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memory: add owner argument to initialization functions
[qemu.git] / hw / net / xilinx_axienet.c
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93f1e401
EI		 1/*
2 * QEMU model of Xilinx AXI-Ethernet.
3 *
4 * Copyright (c) 2011 Edgar E. Iglesias.
5 *
6 * Permission is hereby granted, free of charge, to any person obtaining a copy
7 * of this software and associated documentation files (the "Software"), to deal
8 * in the Software without restriction, including without limitation the rights
9 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
10 * copies of the Software, and to permit persons to whom the Software is
11 * furnished to do so, subject to the following conditions:
12 *
13 * The above copyright notice and this permission notice shall be included in
14 * all copies or substantial portions of the Software.
15 *
16 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
19 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
21 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
22 * THE SOFTWARE.
23 */
24
83c9f4ca 25#include "hw/sysbus.h"
1de7afc9 26#include "qemu/log.h"
1422e32d 27#include "net/net.h"
93f1e401 28#include "net/checksum.h"
b4a42f81 29#include "qapi/qmp/qerror.h"
93f1e401 30
83c9f4ca 31#include "hw/stream.h"
93f1e401
EI		 32
33#define DPHY(x)
34
f0e7a81c 35#define TYPE_XILINX_AXI_ENET "xlnx.axi-ethernet"
55b3e0c2 36#define TYPE_XILINX_AXI_ENET_DATA_STREAM "xilinx-axienet-data-stream"
42bb9c91 37#define TYPE_XILINX_AXI_ENET_CONTROL_STREAM "xilinx-axienet-control-stream"
f0e7a81c
PC		 38
39#define XILINX_AXI_ENET(obj) \
40 OBJECT_CHECK(XilinxAXIEnet, (obj), TYPE_XILINX_AXI_ENET)
41
55b3e0c2
PC		 42#define XILINX_AXI_ENET_DATA_STREAM(obj) \
43 OBJECT_CHECK(XilinxAXIEnetStreamSlave, (obj),\
44 TYPE_XILINX_AXI_ENET_DATA_STREAM)
45
42bb9c91
PC		 46#define XILINX_AXI_ENET_CONTROL_STREAM(obj) \
47 OBJECT_CHECK(XilinxAXIEnetStreamSlave, (obj),\
48 TYPE_XILINX_AXI_ENET_CONTROL_STREAM)
49
93f1e401
EI		 50/* Advertisement control register. */
51#define ADVERTISE_10HALF 0x0020 /* Try for 10mbps half-duplex */
52#define ADVERTISE_10FULL 0x0040 /* Try for 10mbps full-duplex */
53#define ADVERTISE_100HALF 0x0080 /* Try for 100mbps half-duplex */
54#define ADVERTISE_100FULL 0x0100 /* Try for 100mbps full-duplex */
55
42bb9c91
PC		 56#define CONTROL_PAYLOAD_WORDS 5
57#define CONTROL_PAYLOAD_SIZE (CONTROL_PAYLOAD_WORDS * (sizeof(uint32_t)))
58
93f1e401
EI		 59struct PHY {
60 uint32_t regs[32];
61
62 int link;
63
64 unsigned int (*read)(struct PHY *phy, unsigned int req);
65 void (*write)(struct PHY *phy, unsigned int req,
66 unsigned int data);
67};
68
69static unsigned int tdk_read(struct PHY *phy, unsigned int req)
70{
71 int regnum;
72 unsigned r = 0;
73
74 regnum = req & 0x1f;
75
76 switch (regnum) {
77 case 1:
78 if (!phy->link) {
79 break;
80 }
81 /* MR1. */
82 /* Speeds and modes. */
83 r |= (1 << 13) | (1 << 14);
84 r |= (1 << 11) | (1 << 12);
85 r |= (1 << 5); /* Autoneg complete. */
86 r |= (1 << 3); /* Autoneg able. */
87 r |= (1 << 2); /* link. */
88 r |= (1 << 1); /* link. */
89 break;
90 case 5:
91 /* Link partner ability.
