Annotation of sys/dev/pci/if_txpreg.h, Revision 1.1.1.1
1.1 nbrk 1: /* $OpenBSD: if_txpreg.h,v 1.37 2004/11/16 23:39:56 jason Exp $ */
2:
3: /*
4: * Copyright (c) 2001 Aaron Campbell <aaron@monkey.org>.
5: * All rights reserved.
6: *
7: * Redistribution and use in source and binary forms, with or without
8: * modification, are permitted provided that the following conditions
9: * are met:
10: * 1. Redistributions of source code must retain the above copyright
11: * notice, this list of conditions and the following disclaimer.
12: * 2. Redistributions in binary form must reproduce the above copyright
13: * notice, this list of conditions and the following disclaimer in the
14: * documentation and/or other materials provided with the distribution.
15: *
16: * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
17: * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
18: * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
19: * IN NO EVENT SHALL THE AUTHOR OR HIS RELATIVES BE LIABLE FOR ANY DIRECT,
20: * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
21: * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
22: * SERVICES; LOSS OF MIND, USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
23: * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
24: * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
25: * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
26: * THE POSSIBILITY OF SUCH DAMAGE.
27: */
28:
29: #define TXP_PCI_LOMEM 0x14 /* pci conf, memory map BAR */
30: #define TXP_PCI_LOIO 0x10 /* pci conf, IO map BAR */
31:
32: /*
33: * Typhoon registers.
34: */
35: #define TXP_SRR 0x00 /* soft reset register */
36: #define TXP_ISR 0x04 /* interrupt status register */
37: #define TXP_IER 0x08 /* interrupt enable register */
38: #define TXP_IMR 0x0c /* interrupt mask register */
39: #define TXP_SIR 0x10 /* self interrupt register */
40: #define TXP_H2A_7 0x14 /* host->arm comm 7 */
41: #define TXP_H2A_6 0x18 /* host->arm comm 6 */
42: #define TXP_H2A_5 0x1c /* host->arm comm 5 */
43: #define TXP_H2A_4 0x20 /* host->arm comm 4 */
44: #define TXP_H2A_3 0x24 /* host->arm comm 3 */
45: #define TXP_H2A_2 0x28 /* host->arm comm 2 */
46: #define TXP_H2A_1 0x2c /* host->arm comm 1 */
47: #define TXP_H2A_0 0x30 /* host->arm comm 0 */
48: #define TXP_A2H_3 0x34 /* arm->host comm 3 */
49: #define TXP_A2H_2 0x38 /* arm->host comm 2 */
50: #define TXP_A2H_1 0x3c /* arm->host comm 1 */
51: #define TXP_A2H_0 0x40 /* arm->host comm 0 */
52:
53: /*
54: * interrupt bits (IMR, ISR, IER)
55: */
56: #define TXP_INT_RESERVED 0xffff0000
57: #define TXP_INT_A2H_7 0x00008000 /* arm->host comm 7 */
58: #define TXP_INT_A2H_6 0x00004000 /* arm->host comm 6 */
59: #define TXP_INT_A2H_5 0x00002000 /* arm->host comm 5 */
60: #define TXP_INT_A2H_4 0x00001000 /* arm->host comm 4 */
61: #define TXP_INT_SELF 0x00000800 /* self interrupt */
62: #define TXP_INT_PCI_TABORT 0x00000400 /* pci target abort */
63: #define TXP_INT_PCI_MABORT 0x00000200 /* pci master abort */
64: #define TXP_INT_DMA3 0x00000100 /* dma3 done */
65: #define TXP_INT_DMA2 0x00000080 /* dma2 done */
66: #define TXP_INT_DMA1 0x00000040 /* dma1 done */
67: #define TXP_INT_DMA0 0x00000020 /* dma0 done */
68: #define TXP_INT_A2H_3 0x00000010 /* arm->host comm 3 */
69: #define TXP_INT_A2H_2 0x00000008 /* arm->host comm 2 */
70: #define TXP_INT_A2H_1 0x00000004 /* arm->host comm 1 */
71: #define TXP_INT_A2H_0 0x00000002 /* arm->host comm 0 */
72: #define TXP_INT_LATCH 0x00000001 /* interrupt latch */
73:
74: /*
75: * soft reset register (SRR)
76: */
77: #define TXP_SRR_ALL 0x0000007f /* full reset */
78:
79: /*
80: * Typhoon boot commands.
