2 * ColdFire Fast Ethernet Controller emulation.
4 * Copyright (c) 2007 CodeSourcery.
6 * This code is licensed under the GPL
10 #include "hw/m68k/mcf.h"
13 #include "exec/address-spaces.h"
18 #define DPRINTF(fmt, ...) \
19 do { printf("mcf_fec: " fmt , ## __VA_ARGS__); } while (0)
21 #define DPRINTF(fmt, ...) do {} while(0)
24 #define FEC_MAX_FRAME_SIZE 2032
36 uint32_t rx_descriptor
;
37 uint32_t tx_descriptor
;
50 #define FEC_INT_HB 0x80000000
51 #define FEC_INT_BABR 0x40000000
52 #define FEC_INT_BABT 0x20000000
53 #define FEC_INT_GRA 0x10000000
54 #define FEC_INT_TXF 0x08000000
55 #define FEC_INT_TXB 0x04000000
56 #define FEC_INT_RXF 0x02000000
57 #define FEC_INT_RXB 0x01000000
58 #define FEC_INT_MII 0x00800000
59 #define FEC_INT_EB 0x00400000
60 #define FEC_INT_LC 0x00200000
61 #define FEC_INT_RL 0x00100000
62 #define FEC_INT_UN 0x00080000
67 /* Map interrupt flags onto IRQ lines. */
68 #define FEC_NUM_IRQ 13
69 static const uint32_t mcf_fec_irq_map
[FEC_NUM_IRQ
] = {
85 /* Buffer Descriptor. */
92 #define FEC_BD_R 0x8000
93 #define FEC_BD_E 0x8000
94 #define FEC_BD_O1 0x4000
95 #define FEC_BD_W 0x2000
96 #define FEC_BD_O2 0x1000
97 #define FEC_BD_L 0x0800
98 #define FEC_BD_TC 0x0400
99 #define FEC_BD_ABC 0x0200
100 #define FEC_BD_M 0x0100
101 #define FEC_BD_BC 0x0080
102 #define FEC_BD_MC 0x0040
103 #define FEC_BD_LG 0x0020
104 #define FEC_BD_NO 0x0010
105 #define FEC_BD_CR 0x0004
106 #define FEC_BD_OV 0x0002
107 #define FEC_BD_TR 0x0001
109 static void mcf_fec_read_bd(mcf_fec_bd
*bd
, uint32_t addr
)
111 cpu_physical_memory_read(addr
, bd
, sizeof(*bd
));
112 be16_to_cpus(&bd
->flags
);
113 be16_to_cpus(&bd
->length
);
114 be32_to_cpus(&bd
->data
);
117 static void mcf_fec_write_bd(mcf_fec_bd
*bd
, uint32_t addr
)
120 tmp
.flags
= cpu_to_be16(bd
->flags
);
121 tmp
.length
= cpu_to_be16(bd
->length
);
122 tmp
.data
= cpu_to_be32(bd
->data
);
123 cpu_physical_memory_write(addr
, &tmp
, sizeof(tmp
));
126 static void mcf_fec_update(mcf_fec_state
*s
)
133 active
= s
->eir
& s
->eimr
;
134 changed
= active
^s
->irq_state
;
135 for (i
= 0; i
< FEC_NUM_IRQ
; i
++) {
136 mask
= mcf_fec_irq_map
[i
];
137 if (changed
& mask
) {
138 DPRINTF("IRQ %d = %d\n", i
, (active
& mask
) != 0);
139 qemu_set_irq(s
->irq
[i
], (active
& mask
) != 0);
142 s
->irq_state
= active
;
145 static void mcf_fec_do_tx(mcf_fec_state
*s
)
151 uint8_t frame
[FEC_MAX_FRAME_SIZE
];
157 addr
= s
->tx_descriptor
;
159 mcf_fec_read_bd(&bd
, addr
);
160 DPRINTF("tx_bd %x flags %04x len %d data %08x\n",
161 addr
, bd
.flags
, bd
.length
, bd
.data
);
162 if ((bd
.flags
& FEC_BD_R
) == 0) {
163 /* Run out of descriptors to transmit. */
167 if (frame_size
+ len
> FEC_MAX_FRAME_SIZE
) {
168 len
= FEC_MAX_FRAME_SIZE
- frame_size
;
169 s
->eir
|= FEC_INT_BABT
;
171 cpu_physical_memory_read(bd
.data
, ptr
, len
);
174 if (bd
.flags
& FEC_BD_L
) {
175 /* Last buffer in frame. */
176 DPRINTF("Sending packet\n");