92 We are kind; always agree with whatever best mode
93 the guest advertises. */
94 r = 1 << 14; /* Success. */
95 /* Copy advertised modes. */
96 r |= phy->regs[4] & (15 << 5);
97 /* Autoneg support. */
98 r |= 1;
99 break;
100 case 17:
101 /* Marvel PHY on many xilinx boards. */
102 r = 0x8000; /* 1000Mb */
103 break;
104 case 18:
105 {
106 /* Diagnostics reg. */
107 int duplex = 0;
108 int speed_100 = 0;
109
110 if (!phy->link) {
111 break;
112 }
113
114 /* Are we advertising 100 half or 100 duplex ? */
115 speed_100 = !!(phy->regs[4] & ADVERTISE_100HALF);
116 speed_100 |= !!(phy->regs[4] & ADVERTISE_100FULL);
117
118 /* Are we advertising 10 duplex or 100 duplex ? */
119 duplex = !!(phy->regs[4] & ADVERTISE_100FULL);
120 duplex |= !!(phy->regs[4] & ADVERTISE_10FULL);
121 r = (speed_100 << 10) | (duplex << 11);
122 }
123 break;
124
125 default:
126 r = phy->regs[regnum];
127 break;
128 }
129 DPHY(qemu_log("\n%s %x = reg[%d]\n", __func__, r, regnum));
130 return r;
131}
132
133static void
134tdk_write(struct PHY *phy, unsigned int req, unsigned int data)
135{
136 int regnum;
137
138 regnum = req & 0x1f;
139 DPHY(qemu_log("%s reg[%d] = %x\n", __func__, regnum, data));
140 switch (regnum) {
141 default:
142 phy->regs[regnum] = data;
143 break;
144 }
145}
146
147static void
148tdk_init(struct PHY *phy)
149{
150 phy->regs[0] = 0x3100;
151 /* PHY Id. */
152 phy->regs[2] = 0x0300;
153 phy->regs[3] = 0xe400;
154 /* Autonegotiation advertisement reg. */
155 phy->regs[4] = 0x01E1;
156 phy->link = 1;
157
158 phy->read = tdk_read;
159 phy->write = tdk_write;
160}
161
162struct MDIOBus {
163 /* bus. */
164 int mdc;
165 int mdio;
166
167 /* decoder. */
168 enum {
169 PREAMBLE,
170 SOF,
171 OPC,
172 ADDR,
173 REQ,
174 TURNAROUND,
175 DATA
176 } state;
177 unsigned int drive;
178
179 unsigned int cnt;
180 unsigned int addr;
181 unsigned int opc;
182 unsigned int req;
183 unsigned int data;
184
185 struct PHY *devs[32];
186};
187
188static void
189mdio_attach(struct MDIOBus *bus, struct PHY *phy, unsigned int addr)
190{
191 bus->devs[addr & 0x1f] = phy;
192}
193
194#ifdef USE_THIS_DEAD_CODE
195static void
196mdio_detach(struct MDIOBus *bus, struct PHY *phy, unsigned int addr)
197{
198 bus->devs[addr & 0x1f] = NULL;
199}
200#endif
201
202static uint16_t mdio_read_req(struct MDIOBus *bus, unsigned int addr,
203 unsigned int reg)
204{
205 struct PHY *phy;
206 uint16_t data;
207
208 phy = bus->devs[addr];
209 if (phy && phy->read) {
210 data = phy->read(phy, reg);
211 } else {
212 data = 0xffff;
213 }
214 DPHY(qemu_log("%s addr=%d reg=%d data=%x\n", __func__, addr, reg, data));
215 return data;
216}
217
218static void mdio_write_req(struct MDIOBus *bus, unsigned int addr,
219 unsigned int reg, uint16_t data)
220{
221 struct PHY *phy;
222
223 DPHY(qemu_log("%s addr=%d reg=%d data=%x\n", __func__, addr, reg, data));
224 phy = bus->devs[addr];
225 if (phy && phy->write) {
226 phy->write(phy, reg, data);
227 }
228}
229
230#define DENET(x)
231
232#define R_RAF (0x000 / 4)
233enum {
234 RAF_MCAST_REJ = (1 << 1),
235 RAF_BCAST_REJ = (1 << 2),
236 RAF_EMCF_EN = (1 << 12),
237 RAF_NEWFUNC_EN = (1 << 11)
238};
239
240#define R_IS (0x00C / 4)
241enum {
242 IS_HARD_ACCESS_COMPLETE = 1,
243 IS_AUTONEG = (1 << 1),
244 IS_RX_COMPLETE = (1 << 2),
245 IS_RX_REJECT = (1 << 3),
246 IS_TX_COMPLETE = (1 << 5),
247 IS_RX_DCM_LOCK = (1 << 6),
248 IS_MGM_RDY = (1 << 7),
249 IS_PHY_RST_DONE = (1 << 8),
250};
251
252#define R_IP (0x010 / 4)
253#define R_IE (0x014 / 4)
254#define R_UAWL (0x020 / 4)
255#define R_UAWU (0x024 / 4)
256#define R_PPST (0x030 / 4)
257enum {