81: */
82: #define TXP_BOOTCMD_NULL 0x00
83: #define TXP_BOOTCMD_DOWNLOAD_COMPLETE 0xfb
84: #define TXP_BOOTCMD_SEGMENT_AVAILABLE 0xfc
85: #define TXP_BOOTCMD_RUNTIME_IMAGE 0xfd
86: #define TXP_BOOTCMD_REGISTER_BOOT_RECORD 0xff
87:
88: /*
89: * Typhoon runtime commands.
90: */
91: #define TXP_CMD_GLOBAL_RESET 0x00
92: #define TXP_CMD_TX_ENABLE 0x01
93: #define TXP_CMD_TX_DISABLE 0x02
94: #define TXP_CMD_RX_ENABLE 0x03
95: #define TXP_CMD_RX_DISABLE 0x04
96: #define TXP_CMD_RX_FILTER_WRITE 0x05
97: #define TXP_CMD_RX_FILTER_READ 0x06
98: #define TXP_CMD_READ_STATISTICS 0x07
99: #define TXP_CMD_CYCLE_STATISTICS 0x08
100: #define TXP_CMD_CLEAR_STATISTICS 0x09
101: #define TXP_CMD_MEMORY_READ 0x0a
102: #define TXP_CMD_MEMORY_WRITE_SINGLE 0x0b
103: #define TXP_CMD_VARIABLE_SECTION_READ 0x0c
104: #define TXP_CMD_VARIABLE_SECTION_WRITE 0x0d
105: #define TXP_CMD_STATIC_SECTION_READ 0x0e
106: #define TXP_CMD_STATIC_SECTION_WRITE 0x0f
107: #define TXP_CMD_IMAGE_SECTION_PROGRAM 0x10
108: #define TXP_CMD_NVRAM_PAGE_READ 0x11
109: #define TXP_CMD_NVRAM_PAGE_WRITE 0x12
110: #define TXP_CMD_XCVR_SELECT 0x13
111: #define TXP_CMD_TEST_MUX 0x14
112: #define TXP_CMD_PHYLOOPBACK_ENABLE 0x15
113: #define TXP_CMD_PHYLOOPBACK_DISABLE 0x16
114: #define TXP_CMD_MAC_CONTROL_READ 0x17
115: #define TXP_CMD_MAC_CONTROL_WRITE 0x18
116: #define TXP_CMD_MAX_PKT_SIZE_READ 0x19
117: #define TXP_CMD_MAX_PKT_SIZE_WRITE 0x1a
118: #define TXP_CMD_MEDIA_STATUS_READ 0x1b
119: #define TXP_CMD_MEDIA_STATUS_WRITE 0x1c
120: #define TXP_CMD_NETWORK_DIAGS_READ 0x1d
121: #define TXP_CMD_NETWORK_DIAGS_WRITE 0x1e
122: #define TXP_CMD_PHY_MGMT_READ 0x1f
123: #define TXP_CMD_PHY_MGMT_WRITE 0x20
124: #define TXP_CMD_VARIABLE_PARAMETER_READ 0x21
125: #define TXP_CMD_VARIABLE_PARAMETER_WRITE 0x22
126: #define TXP_CMD_GOTO_SLEEP 0x23
127: #define TXP_CMD_FIREWALL_CONTROL 0x24
128: #define TXP_CMD_MCAST_HASH_MASK_WRITE 0x25
129: #define TXP_CMD_STATION_ADDRESS_WRITE 0x26
130: #define TXP_CMD_STATION_ADDRESS_READ 0x27
131: #define TXP_CMD_STATION_MASK_WRITE 0x28
132: #define TXP_CMD_STATION_MASK_READ 0x29
133: #define TXP_CMD_VLAN_ETHER_TYPE_READ 0x2a
134: #define TXP_CMD_VLAN_ETHER_TYPE_WRITE 0x2b
135: #define TXP_CMD_VLAN_MASK_READ 0x2c
136: #define TXP_CMD_VLAN_MASK_WRITE 0x2d
137: #define TXP_CMD_BCAST_THROTTLE_WRITE 0x2e
138: #define TXP_CMD_BCAST_THROTTLE_READ 0x2f
139: #define TXP_CMD_DHCP_PREVENT_WRITE 0x30
140: #define TXP_CMD_DHCP_PREVENT_READ 0x31
141: #define TXP_CMD_RECV_BUFFER_CONTROL 0x32
142: #define TXP_CMD_SOFTWARE_RESET 0x33
143: #define TXP_CMD_CREATE_SA 0x34
144: #define TXP_CMD_DELETE_SA 0x35
145: #define TXP_CMD_ENABLE_RX_IP_OPTION 0x36
146: #define TXP_CMD_RANDOM_NUMBER_CONTROL 0x37
147: #define TXP_CMD_RANDOM_NUMBER_READ 0x38
148: #define TXP_CMD_MATRIX_TABLE_MODE_WRITE 0x39
149: #define TXP_CMD_MATRIX_DETAIL_READ 0x3a
150: #define TXP_CMD_FILTER_ARRAY_READ 0x3b
151: #define TXP_CMD_FILTER_DETAIL_READ 0x3c
