• Home
  • Line#
  • Scopes#
  • Navigate#
  • Raw
  • Download
1 /* SPDX-License-Identifier: GPL-2.0+ */
2 /*
3  * MPC85xx Internal Memory Map
4  *
5  * Copyright 2010-2011 Freescale Semiconductor, Inc.
6  */
7 
8 #ifndef __FSL_FMAN_H__
9 #define __FSL_FMAN_H__
10 
11 #include <asm/types.h>
12 
13 typedef struct fm_bmi_common {
14 	u32	fmbm_init;	/* BMI initialization */
15 	u32	fmbm_cfg1;	/* BMI configuration1 */
16 	u32	fmbm_cfg2;	/* BMI configuration2 */
17 	u32	res0[0x5];
18 	u32	fmbm_ievr;	/* interrupt event register */
19 	u32	fmbm_ier;	/* interrupt enable register */
20 	u32	fmbm_ifr;	/* interrupt force register */
21 	u32	res1[0x5];
22 	u32	fmbm_arb[0x8];	/* BMI arbitration */
23 	u32	res2[0x28];
24 	u32	fmbm_gde;	/* global debug enable */
25 	u32	fmbm_pp[0x3f];	/* BMI port parameters */
26 	u32	res3;
27 	u32	fmbm_pfs[0x3f];	/* BMI port FIFO size */
28 	u32	res4;
29 	u32	fmbm_ppid[0x3f];/* port partition ID */
30 } fm_bmi_common_t;
31 
32 typedef struct fm_qmi_common {
33 	u32	fmqm_gc;	/* general configuration register */
34 	u32	res0;
35 	u32	fmqm_eie;	/* error interrupt event register */
36 	u32	fmqm_eien;	/* error interrupt enable register */
37 	u32	fmqm_eif;	/* error interrupt force register */
38 	u32	fmqm_ie;	/* interrupt event register */
39 	u32	fmqm_ien;	/* interrupt enable register */
40 	u32	fmqm_if;	/* interrupt force register */
41 	u32	fmqm_gs;	/* global status register */
42 	u32	fmqm_ts;	/* task status register */
43 	u32	fmqm_etfc;	/* enqueue total frame counter */
44 	u32	fmqm_dtfc;	/* dequeue total frame counter */
45 	u32	fmqm_dc0;	/* dequeue counter 0 */
46 	u32	fmqm_dc1;	/* dequeue counter 1 */
47 	u32	fmqm_dc2;	/* dequeue counter 2 */
48 	u32	fmqm_dc3;	/* dequeue counter 3 */
49 	u32	fmqm_dfnoc;	/* dequeue FQID not override counter */
50 	u32	fmqm_dfcc;	/* dequeue FQID from context counter */
51 	u32	fmqm_dffc;	/* dequeue FQID from FD counter */
52 	u32	fmqm_dcc;	/* dequeue confirm counter */
53 	u32	res1[0xc];
54 	u32	fmqm_dtrc;	/* debug trap configuration register */
55 	u32	fmqm_efddd;	/* enqueue frame descriptor dynamic debug */
56 	u32	res3[0x2];
57 	u32	res4[0xdc];	/* missing debug regs */
58 } fm_qmi_common_t;
59 
60 typedef struct fm_bmi {
61 	u8	res[1024];
62 } fm_bmi_t;
63 
64 typedef struct fm_qmi {
65 	u8	res[1024];
66 } fm_qmi_t;
67 
68 struct fm_bmi_rx_port {
69 	u32 fmbm_rcfg;	/* Rx configuration */
70 	u32 fmbm_rst;	/* Rx status */
71 	u32 fmbm_rda;	/* Rx DMA attributes */
72 	u32 fmbm_rfp;	/* Rx FIFO parameters */
73 	u32 fmbm_rfed;	/* Rx frame end data */
74 	u32 fmbm_ricp;	/* Rx internal context parameters */
75 	u32 fmbm_rim;	/* Rx internal margins */
76 	u32 fmbm_rebm;	/* Rx external buffer margins */
77 	u32 fmbm_rfne;	/* Rx frame next engine */
78 	u32 fmbm_rfca;	/* Rx frame command attributes */
79 	u32 fmbm_rfpne;	/* Rx frame parser next engine */
80 	u32 fmbm_rpso;	/* Rx parse start offset */
81 	u32 fmbm_rpp;	/* Rx policer profile */
82 	u32 fmbm_rccb;	/* Rx coarse classification base */
83 	u32 res1[0x2];
84 	u32 fmbm_rprai[0x8];	/* Rx parse results array Initialization */
85 	u32 fmbm_rfqid;		/* Rx frame queue ID */
86 	u32 fmbm_refqid;	/* Rx error frame queue ID */
87 	u32 fmbm_rfsdm;		/* Rx frame status discard mask */
88 	u32 fmbm_rfsem;		/* Rx frame status error mask */
89 	u32 fmbm_rfene;		/* Rx frame enqueue next engine */
90 	u32 res2[0x23];
91 	u32 fmbm_ebmpi[0x8];	/* buffer manager pool information */
92 	u32 fmbm_acnt[0x8];	/* allocate counter */
93 	u32 res3[0x8];
94 	u32 fmbm_cgm[0x8];	/* congestion group map */
95 	u32 fmbm_mpd;		/* BMan pool depletion */
96 	u32 res4[0x1F];
97 	u32 fmbm_rstc;		/* Rx statistics counters */
98 	u32 fmbm_rfrc;		/* Rx frame counters */
99 	u32 fmbm_rfbc;		/* Rx bad frames counter */