258 PPST_LINKSTATUS = (1 << 0),
259 PPST_PHY_LINKSTATUS = (1 << 7),
260};
261
262#define R_STATS_RX_BYTESL (0x200 / 4)
263#define R_STATS_RX_BYTESH (0x204 / 4)
264#define R_STATS_TX_BYTESL (0x208 / 4)
265#define R_STATS_TX_BYTESH (0x20C / 4)
266#define R_STATS_RXL (0x290 / 4)
267#define R_STATS_RXH (0x294 / 4)
268#define R_STATS_RX_BCASTL (0x2a0 / 4)
269#define R_STATS_RX_BCASTH (0x2a4 / 4)
270#define R_STATS_RX_MCASTL (0x2a8 / 4)
271#define R_STATS_RX_MCASTH (0x2ac / 4)
272
273#define R_RCW0 (0x400 / 4)
274#define R_RCW1 (0x404 / 4)
275enum {
276 RCW1_VLAN = (1 << 27),
277 RCW1_RX = (1 << 28),
278 RCW1_FCS = (1 << 29),
279 RCW1_JUM = (1 << 30),
280 RCW1_RST = (1 << 31),
281};
282
283#define R_TC (0x408 / 4)
284enum {
285 TC_VLAN = (1 << 27),
286 TC_TX = (1 << 28),
287 TC_FCS = (1 << 29),
288 TC_JUM = (1 << 30),
289 TC_RST = (1 << 31),
290};
291
292#define R_EMMC (0x410 / 4)
293enum {
294 EMMC_LINKSPEED_10MB = (0 << 30),
295 EMMC_LINKSPEED_100MB = (1 << 30),
296 EMMC_LINKSPEED_1000MB = (2 << 30),
297};
298
299#define R_PHYC (0x414 / 4)
300
301#define R_MC (0x500 / 4)
302#define MC_EN (1 << 6)
303
304#define R_MCR (0x504 / 4)
305#define R_MWD (0x508 / 4)
306#define R_MRD (0x50c / 4)
307#define R_MIS (0x600 / 4)
308#define R_MIP (0x620 / 4)
309#define R_MIE (0x640 / 4)
310#define R_MIC (0x640 / 4)
311
312#define R_UAW0 (0x700 / 4)
313#define R_UAW1 (0x704 / 4)
314#define R_FMI (0x708 / 4)
315#define R_AF0 (0x710 / 4)
316#define R_AF1 (0x714 / 4)
317#define R_MAX (0x34 / 4)
318
319/* Indirect registers. */
320struct TEMAC {
321 struct MDIOBus mdio_bus;
322 struct PHY phy;
323
324 void *parent;
325};
326
55b3e0c2 327typedef struct XilinxAXIEnetStreamSlave XilinxAXIEnetStreamSlave;
545129e5
PC		 328typedef struct XilinxAXIEnet XilinxAXIEnet;
329
55b3e0c2
PC		 330struct XilinxAXIEnetStreamSlave {
331 Object parent;
332
333 struct XilinxAXIEnet *enet;
334} ;
335
93f1e401
EI		 336struct XilinxAXIEnet {
337 SysBusDevice busdev;
0dc31f3b 338 MemoryRegion iomem;
93f1e401 339 qemu_irq irq;
42bb9c91
PC		 340 StreamSlave *tx_data_dev;
341 StreamSlave *tx_control_dev;
55b3e0c2 342 XilinxAXIEnetStreamSlave rx_data_dev;
42bb9c91 343 XilinxAXIEnetStreamSlave rx_control_dev;
93f1e401
EI		 344 NICState *nic;
345 NICConf conf;
346
347
348 uint32_t c_rxmem;
349 uint32_t c_txmem;
350 uint32_t c_phyaddr;
351
352 struct TEMAC TEMAC;
353
354 /* MII regs. */
355 union {
356 uint32_t regs[4];
357 struct {
358 uint32_t mc;
359 uint32_t mcr;
360 uint32_t mwd;
361 uint32_t mrd;
362 };
363 } mii;
364
365 struct {
366 uint64_t rx_bytes;
367 uint64_t tx_bytes;
368
369 uint64_t rx;
370 uint64_t rx_bcast;
371 uint64_t rx_mcast;
372 } stats;
373
374 /* Receive configuration words. */
375 uint32_t rcw[2];
376 /* Transmit config. */
377 uint32_t tc;
378 uint32_t emmc;
379 uint32_t phyc;
380
381 /* Unicast Address Word. */
382 uint32_t uaw[2];
383 /* Unicast address filter used with extended mcast. */
384 uint32_t ext_uaw[2];
385 uint32_t fmi;
386
387 uint32_t regs[R_MAX];
388
389 /* Multicast filter addrs. */
390 uint32_t maddr[4][2];
391 /* 32K x 1 lookup filter. */
392 uint32_t ext_mtable[1024];
393
42bb9c91 394 uint32_t hdr[CONTROL_PAYLOAD_WORDS];
93f1e401
EI		 395
396 uint8_t *rxmem;
3630ae95
PC		 397 uint32_t rxsize;
398 uint32_t rxpos;
42bb9c91
PC		 399
400 uint8_t rxapp[CONTROL_PAYLOAD_SIZE];
401 uint32_t rxappsize;
93f1e401
EI		 402};
403
545129e5 404static void axienet_rx_reset(XilinxAXIEnet *s)
93f1e401
EI		 405{
406 s->rcw[1] = RCW1_JUM | RCW1_FCS | RCW1_RX | RCW1_VLAN;
407}
408
545129e5 409static void axienet_tx_reset(XilinxAXIEnet *s)
93f1e401
EI		 410{