152: #define TXP_CMD_FILTER_TABLE_MODE_WRITE 0x3d
153: #define TXP_CMD_FILTER_TCL_WRITE 0x3e
154: #define TXP_CMD_FILTER_TBL_READ 0x3f
155: #define TXP_CMD_VERSIONS_READ 0x43
156: #define TXP_CMD_FILTER_DEFINE 0x45
157: #define TXP_CMD_ADD_WAKEUP_PKT 0x46
158: #define TXP_CMD_ADD_SLEEP_PKT 0x47
159: #define TXP_CMD_ENABLE_SLEEP_EVENTS 0x48
160: #define TXP_CMD_ENABLE_WAKEUP_EVENTS 0x49
161: #define TXP_CMD_GET_IP_ADDRESS 0x4a
162: #define TXP_CMD_READ_PCI_REG 0x4c
163: #define TXP_CMD_WRITE_PCI_REG 0x4d
164: #define TXP_CMD_OFFLOAD_READ 0x4e
165: #define TXP_CMD_OFFLOAD_WRITE 0x4f
166: #define TXP_CMD_HELLO_RESPONSE 0x57
167: #define TXP_CMD_ENABLE_RX_FILTER 0x58
168: #define TXP_CMD_RX_FILTER_CAPABILITY 0x59
169: #define TXP_CMD_HALT 0x5d
170: #define TXP_CMD_READ_IPSEC_INFO 0x54
171: #define TXP_CMD_GET_IPSEC_ENABLE 0x67
172: #define TXP_CMD_INVALID 0xffff
173:
174: #define TXP_FRAGMENT 0x0000
175: #define TXP_TXFRAME 0x0001
176: #define TXP_COMMAND 0x0002
177: #define TXP_OPTION 0x0003
178: #define TXP_RECEIVE 0x0004
179: #define TXP_RESPONSE 0x0005
180:
181: #define TXP_TYPE_IPSEC 0x0000
182: #define TXP_TYPE_TCPSEGMENT 0x0001
183:
184: #define TXP_PFLAG_NOCRC 0x0001
185: #define TXP_PFLAG_IPCKSUM 0x0002
186: #define TXP_PFLAG_TCPCKSUM 0x0004
187: #define TXP_PFLAG_TCPSEGMENT 0x0008
188: #define TXP_PFLAG_INSERTVLAN 0x0010
189: #define TXP_PFLAG_IPSEC 0x0020
190: #define TXP_PFLAG_PRIORITY 0x0040
191: #define TXP_PFLAG_UDPCKSUM 0x0080
192: #define TXP_PFLAG_PADFRAME 0x0100
193:
194: #define TXP_MISC_FIRSTDESC 0x0000
195: #define TXP_MISC_LASTDESC 0x0001
196:
197: #define TXP_ERR_INTERNAL 0x0000
198: #define TXP_ERR_FIFOUNDERRUN 0x0001
199: #define TXP_ERR_BADSSD 0x0002
200: #define TXP_ERR_RUNT 0x0003
201: #define TXP_ERR_CRC 0x0004
202: #define TXP_ERR_OVERSIZE 0x0005
203: #define TXP_ERR_ALIGNMENT 0x0006
204: #define TXP_ERR_DRIBBLEBIT 0x0007
205:
206: #define TXP_PROTO_UNKNOWN 0x0000
207: #define TXP_PROTO_IP 0x0001
208: #define TXP_PROTO_IPX 0x0002
209: #define TXP_PROTO_RESERVED 0x0003
210:
211: #define TXP_STAT_PROTO 0x0001
212: #define TXP_STAT_VLAN 0x0002
213: #define TXP_STAT_IPFRAGMENT 0x0004
214: #define TXP_STAT_IPSEC 0x0008
215: #define TXP_STAT_IPCKSUMBAD 0x0010
216: #define TXP_STAT_TCPCKSUMBAD 0x0020
217: #define TXP_STAT_UDPCKSUMBAD 0x0040
218: #define TXP_STAT_IPCKSUMGOOD 0x0080
219: #define TXP_STAT_TCPCKSUMGOOD 0x0100
220: #define TXP_STAT_UDPCKSUMGOOD 0x0200
221:
222: struct txp_tx_desc {
223: volatile u_int8_t tx_flags; /* type/descriptor flags */
224: volatile u_int8_t tx_numdesc; /* number of descriptors */
225: volatile u_int16_t tx_totlen; /* total packet length */
226: volatile u_int32_t tx_addrlo; /* virt addr low word */
227: volatile u_int32_t tx_addrhi; /* virt addr high word */
228: volatile u_int32_t tx_pflags; /* processing flags */
229: };
230: #define TX_FLAGS_TYPE_M 0x07 /* type mask */
231: #define TX_FLAGS_TYPE_FRAG 0x00 /* type: fragment */
