2 * QEMU Sun Happy Meal Ethernet emulation
4 * Copyright (c) 2017 Mark Cave-Ayland
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:
13 * The above copyright notice and this permission notice shall be included in
14 * all copies or substantial portions of the Software.
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
25 #include "qemu/osdep.h"
26 #include "hw/pci/pci_device.h"
27 #include "hw/qdev-properties.h"
28 #include "migration/vmstate.h"
29 #include "hw/net/mii.h"
31 #include "qemu/module.h"
32 #include "net/checksum.h"
34 #include "sysemu/sysemu.h"
36 #include "qom/object.h"
38 #define HME_REG_SIZE 0x8000
40 #define HME_SEB_REG_SIZE 0x2000
42 #define HME_SEBI_RESET 0x0
43 #define HME_SEB_RESET_ETX 0x1
44 #define HME_SEB_RESET_ERX 0x2
46 #define HME_SEBI_STAT 0x100
47 #define HME_SEBI_STAT_LINUXBUG 0x108
48 #define HME_SEB_STAT_RXTOHOST 0x10000
49 #define HME_SEB_STAT_NORXD 0x20000
50 #define HME_SEB_STAT_MIFIRQ 0x800000
51 #define HME_SEB_STAT_HOSTTOTX 0x1000000
52 #define HME_SEB_STAT_TXALL 0x2000000
54 #define HME_SEBI_IMASK 0x104
55 #define HME_SEBI_IMASK_LINUXBUG 0x10c
57 #define HME_ETX_REG_SIZE 0x2000
59 #define HME_ETXI_PENDING 0x0
61 #define HME_ETXI_RING 0x8
62 #define HME_ETXI_RING_ADDR 0xffffff00
63 #define HME_ETXI_RING_OFFSET 0xff
65 #define HME_ETXI_RSIZE 0x2c
67 #define HME_ERX_REG_SIZE 0x2000
69 #define HME_ERXI_CFG 0x0
70 #define HME_ERX_CFG_RINGSIZE 0x600
71 #define HME_ERX_CFG_RINGSIZE_SHIFT 9
72 #define HME_ERX_CFG_BYTEOFFSET 0x38
73 #define HME_ERX_CFG_BYTEOFFSET_SHIFT 3
74 #define HME_ERX_CFG_CSUMSTART 0x7f0000
75 #define HME_ERX_CFG_CSUMSHIFT 16
77 #define HME_ERXI_RING 0x4
78 #define HME_ERXI_RING_ADDR 0xffffff00
79 #define HME_ERXI_RING_OFFSET 0xff
81 #define HME_MAC_REG_SIZE 0x1000
83 #define HME_MACI_TXCFG 0x20c
84 #define HME_MAC_TXCFG_ENABLE 0x1
86 #define HME_MACI_RXCFG 0x30c
87 #define HME_MAC_RXCFG_ENABLE 0x1
88 #define HME_MAC_RXCFG_PMISC 0x40
89 #define HME_MAC_RXCFG_HENABLE 0x800
91 #define HME_MACI_MACADDR2 0x318
92 #define HME_MACI_MACADDR1 0x31c
93 #define HME_MACI_MACADDR0 0x320
95 #define HME_MACI_HASHTAB3 0x340
96 #define HME_MACI_HASHTAB2 0x344
97 #define HME_MACI_HASHTAB1 0x348
98 #define HME_MACI_HASHTAB0 0x34c
100 #define HME_MIF_REG_SIZE 0x20
102 #define HME_MIFI_FO 0xc
103 #define HME_MIF_FO_ST 0xc0000000
104 #define HME_MIF_FO_ST_SHIFT 30
105 #define HME_MIF_FO_OPC 0x30000000
106 #define HME_MIF_FO_OPC_SHIFT 28
107 #define HME_MIF_FO_PHYAD 0x0f800000
108 #define HME_MIF_FO_PHYAD_SHIFT 23
109 #define HME_MIF_FO_REGAD 0x007c0000
110 #define HME_MIF_FO_REGAD_SHIFT 18
111 #define HME_MIF_FO_TAMSB 0x20000
112 #define HME_MIF_FO_TALSB 0x10000
113 #define HME_MIF_FO_DATA 0xffff
115 #define HME_MIFI_CFG 0x10
116 #define HME_MIF_CFG_MDI0 0x100
117 #define HME_MIF_CFG_MDI1 0x200
119 #define HME_MIFI_IMASK 0x14
121 #define HME_MIFI_STAT 0x18
124 /* Wired HME PHY addresses */
125 #define HME_PHYAD_INTERNAL 1