411 s->tc = TC_JUM | TC_TX | TC_VLAN;
412}
413
545129e5 414static inline int axienet_rx_resetting(XilinxAXIEnet *s)
93f1e401
EI		 415{
416 return s->rcw[1] & RCW1_RST;
417}
418
545129e5 419static inline int axienet_rx_enabled(XilinxAXIEnet *s)
93f1e401
EI		 420{
421 return s->rcw[1] & RCW1_RX;
422}
423
545129e5 424static inline int axienet_extmcf_enabled(XilinxAXIEnet *s)
93f1e401
EI		 425{
426 return !!(s->regs[R_RAF] & RAF_EMCF_EN);
427}
428
545129e5 429static inline int axienet_newfunc_enabled(XilinxAXIEnet *s)
93f1e401
EI		 430{
431 return !!(s->regs[R_RAF] & RAF_NEWFUNC_EN);
432}
433
9ee0ceb7 434static void xilinx_axienet_reset(DeviceState *d)
93f1e401 435{
9ee0ceb7
PC		 436 XilinxAXIEnet *s = XILINX_AXI_ENET(d);
437
93f1e401
EI		 438 axienet_rx_reset(s);
439 axienet_tx_reset(s);
440
441 s->regs[R_PPST] = PPST_LINKSTATUS | PPST_PHY_LINKSTATUS;
442 s->regs[R_IS] = IS_AUTONEG | IS_RX_DCM_LOCK | IS_MGM_RDY | IS_PHY_RST_DONE;
443
444 s->emmc = EMMC_LINKSPEED_100MB;
445}
446
545129e5 447static void enet_update_irq(XilinxAXIEnet *s)
93f1e401
EI		 448{
449 s->regs[R_IP] = s->regs[R_IS] & s->regs[R_IE];
450 qemu_set_irq(s->irq, !!s->regs[R_IP]);
451}
452
a8170e5e 453static uint64_t enet_read(void *opaque, hwaddr addr, unsigned size)
93f1e401 454{
545129e5 455 XilinxAXIEnet *s = opaque;
93f1e401
EI		 456 uint32_t r = 0;
457 addr >>= 2;
458
459 switch (addr) {
460 case R_RCW0:
461 case R_RCW1:
462 r = s->rcw[addr & 1];
463 break;
464
465 case R_TC:
466 r = s->tc;
467 break;
468
469 case R_EMMC:
470 r = s->emmc;
471 break;
472
473 case R_PHYC:
474 r = s->phyc;
475 break;
476
477 case R_MCR:
478 r = s->mii.regs[addr & 3] | (1 << 7); /* Always ready. */
479 break;
480
481 case R_STATS_RX_BYTESL:
482 case R_STATS_RX_BYTESH:
483 r = s->stats.rx_bytes >> (32 * (addr & 1));
484 break;
485
486 case R_STATS_TX_BYTESL:
487 case R_STATS_TX_BYTESH:
488 r = s->stats.tx_bytes >> (32 * (addr & 1));
489 break;
490
491 case R_STATS_RXL:
492 case R_STATS_RXH:
493 r = s->stats.rx >> (32 * (addr & 1));
494 break;
495 case R_STATS_RX_BCASTL:
496 case R_STATS_RX_BCASTH:
497 r = s->stats.rx_bcast >> (32 * (addr & 1));
498 break;
499 case R_STATS_RX_MCASTL:
500 case R_STATS_RX_MCASTH:
501 r = s->stats.rx_mcast >> (32 * (addr & 1));
502 break;
503
504 case R_MC:
505 case R_MWD:
506 case R_MRD:
507 r = s->mii.regs[addr & 3];
508 break;
509
510 case R_UAW0:
511 case R_UAW1:
512 r = s->uaw[addr & 1];
513 break;
514
515 case R_UAWU:
516 case R_UAWL:
517 r = s->ext_uaw[addr & 1];
518 break;
519
520 case R_FMI:
521 r = s->fmi;
522 break;
523
524 case R_AF0:
525 case R_AF1:
526 r = s->maddr[s->fmi & 3][addr & 1];
527 break;
528
529 case 0x8000 ... 0x83ff:
530 r = s->ext_mtable[addr - 0x8000];
531 break;
532
533 default:
534 if (addr < ARRAY_SIZE(s->regs)) {
535 r = s->regs[addr];
536 }
537 DENET(qemu_log("%s addr=" TARGET_FMT_plx " v=%x\n",
538 __func__, addr * 4, r));
539 break;
540 }
541 return r;
542}
543
a8170e5e 544static void enet_write(void *opaque, hwaddr addr,
0dc31f3b 545 uint64_t value, unsigned size)
93f1e401 546{
545129e5 547 XilinxAXIEnet *s = opaque;
93f1e401
EI		 548 struct TEMAC *t = &s->TEMAC;
549
550 addr >>= 2;
551 switch (addr) {
552 case R_RCW0:
553 case R_RCW1:
554 s->rcw[addr & 1] = value;
555 if ((addr & 1) && value & RCW1_RST) {
556 axienet_rx_reset(s);
4dbb9ed3
PC		 557 } else {
558 qemu_flush_queued_packets(qemu_get_queue(s->nic));
93f1e401
EI		 559 }
560 break;
561
562 case R_TC:
563 s->tc = value;
564 if (value & TC_RST) {
565 axienet_tx_reset(s);
566 }
567 break;
568
569 case R_EMMC:
570 s->emmc = value;
571 break;
572
573 case R_PHYC:
574 s->phyc = value;
