIStream **arg1, queue_t *arg2)
272     {
273     return (int)CallMacOS2(mi_close_comm_ptr, mi_close_comm_tvect, arg1, arg2);
274     }
275     typedef DLPIStream *(*mi_next_ptr_ptr)(DLPIStream *);
276     static uint32 mi_next_ptr_tvect = 0;
277     static inline DLPIStream *mi_next_ptr(DLPIStream *arg1)
278     {
279     return (DLPIStream *)CallMacOS1(mi_next_ptr_ptr, mi_next_ptr_tvect, arg1);
280     }
281    
282    
283     // Prototypes
284     static void ether_ioctl(DLPIStream *the_stream, queue_t* q, mblk_t* mp);
285     static void ether_flush(queue_t* q, mblk_t* mp);
286     static mblk_t *build_tx_packet_header(DLPIStream *the_stream, mblk_t *mp, bool fast_path);
287     static void transmit_packet(mblk_t *mp);
288     static void DLPI_error_ack(DLPIStream *the_stream, queue_t *q, mblk_t *ack_mp, uint32 prim, uint32 err, uint32 uerr);
289     static void DLPI_ok_ack(DLPIStream *the_stream, queue_t *q, mblk_t *ack_mp, uint32 prim);
290     static void DLPI_info(DLPIStream *the_stream, queue_t *q, mblk_t *mp);
291     static void DLPI_phys_addr(DLPIStream *the_stream, queue_t *q, mblk_t *mp);
292     static void DLPI_bind(DLPIStream *the_stream, queue_t *q, mblk_t *mp);
293     static void DLPI_unbind(DLPIStream *the_stream, queue_t *q, mblk_t *mp);
294     static void DLPI_subs_bind(DLPIStream *the_stream, queue_t *q, mblk_t *mp);
295     static void DLPI_subs_unbind(DLPIStream *the_stream, queue_t *q, mblk_t *mp);
296     static void DLPI_enable_multi(DLPIStream *the_stream, queue_t *q, mblk_t *mp);
297     static void DLPI_disable_multi(DLPIStream *the_stream, queue_t *q, mblk_t *mp);
298     static void DLPI_unit_data(DLPIStream *the_stream, queue_t *q, mblk_t *mp);
299    
300    
301     /*
302     * Initialize ethernet stream module
303     */
304    
305     uint8 InitStreamModule(void *theID)
306     {
307     D(bug("InitStreamModule\n"));
308    
309     // Don't re-open if already open
310     if (ether_driver_opened)
311     return true;
312     ether_driver_opened = false;
313    
314     // Import functions from OTKernelLib
315     allocb_tvect = (uint32)FindLibSymbol("\013OTKernelLib", "\006allocb");
316     D(bug("allocb TVECT at %08lx\n", allocb_tvect));
317     if (allocb_tvect == 0)
318     return false;
319     freeb_tvect = (uint32)FindLibSymbol("\013OTKernelLib", "\005freeb");
320     D(bug("freeb TVECT at %08lx\n", freeb_tvect));
321     if (freeb_tvect == 0)
322     return false;
323     freemsg_tvect = (uint32)FindLibSymbol("\013OTKernelLib", "\007freemsg");
324     D(bug("freemsg TVECT at %08lx\n", freemsg_tvect));
325     if (freemsg_tvect == 0)
326     return false;
327     copyb_tvect = (uint32)FindLibSymbol("\013OTKernelLib", "\005copyb");
328     D(bug("copyb TVECT at %08lx\n", copyb_tvect));
329     if (copyb_tvect == 0)
330     return false;
331     dupmsg_tvect = (uint32)FindLibSymbol("\013OTKernelLib", "\006dupmsg");
332     D(bug("dupmsg TVECT at %08lx\n", dupmsg_tvect));
333     if (dupmsg_tvect == 0)
334     return false;
335     getq_tvect = (uint32)FindLibSymbol("\013OTKernelLib", "\004getq");
336     D(bug("getq TVECT at %08lx\n", getq_tvect));
337     if (getq_tvect == 0)
338     return false;
339     putq_tvect = (uint32)FindLibSymbol("\013OTKernelLib", "\004putq");
340     D(bug("putq TVECT at %08lx\n", putq_tvect));
341     if (putq_tvect == 0)
342     return false;
343     putnext_tvect = (uint32)FindLibSymbol("\013OTKernelLib", "\007putnext");
344     D(bug("putnext TVECT at %08lx\n", putnext_tvect));
345     if (putnext_tvect == 0)
346     return false;
347     putnextctl1_tvect = (uint32)FindLibSymbol("\013OTKernelLib", "\013putnextctl1");
348     D(bug("putnextctl1 TVECT at %08lx\n", putnextctl1_tvect));
349     if (putnextctl1_tvect == 0)
350     return false;
351     canputnext_tvect = (uint32)FindLibSymbol("\013OTKernelLib", "\012canputnext");
352     D(bug("canputnext TVECT at %08lx\n", canputnext_tvect));
353     if (canputnext_tvect == 0)
354     return false;
355     qreply_tvect = (uint32)FindLibSymbol("\013OTKernelLib", "\006qreply");
356     D(bug("qreply TVECT at %08lx\n", qreply_tvect));
357     if (qreply_tvect == 0)
358     return false;
359     flushq_tvect = (uint32)FindLibSymbol("\013OTKernelLib", "\006flushq");
360     D(bug("flushq TVECT at %08lx\n", flushq_tvect));
361     if (flushq_tvect == 0)
362     return false;
363     msgdsize_tvect = (uint32)FindLibSymbol("\013OTKernelLib", "\010msgdsize");
364     D(bug("msgdsize TVECT at %08lx\n", msgdsize_tvect));
365     if (msgdsize_tvect == 0)
366     return false;
367     otenterint_tvect = (uint32)FindLibSymbol("\017OTKernelUtilLib", "\020OTEnterInterrupt");
368     D(bug("OTEnterInterrupt TVECT at %08lx\n", otenterint_tvect));
369     if (otenterint_tvect == 0)
370     return false;
371     otleaveint_tvect = (uint32)FindLibSymbol("\017OTKernelUtilLib", "\020OTLeaveInterrupt");
372     D(bug("OTLeaveInterrupt TVECT at %08lx\n", otleaveint_tvect));
373     if (otleaveint_tvect == 0)
374     return false;
375     mi_open_comm_tvect = (uint32)FindLibSymbol("\013OTKernelLib", "\014mi_open_comm");
376     D(bug("mi_open_comm TVECT at %08lx\n", mi_open_comm_tvect));
377     if (mi_open_comm_tvect == 0)
378     return false;
379     mi_close_comm_tvect = (uint32)FindLibSymbol("\013OTKernelLib", "\015mi_close_comm");
380     D(bug("mi_close_comm TVECT at %08lx\n", mi_close_comm_tvect));
381     if (mi_close_comm_tvect == 0)
382     return false;
383     mi_next_ptr_tvect = (uint32)FindLibSymbol("\013OTKernelLib", "\013mi_next_ptr");
384     D(bug("mi_next_ptr TVECT at %08lx\n", mi_next_ptr_tvect));
385     if (mi_next_ptr_tvect == 0)
386     return false;
387    
388     // Initialize stream list (which might be leftover)
389     dlpi_stream_list = NULL;
390    
391     // Ask add-on for ethernet hardware address
392     AO_get_ethernet_address(hardware_address);
393    
394     // Yes, we're open
395     ether_driver_opened = true;
396     return true;
397     }
398    
399    
400     /*
401     * Terminate ethernet stream module
402     */
403    
404     void TerminateStreamModule(void)
405     {
406     D(bug("TerminateStreamModule\n"));
407    
408     // This happens sometimes. I don't know why.