126 #define HME_PHYAD_EXTERNAL 0
128 #define MII_COMMAND_START 0x1
129 #define MII_COMMAND_READ 0x2
130 #define MII_COMMAND_WRITE 0x1
132 #define TYPE_SUNHME "sunhme"
133 OBJECT_DECLARE_SIMPLE_TYPE(SunHMEState
, SUNHME
)
135 /* Maximum size of buffer */
136 #define HME_FIFO_SIZE 0x800
138 /* Size of TX/RX descriptor */
139 #define HME_DESC_SIZE 0x8
141 #define HME_XD_OWN 0x80000000
142 #define HME_XD_OFL 0x40000000
143 #define HME_XD_SOP 0x40000000
144 #define HME_XD_EOP 0x20000000
145 #define HME_XD_RXLENMSK 0x3fff0000
146 #define HME_XD_RXLENSHIFT 16
147 #define HME_XD_RXCKSUM 0xffff
148 #define HME_XD_TXLENMSK 0x00001fff
149 #define HME_XD_TXCKSUM 0x10000000
150 #define HME_XD_TXCSSTUFF 0xff00000
151 #define HME_XD_TXCSSTUFFSHIFT 20
152 #define HME_XD_TXCSSTART 0xfc000
153 #define HME_XD_TXCSSTARTSHIFT 14
155 #define HME_MII_REGS_SIZE 0x20
159 PCIDevice parent_obj
;
171 uint32_t sebregs
[HME_SEB_REG_SIZE
>> 2];
172 uint32_t etxregs
[HME_ETX_REG_SIZE
>> 2];
173 uint32_t erxregs
[HME_ERX_REG_SIZE
>> 2];
174 uint32_t macregs
[HME_MAC_REG_SIZE
>> 2];
175 uint32_t mifregs
[HME_MIF_REG_SIZE
>> 2];
177 uint16_t miiregs
[HME_MII_REGS_SIZE
];
180 static Property sunhme_properties
[] = {
181 DEFINE_NIC_PROPERTIES(SunHMEState
, conf
),
182 DEFINE_PROP_END_OF_LIST(),
185 static void sunhme_reset_tx(SunHMEState
*s
)
187 /* Indicate TX reset complete */
188 s
->sebregs
[HME_SEBI_RESET
] &= ~HME_SEB_RESET_ETX
;
191 static void sunhme_reset_rx(SunHMEState
*s
)
193 /* Indicate RX reset complete */
194 s
->sebregs
[HME_SEBI_RESET
] &= ~HME_SEB_RESET_ERX
;
197 static void sunhme_update_irq(SunHMEState
*s
)
199 PCIDevice
*d
= PCI_DEVICE(s
);
202 /* MIF interrupt mask (16-bit) */
203 uint32_t mifmask
= ~(s
->mifregs
[HME_MIFI_IMASK
>> 2]) & 0xffff;
204 uint32_t mif
= s
->mifregs
[HME_MIFI_STAT
>> 2] & mifmask
;
206 /* Main SEB interrupt mask (include MIF status from above) */
207 uint32_t sebmask
= ~(s
->sebregs
[HME_SEBI_IMASK
>> 2]) &
208 ~HME_SEB_STAT_MIFIRQ
;
209 uint32_t seb
= s
->sebregs
[HME_SEBI_STAT
>> 2] & sebmask
;
211 seb
|= HME_SEB_STAT_MIFIRQ
;
214 level
= (seb
? 1 : 0);
215 trace_sunhme_update_irq(mifmask
, mif
, sebmask
, seb
, level
);
217 pci_set_irq(d
, level
);
220 static void sunhme_seb_write(void *opaque
, hwaddr addr
,
221 uint64_t val
, unsigned size
)
223 SunHMEState
*s
= SUNHME(opaque
);
225 trace_sunhme_seb_write(addr
, val
);
227 /* Handly buggy Linux drivers before 4.13 which have
228 the wrong offsets for HME_SEBI_STAT and HME_SEBI_IMASK */
230 case HME_SEBI_STAT_LINUXBUG
:
231 addr
= HME_SEBI_STAT
;
233 case HME_SEBI_IMASK_LINUXBUG
:
234 addr
= HME_SEBI_IMASK
;
242 if (val
& HME_SEB_RESET_ETX
) {
245 if (val
& HME_SEB_RESET_ERX
) {
248 val
= s
->sebregs
[HME_SEBI_RESET
>> 2];
252 s
->sebregs
[addr
>> 2] = val
;
255 static uint64_t sunhme_seb_read(void *opaque
, hwaddr addr
,
258 SunHMEState
*s
= SUNHME(opaque
);
261 /* Handly buggy Linux drivers before 4.13 which have
