Annotation of sys/dev/pci/if_xgereg.h, Revision 1.1.1.1
1.1 nbrk 1: /* $OpenBSD: if_xgereg.h,v 1.4 2007/02/27 22:39:39 kettenis Exp $ */
2: /* $NetBSD: if_xgereg.h,v 1.1 2005/09/09 10:30:27 ragge Exp $ */
3:
4: /*
5: * Copyright (c) 2004, SUNET, Swedish University Computer Network.
6: * All rights reserved.
7: *
8: * Written by Anders Magnusson for SUNET, Swedish University Computer Network.
9: *
10: * Redistribution and use in source and binary forms, with or without
11: * modification, are permitted provided that the following conditions
12: * are met:
13: * 1. Redistributions of source code must retain the above copyright
14: * notice, this list of conditions and the following disclaimer.
15: * 2. Redistributions in binary form must reproduce the above copyright
16: * notice, this list of conditions and the following disclaimer in the
17: * documentation and/or other materials provided with the distribution.
18: * 3. All advertising materials mentioning features or use of this software
19: * must display the following acknowledgement:
20: * This product includes software developed for the NetBSD Project by
21: * SUNET, Swedish University Computer Network.
22: * 4. The name of SUNET may not be used to endorse or promote products
23: * derived from this software without specific prior written permission.
24: *
25: * THIS SOFTWARE IS PROVIDED BY SUNET ``AS IS'' AND
26: * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
27: * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
28: * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL SUNET
29: * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
30: * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
31: * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
32: * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
33: * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
34: * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
35: * POSSIBILITY OF SUCH DAMAGE.
36: */
37:
38: /*
39: * Defines for the Neterion Xframe adapter.
40: */
41:
42: /* PCI address space */
43: #define XGE_PIF_BAR 0x10
44: #define XGE_TXP_BAR 0x18
45:
46: /* PIF register address calculation */
47: #define DCSRB(x) (0x0000+(x)) /* 10GbE Device Control and Status Registers */
48: #define PCIXB(x) (0x0800+(x)) /* PCI-X Interface Functional Registers */
49: #define TDMAB(x) (0x1000+(x)) /* Transmit DMA Functional Registers */
50: #define RDMAB(x) (0x1800+(x)) /* Receive DMA Functional Registers */
51: #define MACRB(x) (0x2000+(x)) /* MAC functional registers */
52: #define RLDRB(x) (0x2800+(x)) /* RLDRAM memory controller */
53: #define XGXSB(x) (0x3000+(x)) /* XGXS functional Registers */
54:
55: /*
56: * Control and Status Registers
57: */
58: #define GENERAL_INT_STATUS DCSRB(0x0000)
59: #define GENERAL_INT_MASK DCSRB(0x0008)
60: #define SW_RESET DCSRB(0x0100)
61: #define XGXS_RESET(x) ((uint64_t)(x) << 32)
62: #define ADAPTER_STATUS DCSRB(0x0108)
63: #define TDMA_READY (1ULL<<63)