409     if (dlpi_stream_list != NULL)
410     printf("FATAL: TerminateStreamModule() called, but streams still open\n");
411    
412     // Sorry, we're closed
413     ether_driver_opened = false;
414     }
415    
416    
417     /*
418     * Open new stream
419     */
420    
421     int ether_open(queue_t *rdq, void *dev, int flag, int sflag, void *creds)
422     {
423     D(bug("ether_open(%p,%p,%d,%d,%p)\n", rdq, dev, flag, sflag, creds));
424    
425     // Return if driver was closed
426     if (!ether_driver_opened) {
427     printf("FATAL: ether_open(): Ethernet driver not opened\n");
428     return MAC_ENXIO;
429     }
430    
431     // If we're being reopened, just return
432     if (rdq->q_ptr != NULL)
433     return 0;
434    
435     // Allocate DLPIStream structure
436     int err = mi_open_comm(&dlpi_stream_list, sizeof(DLPIStream), rdq, dev, flag, sflag, creds);
437     if (err)
438     return err;
439     DLPIStream *the_stream = (DLPIStream *)rdq->q_ptr;
440     the_stream->rdq = rdq;
441     the_stream->dlpi_state = DL_UNBOUND;
442     the_stream->flags = 0;
443     the_stream->dlsap = 0;
444     the_stream->framing_8022 = false;
445     the_stream->multicast_list = NULL;
446     return 0;
447     }
448    
449    
450     /*
451     * Close stream
452     */
453    
454     int ether_close(queue_t *rdq, int flag, void *creds)
455     {
456     D(bug("ether_close(%p,%d,%p)\n", rdq, flag, creds));
457    
458     // Return if driver was closed
459     if (!ether_driver_opened) {
460     printf("FATAL: ether_close(): Ethernet driver not opened\n");
461     return MAC_ENXIO;
462     }
463    
464     // Get stream
465     DLPIStream *the_stream = (DLPIStream *)rdq->q_ptr;
466    
467     // Don't close if never opened
468     if (the_stream == NULL)
469     return 0;
470    
471     // Disable all registered multicast addresses
472     while (the_stream->multicast_list) {
473     AO_disable_multicast(the_stream->multicast_list->addr);
474     the_stream->RemoveMulticast(the_stream->multicast_list->addr);
475     }
476     the_stream->multicast_list = NULL;
477    
478     // Delete the DLPIStream
479     return mi_close_comm(&dlpi_stream_list, rdq);
480     }
481    
482    
483     /*
484     * Put something on the write queue
485     */
486    
487     int ether_wput(queue_t *q, mblk_t *mp)
488     {
489     D(bug("ether_wput(%p,%p)\n", q, mp));
490    
491     // Return if driver was closed
492     if (!ether_driver_opened) {
493     printf("FATAL: ether_wput(): Ethernet driver not opened\n");
494     return MAC_ENXIO;
495     }
496    
497     // Get stream
498     DLPIStream *the_stream = (DLPIStream *)q->q_ptr;
499     if (the_stream == NULL)
500     return MAC_ENXIO;
501    
502     D(bug(" db_type %d\n", mp->b_datap->db_type));
503     switch (mp->b_datap->db_type) {
504    
505     case M_DATA:
506     // Transmit raw packet
507     D(bug(" raw packet\n"));
508     num_tx_raw_packets++;
509     transmit_packet(mp);
510     break;
511    
512     case M_PROTO:
513     case M_PCPROTO: {
514     union DL_primitives *dlp = (union DL_primitives *)mp->b_rptr;
515     uint32 prim = dlp->dl_primitive;
516     D(bug(" dl_primitive %d\n", prim));
517     switch (prim) {
518     case DL_UNITDATA_REQ:
519     // Transmit normal packet
520     num_tx_normal_packets++;
521     DLPI_unit_data(the_stream, q, mp);
522     break;
523    
524     case DL_INFO_REQ:
525     DLPI_info(the_stream, q, mp);
526     break;
527    
528     case DL_PHYS_ADDR_REQ:
529     DLPI_phys_addr(the_stream, q, mp);
530     break;
531    
532     case DL_BIND_REQ:
533     DLPI_bind(the_stream, q, mp);
534     break;
535    
536     case DL_UNBIND_REQ:
537     DLPI_unbind(the_stream, q, mp);
538     break;
539    
540     case DL_SUBS_BIND_REQ:
541     DLPI_subs_bind(the_stream, q, mp);
542     break;
543    
544     case DL_SUBS_UNBIND_REQ:
545     DLPI_subs_unbind(the_stream, q, mp);
546     break;
547    
548     case DL_ENABMULTI_REQ:
549     DLPI_enable_multi(the_stream, q, mp);
550     break;
551    
552     case DL_DISABMULTI_REQ:
553     DLPI_disable_multi(the_stream, q, mp);
554     break;
555    
556     default:
557     D(bug("WARNING: ether_wsrv(): Unknown primitive\n"));
558     DLPI_error_ack(the_stream, q, mp, prim, DL_NOTSUPPORTED, 0);
559     break;
560     }
561     break;
562     }
563    
564     case M_IOCTL:
565     ether_ioctl(the_stream, q, mp);
566     break;
567    
568     case M_FLUSH:
569     ether_flush(q, mp);
570     break;
571    
572     default:
573     D(bug("WARNING: ether_wput(): Unknown message type\n"));
574     freemsg(mp);
575     break;
576     }
577     num_wput++;
578     return 0;
579     }
580    
581    
582     /*
583     * Dequeue and process messages from the read queue
584     */
585    
586     int ether_rsrv(queue_t *q)
587     {
588     mblk_t *mp;
589     while ((mp = getq(q)) != NULL) {
590     if (canputnext(q))
591     putnext(q, mp);
592     else {
593     freemsg(mp);
594     flushq(q, FLUSHDATA);
595     break;
596     }
597     }
598     return 0;
599     }
600    
601    
602     /*
603     * Handle ioctl calls
604     */
605    
606     static void ether_ioctl(DLPIStream *the_stream, queue_t *q, mblk_t *mp)
607     {
608     struct iocblk *ioc = (struct iocblk *)mp->b_rptr;
609     D(bug(" ether_ioctl(%p,%p) cmd %d\n", q, mp, ioc->ioc_cmd));
610    
611     switch (ioc->ioc_cmd) {
612    
613     case I_OTSetFramingType: { // Toggles what the general info primitive returns for dl_mac_type in dl_info_ack_t structure
614     mblk_t *info_mp = mp->b_cont;
615     if (info_mp == NULL || ((info_mp->b_wptr - info_mp->b_rptr) != sizeof(uint32))) {
616     ioc->ioc_error = MAC_EINVAL;
617     goto ioctl_error;
618     }
619     uint32 framing_type = *(uint32 *)info_mp->b_rptr;
620     D(bug(" I_OTSetFramingType type %d\n", framing_type));
621     if (framing_type != kOTGetFramingValue)
622     the_stream->framing_8022 = (framing_type == kOTFraming8022);
623     mp->b_cont = NULL;
624     freemsg(info_mp);
625     if (the_stream->framing_8022)
626     ioc->ioc_rval = kOTFraming8022;
627     else
628     ioc->ioc_rval = kOTFramingEthernet;
629     goto ioctl_ok;
630     }
631    
632     case DL_IOC_HDR_INFO: { // Special Mentat call, for fast transmits
633     D(bug(" DL_IOC_HDR_INFO\n"));
634     mblk_t *info_mp = mp->b_cont;
635    
636     // Copy DL_UNITDATA_REQ block
637     mblk_t *unitdata_mp = copyb(info_mp);
638     if (unitdata_mp == NULL) {
639     ioc->ioc_error = MAC_ENOMEM;
640     goto ioctl_error;
641     }
642     unitdata_mp->b_datap->db_type = M_PROTO;
643    