262 the wrong offsets for HME_SEBI_STAT and HME_SEBI_IMASK */
264 case HME_SEBI_STAT_LINUXBUG
:
265 addr
= HME_SEBI_STAT
;
267 case HME_SEBI_IMASK_LINUXBUG
:
268 addr
= HME_SEBI_IMASK
;
274 val
= s
->sebregs
[addr
>> 2];
278 /* Autoclear status (except MIF) */
279 s
->sebregs
[HME_SEBI_STAT
>> 2] &= HME_SEB_STAT_MIFIRQ
;
280 sunhme_update_irq(s
);
284 trace_sunhme_seb_read(addr
, val
);
289 static const MemoryRegionOps sunhme_seb_ops
= {
290 .read
= sunhme_seb_read
,
291 .write
= sunhme_seb_write
,
292 .endianness
= DEVICE_LITTLE_ENDIAN
,
294 .min_access_size
= 4,
295 .max_access_size
= 4,
299 static void sunhme_transmit(SunHMEState
*s
);
301 static void sunhme_etx_write(void *opaque
, hwaddr addr
,
302 uint64_t val
, unsigned size
)
304 SunHMEState
*s
= SUNHME(opaque
);
306 trace_sunhme_etx_write(addr
, val
);
309 case HME_ETXI_PENDING
:
316 s
->etxregs
[addr
>> 2] = val
;
319 static uint64_t sunhme_etx_read(void *opaque
, hwaddr addr
,
322 SunHMEState
*s
= SUNHME(opaque
);
325 val
= s
->etxregs
[addr
>> 2];
327 trace_sunhme_etx_read(addr
, val
);
332 static const MemoryRegionOps sunhme_etx_ops
= {
333 .read
= sunhme_etx_read
,
334 .write
= sunhme_etx_write
,
335 .endianness
= DEVICE_LITTLE_ENDIAN
,
337 .min_access_size
= 4,
338 .max_access_size
= 4,
342 static void sunhme_erx_write(void *opaque
, hwaddr addr
,
343 uint64_t val
, unsigned size
)
345 SunHMEState
*s
= SUNHME(opaque
);
347 trace_sunhme_erx_write(addr
, val
);
349 s
->erxregs
[addr
>> 2] = val
;
352 static uint64_t sunhme_erx_read(void *opaque
, hwaddr addr
,
355 SunHMEState
*s
= SUNHME(opaque
);
358 val
= s
->erxregs
[addr
>> 2];
360 trace_sunhme_erx_read(addr
, val
);
365 static const MemoryRegionOps sunhme_erx_ops
= {
366 .read
= sunhme_erx_read
,
367 .write
= sunhme_erx_write
,
368 .endianness
= DEVICE_LITTLE_ENDIAN
,
370 .min_access_size
= 4,
371 .max_access_size
= 4,
375 static void sunhme_mac_write(void *opaque
, hwaddr addr
,
376 uint64_t val
, unsigned size
)
378 SunHMEState
*s
= SUNHME(opaque
);
379 uint64_t oldval
= s
->macregs
[addr
>> 2];
381 trace_sunhme_mac_write(addr
, val
);
383 s
->macregs
[addr
>> 2] = val
;
387 if (!(oldval
& HME_MAC_RXCFG_ENABLE
) &&
388 (val
& HME_MAC_RXCFG_ENABLE
)) {
389 qemu_flush_queued_packets(qemu_get_queue(s
->nic
));
395 static uint64_t sunhme_mac_read(void *opaque
, hwaddr addr
,
398 SunHMEState
*s
= SUNHME(opaque
);
401 val
= s
->macregs
[addr
>> 2];
403 trace_sunhme_mac_read(addr
, val
);
408 static const MemoryRegionOps sunhme_mac_ops
= {
409 .read
= sunhme_mac_read
,
410 .write
= sunhme_mac_write
,
411 .endianness
= DEVICE_LITTLE_ENDIAN
,
413 .min_access_size
= 4,
414 .max_access_size
= 4,
418 static void sunhme_mii_write(SunHMEState
*s
, uint8_t reg
, uint16_t data
)
420 trace_sunhme_mii_write(reg
, data
);
424 if (data
& MII_BMCR_RESET
) {
425 /* Autoclear reset bit, enable auto negotiation */
426 data
&= ~MII_BMCR_RESET