232: #define TX_FLAGS_TYPE_DATA 0x01 /* type: data frame */
233: #define TX_FLAGS_TYPE_CMD 0x02 /* type: command frame */
234: #define TX_FLAGS_TYPE_OPT 0x03 /* type: options */
235: #define TX_FLAGS_TYPE_RX 0x04 /* type: command */
236: #define TX_FLAGS_TYPE_RESP 0x05 /* type: response */
237: #define TX_FLAGS_RESP 0x40 /* response requested */
238: #define TX_FLAGS_VALID 0x80 /* valid descriptor */
239:
240: #define TX_PFLAGS_DNAC 0x00000001 /* do not add crc */
241: #define TX_PFLAGS_IPCKSUM 0x00000002 /* ip checksum */
242: #define TX_PFLAGS_TCPCKSUM 0x00000004 /* tcp checksum */
243: #define TX_PFLAGS_TCPSEG 0x00000008 /* tcp segmentation */
244: #define TX_PFLAGS_VLAN 0x00000010 /* insert vlan */
245: #define TX_PFLAGS_IPSEC 0x00000020 /* perform ipsec */
246: #define TX_PFLAGS_PRIO 0x00000040 /* priority field valid */
247: #define TX_PFLAGS_UDPCKSUM 0x00000080 /* udp checksum */
248: #define TX_PFLAGS_PADFRAME 0x00000100 /* pad frame */
249: #define TX_PFLAGS_VLANTAG_M 0x0ffff000 /* vlan tag mask */
250: #define TX_PFLAGS_VLANPRI_M 0x00700000 /* vlan priority mask */
251: #define TX_PFLAGS_VLANTAG_S 12 /* amount to shift tag */
252:
253: struct txp_rx_desc {
254: volatile u_int8_t rx_flags; /* type/descriptor flags */
255: volatile u_int8_t rx_numdesc; /* number of descriptors */
256: volatile u_int16_t rx_len; /* frame length */
257: volatile u_int32_t rx_vaddrlo; /* virtual address, lo word */
258: volatile u_int32_t rx_vaddrhi; /* virtual address, hi word */
259: volatile u_int32_t rx_stat; /* status */
260: volatile u_int16_t rx_filter; /* filter status */
261: volatile u_int16_t rx_hash; /* hash status */
262: volatile u_int32_t rx_vlan; /* vlan tag/priority */
263: };
264:
265: /* txp_rx_desc.rx_flags */
266: #define RX_FLAGS_TYPE_M 0x07 /* type mask */
267: #define RX_FLAGS_TYPE_FRAG 0x00 /* type: fragment */
268: #define RX_FLAGS_TYPE_DATA 0x01 /* type: data frame */
269: #define RX_FLAGS_TYPE_CMD 0x02 /* type: command frame */
270: #define RX_FLAGS_TYPE_OPT 0x03 /* type: options */
271: #define RX_FLAGS_TYPE_RX 0x04 /* type: command */
272: #define RX_FLAGS_TYPE_RESP 0x05 /* type: response */
273: #define RX_FLAGS_RCV_TYPE_M 0x18 /* rcvtype mask */
274: #define RX_FLAGS_RCV_TYPE_RX 0x00 /* rcvtype: receive */
275: #define RX_FLAGS_RCV_TYPE_RSP 0x08 /* rcvtype: response */
276: #define RX_FLAGS_ERROR 0x40 /* error in packet */
277:
278: /* txp_rx_desc.rx_stat (if rx_flags & RX_FLAGS_ERROR bit set) */
279: #define RX_ERROR_ADAPTER 0x00000000 /* adapter internal error */
280: #define RX_ERROR_FIFO 0x00000001 /* fifo underrun */
281: #define RX_ERROR_BADSSD 0x00000002 /* bad ssd */
282: #define RX_ERROR_RUNT 0x00000003 /* runt packet */
283: #define RX_ERROR_CRC 0x00000004 /* bad crc */
284: #define RX_ERROR_OVERSIZE 0x00000005 /* oversized packet */
285: #define RX_ERROR_ALIGN 0x00000006 /* alignment error */
286: #define RX_ERROR_DRIBBLE 0x00000007 /* dribble bit */
287:
288: /* txp_rx_desc.rx_stat (if rx_flags & RX_FLAGS_ERROR not bit set) */
289: #define RX_STAT_PROTO_M 0x00000003 /* protocol mask */
290: #define RX_STAT_PROTO_UK 0x00000000 /* unknown protocol */
291: #define RX_STAT_PROTO_IPX 0x00000001 /* IPX */
292: #define RX_STAT_PROTO_IP 0x00000002 /* IP */
293: #define RX_STAT_PROTO_RSV 0x00000003 /* reserved */
294: #define RX_STAT_VLAN 0x00000004 /* vlan tag (in rxd) */
295: #define RX_STAT_IPFRAG 0x00000008 /* fragment, ipsec not done */
296: #define RX_STAT_IPSEC 0x00000010 /* ipsec decoded packet */
297: #define RX_STAT_IPCKSUMBAD 0x00000020 /* ip checksum failed */
298: #define RX_STAT_UDPCKSUMBAD 0x00000040 /* udp checksum failed */
299: #define RX_STAT_TCPCKSUMBAD 0x00000080 /* tcp checksum failed */
300: #define RX_STAT_IPCKSUMGOOD 0x00000100 /* ip checksum succeeded */
301: #define RX_STAT_UDPCKSUMGOOD 0x00000200 /* udp checksum succeeded */
302: #define RX_STAT_TCPCKSUMGOOD 0x00000400 /* tcp checksum succeeded */
303:
304:
305: struct txp_rxbuf_desc {
306: volatile u_int32_t rb_paddrlo;
307: volatile u_int32_t rb_paddrhi;
308: volatile u_int32_t rb_vaddrlo;
309: volatile u_int32_t rb_vaddrhi;
310: };
311:
312: /* Extension descriptor */
313: struct txp_ext_desc {
314: volatile u_int32_t ext_1;
315: volatile u_int32_t ext_2;
316: volatile u_int32_t ext_3;
317: volatile u_int32_t ext_4;
318: };
319:
320: struct txp_cmd_desc {
321: volatile u_int8_t cmd_flags;
322: volatile u_int8_t cmd_numdesc;
323: volatile u_int16_t cmd_id;
324: volatile u_int16_t cmd_seq;
325: volatile u_int16_t cmd_par1;
326: volatile u_int32_t cmd_par2;
327: volatile u_int32_t cmd_par3;
328: };
329: #define CMD_FLAGS_TYPE_M 0x07 /* type mask */
330: #define CMD_FLAGS_TYPE_FRAG 0x00 /* type: fragment */
331: #define CMD_FLAGS_TYPE_DATA 0x01 /* type: data frame */
332: #define CMD_FLAGS_TYPE_CMD 0x02 /* type: command frame */
333: #define CMD_FLAGS_TYPE_OPT 0x03 /* type: options */
334: #define CMD_FLAGS_TYPE_RX 0x04 /* type: command */
335: #define CMD_FLAGS_TYPE_RESP 0x05 /* type: response */
336: #define CMD_FLAGS_RESP 0x40 /* response requested */
337: #define CMD_FLAGS_VALID 0x80 /* valid descriptor */
338:
339: struct txp_rsp_desc {
340: volatile u_int8_t rsp_flags;
341: volatile u_int8_t rsp_numdesc;
342: volatile u_int16_t rsp_id;
343: volatile u_int16_t rsp_seq;
344: volatile u_int16_t rsp_par1;
345: volatile u_int32_t rsp_par2;
346: volatile u_int32_t rsp_par3;
347: };
348: #define RSP_FLAGS_TYPE_M 0x07 /* type mask */
349: #define RSP_FLAGS_TYPE_FRAG 0x00 /* type: fragment */
350: #define RSP_FLAGS_TYPE_DATA 0x01 /* type: data frame */
351: #define RSP_FLAGS_TYPE_CMD 0x02 /* type: command frame */
352: #define RSP_FLAGS_TYPE_OPT 0x03 /* type: options */
353: #define RSP_FLAGS_TYPE_RX 0x04 /* type: command */
354: #define RSP_FLAGS_TYPE_RESP 0x05 /* type: response */
355: #define RSP_FLAGS_ERROR 0x40 /* response error */
356:
357: struct txp_frag_desc {
358: volatile u_int8_t frag_flags; /* type/descriptor flags */