64: #define RDMA_READY (1ULL<<62)
65: #define PFC_READY (1ULL<<61)
66: #define TMAC_BUF_EMPTY (1ULL<<60)
67: #define PIC_QUIESCENT (1ULL<<58)
68: #define RMAC_REMOTE_FAULT (1ULL<<57)
69: #define RMAC_LOCAL_FAULT (1ULL<<56)
70: #define MC_DRAM_READY (1ULL<<39)
71: #define MC_QUEUES_READY (1ULL<<38)
72: #define RIC_RUNNING (1ULL<<37)
73: #define M_PLL_LOCK (1ULL<<33)
74: #define P_PLL_LOCK (1ULL<<32)
75: #define ADAPTER_CONTROL DCSRB(0x0110)
76: #define ADAPTER_EN (1ULL<<56)
77: #define EOI_TX_ON (1ULL<<48)
78: #define LED_ON (1ULL<<40)
79: #define WAIT_INT_EN (1ULL<<15)
80: #define ECC_ENABLE_N (1ULL<<8)
81:
82: /* for debug of ADAPTER_STATUS */
83: #define QUIESCENT (TDMA_READY|RDMA_READY|PFC_READY|TMAC_BUF_EMPTY|\
84: PIC_QUIESCENT|MC_DRAM_READY|MC_QUEUES_READY|M_PLL_LOCK|P_PLL_LOCK)
85: #define QUIESCENT_BMSK \
86: "\177\20b\x3fTDMA_READY\0b\x3eRDMA_READY\0b\x3dPFC_READY\0" \
87: "b\x3cTMAC_BUF_EMPTY\0b\x3aPIC_QUIESCENT\0\x39RMAC_REMOTE_FAULT\0" \
88: "b\x38RMAC_LOCAL_FAULT\0b\x27MC_DRAM_READY\0b\x26MC_QUEUES_READY\0" \
89: "b\x21M_PLL_LOCK\0b\x20P_PLL_LOCK"
90:
91: /*
92: * PCI-X registers
93: */
94: /* Interrupt control registers */
95: #define PIC_INT_STATUS PCIXB(0)
96: #define PIC_INT_MASK PCIXB(0x008)
97: #define TXPIC_INT_MASK PCIXB(0x018)
98: #define RXPIC_INT_MASK PCIXB(0x030)
99: #define FLASH_INT_MASK PCIXB(0x048)
100: #define MDIO_INT_MASK PCIXB(0x060)
101: #define IIC_INT_MASK PCIXB(0x078)
102: #define GPIO_INT_MASK PCIXB(0x098)
103: #define TX_TRAFFIC_INT PCIXB(0x0e0)
104: #define TX_TRAFFIC_MASK PCIXB(0x0e8)
105: #define RX_TRAFFIC_INT PCIXB(0x0f0)
106: #define RX_TRAFFIC_MASK PCIXB(0x0f8)
107: #define PIC_CONTROL PCIXB(0x100)
108:
109: /* Byte swapping for little-endian */
110: #define SWAPPER_CTRL PCIXB(0x108)
111: #define PIF_R_FE (1ULL<<63)
112: #define PIF_R_SE (1ULL<<62)
113: #define PIF_W_FE (1ULL<<55)
114: #define PIF_W_SE (1ULL<<54)
115: #define TxP_FE (1ULL<<47)
116: #define TxP_SE (1ULL<<46)
117: #define TxD_R_FE (1ULL<<45)
118: #define TxD_R_SE (1ULL<<44)
119: #define TxD_W_FE (1ULL<<43)
120: #define TxD_W_SE (1ULL<<42)
121: #define TxF_R_FE (1ULL<<41)
122: #define TxF_R_SE (1ULL<<40)
123: #define RxD_R_FE (1ULL<<31)
124: #define RxD_R_SE (1ULL<<30)
125: #define RxD_W_FE (1ULL<<29)
126: #define RxD_W_SE (1ULL<<28)
127: #define RxF_W_FE (1ULL<<27)
128: #define RxF_W_SE (1ULL<<26)
129: #define XMSI_FE (1ULL<<23)
130: #define XMSI_SE (1ULL<<22)
131: #define STATS_FE (1ULL<<15)
132: #define STATS_SE (1ULL<<14)
133:
134: /* Diagnostic register to check byte-swapping conf */
135: #define PIF_RD_SWAPPER_Fb PCIXB(0x110)
136: #define SWAPPER_MAGIC 0x0123456789abcdefULL
137:
138: /* Stats registers */
139: #define STAT_CFG PCIXB(0x1d0)
140: #define STAT_ADDR PCIXB(0x1d8)
141:
142: /* DTE-XGXS Interface */
143: #define MDIO_CONTROL PCIXB(0x1e0)
144: #define DTX_CONTROL PCIXB(0x1e8)
145: #define I2C_CONTROL PCIXB(0x1f0)
146: #define GPIO_CONTROL PCIXB(0x1f8)
147:
148: /*
149: * Transmit DMA registers.