;
427 data
|= MII_BMCR_AUTOEN
;
429 if (data
& MII_BMCR_ANRESTART
) {
430 /* Autoclear auto negotiation restart */
431 data
&= ~MII_BMCR_ANRESTART
;
433 /* Indicate negotiation complete */
434 s
->miiregs
[MII_BMSR
] |= MII_BMSR_AN_COMP
;
436 if (!qemu_get_queue(s
->nic
)->link_down
) {
437 s
->miiregs
[MII_ANLPAR
] |= MII_ANLPAR_TXFD
;
438 s
->miiregs
[MII_BMSR
] |= MII_BMSR_LINK_ST
;
444 s
->miiregs
[reg
] = data
;
447 static uint16_t sunhme_mii_read(SunHMEState
*s
, uint8_t reg
)
449 uint16_t data
= s
->miiregs
[reg
];
451 trace_sunhme_mii_read(reg
, data
);
456 static void sunhme_mif_write(void *opaque
, hwaddr addr
,
457 uint64_t val
, unsigned size
)
459 SunHMEState
*s
= SUNHME(opaque
);
463 trace_sunhme_mif_write(addr
, val
);
467 /* Mask the read-only bits */
468 val
&= ~(HME_MIF_CFG_MDI0
| HME_MIF_CFG_MDI1
);
469 val
|= s
->mifregs
[HME_MIFI_CFG
>> 2] &
470 (HME_MIF_CFG_MDI0
| HME_MIF_CFG_MDI1
);
473 /* Detect start of MII command */
474 if ((val
& HME_MIF_FO_ST
) >> HME_MIF_FO_ST_SHIFT
475 != MII_COMMAND_START
) {
476 val
|= HME_MIF_FO_TALSB
;
480 /* Internal phy only */
481 if ((val
& HME_MIF_FO_PHYAD
) >> HME_MIF_FO_PHYAD_SHIFT
482 != HME_PHYAD_INTERNAL
) {
483 val
|= HME_MIF_FO_TALSB
;
487 cmd
= (val
& HME_MIF_FO_OPC
) >> HME_MIF_FO_OPC_SHIFT
;
488 reg
= (val
& HME_MIF_FO_REGAD
) >> HME_MIF_FO_REGAD_SHIFT
;
489 data
= (val
& HME_MIF_FO_DATA
);
492 case MII_COMMAND_WRITE
:
493 sunhme_mii_write(s
, reg
, data
);
496 case MII_COMMAND_READ
:
497 val
&= ~HME_MIF_FO_DATA
;
498 val
|= sunhme_mii_read(s
, reg
);
502 val
|= HME_MIF_FO_TALSB
;
506 s
->mifregs
[addr
>> 2] = val
;
509 static uint64_t sunhme_mif_read(void *opaque
, hwaddr addr
,
512 SunHMEState
*s
= SUNHME(opaque
);
515 val
= s
->mifregs
[addr
>> 2];
519 /* Autoclear MIF interrupt status */
520 s
->mifregs
[HME_MIFI_STAT
>> 2] = 0;
521 sunhme_update_irq(s
);
525 trace_sunhme_mif_read(addr
, val
);
530 static const MemoryRegionOps sunhme_mif_ops
= {
531 .read
= sunhme_mif_read
,
532 .write
= sunhme_mif_write
,
533 .endianness
= DEVICE_LITTLE_ENDIAN
,
535 .min_access_size
= 4,
536 .max_access_size
= 4,
540 static void sunhme_transmit_frame(SunHMEState
*s
, uint8_t *buf
, int size
)
542 qemu_send_packet(qemu_get_queue(s
->nic
), buf
, size
);
545 static inline int sunhme_get_tx_ring_count(SunHMEState
*s
)
547 return (s
->etxregs
[HME_ETXI_RSIZE
>> 2] + 1) << 4;
550 static inline int sunhme_get_tx_ring_nr(SunHMEState
*s
)
552 return s
->etxregs
[HME_ETXI_RING
>> 2] & HME_ETXI_RING_OFFSET
;
555 static inline void sunhme_set_tx_ring_nr(SunHMEState
*s
, int i
)
557 uint32_t ring
= s
->etxregs
[HME_ETXI_RING
>> 2] & ~HME_ETXI_RING_OFFSET
;
558 ring
|= i
& HME_ETXI_RING_OFFSET
;
560 s
->etxregs
[HME_ETXI_RING
>> 2] = ring
;
563 static void sunhme_transmit(SunHMEState
*s
)
565 PCIDevice
*d
= PCI_DEVICE(s
);
567 uint32_t intstatus
, status
, buffer
, sum
= 0;
568 int cr
, nr
, len
, xmit_pos
, csum_offset
