ar71xx: update early_printk code
[openwrt.git] / target / linux / ep93xx / patches-2.6.30 / 007-ep93xx-eth.patch
1 --- /dev/null
2 +++ b/drivers/net/arm/ep93xx_eth.h
3 @@ -0,0 +1,402 @@
4 +/*------------------------------------------------------------------------
5 + * ep93xx_eth.h
6 + * : header file of Ethernet Device Driver for Cirrus Logic EP93xx.
7 + *
8 + * Copyright (C) 2003 by Cirrus Logic www.cirrus.com
9 + * This software may be used and distributed according to the terms
10 + * of the GNU Public License.
11 + *
12 + * This file contains device related information like register info
13 + * and register access method macros for the Ethernet device
14 + * embedded within Cirrus Logic's EP93xx SOC chip.
15 + *
16 + * Information contained in this file was obtained from
17 + * the EP9312 Manual Revision 0.12 and 0.14 from Cirrus Logic.
18 + *
19 + * History
20 + * 05/18/01 Sungwook Kim Initial release
21 + * 03/25/2003 Melody Modified for EP92xx
22 + *--------------------------------------------------------------------------*/
23 +
24 +
25 +#ifndef _EP9213_ETH_H_
26 +#define _EP9213_ETH_H_
27 +
28 +
29 +/*---------------------------------------------------------------
30 + * Definition of H/W Defects and Their Workarounds
31 + *-------------------------------------------------------------*/
32 +
33 +
34 +
35 +/*---------------------------------------------------------------
36 + * Data types used in this driver
37 + *-------------------------------------------------------------*/
38 +typedef unsigned char U8;
39 +typedef unsigned short U16;
40 +typedef unsigned long U32;
41 +typedef unsigned int UINT;
42 +
43 +
44 +
45 +/*---------------------------------------------------------------
46 + * Definition of the registers.
47 + * For details, refer to the datasheet .
48 + *
49 + * Basically, most registers are 32 bits width register.
50 + * But some are 16 bits and some are 6 or 8 bytes long.
51 + *-------------------------------------------------------------*/
52 +
53 +#define REG_RxCTL 0x0000 /*offset to Receiver Control Reg*/
54 +#define RxCTL_PauseA (1<<20)
55 +#define RxCTL_RxFCE1 (1<<19)
56 +#define RxCTL_RxFCE0 (1<<18)
57 +#define RxCTL_BCRC (1<<17)
58 +#define RxCTL_SRxON (1<<16)
59 +#define RxCTL_RCRCA (1<<13)
60 +#define RxCTL_RA (1<<12)
61 +#define RxCTL_PA (1<<11)
62 +#define RxCTL_BA (1<<10)
63 +#define RxCTL_MA (1<<9)
64 +#define RxCTL_IAHA (1<<8)
65 +#define RxCTL_IA3 (1<<3)
66 +#define RxCTL_IA2 (1<<2)
67 +#define RxCTL_IA1 (1<<1)
68 +#define RxCTL_IA0 (1<<0)
69 +
70 +#define REG_TxCTL 0x0004 /*offset to Transmit Control Reg*/
71 +#define TxCTL_DefDis (1<<7)
72 +#define TxCTL_MBE (1<<6)
73 +#define TxCTL_ICRC (1<<5)
74 +#define TxCTL_TxPD (1<<5)
75 +#define TxCTL_OColl (1<<3)
76 +#define TxCTL_SP (1<<2)
77 +#define TxCTL_PB (1<<1)
78 +#define TxCTL_STxON (1<<0)
79 +
80 +#define REG_TestCTL 0x0008 /*Test Control Reg, R/W*/
81 +#define TestCTL_MACF (1<<7)
82 +#define TestCTL_MFDX (1<<6)
83 +#define TestCTL_DB (1<<5)
84 +#define TestCTL_MIIF (1<<4)
85 +
86 +#define REG_MIICmd 0x0010 /*offset to MII Command Reg, R/W*/
87 +#define MIICmd_OP (0x03<<14)
88 +#define MIICmd_OP_RD (2<<14)
89 +#define MIICmd_OP_WR (1<<14)