644     // Construct header (converts DL_UNITDATA_REQ -> M_DATA)
645     mblk_t *header_mp = build_tx_packet_header(the_stream, unitdata_mp, true);
646    
647     if (header_mp == NULL) {
648     // Could not allocate a message block large enough
649     ioc->ioc_error = MAC_ENOMEM;
650     goto ioctl_error;
651     }
652    
653     // Attach header block at the end
654     mp->b_cont->b_cont = header_mp;
655     the_stream->flags |= kFastPathMode;
656     goto ioctl_ok;
657     }
658    
659     case I_OTSetRawMode: {
660     mblk_t *info_mp = mp->b_cont;
661     dl_recv_control_t *dlrc;
662     if (info_mp == NULL || ((info_mp->b_wptr - info_mp->b_rptr) != sizeof(dlrc->dl_primitive))) {
663     ioc->ioc_error = MAC_EINVAL;
664     goto ioctl_error;
665     }
666     dlrc = (dl_recv_control_t *)info_mp->b_rptr;
667     D(bug(" I_OTSetRawMode primitive %d\n", dlrc->dl_primitive));
668     ioc->ioc_error = MAC_EINVAL;
669     goto ioctl_error;
670     }
671    
672     default:
673     D(bug("WARNING: Unknown ether_ioctl() call\n"));
674     ioc->ioc_error = MAC_EINVAL;
675     goto ioctl_error;
676     }
677    
678     ioctl_ok:
679     ioc->ioc_count = 0;
680     for (mblk_t *mp1 = mp; (mp1 = mp1->b_cont) != NULL;)
681     ioc->ioc_count += mp1->b_wptr - mp1->b_rptr;
682     ioc->ioc_error = 0;
683     mp->b_datap->db_type = M_IOCACK;
684     qreply(q, mp);
685     return;
686    
687     ioctl_error:
688     mp->b_datap->db_type = M_IOCNAK;
689     qreply(q, mp);
690     return;
691     }
692    
693    
694     /*
695     * Flush call, send it up to the read side of the stream
696     */
697    
698     static void ether_flush(queue_t* q, mblk_t* mp)
699     {
700     D(bug(" ether_flush(%p,%p)\n", q, mp));
701    
702     uint8 *rptr = mp->b_rptr;
703     if (*rptr & FLUSHW)
704     flushq(q, FLUSHALL);
705     if (*rptr & FLUSHR) {
706     flushq(RD(q), FLUSHALL);
707     *rptr &= ~FLUSHW;
708     qreply(q, mp);
709     } else
710     freemsg(mp);
711     }
712    
713    
714     /*
715     * Classify packet into the different types of protocols
716     */
717    
718     static uint16 classify_packet_type(uint16 primarySAP, uint16 secondarySAP)
719     {
720     if (primarySAP >= kMinDIXSAP)
721     return kPktDIX;
722    
723     if ((primarySAP == kIPXSAP) && (secondarySAP == kIPXSAP))
724     return kPktIPX;
725    
726     if (primarySAP == kSNAPSAP)
727     return kPkt8022SNAP;
728    
729     if (primarySAP <= k8022GlobalSAP)
730     return kPkt8022SAP;
731    
732     return kPktUnknown;
733     }
734    
735    
736     /*
737     * Check if the address is a multicast, broadcast or standard address
738     */
739    
740     static int32 get_address_type(uint8 *addr)
741     {
742     if (addr[0] & 1) { // Multicast/broadcast flag
743     if (OTIs48BitBroadcastAddress(addr))
744     return keaBroadcast;
745     else
746     return keaMulticast;
747     } else
748     return keaStandardAddress;
749     }
750    
751    
752     /*
753     * Reuse a message block, make room for more data
754     */
755    
756     static mblk_t *reuse_message_block(mblk_t *mp, uint16 needed_size)
757     {
758     mblk_t *nmp;
759    
760     if ((mp->b_datap->db_ref == 1) && ((mp->b_datap->db_lim - mp->b_datap->db_base) >= needed_size)) {
761     mp->b_datap->db_type = M_DATA;
762     mp->b_rptr = mp->b_datap->db_base;
763     mp->b_wptr = mp->b_datap->db_base + needed_size;
764     } else {
765     nmp = mp->b_cont; // Grab the M_DATA blocks
766     mp->b_cont = NULL; // Detach the M_(PC)PROTO
767     freemsg(mp); // Free the M_(PC)PROTO
768     mp = nmp; // Point to the M_DATA blocks
769    
770     // Try to get space on the first M_DATA block
771     if (mp && (mp->b_datap->db_ref == 1) && ((mp->b_rptr - mp->b_datap->db_base) >= needed_size))
772     mp->b_rptr -= needed_size;
773     else {
774     // Try to allocate a new message
775     if ((nmp = allocb(needed_size, BPRI_HI)) == NULL) {
776     // Could not get a new message block so lets forget about the message altogether
777     freemsg(mp); // Free the original M_DATA portion of the message
778     mp = NULL; // Indicates the reuse failed
779     } else {
780     nmp->b_cont = mp; // Attach the new message block as the head
781     nmp->b_wptr += needed_size;
782     mp = nmp;
783     }
784     }
785     }
786    
787     return mp;
788     }
789    
790    
791     /*
792     * Built header for packet to be transmitted (convert DL_UNITDATA_REQ -> M_DATA)
793     * The passed-in message has the header info in the first message block and the data
794     * in the following blocks
795     */
796    
797     static mblk_t *build_tx_packet_header(DLPIStream *the_stream, mblk_t *mp, bool fast_path)
798     {
799     // Only handle unit_data requests
800     dl_unitdata_req_t *req = (dl_unitdata_req_t *)mp->b_rptr;
801     if (req->dl_primitive != DL_UNITDATA_REQ) {
802     freemsg(mp);
803     return NULL;
804     }
805    
806     // Extract destination address and its length
807     uint8 *destAddrOrig = ((uint8 *)req) + req->dl_dest_addr_offset;
808     uint32 destAddrLen = req->dl_dest_addr_length;
809     uint8 ctrl = 0x03;
810    
811     // Extract DLSAP
812     uint16 dlsap;
813     switch (destAddrLen) {
814     case kEnetPhysicalAddressLength:
815     dlsap = the_stream->dlsap;
816     break;
817     case kEnetAndSAPAddressLength:
818     dlsap = *(uint16 *)(destAddrOrig + kEnetPhysicalAddressLength);
819     break;
820     case kEnetPhysicalAddressLength + k8022DLSAPLength + k8022SNAPLength: // SNAP SAP
821     dlsap = *(uint16 *)(destAddrOrig + kEnetPhysicalAddressLength);
822     break;
823     default:
824     dlsap = the_stream->dlsap;
825     break;
826     }
827    
828     // Extract data size (excluding header info) and packet type
829     uint16 datasize = msgdsize(mp);
830     uint16 packetType = classify_packet_type(the_stream->dlsap, dlsap);
831    
832     // Calculate header size and protocol type/size field
833     uint16 hdrsize, proto;
834     switch (packetType) {
835     case kPktDIX:
836     hdrsize = kEnetPacketHeaderLength;
837     proto = dlsap;
838     break;
839     case kPkt8022SAP:
840     hdrsize = kEnetPacketHeaderLength + k8022BasicHeaderLength;
841     if (fast_path)
842     proto = 0;
843     else
844     proto = datasize + k8022BasicHeaderLength;
845     break;
846     case kPkt8022SNAP:
847     hdrsize = kEnetPacketHeaderLength + k8022SNAPHeaderLength;
848     if (fast_path)
849     proto = 0;
850     else
851     proto = datasize + k8022SNAPHeaderLength;
852     break;
853     case kPktIPX:
854     hdrsize = kEnetPacketHeaderLength;
855     if (fast_path)
856     proto = 0;