= 0, csum_stuff_offset
= 0;
570 uint8_t xmit_buffer
[HME_FIFO_SIZE
];
572 tb
= s
->etxregs
[HME_ETXI_RING
>> 2] & HME_ETXI_RING_ADDR
;
573 nr
= sunhme_get_tx_ring_count(s
);
574 cr
= sunhme_get_tx_ring_nr(s
);
576 pci_dma_read(d
, tb
+ cr
* HME_DESC_SIZE
, &status
, 4);
577 pci_dma_read(d
, tb
+ cr
* HME_DESC_SIZE
+ 4, &buffer
, 4);
580 while (status
& HME_XD_OWN
) {
581 trace_sunhme_tx_desc(buffer
, status
, cr
, nr
);
583 /* Copy data into transmit buffer */
585 len
= status
& HME_XD_TXLENMSK
;
587 if (xmit_pos
+ len
> HME_FIFO_SIZE
) {
588 len
= HME_FIFO_SIZE
- xmit_pos
;
591 pci_dma_read(d
, addr
, &xmit_buffer
[xmit_pos
], len
);
594 /* Detect start of packet for TX checksum */
595 if (status
& HME_XD_SOP
) {
597 csum_offset
= (status
& HME_XD_TXCSSTART
) >> HME_XD_TXCSSTARTSHIFT
;
598 csum_stuff_offset
= (status
& HME_XD_TXCSSTUFF
) >>
599 HME_XD_TXCSSTUFFSHIFT
;
602 if (status
& HME_XD_TXCKSUM
) {
603 /* Only start calculation from csum_offset */
604 if (xmit_pos
- len
<= csum_offset
&& xmit_pos
> csum_offset
) {
605 sum
+= net_checksum_add(xmit_pos
- csum_offset
,
606 xmit_buffer
+ csum_offset
);
607 trace_sunhme_tx_xsum_add(csum_offset
, xmit_pos
- csum_offset
);
609 sum
+= net_checksum_add(len
, xmit_buffer
+ xmit_pos
- len
);
610 trace_sunhme_tx_xsum_add(xmit_pos
- len
, len
);
614 /* Detect end of packet for TX checksum */
615 if (status
& HME_XD_EOP
) {
616 /* Stuff the checksum if required */
617 if (status
& HME_XD_TXCKSUM
) {
618 csum
= net_checksum_finish(sum
);
619 stw_be_p(xmit_buffer
+ csum_stuff_offset
, csum
);
620 trace_sunhme_tx_xsum_stuff(csum
, csum_stuff_offset
);
623 if (s
->macregs
[HME_MACI_TXCFG
>> 2] & HME_MAC_TXCFG_ENABLE
) {
624 sunhme_transmit_frame(s
, xmit_buffer
, xmit_pos
);
625 trace_sunhme_tx_done(xmit_pos
);
630 status
&= ~HME_XD_OWN
;
631 pci_dma_write(d
, tb
+ cr
* HME_DESC_SIZE
, &status
, 4);
633 /* Move onto next descriptor */
638 sunhme_set_tx_ring_nr(s
, cr
);
640 pci_dma_read(d
, tb
+ cr
* HME_DESC_SIZE
, &status
, 4);
641 pci_dma_read(d
, tb
+ cr
* HME_DESC_SIZE
+ 4, &buffer
, 4);
643 /* Indicate TX complete */
644 intstatus
= s
->sebregs
[HME_SEBI_STAT
>> 2];
645 intstatus
|= HME_SEB_STAT_HOSTTOTX
;
646 s
->sebregs
[HME_SEBI_STAT
>> 2] = intstatus
;
648 /* Autoclear TX pending */
649 s
->etxregs
[HME_ETXI_PENDING
>> 2] = 0;
651 sunhme_update_irq(s
);
654 /* TX FIFO now clear */
655 intstatus
= s
->sebregs
[HME_SEBI_STAT
>> 2];
656 intstatus
|= HME_SEB_STAT_TXALL
;
657 s
->sebregs
[HME_SEBI_STAT
>> 2] = intstatus
;
658 sunhme_update_irq(s
);
661 static bool sunhme_can_receive(NetClientState
*nc
)
663 SunHMEState
*s
= qemu_get_nic_opaque(nc
);
665 return !!(s
->macregs
[HME_MACI_RXCFG
>> 2] & HME_MAC_RXCFG_ENABLE
);
668 static void sunhme_link_status_changed(NetClientState
*nc
)
670 SunHMEState
*s
= qemu_get_nic_opaque(nc
);
673 s
->miiregs
[MII_ANLPAR
] &= ~MII_ANLPAR_TXFD
;
674 s
->miiregs
[MII_BMSR