359: volatile u_int8_t frag_rsvd1;
360: volatile u_int16_t frag_len; /* bytes in this fragment */
361: volatile u_int32_t frag_addrlo; /* phys addr low word */
362: volatile u_int32_t frag_addrhi; /* phys addr high word */
363: volatile u_int32_t frag_rsvd2;
364: };
365: #define FRAG_FLAGS_TYPE_M 0x07 /* type mask */
366: #define FRAG_FLAGS_TYPE_FRAG 0x00 /* type: fragment */
367: #define FRAG_FLAGS_TYPE_DATA 0x01 /* type: data frame */
368: #define FRAG_FLAGS_TYPE_CMD 0x02 /* type: command frame */
369: #define FRAG_FLAGS_TYPE_OPT 0x03 /* type: options */
370: #define FRAG_FLAGS_TYPE_RX 0x04 /* type: command */
371: #define FRAG_FLAGS_TYPE_RESP 0x05 /* type: response */
372: #define FRAG_FLAGS_VALID 0x80 /* valid descriptor */
373:
374: struct txp_opt_desc {
375: u_int8_t opt_desctype:3,
376: opt_rsvd:1,
377: opt_type:4;
378:
379: u_int8_t opt_num;
380: u_int16_t opt_dep1;
381: u_int32_t opt_dep2;
382: u_int32_t opt_dep3;
383: u_int32_t opt_dep4;
384: };
385:
386: struct txp_ipsec_desc {
387: u_int8_t ipsec_desctpe:3,
388: ipsec_rsvd:1,
389: ipsec_type:4;
390:
391: u_int8_t ipsec_num;
392: u_int16_t ipsec_flags;
393: u_int16_t ipsec_ah1;
394: u_int16_t ipsec_esp1;
395: u_int16_t ipsec_ah2;
396: u_int16_t ipsec_esp2;
397: u_int32_t ipsec_rsvd1;
398: };
399:
400: struct txp_tcpseg_desc {
401: u_int8_t tcpseg_desctype:3,
402: tcpseg_rsvd:1,
403: tcpseg_type:4;
404:
405: u_int8_t tcpseg_num;
406:
407: u_int16_t tcpseg_mss:12,
408: tcpseg_misc:4;
409:
410: u_int32_t tcpseg_respaddr;
411: u_int32_t tcpseg_txbytes;
412: u_int32_t tcpseg_lss;
413: };
414:
415: /*
416: * Transceiver types
417: */
418: #define TXP_XCVR_10_HDX 0
419: #define TXP_XCVR_10_FDX 1
420: #define TXP_XCVR_100_HDX 2
421: #define TXP_XCVR_100_FDX 3
422: #define TXP_XCVR_AUTO 4
423:
424: #define TXP_MEDIA_CRC 0x0004 /* crc strip disable */
425: #define TXP_MEDIA_CD 0x0010 /* collision detection */
426: #define TXP_MEDIA_CS 0x0020 /* carrier sense */
427: #define TXP_MEDIA_POL 0x0400 /* polarity reversed */
428: #define TXP_MEDIA_NOLINK 0x0800 /* 0 = link, 1 = no link */
429:
430: /*
431: * receive filter bits (par1 to TXP_CMD_RX_FILTER_{READ|WRITE}
432: */
433: #define TXP_RXFILT_DIRECT 0x0001 /* directed packets */
434: #define TXP_RXFILT_ALLMULTI 0x0002 /* all multicast packets */
435: #define TXP_RXFILT_BROADCAST 0x0004 /* broadcast packets */
436: #define TXP_RXFILT_PROMISC 0x0008 /* promiscuous mode */
437: #define TXP_RXFILT_HASHMULTI 0x0010 /* use multicast filter */
438:
439: /*
440: * boot record (pointers to rings)
441: */
442: struct txp_boot_record {
443: volatile u_int32_t br_hostvar_lo; /* host ring pointer */
444: volatile u_int32_t br_hostvar_hi;
445: volatile u_int32_t br_txlopri_lo; /* tx low pri ring */
446: volatile u_int32_t br_txlopri_hi;
447: volatile u_int32_t br_txlopri_siz;
448: volatile u_int32_t br_txhipri_lo; /* tx high pri ring */
449: volatile u_int32_t br_txhipri_hi;