90 +#define MIICmd_PHYAD (0x1f<<5)
91 +#define MIICmd_REGAD (0x1f<<0)
92 +
93 +#define REG_MIIData 0x0014 /*offset to MII Data Reg, R/W*/
94 +#define MIIData_MIIData (0xffff<<0)
95 +
96 +#define REG_MIISts 0x0018 /*offset to MII Status Reg, R*/
97 +#define MIISts_Busy (1<<0)
98 +
99 +#define REG_SelfCTL 0x0020 /*offset to Self Control Reg*/
100 +#define SelfCTL_RWP (1<<7) /*Remote Wake Pin*/
101 +#define SelfCTL_GPO0 (1<<5)
102 +#define SelfCTL_PUWE (1<<4)
103 +#define SelfCTL_PDWE (1<<3)
104 +#define SelfCTL_MIIL (1<<2)
105 +#define SelfCTL_RESET (1<<0)
106 +
107 +#define REG_IntEn 0x0024 /*Interrupt Enable Reg, R/W*/
108 +#define IntEn_RWIE (1<<30)
109 +#define IntEn_RxMIE (1<<29)
110 +#define IntEn_RxBIE (1<<28)
111 +#define IntEn_RxSQIE (1<<27)
112 +#define IntEn_TxLEIE (1<<26)
113 +#define IntEn_ECIE (1<<25)
114 +#define IntEn_TxUHIE (1<<24)
115 +#define IntEn_MOIE (1<<18)
116 +#define IntEn_TxCOIE (1<<17)
117 +#define IntEn_RxROIE (1<<16)
118 +#define IntEn_MIIIE (1<<12)
119 +#define IntEn_PHYSIE (1<<11)
120 +#define IntEn_TIE (1<<10)
121 +#define IntEn_SWIE (1<<8)
122 +#define IntEn_TxSQIE (1<<3)
123 +#define IntEn_RxEOFIE (1<<2)
124 +#define IntEn_RxEOBIE (1<<1)
125 +#define IntEn_RxHDRIE (1<<0)
126 +
127 +#define REG_IntStsP 0x0028 /*offset to Interrupt Status Preserve Reg, R/W*/
128 +#define REG_IntStsC 0x002c /*offset to Interrupt Status Clear Reg, R*/
129 +#define IntSts_RWI (1<<30)
130 +#define IntSts_RxMI (1<<29)
131 +#define IntSts_RxBI (1<<28)
132 +#define IntSts_RxSQI (1<<27)
133 +#define IntSts_TxLEI (1<<26)
134 +#define IntSts_ECI (1<<25)
135 +#define IntSts_TxUHI (1<<24)
136 +#define IntSts_MOI (1<<18)
137 +#define IntSts_TxCOI (1<<17)
138 +#define IntSts_RxROI (1<<16)
139 +#define IntSts_MIII (1<<12)
140 +#define IntSts_PHYSI (1<<11)
141 +#define IntSts_TI (1<<10)
142 +#define IntSts_AHBE (1<<9)
143 +#define IntSts_SWI (1<<8)
144 +#define IntSts_OTHER (1<<4)
145 +#define IntSts_TxSQ (1<<3)
146 +#define IntSts_RxSQ (1<<2)
147 +
148 +#define REG_GT 0x0040 /*offset to General Timer Reg*/
149 +#define GT_GTC (0xffff<<16)
150 +#define GT_GTP (0xffff<<0)
151 +
152 +#define REG_FCT 0x0044 /*offset to Flow Control Timer Reg*/
153 +#define FCT_FCT (0x00ffffff<<0)
154 +
155 +#define REG_FCF 0x0048 /*offset to Flow Control Format Reg*/
156 +#define FCF_MACCT (0xffff<<16)
157 +#define FCF_TPT (0xffff<<0)
158 +
159 +#define REG_AFP 0x004c /*offset to Address Filter Pointer Reg*/
160 +#define AFP_AFP (0x07<<0) /*Address Filter Pointer (bank control for REG_IndAD)*/
161 +#define AFP_AFP_IA0 0 /*Primary Individual Address (MAC Addr)*/
162 +#define AFP_AFP_IA1 1 /*Individual Address 1*/
163 +#define AFP_AFP_IA2 2 /*Individual Address 2*/
164 +#define AFP_AFP_IA3 3 /*Individual Address 3*/
165 +#define AFP_AFP_DTxP 6 /*Destination Address of Tx Pause Frame*/
166 +#define AFP_AFP_HASH 7 /*Hash Table*/
167 +
168 +#define REG_IndAD 0x0050 /*offset to Individual Address Reg, n bytes, R/W*/
169 +
170 +#define REG_GIntSts 0x0060 /*offset to Global Interrupt Status Reg (writing 1 will clear)*/
171 +#define REG_GIntROS 0x0068 /*offset to Global Interrupt Status Read Only Reg*/
172 +#define GIntSts_INT (1<<15) /*Global Interrupt Request Status*/