857     else
858     proto = datasize;
859     break;
860     default:
861     hdrsize = kEnetPacketHeaderLength;
862     proto = dlsap;
863     break;
864     }
865    
866     // We need to copy the dest address info in the message before we can reuse it
867     uint8 destAddrCopy[kMaxBoundAddrLength];
868     memcpy(destAddrCopy, destAddrOrig, destAddrLen);
869    
870     // Resize header info in message block
871     if ((mp = reuse_message_block(mp, hdrsize)) == NULL)
872     return NULL;
873     struct T8022FullPacketHeader *packetHeader = (struct T8022FullPacketHeader *)mp->b_rptr;
874    
875     // Set protocol type/size field
876     packetHeader->fEnetPart.fProto = proto;
877    
878     // Set destination ethernet address
879     OTCopy48BitAddress(destAddrCopy, packetHeader->fEnetPart.fDestAddr);
880    
881     // Set other header fields
882     switch (packetType) {
883     case kPkt8022SAP:
884     packetHeader->f8022Part.fDSAP = (uint8)dlsap;
885     packetHeader->f8022Part.fSSAP = (uint8)the_stream->dlsap;
886     packetHeader->f8022Part.fCtrl = ctrl;
887     break;
888     case kPkt8022SNAP: {
889     uint8 *snapStart;
890     packetHeader->f8022Part.fDSAP = (uint8)dlsap;
891     packetHeader->f8022Part.fSSAP = (uint8)the_stream->dlsap;
892     packetHeader->f8022Part.fCtrl = ctrl;
893     if (destAddrLen >= kEnetAndSAPAddressLength + k8022SNAPLength)
894     snapStart = destAddrCopy + kEnetAndSAPAddressLength;
895     else
896     snapStart = the_stream->snap;
897     OTCopy8022SNAP(snapStart, packetHeader->f8022Part.fSNAP);
898     break;
899     }
900     }
901    
902     // Return updated message
903     return mp;
904     }
905    
906    
907     /*
908     * Transmit packet
909     */
910    
911     static void transmit_packet(mblk_t *mp)
912     {
913     EnetPacketHeader *enetHeader = (EnetPacketHeader *)mp->b_rptr;
914    
915     // Fill in length in 802.3 packets
916     if (enetHeader->fProto == 0)
917     enetHeader->fProto = msgdsize(mp) - sizeof(EnetPacketHeader);
918    
919     // Fill in ethernet source address
920     OTCopy48BitAddress(hardware_address, enetHeader->fSourceAddr);
921    
922     // Tell add-on to transmit packet
923     AO_transmit_packet(mp);
924     freemsg(mp);
925     }
926    
927    
928     /*
929     * Handle incoming packet (one stream), construct DL_UNITDATA_IND message
930     */
931    
932     static void handle_received_packet(DLPIStream *the_stream, mblk_t *mp, uint16 packet_type, int32 dest_addr_type)
933     {
934     // Find address and header length
935     uint32 addr_len;
936     uint32 header_len;
937     switch (packet_type) {
938     case kPkt8022SAP:
939     addr_len = kEnetAndSAPAddressLength;
940     header_len = kEnetPacketHeaderLength + k8022BasicHeaderLength;
941     break;
942     case kPkt8022SNAP:
943     addr_len = kEnetAndSAPAddressLength + k8022SNAPLength;
944     header_len = kEnetPacketHeaderLength + k8022SNAPHeaderLength;
945     break;
946     default: // DIX and IPX
947     addr_len = kEnetAndSAPAddressLength;
948     header_len = kEnetPacketHeaderLength;
949     break;
950     }
951    
952     // In Fast Path mode, don't send DL_UNITDATA_IND messages for unicast packets
953     if ((the_stream->flags & kFastPathMode) && dest_addr_type == keaStandardAddress) {
954     mp->b_rptr += header_len;
955     num_rx_fastpath++;
956     putq(the_stream->rdq, mp);
957     return;
958     }
959    
960     // Allocate the dl_unitdata_ind_t message
961     mblk_t *nmp;
962     if ((nmp = allocb(sizeof(dl_unitdata_ind_t) + 2*addr_len, BPRI_HI)) == NULL) {
963     freemsg(mp);
964     num_rx_no_unitdata_mem++;
965     return;
966     }
967    
968     // Set message type
969     nmp->b_datap->db_type = M_PROTO;
970     dl_unitdata_ind_t *ind = (dl_unitdata_ind_t*)nmp->b_rptr;
971     ind->dl_primitive = DL_UNITDATA_IND;
972     nmp->b_wptr += (sizeof(dl_unitdata_ind_t) + 2*addr_len);
973    
974     // Link M_DATA block
975     nmp->b_cont = mp;
976    
977     // Set address fields
978     ind->dl_dest_addr_length = addr_len;
979     ind->dl_dest_addr_offset = sizeof(dl_unitdata_ind_t);
980     ind->dl_src_addr_length = addr_len;
981     ind->dl_src_addr_offset = sizeof(dl_unitdata_ind_t) + addr_len;
982    
983     // Set address type
984     ind->dl_group_address = dest_addr_type;
985    
986     // Set address fields
987     T8022FullPacketHeader *packetHeader = (T8022FullPacketHeader *)mp->b_rptr;
988     T8022AddressStruct *destAddr = ((T8022AddressStruct*)(nmp->b_rptr + ind->dl_dest_addr_offset));
989     T8022AddressStruct *srcAddr = ((T8022AddressStruct*)(nmp->b_rptr + ind->dl_src_addr_offset));
990    
991     OTCopy48BitAddress(packetHeader->fEnetPart.fDestAddr, destAddr->fHWAddr);
992     OTCopy48BitAddress(packetHeader->fEnetPart.fSourceAddr, srcAddr->fHWAddr);
993    
994     destAddr->fSAP = packetHeader->f8022Part.fDSAP;
995     srcAddr->fSAP = packetHeader->f8022Part.fSSAP;
996    
997     if (packet_type == kPkt8022SNAP) {
998     OTCopy8022SNAP(packetHeader->f8022Part.fSNAP, destAddr->fSNAP);
999     OTCopy8022SNAP(packetHeader->f8022Part.fSNAP, srcAddr->fSNAP);
1000     }
1001    
1002     // "Hide" the ethernet and protocol header(s)
1003     mp->b_rptr += header_len;
1004    
1005     // Pass message up the stream
1006     num_unitdata_ind++;
1007     putq(the_stream->rdq, nmp);
1008     return;
1009     }
1010    
1011    
1012     /*
1013     * Packet received, distribute it to the streams that want it
1014     */
1015    
1016     void ether_packet_received(mblk_t *mp)
1017     {
1018     // Extract address and types
1019     EnetPacketHeader *pkt = (EnetPacketHeader *)mp->b_rptr;
1020     T8022FullPacketHeader *fullpkt = (T8022FullPacketHeader *)pkt;
1021     uint16 sourceSAP, destSAP;
1022     destSAP = fullpkt->fEnetPart.fProto;
1023     if (destSAP >= kMinDIXSAP) {
1024     // Classic ethernet
1025     sourceSAP = destSAP;
1026     } else {
1027     destSAP = fullpkt->f8022Part.fDSAP;
1028     sourceSAP = fullpkt->f8022Part.fSSAP;
1029     }
1030     uint16 packetType = classify_packet_type(sourceSAP, destSAP);
1031     int32 destAddressType = get_address_type(pkt->fDestAddr);
1032    
1033     // Look which streams want it
1034     DLPIStream *the_stream, *found_stream = NULL;
1035     uint16 found_packetType = 0;
1036     int32 found_destAddressType = 0;
1037     for (the_stream = dlpi_stream_list; the_stream != NULL; the_stream = mi_next_ptr(the_stream)) {
1038    
1039     // Don't send to unbound streams
1040     if (the_stream->dlpi_state == DL_UNBOUND)
1041     continue;
1042    
1043     // Does this stream want all 802.2 packets?