450: volatile u_int32_t br_txhipri_siz;
451: volatile u_int32_t br_rxlopri_lo; /* rx low pri ring */
452: volatile u_int32_t br_rxlopri_hi;
453: volatile u_int32_t br_rxlopri_siz;
454: volatile u_int32_t br_rxbuf_lo; /* rx buffer ring */
455: volatile u_int32_t br_rxbuf_hi;
456: volatile u_int32_t br_rxbuf_siz;
457: volatile u_int32_t br_cmd_lo; /* command ring */
458: volatile u_int32_t br_cmd_hi;
459: volatile u_int32_t br_cmd_siz;
460: volatile u_int32_t br_resp_lo; /* response ring */
461: volatile u_int32_t br_resp_hi;
462: volatile u_int32_t br_resp_siz;
463: volatile u_int32_t br_zero_lo; /* zero word */
464: volatile u_int32_t br_zero_hi;
465: volatile u_int32_t br_rxhipri_lo; /* rx high pri ring */
466: volatile u_int32_t br_rxhipri_hi;
467: volatile u_int32_t br_rxhipri_siz;
468: };
469:
470: /*
471: * hostvar structure (shared with typhoon)
472: */
473: struct txp_hostvar {
474: volatile u_int32_t hv_rx_hi_read_idx; /* host->arm */
475: volatile u_int32_t hv_rx_lo_read_idx; /* host->arm */
476: volatile u_int32_t hv_rx_buf_write_idx; /* host->arm */
477: volatile u_int32_t hv_resp_read_idx; /* host->arm */
478: volatile u_int32_t hv_tx_lo_desc_read_idx; /* arm->host */
479: volatile u_int32_t hv_tx_hi_desc_read_idx; /* arm->host */
480: volatile u_int32_t hv_rx_lo_write_idx; /* arm->host */
481: volatile u_int32_t hv_rx_buf_read_idx; /* arm->host */
482: volatile u_int32_t hv_cmd_read_idx; /* arm->host */
483: volatile u_int32_t hv_resp_write_idx; /* arm->host */
484: volatile u_int32_t hv_rx_hi_write_idx; /* arm->host */
485: };
486:
487: /*
488: * TYPHOON status register state (in TXP_A2H_0)
489: */
490: #define STAT_ROM_CODE 0x00000001
491: #define STAT_ROM_EEPROM_LOAD 0x00000002
492: #define STAT_WAITING_FOR_BOOT 0x00000007
493: #define STAT_RUNNING 0x00000009
494: #define STAT_WAITING_FOR_HOST_REQUEST 0x0000000d
495: #define STAT_WAITING_FOR_SEGMENT 0x00000010
496: #define STAT_SLEEPING 0x00000011
497: #define STAT_HALTED 0x00000014
498:
499: #define TX_ENTRIES 256
500: #define RX_ENTRIES 128
501: #define RXBUF_ENTRIES 256
502: #define CMD_ENTRIES 32
503: #define RSP_ENTRIES 32
504:
505: #define OFFLOAD_TCPCKSUM 0x00000002 /* tcp checksum */
506: #define OFFLOAD_UDPCKSUM 0x00000004 /* udp checksum */
507: #define OFFLOAD_IPCKSUM 0x00000008 /* ip checksum */
508: #define OFFLOAD_IPSEC 0x00000010 /* ipsec enable */
509: #define OFFLOAD_BCAST 0x00000020 /* broadcast throttle */
510: #define OFFLOAD_DHCP 0x00000040 /* dhcp prevention */
511: #define OFFLOAD_VLAN 0x00000080 /* vlan enable */
512: #define OFFLOAD_FILTER 0x00000100 /* filter enable */
513: #define OFFLOAD_TCPSEG 0x00000200 /* tcp segmentation */
514: #define OFFLOAD_MASK 0xfffffffe /* mask off low bit */
515:
516: /*
517: * Macros for converting array indices to offsets within the descriptor
518: * arrays. The chip operates on offsets, but it's much easier for us
519: * to operate on indices. Assumes descriptor entries are 16 bytes.