150: */
151: #define TXDMA_INT_MASK TDMAB(0x008)
152: #define PFC_ERR_MASK TDMAB(0x018)
153: #define TDA_ERR_MASK TDMAB(0x030)
154: #define PCC_ERR_MASK TDMAB(0x048)
155: #define TTI_ERR_MASK TDMAB(0x060)
156: #define LSO_ERR_MASK TDMAB(0x078)
157: #define TPA_ERR_MASK TDMAB(0x090)
158: #define SM_ERR_MASK TDMAB(0x0a8)
159:
160: /* Transmit FIFO config */
161: #define TX_FIFO_P0 TDMAB(0x0108)
162: #define TX_FIFO_P1 TDMAB(0x0110)
163: #define TX_FIFO_P2 TDMAB(0x0118)
164: #define TX_FIFO_P3 TDMAB(0x0120)
165: #define TX_FIFO_ENABLE (1ULL<<63)
166: #define TX_FIFO_NUM0(x) ((uint64_t)(x) << 56)
167: #define TX_FIFO_LEN0(x) ((uint64_t)((x)-1) << 32)
168: #define TX_FIFO_NUM1(x) ((uint64_t)(x) << 24)
169: #define TX_FIFO_LEN1(x) ((uint64_t)((x)-1) << 0)
170:
171: /* Transmit interrupts */
172: #define TTI_COMMAND_MEM TDMAB(0x150)
173: #define TTI_CMD_MEM_WE (1ULL<<56)
174: #define TTI_CMD_MEM_STROBE (1ULL<<48)
175: #define TTI_DATA1_MEM TDMAB(0x158)
176: #define TX_TIMER_VAL(x) ((uint64_t)(x) << 32)
177: #define TX_TIMER_AC (1ULL<<25)
178: #define TX_TIMER_CI (1ULL<<24)
179: #define TX_URNG_A(x) ((uint64_t)(x) << 16)
180: #define TX_URNG_B(x) ((uint64_t)(x) << 8)
181: #define TX_URNG_C(x) ((uint64_t)(x) << 0)
182: #define TTI_DATA2_MEM TDMAB(0x160)
183: #define TX_UFC_A(x) ((uint64_t)(x) << 48)
184: #define TX_UFC_B(x) ((uint64_t)(x) << 32)
185: #define TX_UFC_C(x) ((uint64_t)(x) << 16)
186: #define TX_UFC_D(x) ((uint64_t)(x) << 0)
187:
188:
189: /* Transmit protocol assist */
190: #define TX_PA_CFG TDMAB(0x0168)
191: #define TX_PA_CFG_IFR (1ULL<<62) /* Ignore frame error */
192: #define TX_PA_CFG_ISO (1ULL<<61) /* Ignore snap OUI */
193: #define TX_PA_CFG_ILC (1ULL<<60) /* Ignore LLC ctrl */
194: #define TX_PA_CFG_ILE (1ULL<<57) /* Ignore L2 error */
195:
196: /*
197: * Transmit descriptor list (TxDL) pointer and control.
198: * There may be up to 8192 TxDL's per FIFO, but with a NIC total
199: * of 8192. The TxDL's are located in the NIC memory.
200: * Each TxDL can have up to 256 Transmit descriptors (TxD)
201: * that are located in host memory.
202: *
203: * The txdl struct fields must be written in order.