1044     if ((the_stream->flags & kAcceptAll8022Packets) && (destSAP <= 0xff))
1045     goto type_found;
1046    
1047     // No, check SAP/SNAP
1048     if (destSAP == the_stream->dlsap) {
1049     if (the_stream->flags & kSnapStream) {
1050     // Check SNAPs if necessary
1051     uint8 sum = fullpkt->f8022Part.fSNAP[0] ^ the_stream->snap[0];
1052     sum |= fullpkt->f8022Part.fSNAP[1] ^ the_stream->snap[1];
1053     sum |= fullpkt->f8022Part.fSNAP[2] ^ the_stream->snap[2];
1054     sum |= fullpkt->f8022Part.fSNAP[3] ^ the_stream->snap[3];
1055     sum |= fullpkt->f8022Part.fSNAP[4] ^ the_stream->snap[4];
1056     if (sum == 0)
1057     goto type_found;
1058     } else {
1059     // No SNAP, found a match since saps match
1060     goto type_found;
1061     }
1062     } else {
1063     // Check for an 802.3 Group/Global (odd)
1064     if (((packetType == kPkt8022SAP) || (packetType == kPkt8022SNAP)) && (destSAP & 1) && the_stream->TestGroupSAP(destSAP))
1065     goto type_found;
1066     }
1067    
1068     // No stream for this SAP/SNAP found
1069     continue;
1070    
1071     type_found:
1072     // If it's a multicast packet, it must be in the stream's multicast list
1073     if ((destAddressType == keaMulticast) && (the_stream->flags & kAcceptMulticasts) && (!the_stream->IsMulticastRegistered(pkt->fDestAddr)))
1074     continue;
1075    
1076     // Send packet to stream
1077     // found_stream keeps a pointer to the previously found stream, so that only the last
1078     // stream gets the original message, the other ones get duplicates
1079     if (found_stream)
1080     handle_received_packet(found_stream, dupmsg(mp), found_packetType, found_destAddressType);
1081     found_stream = the_stream;
1082     found_packetType = packetType;
1083     found_destAddressType = destAddressType;
1084     }
1085    
1086     // Send original message to last found stream
1087     if (found_stream)
1088     handle_received_packet(found_stream, mp, found_packetType, found_destAddressType);
1089     else {
1090     freemsg(mp); // Nobody wants it *snief*
1091     num_rx_dropped++;
1092     }
1093     }
1094    
1095    
1096     /*
1097     * Build and send an error acknowledge
1098     */
1099    
1100     static void DLPI_error_ack(DLPIStream *the_stream, queue_t *q, mblk_t *ack_mp, uint32 prim, uint32 err, uint32 uerr)
1101     {
1102     D(bug(" DLPI_error_ack(%p,%p) prim %d, err %d, uerr %d\n", the_stream, ack_mp, prim, err, uerr));
1103     num_error_acks++;
1104    
1105     if (ack_mp != NULL)
1106     freemsg(ack_mp);
1107     if ((ack_mp = allocb(sizeof(dl_error_ack_t), BPRI_HI)) == NULL)
1108     return;
1109    
1110     ack_mp->b_datap->db_type = M_PCPROTO;
1111     dl_error_ack_t *errp = (dl_error_ack_t *)ack_mp->b_wptr;
1112     errp->dl_primitive = DL_ERROR_ACK;
1113     errp->dl_error_primitive = prim;
1114     errp->dl_errno = err;
1115     errp->dl_unix_errno = uerr;
1116     ack_mp->b_wptr += sizeof(dl_error_ack_t);
1117     qreply(q, ack_mp);
1118     }
1119    
1120    
1121     /*
1122     * Build and send an OK acknowledge
1123     */
1124    
1125     static void DLPI_ok_ack(DLPIStream *the_stream, queue_t *q, mblk_t *ack_mp, uint32 prim)
1126     {
1127     if (ack_mp->b_datap->db_ref != 1) {
1128     // Message already in use, create a new one
1129     freemsg(ack_mp);
1130     if ((ack_mp = allocb(sizeof(dl_error_ack_t), BPRI_HI)) == NULL)
1131     return;
1132     } else {
1133     // Message free
1134     if (ack_mp->b_cont != NULL) {
1135     freemsg(ack_mp->b_cont);
1136     ack_mp->b_cont = NULL;
1137     }
1138     }
1139    
1140     ack_mp->b_datap->db_type = M_PCPROTO;
1141     dl_ok_ack_t *ackp = (dl_ok_ack_t *)ack_mp->b_rptr;
1142     ackp->dl_primitive = DL_OK_ACK;
1143     ackp->dl_correct_primitive = prim;
1144     ack_mp->b_wptr = ack_mp->b_rptr + sizeof(dl_ok_ack_t);
1145     qreply(q, ack_mp);
1146     }
1147    
1148    
1149     /*
1150     * Handle DL_INFO_REQ (report general information)
1151     */
1152    
1153     static void DLPI_info(DLPIStream *the_stream, queue_t *q, mblk_t *mp)
1154     {
1155     D(bug(" DLPI_info(%p)\n", the_stream));
1156     uint32 saplen = 0;
1157     uint32 addrlen = kEnetPhysicalAddressLength;
1158     uint32 bcastlen = kEnetPhysicalAddressLength;
1159     uint32 hdrlen = kEnetPacketHeaderLength;
1160    
1161     // Calculate header length
1162     if (the_stream->dlpi_state != DL_UNBOUND) {
1163     saplen = (the_stream->flags & kSnapStream) ? k8022DLSAPLength+k8022SNAPLength : k8022DLSAPLength;
1164     if (the_stream->dlsap == kSNAPSAP)
1165     hdrlen = kEnetPacketHeaderLength + k8022SNAPHeaderLength; // SNAP address
1166     else if ((the_stream->dlsap <= kMax8022SAP) || (the_stream->dlsap == kIPXSAP))
1167     hdrlen = kEnetPacketHeaderLength + k8022BasicHeaderLength; // SAP or IPX
1168     else
1169     hdrlen = kEnetPacketHeaderLength; // Basic Ethernet
1170     }
1171    
1172     // Allocate message block for reply
1173     mblk_t *ack_mp;
1174     if ((ack_mp = allocb(sizeof(dl_info_ack_t) + addrlen + saplen + bcastlen, BPRI_LO)) == NULL) {
1175     DLPI_error_ack(the_stream, q, mp, DL_INFO_REQ, DL_SYSERR, MAC_ENOMEM);
1176     return;
1177     }
1178    
1179     // Set up message type
1180     ack_mp->b_datap->db_type = M_PCPROTO;
1181     dl_info_ack_t *ackp = (dl_info_ack_t *)ack_mp->b_rptr;
1182     ackp->dl_primitive = DL_INFO_ACK;
1183    