575 break;
576
577 case R_MC:
4e298e46 578 value &= ((1 << 7) - 1);
93f1e401
EI		 579
580 /* Enable the MII. */
581 if (value & MC_EN) {
582 unsigned int miiclkdiv = value & ((1 << 6) - 1);
583 if (!miiclkdiv) {
584 qemu_log("AXIENET: MDIO enabled but MDIOCLK is zero!\n");
585 }
586 }
587 s->mii.mc = value;
588 break;
589
590 case R_MCR: {
591 unsigned int phyaddr = (value >> 24) & 0x1f;
592 unsigned int regaddr = (value >> 16) & 0x1f;
593 unsigned int op = (value >> 14) & 3;
594 unsigned int initiate = (value >> 11) & 1;
595
596 if (initiate) {
597 if (op == 1) {
598 mdio_write_req(&t->mdio_bus, phyaddr, regaddr, s->mii.mwd);
599 } else if (op == 2) {
600 s->mii.mrd = mdio_read_req(&t->mdio_bus, phyaddr, regaddr);
601 } else {
602 qemu_log("AXIENET: invalid MDIOBus OP=%d\n", op);
603 }
604 }
605 s->mii.mcr = value;
606 break;
607 }
608
609 case R_MWD:
610 case R_MRD:
611 s->mii.regs[addr & 3] = value;
612 break;
613
614
615 case R_UAW0:
616 case R_UAW1:
617 s->uaw[addr & 1] = value;
618 break;
619
620 case R_UAWL:
621 case R_UAWU:
622 s->ext_uaw[addr & 1] = value;
623 break;
624
625 case R_FMI:
626 s->fmi = value;
627 break;
628
629 case R_AF0:
630 case R_AF1:
631 s->maddr[s->fmi & 3][addr & 1] = value;
632 break;
633
d4d230da
PC		 634 case R_IS:
635 s->regs[addr] &= ~value;
636 break;
637
93f1e401
EI		 638 case 0x8000 ... 0x83ff:
639 s->ext_mtable[addr - 0x8000] = value;
640 break;
641
642 default:
643 DENET(qemu_log("%s addr=" TARGET_FMT_plx " v=%x\n",
0dc31f3b 644 __func__, addr * 4, (unsigned)value));
93f1e401
EI		 645 if (addr < ARRAY_SIZE(s->regs)) {
646 s->regs[addr] = value;
647 }
648 break;
649 }
650 enet_update_irq(s);
651}
652
0dc31f3b
AK		 653static const MemoryRegionOps enet_ops = {
654 .read = enet_read,
655 .write = enet_write,
656 .endianness = DEVICE_LITTLE_ENDIAN,
93f1e401
EI		 657};
658
4e68f7a0 659static int eth_can_rx(NetClientState *nc)
93f1e401 660{
545129e5 661 XilinxAXIEnet *s = qemu_get_nic_opaque(nc);
93f1e401
EI		 662
663 /* RX enabled? */
3630ae95 664 return !s->rxsize && !axienet_rx_resetting(s) && axienet_rx_enabled(s);
93f1e401
EI		 665}
666
667static int enet_match_addr(const uint8_t *buf, uint32_t f0, uint32_t f1)
668{
669 int match = 1;
670
671 if (memcmp(buf, &f0, 4)) {
672 match = 0;
673 }
674
675 if (buf[4] != (f1 & 0xff) || buf[5] != ((f1 >> 8) & 0xff)) {
676 match = 0;
677 }
678
679 return match;
680}
681
3630ae95
PC		 682static void axienet_eth_rx_notify(void *opaque)
683{
684 XilinxAXIEnet *s = XILINX_AXI_ENET(opaque);
685
42bb9c91
PC		 686 while (s->rxappsize && stream_can_push(s->tx_control_dev,
687 axienet_eth_rx_notify, s)) {
688 size_t ret = stream_push(s->tx_control_dev,
689 (void *)s->rxapp + CONTROL_PAYLOAD_SIZE
690 - s->rxappsize, s->rxappsize);
691 s->rxappsize -= ret;
692 }
693
694 while (s->rxsize && stream_can_push(s->tx_data_dev,
695 axienet_eth_rx_notify, s)) {
696 size_t ret = stream_push(s->tx_data_dev, (void *)s->rxmem + s->rxpos,
697 s->rxsize);
3630ae95
PC		 698 s->rxsize -= ret;
699 s->rxpos += ret;
700 if (!s->rxsize) {
701 s->regs[R_IS] |= IS_RX_COMPLETE;
3630ae95
PC		 702 }
703 }
704 enet_update_irq(s);
705}
706
4e68f7a0 707static ssize_t eth_rx(NetClientState *nc, const uint8_t *buf, size_t size)
93f1e401 708{
545129e5 709 XilinxAXIEnet *s = qemu_get_nic_opaque(nc);
93f1e401
EI		 710 static const unsigned char sa_bcast[6] = {0xff, 0xff, 0xff,
711 0xff, 0xff, 0xff};
712 static const unsigned char sa_ipmcast[3] = {0x01, 0x00, 0x52};
42bb9c91 713 uint32_t app[CONTROL_PAYLOAD_WORDS] = {0};
93f1e401
EI		 714 int promisc = s->fmi & (1 << 31);
715 int unicast, broadcast, multicast, ip_multicast = 0;