] &= ~MII_BMSR_LINK_ST
;
676 s
->miiregs
[MII_ANLPAR
] |= MII_ANLPAR_TXFD
;
677 s
->miiregs
[MII_BMSR
] |= MII_BMSR_LINK_ST
;
680 /* Exact bits unknown */
681 s
->mifregs
[HME_MIFI_STAT
>> 2] = 0xffff;
682 sunhme_update_irq(s
);
685 static inline int sunhme_get_rx_ring_count(SunHMEState
*s
)
687 uint32_t rings
= (s
->erxregs
[HME_ERXI_CFG
>> 2] & HME_ERX_CFG_RINGSIZE
)
688 >> HME_ERX_CFG_RINGSIZE_SHIFT
;
704 static inline int sunhme_get_rx_ring_nr(SunHMEState
*s
)
706 return s
->erxregs
[HME_ERXI_RING
>> 2] & HME_ERXI_RING_OFFSET
;
709 static inline void sunhme_set_rx_ring_nr(SunHMEState
*s
, int i
)
711 uint32_t ring
= s
->erxregs
[HME_ERXI_RING
>> 2] & ~HME_ERXI_RING_OFFSET
;
712 ring
|= i
& HME_ERXI_RING_OFFSET
;
714 s
->erxregs
[HME_ERXI_RING
>> 2] = ring
;
717 static ssize_t
sunhme_receive(NetClientState
*nc
, const uint8_t *buf
,
720 SunHMEState
*s
= qemu_get_nic_opaque(nc
);
721 PCIDevice
*d
= PCI_DEVICE(s
);
723 uint32_t intstatus
, status
, buffer
, buffersize
, sum
;
725 int nr
, cr
, len
, rxoffset
, csum_offset
;
727 trace_sunhme_rx_incoming(size
);
729 /* Do nothing if MAC RX disabled */
730 if (!(s
->macregs
[HME_MACI_RXCFG
>> 2] & HME_MAC_RXCFG_ENABLE
)) {
734 trace_sunhme_rx_filter_destmac(buf
[0], buf
[1], buf
[2],
735 buf
[3], buf
[4], buf
[5]);
737 /* Check destination MAC address */
738 if (!(s
->macregs
[HME_MACI_RXCFG
>> 2] & HME_MAC_RXCFG_PMISC
)) {
739 /* Try and match local MAC address */
740 if (((s
->macregs
[HME_MACI_MACADDR0
>> 2] & 0xff00) >> 8) == buf
[0] &&
741 (s
->macregs
[HME_MACI_MACADDR0
>> 2] & 0xff) == buf
[1] &&
742 ((s
->macregs
[HME_MACI_MACADDR1
>> 2] & 0xff00) >> 8) == buf
[2] &&
743 (s
->macregs
[HME_MACI_MACADDR1
>> 2] & 0xff) == buf
[3] &&
744 ((s
->macregs
[HME_MACI_MACADDR2
>> 2] & 0xff00) >> 8) == buf
[4] &&
745 (s
->macregs
[HME_MACI_MACADDR2
>> 2] & 0xff) == buf
[5]) {
746 /* Matched local MAC address */
747 trace_sunhme_rx_filter_local_match();
748 } else if (buf
[0] == 0xff && buf
[1] == 0xff && buf
[2] == 0xff &&
749 buf
[3] == 0xff && buf
[4] == 0xff && buf
[5] == 0xff) {
750 /* Matched broadcast address */
751 trace_sunhme_rx_filter_bcast_match();
752 } else if (s
->macregs
[HME_MACI_RXCFG
>> 2] & HME_MAC_RXCFG_HENABLE
) {
753 /* Didn't match local address, check hash filter */
754 int mcast_idx
= net_crc32_le(buf
, ETH_ALEN
) >> 26;
755 if (!(s
->macregs
[(HME_MACI_HASHTAB0
>> 2) - (mcast_idx
>> 4)] &
756 (1 << (mcast_idx
& 0xf)))) {
757 /* Didn't match hash filter */
758 trace_sunhme_rx_filter_hash_nomatch();
759 trace_sunhme_rx_filter_reject();
762 trace_sunhme_rx_filter_hash_match();
766 trace_sunhme_rx_filter_reject();
770 trace_sunhme_rx_filter_promisc_match();
773 trace_sunhme_rx_filter_accept();
775 rb
= s
->erxregs
[HME_ERXI_RING
>> 2] & HME_ERXI_RING_ADDR
;
776 nr
= sunhme_get_rx_ring_count(s
);
777 cr
= sunhme_get_rx_ring_nr(s
);
779 pci_dma_read(d
, rb
+ cr
* HME_DESC_SIZE
, &status
, 4);
780 pci_dma_read(d