1184     // Info/version fields
1185     ackp->dl_service_mode = DL_CLDLS;
1186     ackp->dl_provider_style = DL_STYLE1;
1187     ackp->dl_version = DL_VERSION_2;
1188     ackp->dl_current_state = the_stream->dlpi_state;
1189     ackp->dl_mac_type = the_stream->framing_8022 ? DL_CSMACD : DL_ETHER;
1190     ackp->dl_reserved = 0;
1191     ackp->dl_qos_length = 0;
1192     ackp->dl_qos_offset = (uint32)DL_UNKNOWN;
1193     ackp->dl_qos_range_length = 0;
1194     ackp->dl_qos_range_offset = (uint32)DL_UNKNOWN;
1195     ackp->dl_growth = 0;
1196     ackp->dl_min_sdu = 1;
1197     ackp->dl_max_sdu = kEnetTSDU - hdrlen;
1198    
1199     // Address fields
1200     ackp->dl_sap_length = -saplen; // Negative to indicate sap follows physical address
1201     ackp->dl_addr_length = addrlen + saplen;
1202     ackp->dl_addr_offset = sizeof(dl_info_ack_t);
1203     T8022AddressStruct *boundAddr = ((T8022AddressStruct *)(ack_mp->b_rptr + ackp->dl_addr_offset));
1204     OTCopy48BitAddress(hardware_address, boundAddr->fHWAddr);
1205     if (saplen) {
1206     boundAddr->fSAP = the_stream->dlsap;
1207     if (the_stream->flags & kSnapStream)
1208     OTCopy8022SNAP(the_stream->snap, boundAddr->fSNAP);
1209     }
1210     ackp->dl_brdcst_addr_length = bcastlen;
1211     ackp->dl_brdcst_addr_offset = sizeof(dl_info_ack_t) + addrlen + saplen;
1212     OTSet48BitBroadcastAddress(ack_mp->b_rptr + ackp->dl_brdcst_addr_offset);
1213    
1214     // Advance write pointer
1215     ack_mp->b_wptr += sizeof(dl_info_ack_t) + addrlen + saplen + bcastlen;
1216    
1217     // Free request
1218     freemsg(mp);
1219    
1220     // Send reply
1221     qreply(q, ack_mp);
1222     return;
1223     }
1224    
1225    
1226     /*
1227     * Handle DL_PHYS_ADDR_REQ (report physical address)
1228     */
1229    
1230     static void DLPI_phys_addr(DLPIStream *the_stream, queue_t *q, mblk_t *mp)
1231     {
1232     D(bug(" DLPI_phys_addr(%p,%p)\n", the_stream, mp));
1233     dl_phys_addr_req_t *req = (dl_phys_addr_req_t *)mp->b_rptr;
1234    
1235     // Allocate message block for reply
1236     mblk_t *ack_mp;
1237     if ((ack_mp = allocb(sizeof(dl_phys_addr_ack_t) + kEnetPhysicalAddressLength, BPRI_HI)) == NULL) {
1238     DLPI_error_ack(the_stream, q, mp, DL_PHYS_ADDR_REQ, DL_SYSERR, MAC_ENOMEM);
1239     return;
1240     }
1241    
1242     // Set up message type
1243     ack_mp->b_datap->db_type = M_PCPROTO;
1244     dl_phys_addr_ack_t *ackp = (dl_phys_addr_ack_t *)ack_mp->b_wptr;
1245     ackp->dl_primitive = DL_PHYS_ADDR_ACK;
1246    
1247     // Fill in address
1248     ackp->dl_addr_length = kEnetPhysicalAddressLength;
1249     ackp->dl_addr_offset = sizeof(dl_phys_addr_ack_t);
1250     ack_mp->b_wptr += sizeof(dl_phys_addr_ack_t) + kEnetPhysicalAddressLength;
1251     if (req->dl_addr_type == DL_CURR_PHYS_ADDR || req->dl_addr_type == DL_FACT_PHYS_ADDR)
1252     OTCopy48BitAddress(hardware_address, ack_mp->b_rptr + ackp->dl_addr_offset);
1253     else {
1254     DLPI_error_ack(the_stream, q, mp, DL_PHYS_ADDR_REQ, DL_BADPRIM, 0);
1255     return;
1256     }
1257    
1258     // Free request
1259     freemsg(mp);
1260    
1261     // Send reply
1262     qreply(q, ack_mp);
1263     return;
1264     }
1265    
1266    
1267     /*
1268     * Handle DL_BIND_REQ (bind a stream)
1269     */
1270    
1271     static void DLPI_bind(DLPIStream *the_stream, queue_t *q, mblk_t *mp)
1272     {
1273     dl_bind_req_t *req = (dl_bind_req_t *)mp->b_rptr;
1274     uint32 sap = req->dl_sap;
1275     D(bug(" DLPI_bind(%p,%p) SAP %04x\n", the_stream, mp, sap));
1276    
1277     // Stream must be unbound
1278     if (the_stream->dlpi_state != DL_UNBOUND) {
1279     DLPI_error_ack(the_stream, q, mp, DL_BIND_REQ, DL_OUTSTATE, 0);
1280     return;
1281     }
1282    
1283     // We only support connectionless data link services
1284     if (req->dl_service_mode != DL_CLDLS || req->dl_max_conind != 0) {
1285     DLPI_error_ack(the_stream, q, mp, DL_BIND_REQ, DL_UNSUPPORTED, 0);
1286     return;
1287     }
1288    
1289     // Don't bind to 802.2 group saps, can't check 802.2 global sap (0xFF)
1290     // because it looks like IPX
1291     if ((sap <= kMax8022SAP) && (sap & 1)) {
1292     DLPI_error_ack(the_stream, q, mp, DL_BIND_REQ, DL_BADADDR, 0);
1293     return;
1294     }
1295    
1296     if (classify_packet_type(sap, sap) == kPktUnknown) {
1297     DLPI_error_ack(the_stream, q, mp, DL_BIND_REQ, DL_BADADDR, 0);
1298     return;
1299     }
1300    
1301     // Allocate message block for reply
1302     mblk_t *ack_mp;
1303     if ((ack_mp = allocb(sizeof(dl_bind_ack_t) + kEnetAndSAPAddressLength, BPRI_HI)) == NULL) {
1304     DLPI_error_ack(the_stream, q, mp, DL_BIND_REQ, DL_SYSERR, MAC_ENOMEM);
1305     return;
1306     }
1307    
1308     // Set up message type
1309     ack_mp->b_datap->db_type = M_PCPROTO;
1310     dl_bind_ack_t *ackp = (dl_bind_ack_t *)ack_mp->b_rptr;
1311     ackp->dl_primitive = DL_BIND_ACK;
1312    
1313     // Fill in other fields
1314     ackp->dl_sap = sap;
1315     ackp->dl_addr_length = kEnetAndSAPAddressLength;
1316     ackp->dl_addr_offset = sizeof(dl_bind_ack_t);
1317     ackp->dl_max_conind = 0;
1318     ackp->dl_xidtest_flg = 0;
1319    
1320     T8022AddressStruct *addrInfo = (T8022AddressStruct *)(ack_mp->b_rptr + sizeof(dl_bind_ack_t));
1321     OTCopy48BitAddress(hardware_address, addrInfo->fHWAddr);
1322     addrInfo->fSAP = sap;