173 +
174 +#define REG_GIntMsk 0x0064 /*offset to Global Interrupt Mask Reg*/
175 +#define GIntMsk_IntEn (1<<15) /*Global Interrupt Enable*/
176 +
177 +#define REG_GIntFrc 0x006c /*offset to Global Interrupt Force Reg*/
178 +#define GIntFrc_INT (1<<15) /*Force to set GIntSts*/
179 +
180 +#define REG_TxCollCnt 0x0070 /*Transmit Collision Count Reg, R*/
181 +#define REG_RxMissCnt 0x0074 /*Receive Miss Count Reg, R*/
182 +#define REG_RxRntCnt 0x0078 /*Receive Runt Count Reg, R*/
183 +
184 +#define REG_BMCtl 0x0080 /*offset to Bus Master Control Reg, R/W*/
185 +#define BMCtl_MT (1<<13)
186 +#define BMCtl_TT (1<<12)
187 +#define BMCtl_UnH (1<<11)
188 +#define BMCtl_TxChR (1<<10)
189 +#define BMCtl_TxDis (1<<9)
190 +#define BMCtl_TxEn (1<<8)
191 +#define BMCtl_EH2 (1<<6)
192 +#define BMCtl_EH1 (1<<5)
193 +#define BMCtl_EEOB (1<<4)
194 +#define BMCtl_RxChR (1<<2)
195 +#define BMCtl_RxDis (1<<1)
196 +#define BMCtl_RxEn (1<<0)
197 +
198 +#define REG_BMSts 0x0084 /*offset to Bus Master Status Reg, R*/
199 +#define BMSts_TxAct (1<<7)
200 +#define BMSts_TP (1<<4)
201 +#define BMSts_RxAct (1<<3)
202 +#define BMSts_QID (0x07<<0)
203 +#define BMSts_QID_RxDt (0<<0)
204 +#define BMSts_QID_TxDt (1<<0)
205 +#define BMSts_QID_RxSts (2<<0)
206 +#define BMSts_QID_TxSts (3<<0)
207 +#define BMSts_QID_RxDesc (4<<0)
208 +#define BMSts_QID_TxDesc (5<<0)
209 +
210 +#define REG_RBCA 0x0088 /*offset to Receive Buffer Current Address Reg, R*/
211 +#define REG_TBCA 0x008c /*offset to Transmit Buffer Current Address Reg, R*/
212 +
213 +#define REG_RxDBA 0x0090 /*offset to Receive Descriptor Queue Base Address Reg, R/W*/
214 +#define REG_RxDBL 0x0094 /*offset to Receive Descriptor Queue Base Length Reg, R/W, 16bits*/
215 +#define REG_RxDCL 0x0096 /*offset to Receive Descriptor Queue Current Length Reg, R/W, 16bits*/
216 +#define REG_RxDCA 0x0098 /*offset to Receive Descriptor Queue Current Address Reg, R/W*/
217 +
218 +#define REG_RxDEQ 0x009c /*offset to Receive Descriptor Enqueue Reg, R/W*/
219 +#define RxDEQ_RDV (0xffff<<16) /*R 16bit; Receive Descriptor Value*/
220 +#define RxDEQ_RDI (0xff<<0) /*W 8bit; Receive Descriptor Increment*/
221 +
222 +#define REG_RxSBA 0x00a0 /*offset to Receive Status Queue Base Address Reg, R/W*/
223 +#define REG_RxSBL 0x00a4 /*offset to Receive Status Queue Base Length Reg, R/W, 16bits*/
224 +#define REG_RxSCL 0x00a6 /*offset to Receive Status Queue Current Length Reg, R/W, 16bits*/
225 +#define REG_RxSCA 0x00a8 /*offset to Receive Status Queue Current Address Reg, R/W*/
226 +
227 +#define REG_RxSEQ 0x00ac /*offset to Receive Status Queue Current Address Reg, R/W*/
228 +#define RxSEQ_RSV (0xffff<<16)
229 +#define RxSEQ_RSI (0xff<<0)
230 +
231 +#define REG_TxDBA 0x00b0 /*offset to Transmit Descriptor Queue Base Address Reg, R/W*/
232 +#define REG_TxDBL 0x00b4 /*offset to Transmit Descriptor Queue Base Length Reg, R/W, 16bits*/
233 +#define REG_TxDCL 0x00b6 /*offset to Transmit Descriptor Queue Current Length Reg, R/W, 16bits*/
234 +#define REG_TxDCA 0x00b8 /*offset to Transmit Descriptor Queue Current Address Reg, R/W*/
235 +
236 +#define REG_TxDEQ 0x00bc /*offset to Transmit Descriptor Queue Current Address Reg, R/W*/