520: */
521: #define TXP_IDX2OFFSET(idx) ((idx) << 4)
522: #define TXP_OFFSET2IDX(off) ((off) >> 4)
523:
524: struct txp_dma_alloc {
525: u_int64_t dma_paddr;
526: caddr_t dma_vaddr;
527: bus_dmamap_t dma_map;
528: bus_dma_segment_t dma_seg;
529: int dma_nseg;
530: };
531:
532: struct txp_cmd_ring {
533: struct txp_cmd_desc *base;
534: u_int32_t lastwrite;
535: u_int32_t size;
536: };
537:
538: struct txp_rsp_ring {
539: struct txp_rsp_desc *base;
540: u_int32_t lastwrite;
541: u_int32_t size;
542: };
543:
544: struct txp_tx_ring {
545: struct txp_tx_desc *r_desc; /* base address of descs */
546: u_int32_t r_reg; /* register to activate */
547: u_int32_t r_prod; /* producer */
548: u_int32_t r_cons; /* consumer */
549: u_int32_t r_cnt; /* # descs in use */
550: volatile u_int32_t *r_off; /* hostvar index pointer */
551: };
552:
553: struct txp_swdesc {
554: struct mbuf * sd_mbuf;
555: bus_dmamap_t sd_map;
556: };
557:
558: struct txp_rx_ring {
559: struct txp_rx_desc *r_desc; /* base address of descs */
560: volatile u_int32_t *r_roff; /* hv read offset ptr */
561: volatile u_int32_t *r_woff; /* hv write offset ptr */
562: };
563:
564: struct txp_softc {
565: struct device sc_dev; /* base device */
566: struct arpcom sc_arpcom; /* ethernet common */
567: struct txp_hostvar *sc_hostvar;
568: struct txp_boot_record *sc_boot;
569: bus_space_handle_t sc_bh; /* bus handle (regs) */
570: bus_space_tag_t sc_bt; /* bus tag (regs) */
571: bus_dma_tag_t sc_dmat; /* dma tag */
572: struct txp_cmd_ring sc_cmdring;
573: struct txp_rsp_ring sc_rspring;
574: struct txp_swdesc sc_txd[TX_ENTRIES];
575: void * sc_ih;
576: struct timeout sc_tick;
577: struct ifmedia sc_ifmedia;
578: struct txp_tx_ring sc_txhir, sc_txlor;
579: struct txp_rxbuf_desc *sc_rxbufs;
580: struct txp_rx_ring sc_rxhir, sc_rxlor;
581: u_int16_t sc_xcvr;
582: u_int16_t sc_seq;
583: struct txp_dma_alloc sc_boot_dma, sc_host_dma, sc_zero_dma;
584: struct txp_dma_alloc sc_rxhiring_dma, sc_rxloring_dma;
585: struct txp_dma_alloc sc_txhiring_dma, sc_txloring_dma;
586: struct txp_dma_alloc sc_cmdring_dma, sc_rspring_dma;
587: struct txp_dma_alloc sc_rxbufring_dma;
588: int sc_cold;
589: u_int32_t sc_rx_capability, sc_tx_capability;
590: };
591:
592: #define TXP_DEVNAME(sc) ((sc)->sc_cold ? "" : (sc)->sc_dev.dv_xname)
593:
594: struct txp_fw_file_header {
595: u_int8_t magicid[8]; /* TYPHOON\0 */
596: u_int32_t version;
597: u_int32_t nsections;
598: u_int32_t addr;
599: };
600:
601: struct txp_fw_section_header {
602: u_int32_t nbytes;
603: u_int16_t cksum;
604: u_int16_t reserved;
605: u_int32_t addr;
606: };
607:
608: #define TXP_MAX_SEGLEN 0xffff
609: #define TXP_MAX_PKTLEN 0x0800
610:
611: #define WRITE_REG(sc,reg,val) \
612: bus_space_write_4((sc)->sc_bt, (sc)->sc_bh, reg, val)
613: #define READ_REG(sc,reg) \
614: bus_space_read_4((sc)->sc_bt, (sc)->sc_bh, reg)
615:
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