1323    
1324     // Must move b_wptr past the address info data
1325     ack_mp->b_wptr = ack_mp->b_rptr + sizeof(dl_bind_ack_t) + kEnetAndSAPAddressLength;
1326    
1327     // Set group SAP if necessary
1328     the_stream->ClearAllGroupSAPs();
1329     if (sap <= kMax8022SAP)
1330     the_stream->SetGroupSAP(k8022GlobalSAP);
1331    
1332     // The stream is now bound and idle
1333     the_stream->dlpi_state = DL_IDLE;
1334     the_stream->dlsap = sap;
1335     the_stream->flags &= ~kSnapStream;
1336    
1337     // Free request
1338     freemsg(mp);
1339    
1340     // Send reply
1341     qreply(q, ack_mp);
1342     return;
1343     }
1344    
1345    
1346     /*
1347     * Handle DL_UNBIND_REQ (unbind a stream)
1348     */
1349    
1350     static void DLPI_unbind(DLPIStream *the_stream, queue_t *q, mblk_t *mp)
1351     {
1352     D(bug(" DLPI_unbind(%p,%p)\n", the_stream, mp));
1353    
1354     // Stream must be bound and idle
1355     if (the_stream->dlpi_state != DL_IDLE) {
1356     DLPI_error_ack(the_stream, q, mp, DL_UNBIND_REQ, DL_OUTSTATE, 0);
1357     return;
1358     }
1359    
1360     // Stream is now unbound
1361     the_stream->dlpi_state = DL_UNBOUND;
1362     the_stream->dlsap = 0;
1363    
1364     // Flush all pending outbound messages
1365     flushq(q, FLUSHDATA);
1366    
1367     // Flush all inbound messages pending on the stream
1368     flushq(RD(q), FLUSHDATA);
1369     putnextctl1(RD(q), M_FLUSH, FLUSHRW);
1370    
1371     // Send reply
1372     DLPI_ok_ack(the_stream, q, mp, DL_UNBIND_REQ);
1373     return;
1374     }
1375    
1376    
1377     /*
1378     * Handle DL_SUBS_BIND_REQ (register 802.2 SAP group addresses and SNAPs)
1379     */
1380    
1381     static void DLPI_subs_bind(DLPIStream *the_stream, queue_t *q, mblk_t *mp)
1382     {
1383     dl_subs_bind_req_t *req = (dl_subs_bind_req_t *)mp->b_rptr;
1384     uint8 *sap = ((uint8 *)req) + req->dl_subs_sap_offset;
1385     int32 length = req->dl_subs_sap_length;
1386     uint16 theSap = *((uint16 *)sap);
1387     int32 error = 0;
1388     D(bug(" DLPI_subs_bind(%p,%p) SAP %02x%02x%02x%02x%02x\n", the_stream, mp, sap[0], sap[1], sap[2], sap[3], sap[4]));
1389    
1390     // Stream must be idle
1391     if (the_stream->dlpi_state != DL_IDLE) {
1392     DLPI_error_ack(the_stream, q, mp, DL_SUBS_BIND_REQ, DL_OUTSTATE, 0);
1393     return;
1394     }
1395    
1396     // Check if address is valid
1397     switch (req->dl_subs_bind_class) {
1398     case DL_PEER_BIND: // Bind a group address
1399     if (the_stream->dlsap <= kMax8022SAP) {
1400     if ((theSap & 1) && (length == sizeof(theSap)))
1401     the_stream->SetGroupSAP(theSap);
1402     else
1403     if (theSap == 0x0000) // special case to receive all 802.2 packets
1404     the_stream->flags |= kAcceptAll8022Packets;
1405     else
1406     error = DL_BADADDR;
1407     } else
1408     error = DL_UNSUPPORTED;
1409     break;
1410    
1411     case DL_HIERARCHICAL_BIND: // Bind an additional SNAP
1412     if (the_stream->dlsap == kSNAPSAP) {
1413     if (the_stream->flags & kSnapStream)
1414     error = DL_TOOMANY; // only one SNAP binding allowed
1415     else {
1416     OTCopy8022SNAP(sap, the_stream->snap);
1417     the_stream->flags |= kSnapStream;
1418     }
1419     } else
1420     error = DL_BADADDR;
1421     break;
1422    
1423     default:
1424     error = DL_UNSUPPORTED;
1425     break;
1426     }
1427     if (error) {
1428     DLPI_error_ack(the_stream, q, mp, DL_SUBS_BIND_REQ, error, 0);
1429     return;
1430     }
1431    
1432     // Allocate message block for reply
1433     mblk_t *ack_mp;
1434     if ((ack_mp = allocb(sizeof(dl_subs_bind_ack_t) + length, BPRI_HI)) == NULL) {
1435     DLPI_error_ack(the_stream, q, mp, DL_SUBS_BIND_REQ, DL_SYSERR, MAC_ENOMEM);
1436     return;
1437     }
1438    
1439     // Set up message type
1440     ack_mp->b_datap->db_type = M_PCPROTO;
1441     dl_subs_bind_ack_t *ackp = (dl_subs_bind_ack_t *)ack_mp->b_wptr;
1442     memset(ackp, 0, sizeof(dl_subs_bind_ack_t) + length);
1443     ackp->dl_primitive = DL_SUBS_BIND_ACK;
1444    
1445     // Fill in other fields
1446     ackp->dl_subs_sap_length = length;
1447     ackp->dl_subs_sap_offset = length ? sizeof(dl_subs_bind_ack_t) : 0;
1448     ack_mp->b_wptr += sizeof(dl_subs_bind_ack_t);
1449     if (length)
1450     memcpy(ack_mp->b_wptr, sap, length);
1451     ack_mp->b_wptr += length;
1452    
1453     // Free request
1454     freemsg(mp);
1455    
1456     // Send reply
1457     qreply(q, ack_mp);
1458     return;
1459     }
1460    
1461    
1462     /*
1463     * Handle DL_SUBS_UNBIND_REQ (unregister 802.2 SAP group addresses and snaps)
1464     */
1465    
1466     static void DLPI_subs_unbind(DLPIStream *the_stream, queue_t *q, mblk_t *mp)
1467     {
1468     dl_subs_unbind_req_t *req = (dl_subs_unbind_req_t *)mp->b_rptr;
1469     uint8 *sap = ((uint8 *)req) + req->dl_subs_sap_offset;
1470     int32 length = req->dl_subs_sap_length;
1471     int32 error = 0;
1472     D(bug(" DLPI_subs_unbind(%p,%p) SAP %02x%02x%02x%02x%02x\n", the_stream, mp, sap[0], sap[1], sap[2], sap[3], sap[4]));
1473    
1474     // Stream must be idle
1475     if (the_stream->dlpi_state != DL_IDLE) {
1476     DLPI_error_ack(the_stream, q, mp, DL_SUBS_UNBIND_REQ, DL_OUTSTATE, 0);
1477     return;
1478     }
1479    
1480     // Check if we are unbinding from an address we are bound to
1481     if (length == k8022SAPLength) {