237 +#define TxDEQ_TDV (0xffff<<16)
238 +#define TxDEQ_TDI (0xff<<0)
239 +
240 +#define REG_TxSBA 0x00c0 /*offset to Transmit Status Queue Base Address Reg, R/W*/
241 +#define REG_TxSBL 0x00c4 /*offset to Transmit Status Queue Base Length Reg, R/W, 16bits*/
242 +#define REG_TxSCL 0x00c6 /*offset to Transmit Status Queue Current Length Reg, R/W, 16bits*/
243 +#define REG_TxSCA 0x00c8 /*offset to Transmit Status Queue Current Address Reg, R/W*/
244 +
245 +#define REG_RxBTH 0x00d0 /*offset to Receive Buffer Threshold Reg, R/W*/
246 +#define RxBTH_RDHT (0x03ff<<16)
247 +#define RxBTH_RDST (0x03ff<<0)
248 +
249 +#define REG_TxBTH 0x00d4 /*offset to Transmit Buffer Threshold Reg, R/W*/
250 +#define TxBTH_TDHT (0x03ff<<16)
251 +#define TxBTH_TDST (0x03ff<<0)
252 +
253 +#define REG_RxSTH 0x00d8 /*offset to Receive Status Threshold Reg, R/W*/
254 +#define RxSTH_RSHT (0x003f<<16)
255 +#define RxSTH_RSST (0x003f<<0)
256 +
257 +#define REG_TxSTH 0x00dc /*offset to Transmit Status Threshold Reg, R/W*/
258 +#define TxSTH_TSHT (0x003f<<16)
259 +#define TxSTH_TSST (0x003f<<0)
260 +
261 +#define REG_RxDTH 0x00e0 /*offset to Receive Descriptor Threshold Reg, R/W*/
262 +#define RxDTH_RDHT (0x003f<<16)
263 +#define RxDTH_RDST (0x003f<<0)
264 +
265 +#define REG_TxDTH 0x00e4 /*offset to Transmit Descriptor Threshold Reg, R/W*/
266 +#define TxDTH_TDHT (0x003f<<16)
267 +#define TxDTH_TDST (0x003f<<0)
268 +
269 +#define REG_MaxFL 0x00e8 /*offset to Max Frame Length Reg, R/W*/
270 +#define MaxFL_MFL (0x07ff<<16)
271 +#define MaxFL_TST (0x07ff<<0)
272 +
273 +#define REG_RxHL 0x00ec /*offset to Receive Header Length Reg, R/W*/
274 +#define RxHL_RHL2 (0x07ff<<16)
275 +#define RxHL_RHL1 (0x03ff<<0)
276 +
277 +#define REG_MACCFG0 0x0100 /*offset to Test Reg #0, R/W*/
278 +#define MACCFG0_DbgSel (1<<7)
279 +#define MACCFG0_LCKEN (1<<6)
280 +#define MACCFG0_LRATE (1<<5)
281 +#define MACCFG0_RXERR (1<<4)
282 +#define MACCFG0_BIT33 (1<<2)
283 +#define MACCFG0_PMEEN (1<<1)
284 +#define MACCFG0_PMEST (1<<0)
285 +
286 +#define REG_MACCFG1 0x0104 /*offset to Test Reg #1, R/W*/
287 +#define REG_MACCFG2 0x0108 /*offset to Test Reg #2, R*/
288 +#define REG_MACCFG3 0x010c /*offset to Test Reg #3, R*/
289 +
290 +
291 +
292 +/*---------------------------------------------------------------
293 + * Definition of Descriptor/Status Queue Entry
294 + *-------------------------------------------------------------*/
295 +
296 +typedef union receiveDescriptor { /*data structure of Receive Descriptor Queue Entry*/
297 + struct { /*whole value*/
298 + U32 e0, /*1st dword entry*/
299 + e1; /*2nd dword entry*/
300 + } w;
301 + struct { /*bit field definitions*/
302 + U32 ba:32, /*Buffer Address (keep in mind this is physical address)*/
303 + bl:16, /*b15-0; Buffer Length*/
304 + bi:15, /*b30-16; Buffer Index*/
305 + nsof:1; /*b31; Not Start Of Frame*/
306 + } f;
307 +} receiveDescriptor;
308 +
309 +
310 +typedef union receiveStatus { /*data structure of Receive Status Queue Entry*/
311 + struct { /*whole word*/
312 + U32 e0, /*1st dword entry*/
313 + e1; /*2nd dword entry*/
314 + } w;
315 + struct { /*bit field*/
316 + U32 rsrv1:8, /*b7-0: reserved*/