, rb
+ cr
* HME_DESC_SIZE
+ 4, &buffer
, 4);
782 /* If we don't own the current descriptor then indicate overflow error */
783 if (!(status
& HME_XD_OWN
)) {
784 s
->sebregs
[HME_SEBI_STAT
>> 2] |= HME_SEB_STAT_NORXD
;
785 sunhme_update_irq(s
);
786 trace_sunhme_rx_norxd();
790 rxoffset
= (s
->erxregs
[HME_ERXI_CFG
>> 2] & HME_ERX_CFG_BYTEOFFSET
) >>
791 HME_ERX_CFG_BYTEOFFSET_SHIFT
;
793 addr
= buffer
+ rxoffset
;
794 buffersize
= (status
& HME_XD_RXLENMSK
) >> HME_XD_RXLENSHIFT
;
796 /* Detect receive overflow */
798 if (size
> buffersize
) {
799 status
|= HME_XD_OFL
;
803 pci_dma_write(d
, addr
, buf
, len
);
805 trace_sunhme_rx_desc(buffer
, rxoffset
, status
, len
, cr
, nr
);
807 /* Calculate the receive checksum */
808 csum_offset
= (s
->erxregs
[HME_ERXI_CFG
>> 2] & HME_ERX_CFG_CSUMSTART
) >>
809 HME_ERX_CFG_CSUMSHIFT
<< 1;
811 sum
+= net_checksum_add(len
- csum_offset
, (uint8_t *)buf
+ csum_offset
);
812 csum
= net_checksum_finish(sum
);
814 trace_sunhme_rx_xsum_calc(csum
);
817 status
&= ~HME_XD_OWN
;
818 status
&= ~HME_XD_RXLENMSK
;
819 status
|= len
<< HME_XD_RXLENSHIFT
;
820 status
&= ~HME_XD_RXCKSUM
;
823 pci_dma_write(d
, rb
+ cr
* HME_DESC_SIZE
, &status
, 4);
830 sunhme_set_rx_ring_nr(s
, cr
);
832 /* Indicate RX complete */
833 intstatus
= s
->sebregs
[HME_SEBI_STAT
>> 2];
834 intstatus
|= HME_SEB_STAT_RXTOHOST
;
835 s
->sebregs
[HME_SEBI_STAT
>> 2] = intstatus
;
837 sunhme_update_irq(s
);
842 static NetClientInfo net_sunhme_info
= {
843 .type
= NET_CLIENT_DRIVER_NIC
,
844 .size
= sizeof(NICState
),
845 .can_receive
= sunhme_can_receive
,
846 .receive
= sunhme_receive
,
847 .link_status_changed
= sunhme_link_status_changed
,
850 static void sunhme_realize(PCIDevice
*pci_dev
, Error
**errp
)
852 SunHMEState
*s
= SUNHME(pci_dev
);
853 DeviceState
*d
= DEVICE(pci_dev
);
856 pci_conf
= pci_dev
->config
;
857 pci_conf
[PCI_INTERRUPT_PIN
] = 1; /* interrupt pin A */
859 memory_region_init(&s
->hme
, OBJECT(pci_dev
), "sunhme", HME_REG_SIZE
);
860 pci_register_bar(pci_dev
, 0, PCI_BASE_ADDRESS_SPACE_MEMORY
, &s
->hme
);
862 memory_region_init_io(&s
->sebreg
, OBJECT(pci_dev
), &sunhme_seb_ops
, s
,
863 "sunhme.seb", HME_SEB_REG_SIZE
);
864 memory_region_add_subregion(&s
->hme
, 0, &s
->sebreg
);
866 memory_region_init_io(&s
->etxreg
, OBJECT(pci_dev
), &sunhme_etx_ops
, s
,
867 "sunhme.etx", HME_ETX_REG_SIZE
);
868 memory_region_add_subregion(&s
->hme
, 0x2000, &s
->etxreg
);
870 memory_region_init_io(&s
->erxreg
, OBJECT(pci_dev
), &sunhme_erx_ops
, s
,
871 "sunhme.erx", HME_ERX_REG_SIZE
);
872 memory_region_add_subregion(&s
->hme
, 0x4000, &s
->erxreg
);
874 memory_region_init_io(&s
->macreg
, OBJECT(pci_dev
), &sunhme_mac_ops
, s
,
875 "sunhme.mac", HME_MAC_REG_SIZE
);
876 memory_region_add_subregion(&s
->hme
, 0x6000, &s
->macreg
);
878 memory_region_init_io(&s
->mifreg
, OBJECT(pci_dev
), &sunhme_mif_ops
, s
,
879 "sunhme.mif", HME_MIF_REG_SIZE