1482     if ((*sap & 1) && (*sap != kIPXSAP)) {
1483     if (the_stream->dlsap <= kMax8022SAP)
1484     the_stream->ClearGroupSAP(*sap);
1485     else
1486     error = DL_UNSUPPORTED;
1487     } else
1488     error = DL_BADADDR;
1489     } else if (length == k8022SNAPLength) {
1490     if (the_stream->dlsap == kSNAPSAP) {
1491     if (the_stream->flags & kSnapStream) {
1492     if (memcmp(the_stream->snap, sap, length) != 0)
1493     error = DL_BADADDR;
1494     } else
1495     error = DL_BADADDR;
1496     } else
1497     error = DL_UNSUPPORTED;
1498     }
1499     if (error) {
1500     DLPI_error_ack(the_stream, q, mp, DL_SUBS_UNBIND_REQ, error, 0);
1501     return;
1502     }
1503    
1504     // Stream is no longer bound to SNAP
1505     the_stream->flags &= ~kSnapStream;
1506    
1507     // Send reply
1508     DLPI_ok_ack(the_stream, q, mp, DL_SUBS_UNBIND_REQ);
1509     return;
1510     }
1511    
1512    
1513     /*
1514     * Handles DL_ENABMULTI_REQ (enable multicast address)
1515     */
1516    
1517     static void DLPI_enable_multi(DLPIStream *the_stream, queue_t *q, mblk_t *mp)
1518     {
1519     dl_enabmulti_req_t* req = (dl_enabmulti_req_t*)mp->b_rptr;
1520     uint8 *reqaddr = (uint8 *)(mp->b_rptr + req->dl_addr_offset);
1521     D(bug(" DLPI_enable_multi(%p,%p) addr %02x%02x%02x%02x%02x%02x\n", the_stream, mp, reqaddr[0], reqaddr[1], reqaddr[2], reqaddr[3], reqaddr[4], reqaddr[5]));
1522    
1523     // Address must be a multicast address
1524     if (get_address_type(reqaddr) != keaMulticast) {
1525     DLPI_error_ack(the_stream, q, mp, DL_ENABMULTI_REQ, DL_BADADDR, 0);
1526     return;
1527     }
1528    
1529     // Address already in multicast list?
1530     if (the_stream->IsMulticastRegistered(reqaddr)) {
1531     DLPI_error_ack(the_stream, q, mp, DL_ENABMULTI_REQ, DL_BADADDR, 0);
1532     return;
1533     }
1534    
1535     // Tell add-on to enable multicast address
1536     AO_enable_multicast(reqaddr);
1537    
1538     // Add new address to multicast list
1539     uint8 *addr = new uint8[kEnetPhysicalAddressLength];
1540     OTCopy48BitAddress(reqaddr, addr);
1541     the_stream->AddMulticast(addr);
1542    
1543     // On receive now check multicast packets
1544     the_stream->flags |= kAcceptMulticasts;
1545    
1546     // Send reply
1547     DLPI_ok_ack(the_stream, q, mp, DL_ENABMULTI_REQ);
1548     return;
1549     }
1550    
1551    
1552     /*
1553     * Handles DL_DISABMULTI_REQ (disable multicast address)
1554     */
1555    
1556     static void DLPI_disable_multi(DLPIStream *the_stream, queue_t *q, mblk_t *mp)
1557     {
1558     dl_disabmulti_req_t *req = (dl_disabmulti_req_t*)mp->b_rptr;
1559     uint8 *reqaddr = (uint8 *)(mp->b_rptr + req->dl_addr_offset);
1560     D(bug(" DLPI_disable_multi(%p,%p) addr %02x%02x%02x%02x%02x%02x\n", the_stream, mp, reqaddr[0], reqaddr[1], reqaddr[2], reqaddr[3], reqaddr[4], reqaddr[5]));
1561    
1562     // Address must be a multicast address
1563     if (get_address_type(reqaddr) != keaMulticast) {
1564     DLPI_error_ack(the_stream, q, mp, DL_DISABMULTI_REQ, DL_BADADDR, 0);
1565     return;
1566     }
1567    
1568     // Find address in multicast list
1569     uint8 *addr = the_stream->IsMulticastRegistered(reqaddr);
1570     if (addr == NULL) {
1571     DLPI_error_ack(the_stream, q, mp, DL_DISABMULTI_REQ, DL_BADADDR, 0);
1572     return;
1573     }
1574    
1575     // Found, then remove
1576     the_stream->RemoveMulticast(addr);
1577     delete addr;
1578    
1579     // Tell add-on to disable multicast address
1580     AO_disable_multicast(reqaddr);
1581    
1582     // No longer check multicast packets if no multicast addresses are registered
1583     if (the_stream->multicast_list == NULL)
1584     the_stream->flags &= ~kAcceptMulticasts;
1585    
1586     // Send reply
1587     DLPI_ok_ack(the_stream, q, mp, DL_DISABMULTI_REQ);
1588     return;
1589     }
1590    
1591    
1592     /*
1593     * Handle DL_UNITDATA_REQ (transmit packet)
1594     */
1595    
1596     static void DLPI_unit_data(DLPIStream *the_stream, queue_t *q, mblk_t *mp)
1597     {
1598     D(bug(" DLPI_unit_data(%p,%p)\n", the_stream, mp));
1599     dl_unitdata_req_t *req = (dl_unitdata_req_t *)mp->b_rptr;
1600    
1601     // Stream must be idle
1602     if (the_stream->dlpi_state != DL_IDLE) {
1603    
1604     // Not idle, send error response
1605     dl_uderror_ind_t *errp;
1606     mblk_t *bp;
1607    
1608     int i = sizeof(dl_uderror_ind_t) + req->dl_dest_addr_length;
1609     if ((bp = allocb(i, BPRI_HI)) == NULL) {
1610     freemsg(mp);
1611     return;
1612     }
1613     bp->b_datap->db_type = M_PROTO;
1614     errp = (dl_uderror_ind_t *)bp->b_wptr;
1615     errp->dl_primitive = DL_UDERROR_IND;
1616     errp->dl_errno = DL_OUTSTATE;
1617     errp->dl_unix_errno = 0;
1618     errp->dl_dest_addr_length = req->dl_dest_addr_length;
1619     errp->dl_dest_addr_offset = sizeof(dl_uderror_ind_t);
1620     bp->b_wptr += sizeof(dl_uderror_ind_t);
1621     memcpy((uint8 *)bp->b_wptr, ((uint8 *)req) + req->dl_dest_addr_offset, req->dl_dest_addr_length);
1622     bp->b_wptr += req->dl_dest_addr_length;
1623     qreply(q, bp);
1624    
1625     freemsg(mp);
1626     return;
1627     }
1628    
1629     // Build packet header and transmit packet
1630     if ((mp = build_tx_packet_header(the_stream, mp, false)) != NULL)
1631     transmit_packet(mp);
1632     }