716 uint32_t csum32;
717 uint16_t csum16;
718 int i;
719
93f1e401
EI		 720 DENET(qemu_log("%s: %zd bytes\n", __func__, size));
721
722 unicast = ~buf[0] & 0x1;
723 broadcast = memcmp(buf, sa_bcast, 6) == 0;
724 multicast = !unicast && !broadcast;
725 if (multicast && (memcmp(sa_ipmcast, buf, sizeof sa_ipmcast) == 0)) {
726 ip_multicast = 1;
727 }
728
729 /* Jumbo or vlan sizes ? */
730 if (!(s->rcw[1] & RCW1_JUM)) {
731 if (size > 1518 && size <= 1522 && !(s->rcw[1] & RCW1_VLAN)) {
732 return size;
733 }
734 }
735
736 /* Basic Address filters. If you want to use the extended filters
737 you'll generally have to place the ethernet mac into promiscuous mode
738 to avoid the basic filtering from dropping most frames. */
739 if (!promisc) {
740 if (unicast) {
741 if (!enet_match_addr(buf, s->uaw[0], s->uaw[1])) {
742 return size;
743 }
744 } else {
745 if (broadcast) {
746 /* Broadcast. */
747 if (s->regs[R_RAF] & RAF_BCAST_REJ) {
748 return size;
749 }
750 } else {
751 int drop = 1;
752
753 /* Multicast. */
754 if (s->regs[R_RAF] & RAF_MCAST_REJ) {
755 return size;
756 }
757
758 for (i = 0; i < 4; i++) {
759 if (enet_match_addr(buf, s->maddr[i][0], s->maddr[i][1])) {
760 drop = 0;
761 break;
762 }
763 }
764
765 if (drop) {
766 return size;
767 }
768 }
769 }
770 }
771
772 /* Extended mcast filtering enabled? */
773 if (axienet_newfunc_enabled(s) && axienet_extmcf_enabled(s)) {
774 if (unicast) {
775 if (!enet_match_addr(buf, s->ext_uaw[0], s->ext_uaw[1])) {
776 return size;
777 }
778 } else {
779 if (broadcast) {
780 /* Broadcast. ??? */
781 if (s->regs[R_RAF] & RAF_BCAST_REJ) {
782 return size;
783 }
784 } else {
785 int idx, bit;
786
787 /* Multicast. */
788 if (!memcmp(buf, sa_ipmcast, 3)) {
789 return size;
790 }
791
792 idx = (buf[4] & 0x7f) << 8;
793 idx |= buf[5];
794
795 bit = 1 << (idx & 0x1f);
796 idx >>= 5;
797
798 if (!(s->ext_mtable[idx] & bit)) {
799 return size;
800 }
801 }
802 }
803 }
804
805 if (size < 12) {
806 s->regs[R_IS] |= IS_RX_REJECT;
807 enet_update_irq(s);
808 return -1;
809 }
810
811 if (size > (s->c_rxmem - 4)) {
812 size = s->c_rxmem - 4;
813 }
814
815 memcpy(s->rxmem, buf, size);
816 memset(s->rxmem + size, 0, 4); /* Clear the FCS. */
817
818 if (s->rcw[1] & RCW1_FCS) {
819 size += 4; /* fcs is inband. */
820 }
821
822 app[0] = 5 << 28;
823 csum32 = net_checksum_add(size - 14, (uint8_t *)s->rxmem + 14);
824 /* Fold it once. */
825 csum32 = (csum32 & 0xffff) + (csum32 >> 16);
826 /* And twice to get rid of possible carries. */
827 csum16 = (csum32 & 0xffff) + (csum32 >> 16);
828 app[3] = csum16;
829 app[4] = size & 0xffff;
830
831 s->stats.rx_bytes += size;
832 s->stats.rx++;
833 if (multicast) {
834 s->stats.rx_mcast++;
835 app[2] |= 1 | (ip_multicast << 1);
836 } else if (broadcast) {
837 s->stats.rx_bcast++;
838 app[2] |= 1 << 3;
839 }
840
841 /* Good frame. */
842 app[2] |= 1 << 6;
843
3630ae95
PC		 844 s->rxsize = size;
845 s->rxpos = 0;
42bb9c91
PC		 846 for (i = 0; i < ARRAY_SIZE(app); ++i) {
847 app[i] = cpu_to_le32(app[i]);
848 }
849 s->rxappsize = CONTROL_PAYLOAD_SIZE;
850 memcpy(s->rxapp, app, s->rxappsize);
3630ae95 851 axienet_eth_rx_notify(s);
93f1e401 852
93f1e401
EI		 853 enet_update_irq(s);
854 return size;
855}
856
4e68f7a0 857static void eth_cleanup(NetClientState *nc)
93f1e401
EI		 858{
859 /* FIXME. */
545129e5 860 XilinxAXIEnet *s = qemu_get_nic_opaque(nc);
7267c094
AL		 861 g_free(s->rxmem);
862 g_free(s);
93f1e401
EI		 863}
864
35e60bfd 865static size_t
42bb9c91
PC		 866xilinx_axienet_control_stream_push(StreamSlave *obj, uint8_t *buf, size_t len)
867{
868 int i;