204: */
205: #ifdef notdef /* Use bus_space stuff instead */
206: struct txdl {
207: uint64_t txdl_pointer; /* address of TxD's */
208: uint64_t txdl_control;
209: };
210: #endif
211: #define TXDLOFF1(x) (16*(x)) /* byte offset in txdl for list */
212: #define TXDLOFF2(x) (16*(x)+8) /* byte offset in txdl for list */
213: #define TXDL_NUMTXD(x) ((uint64_t)(x) << 56) /* # of TxD's in the list */
214: #define TXDL_LGC_FIRST (1ULL << 49) /* First special list */
215: #define TXDL_LGC_LAST (1ULL << 48) /* Last special list */
216: #define TXDL_SFF (1ULL << 40) /* List is a special function list */
217: #define TXDL_PAR 0 /* Pointer address register */
218: #define TXDL_LCR 8 /* List control register */
219:
220: struct txd {
221: uint64_t txd_control1;
222: uint64_t txd_control2;
223: uint64_t txd_bufaddr;
224: uint64_t txd_hostctrl;
225: };
226: #define TXD_CTL1_OWN (1ULL << 56) /* Owner, 0 == host, 1 == NIC */
227: #define TXD_CTL1_GCF (1ULL << 41) /* First frame or LSO */
228: #define TXD_CTL1_GCL (1ULL << 40) /* Last frame or LSO */
229: #define TXD_CTL1_LSO (1ULL << 33) /* LSO should be performed */
230: #define TXD_CTL1_COF (1ULL << 32) /* UDP Checksum over fragments */
231: #define TXD_CTL1_MSS(x) ((uint64_t)(x) << 16)
232:
233: #define TXD_CTL2_INTLST (1ULL << 16) /* Per-list interrupt */
234: #define TXD_CTL2_UTIL (1ULL << 17) /* Utilization interrupt */
235: #define TXD_CTL2_CIPv4 (1ULL << 58) /* Calculate IPv4 header checksum */
236: #define TXD_CTL2_CTCP (1ULL << 57) /* Calculate TCP checksum */
237: #define TXD_CTL2_CUDP (1ULL << 56) /* Calculate UDP checksum */
238: #define TXD_CTL2_VLANE (1ULL << 48) /* Enable VLAN tag insertion */
239: #define TXD_CTL2_VLANT(x) ((uint64_t)(x) << 32)
240:
241: /*
242: * Receive DMA registers
243: */
244: /* Receive interrupt registers */
245: #define RXDMA_INT_MASK RDMAB(0x008)
246: #define RDA_ERR_MASK RDMAB(0x018)
247: #define RC_ERR_MASK RDMAB(0x030)
248: #define PRC_PCIX_ERR_MASK RDMAB(0x048)
249: #define RPA_ERR_MASK RDMAB(0x060)
250: #define RTI_ERR_MASK RDMAB(0x078)
251:
252: #define RX_QUEUE_PRIORITY RDMAB(0x100)
253: #define RX_W_ROUND_ROBIN_0 RDMAB(0x108)
254: #define RX_W_ROUND_ROBIN_1 RDMAB(0x110)
255: #define RX_W_ROUND_ROBIN_2 RDMAB(0x118)
256: #define RX_W_ROUND_ROBIN_3 RDMAB(0x120)
257: #define RX_W_ROUND_ROBIN_4 RDMAB(0x128)
258: #define PRC_RXD0_0 RDMAB(0x130)
259: #define PRC_CTRL_0 RDMAB(0x170)
260: #define RC_IN_SVC (1ULL << 56)
261: #define RING_MODE_1 (0ULL << 48)
262: #define RING_MODE_3 (1ULL << 48)
263: #define RING_MODE_5 (2ULL << 48)
264: #define RC_NO_SNOOP_D (1ULL << 41)
265: #define RC_NO_SNOOP_B (1ULL << 40)
266: #define PRC_ALARM_ACTION RDMAB(0x1b0)
267: #define RTI_COMMAND_MEM RDMAB(0x1b8)
268: #define RTI_CMD_MEM_WE (1ULL << 56)
269: #define RTI_CMD_MEM_STROBE (1ULL << 48)
270: #define RTI_DATA1_MEM RDMAB(0x1c0)
271: #define RX_TIMER_VAL(x) ((uint64_t)(x) << 32)
272: #define RX_TIMER_AC (1ULL << 25)
273: #define RX_URNG_A(x) ((uint64_t)(x) << 16)
274: #define RX_URNG_B(x) ((uint64_t)(x) << 8)
275: #define RX_URNG_C(x) ((uint64_t)(x) << 0)
276: #define RTI_DATA2_MEM RDMAB(0x1c8)
277: #define RX_UFC_A(x) ((uint64_t)(x) << 48)
278: #define RX_UFC_B(x) ((uint64_t)(x) << 32)
279: #define RX_UFC_C(x) ((uint64_t)(x) << 16)
280: #define RX_UFC_D(x) ((uint64_t)(x) << 0)
281: #define RX_PA_CFG RDMAB(0x1d0)
282: #define IGNORE_FRAME_ERROR (1ULL << 62)
283: #define IGNORE_SNAP_OUI (1ULL << 61)
284: #define IGNORE_LLC_CTRL (1ULL << 60)
285: #define SCATTER_MODE (1ULL << 57)
286: #define STRIP_VLAN_TAG (1ULL << 48)
287:
288: /*
289: * Receive descriptor (RxD) format.