177 qemu_send_packet(qemu_get_queue(s
->nic
), frame
, len
);
180 s
->eir
|= FEC_INT_TXF
;
182 s
->eir
|= FEC_INT_TXB
;
183 bd
.flags
&= ~FEC_BD_R
;
184 /* Write back the modified descriptor. */
185 mcf_fec_write_bd(&bd
, addr
);
186 /* Advance to the next descriptor. */
187 if ((bd
.flags
& FEC_BD_W
) != 0) {
193 s
->tx_descriptor
= addr
;
196 static void mcf_fec_enable_rx(mcf_fec_state
*s
)
200 mcf_fec_read_bd(&bd
, s
->rx_descriptor
);
201 s
->rx_enabled
= ((bd
.flags
& FEC_BD_E
) != 0);
203 DPRINTF("RX buffer full\n");
206 static void mcf_fec_reset(mcf_fec_state
*s
)
219 static uint64_t mcf_fec_read(void *opaque
, hwaddr addr
,
222 mcf_fec_state
*s
= (mcf_fec_state
*)opaque
;
223 switch (addr
& 0x3ff) {
224 case 0x004: return s
->eir
;
225 case 0x008: return s
->eimr
;
226 case 0x010: return s
->rx_enabled
? (1 << 24) : 0; /* RDAR */
227 case 0x014: return 0; /* TDAR */
228 case 0x024: return s
->ecr
;
229 case 0x040: return s
->mmfr
;
230 case 0x044: return s
->mscr
;
231 case 0x064: return 0; /* MIBC */
232 case 0x084: return s
->rcr
;
233 case 0x0c4: return s
->tcr
;
234 case 0x0e4: /* PALR */
235 return (s
->conf
.macaddr
.a
[0] << 24) | (s
->conf
.macaddr
.a
[1] << 16)
236 | (s
->conf
.macaddr
.a
[2] << 8) | s
->conf
.macaddr
.a
[3];
238 case 0x0e8: /* PAUR */
239 return (s
->conf
.macaddr
.a
[4] << 24) | (s
->conf
.macaddr
.a
[5] << 16) | 0x8808;
240 case 0x0ec: return 0x10000; /* OPD */
241 case 0x118: return 0;
242 case 0x11c: return 0;
243 case 0x120: return 0;
244 case 0x124: return 0;
245 case 0x144: return s
->tfwr
;
246 case 0x14c: return 0x600;
247 case 0x150: return s
->rfsr
;
248 case 0x180: return s
->erdsr
;
249 case 0x184: return s
->etdsr
;
250 case 0x188: return s
->emrbr
;
252 hw_error("mcf_fec_read: Bad address 0x%x\n", (int)addr
);
257 static void mcf_fec_write(void *opaque
, hwaddr addr
,
258 uint64_t value
, unsigned size
)
260 mcf_fec_state
*s
= (mcf_fec_state
*)opaque
;
261 switch (addr
& 0x3ff) {
268 case 0x010: /* RDAR */
269 if ((s
->ecr
& FEC_EN
) && !s
->rx_enabled
) {
270 DPRINTF("RX enable\n");
271 mcf_fec_enable_rx(s
);
274 case 0x014: /* TDAR */
275 if (s
->ecr
& FEC_EN
) {
281 if (value
& FEC_RESET
) {
285 if ((s
->ecr
& FEC_EN
) == 0) {
290 /* TODO: Implement MII. */
294 s
->mscr
= value
& 0xfe;
297 /* TODO: Implement MIB. */
300 s
->rcr
= value
& 0x07ff003f;
301 /* TODO: Implement LOOP mode. */
303 case 0x0c4: /* TCR */
304 /* We transmit immediately, so raise GRA immediately. */
307 s
->eir
|= FEC_INT_GRA
;
309 case 0x0e4: /* PALR */
310 s
->conf
.macaddr
.a
[0] = value
>> 24;
311 s
->conf
.macaddr
.a
[1] = value
>> 16;
312 s
->conf
.macaddr
.a
[2] = value
>> 8;
313 s
->conf
.macaddr
.a
[3] = value
;
315 case 0x0e8: /* PAUR */
316 s
->conf
.macaddr
.a
[4] = value
>> 24;
317 s
->conf
.macaddr
.a
[5] = value
>> 16;
326 /* TODO: implement MAC hash filtering. */
332 /* FRBR writes ignored. */
335 s
->rfsr
= (value
& 0x3fc) | 0x400;