869 XilinxAXIEnetStreamSlave *cs = XILINX_AXI_ENET_CONTROL_STREAM(obj);
870 XilinxAXIEnet *s = cs->enet;
871
872 if (len != CONTROL_PAYLOAD_SIZE) {
873 hw_error("AXI Enet requires %d byte control stream payload\n",
874 (int)CONTROL_PAYLOAD_SIZE);
875 }
876
877 memcpy(s->hdr, buf, len);
878
879 for (i = 0; i < ARRAY_SIZE(s->hdr); ++i) {
880 s->hdr[i] = le32_to_cpu(s->hdr[i]);
881 }
882 return len;
883}
884
885static size_t
886xilinx_axienet_data_stream_push(StreamSlave *obj, uint8_t *buf, size_t size)
93f1e401 887{
55b3e0c2
PC		 888 XilinxAXIEnetStreamSlave *ds = XILINX_AXI_ENET_DATA_STREAM(obj);
889 XilinxAXIEnet *s = ds->enet;
93f1e401
EI		 890
891 /* TX enable ? */
892 if (!(s->tc & TC_TX)) {
35e60bfd 893 return size;
93f1e401
EI		 894 }
895
896 /* Jumbo or vlan sizes ? */
897 if (!(s->tc & TC_JUM)) {
898 if (size > 1518 && size <= 1522 && !(s->tc & TC_VLAN)) {
35e60bfd 899 return size;
93f1e401
EI		 900 }
901 }
902
42bb9c91
PC		 903 if (s->hdr[0] & 1) {
904 unsigned int start_off = s->hdr[1] >> 16;
905 unsigned int write_off = s->hdr[1] & 0xffff;
93f1e401
EI		 906 uint32_t tmp_csum;
907 uint16_t csum;
908
909 tmp_csum = net_checksum_add(size - start_off,
910 (uint8_t *)buf + start_off);
911 /* Accumulate the seed. */
42bb9c91 912 tmp_csum += s->hdr[2] & 0xffff;
93f1e401
EI		 913
914 /* Fold the 32bit partial checksum. */
915 csum = net_checksum_finish(tmp_csum);
916
917 /* Writeback. */
918 buf[write_off] = csum >> 8;
919 buf[write_off + 1] = csum & 0xff;
920 }
921
b356f76d 922 qemu_send_packet(qemu_get_queue(s->nic), buf, size);
93f1e401
EI		 923
924 s->stats.tx_bytes += size;
925 s->regs[R_IS] |= IS_TX_COMPLETE;
926 enet_update_irq(s);
35e60bfd
PC		 927
928 return size;
93f1e401
EI		 929}
930
931static NetClientInfo net_xilinx_enet_info = {
2be64a68 932 .type = NET_CLIENT_OPTIONS_KIND_NIC,
93f1e401
EI		 933 .size = sizeof(NICState),
934 .can_receive = eth_can_rx,
935 .receive = eth_rx,
936 .cleanup = eth_cleanup,
937};
938
b2d9dfe9 939static void xilinx_enet_realize(DeviceState *dev, Error **errp)
93f1e401 940{
f0e7a81c 941 XilinxAXIEnet *s = XILINX_AXI_ENET(dev);
55b3e0c2 942 XilinxAXIEnetStreamSlave *ds = XILINX_AXI_ENET_DATA_STREAM(&s->rx_data_dev);
42bb9c91
PC		 943 XilinxAXIEnetStreamSlave *cs = XILINX_AXI_ENET_CONTROL_STREAM(
944 &s->rx_control_dev);
55b3e0c2
PC		 945 Error *local_errp = NULL;
946
947 object_property_add_link(OBJECT(ds), "enet", "xlnx.axi-ethernet",
948 (Object **) &ds->enet, &local_errp);
42bb9c91
PC		 949 object_property_add_link(OBJECT(cs), "enet", "xlnx.axi-ethernet",
950 (Object **) &cs->enet, &local_errp);
55b3e0c2
PC		 951 if (local_errp) {
952 goto xilinx_enet_realize_fail;
953 }
954 object_property_set_link(OBJECT(ds), OBJECT(s), "enet", &local_errp);
42bb9c91 955 object_property_set_link(OBJECT(cs), OBJECT(s), "enet", &local_errp);
55b3e0c2
PC		 956 if (local_errp) {
957 goto xilinx_enet_realize_fail;
958 }
93f1e401 959
93f1e401
EI		 960 qemu_macaddr_default_if_unset(&s->conf.macaddr);
961 s->nic = qemu_new_nic(&net_xilinx_enet_info, &s->conf,
b2d9dfe9 962 object_get_typename(OBJECT(dev)), dev->id, s);
b356f76d 963 qemu_format_nic_info_str(qemu_get_queue(s->nic), s->conf.macaddr.a);
93f1e401
EI		 964
965 tdk_init(&s->TEMAC.phy);
966 mdio_attach(&s->TEMAC.mdio_bus, &s->TEMAC.phy, s->c_phyaddr);
967
968 s->TEMAC.parent = s;
969
7267c094 970 s->rxmem = g_malloc(s->c_rxmem);
55b3e0c2
PC		 971 return;
972
973xilinx_enet_realize_fail:
974 if (!*errp) {
975 *errp = local_errp;
976 }
93f1e401
EI		 977}
978
b2d9dfe9 979static void xilinx_enet_init(Object *obj)
669b4983 980{
f0e7a81c 981 XilinxAXIEnet *s = XILINX_AXI_ENET(obj);