290: * There are three formats of receive descriptors, 1, 3 and 5 buffer format.
291: */
292: #define RX_MODE_1 1
293: #define RX_MODE_3 3
294: #define RX_MODE_5 5
295:
296: struct rxd1 {
297: uint64_t rxd_hcontrol;
298: uint64_t rxd_control1;
299: uint64_t rxd_control2;
300: uint64_t rxd_buf0;
301: };
302:
303: /* 4k struct for 5 buffer mode */
304: #define NDESC_1BUFMODE 127 /* # desc/page for 5-buffer mode */
305: struct rxd1_4k {
306: struct rxd1 r4_rxd[NDESC_1BUFMODE];
307: uint64_t pad[3];
308: uint64_t r4_next; /* phys address of next 4k buffer */
309: };
310:
311: struct rxd3 {
312: uint64_t rxd_hcontrol;
313: uint64_t rxd_control1;
314: uint64_t rxd_control2;
315: uint64_t rxd_buf0;
316: uint64_t rxd_buf1;
317: uint64_t rxd_buf2;
318: };
319:
320: struct rxd5 {
321: uint64_t rxd_control3;
322: uint64_t rxd_control1;
323: uint64_t rxd_control2;
324: uint64_t rxd_buf0;
325: uint64_t rxd_buf1;
326: uint64_t rxd_buf2;
327: uint64_t rxd_buf3;
328: uint64_t rxd_buf4;
329: };
330:
331: /* 4k struct for 5 buffer mode */
332: #define NDESC_5BUFMODE 63 /* # desc/page for 5-buffer mode */
333: #define XGE_PAGE 4096 /* page size used for receive */
334: struct rxd5_4k {
335: struct rxd5 r4_rxd[NDESC_5BUFMODE];
336: uint64_t pad[7];
337: uint64_t r4_next; /* phys address of next 4k buffer */
338: };
339:
340: #define RXD_MKCTL3(h,bs3,bs4) \
341: (((uint64_t)(h) << 32) | ((uint64_t)(bs3) << 16) | (uint64_t)(bs4))
342: #define RXD_MKCTL2(bs0,bs1,bs2) \
343: (((uint64_t)(bs0) << 48) | ((uint64_t)(bs1) << 32) | \
344: ((uint64_t)(bs2) << 16))
345:
346: #define RXD_CTL2_BUF0SIZ(x) (((x) >> 48) & 0xffff)
347: #define RXD_CTL2_BUF1SIZ(x) (((x) >> 32) & 0xffff)
348: #define RXD_CTL2_BUF2SIZ(x) (((x) >> 16) & 0xffff)
349: #define RXD_CTL3_BUF3SIZ(x) (((x) >> 16) & 0xffff)
350: #define RXD_CTL3_BUF4SIZ(x) ((x) & 0xffff)
351: #define RXD_CTL1_OWN (1ULL << 56)
352: #define RXD_CTL1_XCODE(x) (((x) >> 48) & 0xf) /* Status bits */
353: #define RXD_CTL1_X_OK 0
354: #define RXD_CTL1_X_PERR 1 /* Parity error */
355: #define RXD_CTL1_X_ABORT 2 /* Abort during xfer */
356: #define RXD_CTL1_X_PA 3 /* Parity error and abort */
357: #define RXD_CTL1_X_RDA 4 /* RDA failure */
358: #define RXD_CTL1_X_UP 5 /* Unknown protocol */
359: #define RXD_CTL1_X_FI 6 /* Frame integrity (FCS) error */
360: #define RXD_CTL1_X_BSZ 7 /* Buffer size error */
361: #define RXD_CTL1_X_ECC 8 /* Internal ECC */
362: #define RXD_CTL1_X_UNK 15 /* Unknown error */
363: #define RXD_CTL1_PROTOS(x) (((x) >> 32) & 0xff)
364: #define RXD_CTL1_P_VLAN 0x80 /* VLAN tagged */