);
880 memory_region_add_subregion(&s
->hme
, 0x7000, &s
->mifreg
);
882 qemu_macaddr_default_if_unset(&s
->conf
.macaddr
);
883 s
->nic
= qemu_new_nic(&net_sunhme_info
, &s
->conf
,
884 object_get_typename(OBJECT(d
)), d
->id
,
885 &d
->mem_reentrancy_guard
, s
);
886 qemu_format_nic_info_str(qemu_get_queue(s
->nic
), s
->conf
.macaddr
.a
);
889 static void sunhme_instance_init(Object
*obj
)
891 SunHMEState
*s
= SUNHME(obj
);
893 device_add_bootindex_property(obj
, &s
->conf
.bootindex
,
894 "bootindex", "/ethernet-phy@0",
898 static void sunhme_reset(DeviceState
*ds
)
900 SunHMEState
*s
= SUNHME(ds
);
902 /* Configure internal transceiver */
903 s
->mifregs
[HME_MIFI_CFG
>> 2] |= HME_MIF_CFG_MDI0
;
905 /* Advertise auto, 100Mbps FD */
906 s
->miiregs
[MII_ANAR
] = MII_ANAR_TXFD
;
907 s
->miiregs
[MII_BMSR
] = MII_BMSR_AUTONEG
| MII_BMSR_100TX_FD
|
910 if (!qemu_get_queue(s
->nic
)->link_down
) {
911 s
->miiregs
[MII_ANLPAR
] |= MII_ANLPAR_TXFD
;
912 s
->miiregs
[MII_BMSR
] |= MII_BMSR_LINK_ST
;
915 /* Set manufacturer */
916 s
->miiregs
[MII_PHYID1
] = DP83840_PHYID1
;
917 s
->miiregs
[MII_PHYID2
] = DP83840_PHYID2
;
919 /* Configure default interrupt mask */
920 s
->mifregs
[HME_MIFI_IMASK
>> 2] = 0xffff;
921 s
->sebregs
[HME_SEBI_IMASK
>> 2] = 0xff7fffff;
924 static const VMStateDescription vmstate_hme
= {
927 .minimum_version_id
= 0,
928 .fields
= (const VMStateField
[]) {
929 VMSTATE_PCI_DEVICE(parent_obj
, SunHMEState
),
930 VMSTATE_MACADDR(conf
.macaddr
, SunHMEState
),
931 VMSTATE_UINT32_ARRAY(sebregs
, SunHMEState
, (HME_SEB_REG_SIZE
>> 2)),
932 VMSTATE_UINT32_ARRAY(etxregs
, SunHMEState
, (HME_ETX_REG_SIZE
>> 2)),
933 VMSTATE_UINT32_ARRAY(erxregs
, SunHMEState
, (HME_ERX_REG_SIZE
>> 2)),
934 VMSTATE_UINT32_ARRAY(macregs
, SunHMEState
, (HME_MAC_REG_SIZE
>> 2)),
935 VMSTATE_UINT32_ARRAY(mifregs
, SunHMEState
, (HME_MIF_REG_SIZE
>> 2)),
936 VMSTATE_UINT16_ARRAY(miiregs
, SunHMEState
, HME_MII_REGS_SIZE
),
937 VMSTATE_END_OF_LIST()
941 static void sunhme_class_init(ObjectClass
*klass
, void *data
)
943 DeviceClass
*dc
= DEVICE_CLASS(klass
);
944 PCIDeviceClass
*k
= PCI_DEVICE_CLASS(klass
);
946 k
->realize
= sunhme_realize
;
947 k
->vendor_id
= PCI_VENDOR_ID_SUN
;
948 k
->device_id
= PCI_DEVICE_ID_SUN_HME
;
949 k
->class_id
= PCI_CLASS_NETWORK_ETHERNET
;
950 dc
->vmsd
= &vmstate_hme
;
951 device_class_set_legacy_reset(dc
, sunhme_reset
);
952 device_class_set_props(dc
, sunhme_properties
);
953 set_bit(DEVICE_CATEGORY_NETWORK
, dc
->categories
);
956 static const TypeInfo sunhme_info
= {
958 .parent
= TYPE_PCI_DEVICE
,
959 .class_init
= sunhme_class_init
,
960 .instance_size
= sizeof(SunHMEState
),
961 .instance_init
= sunhme_instance_init
,
962 .interfaces
= (InterfaceInfo
[]) {
963 { INTERFACE_CONVENTIONAL_PCI_DEVICE
},
968 static void sunhme_register_types(void)
970 type_register_static(&sunhme_info
);
973 type_init(sunhme_register_types
)