b2d9dfe9 982 SysBusDevice *sbd = SYS_BUS_DEVICE(obj);
b15aaca4 983 Error *errp = NULL;
669b4983
PC		 984
985 object_property_add_link(obj, "axistream-connected", TYPE_STREAM_SLAVE,
42bb9c91
PC		 986 (Object **) &s->tx_data_dev, &errp);
987 assert_no_error(errp);
988 object_property_add_link(obj, "axistream-control-connected",
989 TYPE_STREAM_SLAVE,
990 (Object **) &s->tx_control_dev, &errp);
b15aaca4 991 assert_no_error(errp);
b2d9dfe9 992
55b3e0c2 993 object_initialize(&s->rx_data_dev, TYPE_XILINX_AXI_ENET_DATA_STREAM);
42bb9c91 994 object_initialize(&s->rx_control_dev, TYPE_XILINX_AXI_ENET_CONTROL_STREAM);
55b3e0c2
PC		 995 object_property_add_child(OBJECT(s), "axistream-connected-target",
996 (Object *)&s->rx_data_dev, &errp);
997 assert_no_error(errp);
42bb9c91
PC		 998 object_property_add_child(OBJECT(s), "axistream-control-connected-target",
999 (Object *)&s->rx_control_dev, &errp);
1000 assert_no_error(errp);
55b3e0c2 1001
b2d9dfe9
PC		 1002 sysbus_init_irq(sbd, &s->irq);
1003
2c9b15ca 1004 memory_region_init_io(&s->iomem, NULL, &enet_ops, s, "enet", 0x40000);
b2d9dfe9 1005 sysbus_init_mmio(sbd, &s->iomem);
669b4983
PC		 1006}
1007
999e12bb 1008static Property xilinx_enet_properties[] = {
545129e5
PC		 1009 DEFINE_PROP_UINT32("phyaddr", XilinxAXIEnet, c_phyaddr, 7),
1010 DEFINE_PROP_UINT32("rxmem", XilinxAXIEnet, c_rxmem, 0x1000),
1011 DEFINE_PROP_UINT32("txmem", XilinxAXIEnet, c_txmem, 0x1000),
1012 DEFINE_NIC_PROPERTIES(XilinxAXIEnet, conf),
999e12bb
AL		 1013 DEFINE_PROP_END_OF_LIST(),
1014};
1015
1016static void xilinx_enet_class_init(ObjectClass *klass, void *data)
1017{
39bffca2 1018 DeviceClass *dc = DEVICE_CLASS(klass);
999e12bb 1019
b2d9dfe9 1020 dc->realize = xilinx_enet_realize;
39bffca2 1021 dc->props = xilinx_enet_properties;
9ee0ceb7 1022 dc->reset = xilinx_axienet_reset;
55b3e0c2
PC		 1023}
1024
1025static void xilinx_enet_stream_class_init(ObjectClass *klass, void *data)
1026{
1027 StreamSlaveClass *ssc = STREAM_SLAVE_CLASS(klass);
1028
1029 ssc->push = data;
999e12bb
AL		 1030}
1031
8c43a6f0 1032static const TypeInfo xilinx_enet_info = {
f0e7a81c 1033 .name = TYPE_XILINX_AXI_ENET,
39bffca2 1034 .parent = TYPE_SYS_BUS_DEVICE,
545129e5 1035 .instance_size = sizeof(XilinxAXIEnet),
39bffca2 1036 .class_init = xilinx_enet_class_init,
b2d9dfe9 1037 .instance_init = xilinx_enet_init,
55b3e0c2
PC		 1038};
1039
1040static const TypeInfo xilinx_enet_data_stream_info = {
1041 .name = TYPE_XILINX_AXI_ENET_DATA_STREAM,
1042 .parent = TYPE_OBJECT,
1043 .instance_size = sizeof(struct XilinxAXIEnetStreamSlave),
1044 .class_init = xilinx_enet_stream_class_init,
1045 .class_data = xilinx_axienet_data_stream_push,
669b4983
PC		 1046 .interfaces = (InterfaceInfo[]) {
1047 { TYPE_STREAM_SLAVE },
1048 { }
1049 }
93f1e401 1050};
83f7d43a 1051
42bb9c91
PC		 1052static const TypeInfo xilinx_enet_control_stream_info = {
1053 .name = TYPE_XILINX_AXI_ENET_CONTROL_STREAM,
1054 .parent = TYPE_OBJECT,
1055 .instance_size = sizeof(struct XilinxAXIEnetStreamSlave),
1056 .class_init = xilinx_enet_stream_class_init,
1057 .class_data = xilinx_axienet_control_stream_push,
1058 .interfaces = (InterfaceInfo[]) {
1059 { TYPE_STREAM_SLAVE },
1060 { }
1061 }
1062};
1063
83f7d43a 1064static void xilinx_enet_register_types(void)
93f1e401 1065{
39bffca2 1066 type_register_static(&xilinx_enet_info);
55b3e0c2 1067 type_register_static(&xilinx_enet_data_stream_info);
42bb9c91 1068 type_register_static(&xilinx_enet_control_stream_info);
93f1e401
EI		 1069}
1070
83f7d43a 1071type_init(xilinx_enet_register_types)
Qemu copy for testing