338 s
->erdsr
= value
& ~3;
339 s
->rx_descriptor
= s
->erdsr
;
342 s
->etdsr
= value
& ~3;
343 s
->tx_descriptor
= s
->etdsr
;
346 s
->emrbr
= value
& 0x7f0;
349 hw_error("mcf_fec_write Bad address 0x%x\n", (int)addr
);
354 static int mcf_fec_can_receive(NetClientState
*nc
)
356 mcf_fec_state
*s
= qemu_get_nic_opaque(nc
);
357 return s
->rx_enabled
;
360 static ssize_t
mcf_fec_receive(NetClientState
*nc
, const uint8_t *buf
, size_t size
)
362 mcf_fec_state
*s
= qemu_get_nic_opaque(nc
);
369 unsigned int buf_len
;
371 DPRINTF("do_rx len %d\n", size
);
372 if (!s
->rx_enabled
) {
373 fprintf(stderr
, "mcf_fec_receive: Unexpected packet\n");
375 /* 4 bytes for the CRC. */
377 crc
= cpu_to_be32(crc32(~0, buf
, size
));
378 crc_ptr
= (uint8_t *)&crc
;
379 /* Huge frames are truncted. */
380 if (size
> FEC_MAX_FRAME_SIZE
) {
381 size
= FEC_MAX_FRAME_SIZE
;
382 flags
|= FEC_BD_TR
| FEC_BD_LG
;
384 /* Frames larger than the user limit just set error flags. */
385 if (size
> (s
->rcr
>> 16)) {
388 addr
= s
->rx_descriptor
;
390 mcf_fec_read_bd(&bd
, addr
);
391 if ((bd
.flags
& FEC_BD_E
) == 0) {
392 /* No descriptors available. Bail out. */
393 /* FIXME: This is wrong. We should probably either save the
394 remainder for when more RX buffers are available, or
396 fprintf(stderr
, "mcf_fec: Lost end of frame\n");
399 buf_len
= (size
<= s
->emrbr
) ? size
: s
->emrbr
;
402 DPRINTF("rx_bd %x length %d\n", addr
, bd
.length
);
403 /* The last 4 bytes are the CRC. */
407 cpu_physical_memory_write(buf_addr
, buf
, buf_len
);
410 cpu_physical_memory_write(buf_addr
+ buf_len
, crc_ptr
, 4 - size
);
413 bd
.flags
&= ~FEC_BD_E
;
415 /* Last buffer in frame. */
416 bd
.flags
|= flags
| FEC_BD_L
;
417 DPRINTF("rx frame flags %04x\n", bd
.flags
);
418 s
->eir
|= FEC_INT_RXF
;
420 s
->eir
|= FEC_INT_RXB
;
422 mcf_fec_write_bd(&bd
, addr
);
423 /* Advance to the next descriptor. */
424 if ((bd
.flags
& FEC_BD_W
) != 0) {
430 s
->rx_descriptor
= addr
;
431 mcf_fec_enable_rx(s
);
436 static const MemoryRegionOps mcf_fec_ops
= {
437 .read
= mcf_fec_read
,
438 .write
= mcf_fec_write
,
439 .endianness
= DEVICE_NATIVE_ENDIAN
,
442 static NetClientInfo net_mcf_fec_info
= {
443 .type
= NET_CLIENT_OPTIONS_KIND_NIC
,
444 .size
= sizeof(NICState
),
445 .can_receive
= mcf_fec_can_receive
,
446 .receive
= mcf_fec_receive
,
449 void mcf_fec_init(MemoryRegion
*sysmem
, NICInfo
*nd
,
450 hwaddr base
, qemu_irq
*irq
)
454 qemu_check_nic_model(nd
, "mcf_fec");
456 s
= (mcf_fec_state
*)g_malloc0(sizeof(mcf_fec_state
));
460 memory_region_init_io(&s
->iomem
, NULL
, &mcf_fec_ops
, s
, "fec", 0x400);
461 memory_region_add_subregion(sysmem
, base
, &s
->iomem
);
463 s
->conf
.macaddr
= nd
->macaddr
;
464 s
->conf
.peers
.ncs
[0] = nd
->netdev
;
466 s
->nic
= qemu_new_nic(&net_mcf_fec_info
, &s
->conf
, nd
->model
, nd
->name
, s
);
468 qemu_format_nic_info_str(qemu_get_queue(s
->nic
), s
->conf
.macaddr
.a
);