317 + hti:6, /*b13-8: Hash Table Index*/
318 + rsrv2:1, /*b14: reserved*/
319 + crci:1, /*b15: CRC Included*/
320 + crce:1, /*b16: CRC Error*/
321 + edata:1, /*b17: Extra Data*/
322 + runt:1, /*b18: Runt Frame*/
323 + fe:1, /*b19: Framing Error*/
324 + oe:1, /*b20: Overrun Error*/
325 + rxerr:1, /*b21: Rx Error*/
326 + am:2, /*b23-22: Address Match*/
327 + rsrv3:4, /*b27-24: reserved*/
328 + eob:1, /*b28: End Of Buffer*/
329 + eof:1, /*b29: End Of Frame*/
330 + rwe:1, /*b30: Received Without Error*/
331 + rfp:1, /*b31: Receive Frame Processed*/
332 + fl:16, /*b15-0: frame length*/
333 + bi:15, /*b30-16: Buffer Index*/
334 + rfp2:1; /*b31: Receive Frame Processed at 2nd word*/
335 + } f;
336 +} receiveStatus;
337 +
338 +
339 +typedef union transmitDescriptor { /*data structure of Transmit Descriptor Queue Entry*/
340 + struct { /*whole value*/
341 + U32 e0, /*1st dword entry*/
342 + e1; /*2nd dword entry*/
343 + } w;
344 + struct { /*bit field*/
345 + U32 ba:32, /*b31-0: Buffer Address (keep in mind this is physical address)*/
346 + bl:12, /*b11-0: Buffer Length*/
347 + rsrv1:3, /*b14-12: reserved*/
348 + af:1, /*b15: Abort Frame*/
349 + bi:15, /*b30-16: Buffer Index*/
350 + eof:1; /*b31: End Of Frame*/
351 +
352 + } f;
353 +} transmitDescriptor;
354 +
355 +
356 +typedef union transmitStatus { /*data structure of Transmit Status Queue Entry*/
357 + struct { /*whole word*/
358 + U32 e0; /*1st dword entry*/
359 + } w;
360 + struct { /*bit field*/
361 + U32 bi:15, /*b14-0: Buffer Index*/
362 + rsrv3:1, /*b15: reserved*/
363 + ncoll:5, /*b20-16: Number of Collisions*/
364 + rsrv2:3, /*b23-21: reserved*/
365 + ecoll:1, /*b24: Excess Collisions*/
366 + txu:1, /*b25: Tx Underrun*/
367 + ow:1, /*b26: Out of Window*/
368 + rsrv1:1, /*b27: reserved*/
369 + lcrs:1, /*b28: Loss of CRS*/
370 + fa:1, /*b29: Frame Abort*/
371 + txwe:1, /*b30: Transmitted Without Error*/
372 + txfp:1; /*b31: Transmit Frame Processed*/
373 + } f;
374 +} transmitStatus;
375 +
376 +
377 +
378 +/*---------------------------------------------------------------
379 + * Size of device registers occupied in memory/IO address map
380 + *-------------------------------------------------------------*/
381 +#define DEV_REG_SPACE 0x00010000
382 +
383 +/*
384 +#define U8 unsigned char
385 +#define U16 unsigned short
386 +#define U32 unsigned long
387 +*/
388 +
389 +/*---------------------------------------------------------------
390 + * A definition of register access macros
391 + *-------------------------------------------------------------*/
392 +#define _RegRd(type,ofs) (*(volatile type*)(ofs))
393 +#define _RegWr(type,ofs,dt) *(volatile type*)(ofs)=((type)(dt))
394 +
395 +#define RegRd8(ofs) _RegRd(U8,(char*)pD->base_addr+(ofs))
396 +#define RegRd16(ofs) _RegRd(U16,(char*)pD->base_addr+(ofs))
397 +#define RegRd32(ofs) _RegRd(U32,(char*)pD->base_addr+(ofs))
398 +#define RegWr8(ofs,dt) _RegWr(U8,(char*)pD->base_addr+(ofs),(dt))
399 +#define RegWr16(ofs,dt) _RegWr(U16,(char*)pD->base_addr+(ofs),(dt))
400 +#define RegWr32(ofs,dt) _RegWr(U32,(char*)pD->base_addr+(ofs),(dt))
401 +
402 +
403 +
404 +#endif /* _EP9213_ETH_H_ */
405 +
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