365: #define RXD_CTL1_P_MSK 0x60 /* Mask for frame type */
366: #define RXD_CTL1_P_DIX 0x00
367: #define RXD_CTL1_P_LLC 0x20
368: #define RXD_CTL1_P_SNAP 0x40
369: #define RXD_CTL1_P_IPX 0x60
370: #define RXD_CTL1_P_IPv4 0x10
371: #define RXD_CTL1_P_IPv6 0x08
372: #define RXD_CTL1_P_IPFRAG 0x04
373: #define RXD_CTL1_P_TCP 0x02
374: #define RXD_CTL1_P_UDP 0x01
375: #define RXD_CTL1_L3CSUM(x) (((x) >> 16) & 0xffff)
376: #define RXD_CTL1_L4CSUM(x) ((x) & 0xffff)
377: #define RXD_CTL2_VLANTAG(x) ((x) & 0xffff)
378:
379: /*
380: * MAC Configuration/Status
381: */
382: #define MAC_INT_STATUS MACRB(0x000)
383: #define MAC_TMAC_INT (1ULL<<63)
384: #define MAC_RMAC_INT (1ULL<<62)
385: #define MAC_INT_MASK MACRB(0x008)
386: #define MAC_TMAC_ERR_MASK MACRB(0x018)
387: #define MAC_RMAC_ERR_REG MACRB(0x028)
388: #define RMAC_LINK_STATE_CHANGE_INT (1ULL<<32)
389: #define MAC_RMAC_ERR_MASK MACRB(0x030)
390:
391: #define MAC_CFG MACRB(0x0100)
392: #define TMAC_EN (1ULL<<63)
393: #define RMAC_EN (1ULL<<62)
394: #define UTILZATION_CALC_SEL (1ULL<<61)
395: #define TMAC_LOOPBACK (1ULL<<60)
396: #define TMAC_APPEND_PAD (1ULL<<59)
397: #define RMAC_STRIP_FCS (1ULL<<58)
398: #define RMAC_STRIP_PAD (1ULL<<57)
399: #define RMAC_PROM_EN (1ULL<<56)
400: #define RMAC_DISCARD_PFRM (1ULL<<55)
401: #define RMAC_BCAST_EN (1ULL<<54)
402: #define RMAC_ALL_ADDR_EN (1ULL<<53)
403: #define RMAC_MAX_PYLD_LEN MACRB(0x0110)
404: #define RMAC_PYLD_LEN(x) ((uint64_t)(x) << 48)
405: #define RMAC_CFG_KEY MACRB(0x0120)
406: #define RMAC_KEY_VALUE (0x4c0dULL<<48)
407: #define RMAC_ADDR_CMD_MEM MACRB(0x0128)
408: #define RMAC_ADDR_CMD_MEM_WE (1ULL<<56)
409: #define RMAC_ADDR_CMD_MEM_STR (1ULL<<48)
410: #define RMAC_ADDR_CMD_MEM_OFF(x) ((uint64_t)(x) << 32)
411: #define MAX_MCAST_ADDR 64 /* slots in mcast table */
412: #define RMAC_ADDR_DATA0_MEM MACRB(0x0130)
413: #define RMAC_ADDR_DATA1_MEM MACRB(0x0138)
414: #define RMAC_PAUSE_CFG MACRB(0x150)
415: #define RMAC_PAUSE_GEN_EN (1ULL<<63)
416: #define RMAC_PAUSE_RCV_EN (1ULL<<62)
417:
418: /*
419: * RLDRAM registers.
420: */
421: #define MC_INT_MASK RLDRB(0x008)
422: #define MC_ERR_MASK RLDRB(0x018)
423:
424: #define RX_QUEUE_CFG RLDRB(0x100)
425: #define MC_QUEUE(q,s) ((uint64_t)(s)<<(56-(q*8)))
426: #define MC_RLDRAM_MRS RLDRB(0x108)
427: #define MC_QUEUE_SIZE_ENABLE (1ULL<<24)
428: #define MC_RLDRAM_MRS_ENABLE (1ULL<<16)
429:
430: /*
431: * XGXS registers.
432: */
433: /* XGXS control/statue */
434: #define XGXS_INT_MASK XGXSB(0x008)
435: #define XGXS_TXGXS_ERR_MASK XGXSB(0x018)
436: #define XGXS_RXGXS_ERR_MASK XGXSB(0x030)
437: #define XGXS_CFG XGXSB(0x0100)
CVSweb