100 	u32 fmbm_rlfc;		/* Rx large frames counter */
101 	u32 fmbm_rffc;		/* Rx filter frames counter */
102 	u32 fmbm_rfdc;		/* Rx frame discard counter */
103 	u32 fmbm_rfldec;	/* Rx frames list DMA error counter */
104 	u32 fmbm_rodc;		/* Rx out of buffers discard counter */
105 	u32 fmbm_rbdc;		/* Rx buffers deallocate counter */
106 	u32 res5[0x17];
107 	u32 fmbm_rpc;		/* Rx performance counters */
108 	u32 fmbm_rpcp;		/* Rx performance count parameters */
109 	u32 fmbm_rccn;		/* Rx cycle counter */
110 	u32 fmbm_rtuc;		/* Rx tasks utilization counter */
111 	u32 fmbm_rrquc;		/* Rx receive queue utilization counter */
112 	u32 fmbm_rduc;		/* Rx DMA utilization counter */
113 	u32 fmbm_rfuc;		/* Rx FIFO utilization counter */
114 	u32 fmbm_rpac;		/* Rx pause activation counter */
115 	u32 res6[0x18];
116 	u32 fmbm_rdbg;		/* Rx debug configuration */
117 };
118 
119 /* FMBM_RCFG - Rx configuration */
120 #define FMBM_RCFG_EN		0x80000000 /* port is enabled to receive data */
121 #define FMBM_RCFG_FDOVR		0x02000000 /* frame discard override */
122 #define FMBM_RCFG_IM		0x01000000 /* independent mode */
123 
124 /* FMBM_RST - Rx status */
125 #define FMBM_RST_BSY		0x80000000 /* Rx port is busy */
126 
127 /* FMBM_RFCA - Rx frame command attributes */
128 #define FMBM_RFCA_ORDER		0x80000000
129 #define FMBM_RFCA_MR_MASK	0x003f0000
130 #define FMBM_RFCA_MR(x)		((x << 16) & FMBM_RFCA_MR_MASK)
131 
132 /* FMBM_RSTC - Rx statistics */
133 #define FMBM_RSTC_EN		0x80000000 /* statistics counters enable */
134 
135 struct fm_bmi_tx_port {
136 	u32 fmbm_tcfg;	/* Tx configuration */
137 	u32 fmbm_tst;	/* Tx status */
138 	u32 fmbm_tda;	/* Tx DMA attributes */
139 	u32 fmbm_tfp;	/* Tx FIFO parameters */
140 	u32 fmbm_tfed;	/* Tx frame end data */
141 	u32 fmbm_ticp;	/* Tx internal context parameters */
142 	u32 fmbm_tfne;	/* Tx frame next engine */
143 	u32 fmbm_tfca;	/* Tx frame command attributes */
144 	u32 fmbm_tcfqid;/* Tx confirmation frame queue ID */
145 	u32 fmbm_tfeqid;/* Tx error frame queue ID */
146 	u32 fmbm_tfene;	/* Tx frame enqueue next engine */
147 	u32 fmbm_trlmts;/* Tx rate limiter scale */
148 	u32 fmbm_trlmt;	/* Tx rate limiter */
149 	u32 res0[0x73];
150 	u32 fmbm_tstc;	/* Tx statistics counters */
151 	u32 fmbm_tfrc;	/* Tx frame counter */
152 	u32 fmbm_tfdc;	/* Tx frames discard counter */
153 	u32 fmbm_tfledc;/* Tx frame length error discard counter */
154 	u32 fmbm_tfufdc;/* Tx frame unsupported format discard counter */
155 	u32 fmbm_tbdc;	/* Tx buffers deallocate counter */
156 	u32 res1[0x1a];
157 	u32 fmbm_tpc;	/* Tx performance counters */
158 	u32 fmbm_tpcp;	/* Tx performance count parameters */
159 	u32 fmbm_tccn;	/* Tx cycle counter */
160 	u32 fmbm_ttuc;	/* Tx tasks utilization counter */
161 	u32 fmbm_ttcquc;/* Tx transmit confirm queue utilization counter */
162 	u32 fmbm_tduc;	/* Tx DMA utilization counter */
163 	u32 fmbm_tfuc;	/* Tx FIFO utilization counter */
164 	u32 res2[0x19];
165 	u32 fmbm_tdcfg;	/* Tx debug configuration */
166 };
167 
168 /* FMBM_TCFG - Tx configuration */
169 #define FMBM_TCFG_EN	0x80000000 /* port is enabled to transmit data */
170 #define FMBM_TCFG_IM	0x01000000 /* independent mode enable */
171 
172 /* FMBM_TST - Tx status */
173 #define FMBM_TST_BSY		0x80000000 /* Tx port is busy */
174 
175 /* FMBM_TFCA - Tx frame command attributes */
176 #define FMBM_TFCA_ORDER		0x80000000
177 #define FMBM_TFCA_MR_MASK	0x003f0000
178 #define FMBM_TFCA_MR(x)		((x << 16) & FMBM_TFCA_MR_MASK)
179 
180 /* FMBM_TSTC - Tx statistics counters */
181 #define FMBM_TSTC_EN		0x80000000
182 
183 /* FMBM_INIT - BMI initialization register */
184 #define FMBM_INIT_START		0x80000000 /* init internal buffers */
185 
186 /* FMBM_CFG1 - BMI configuration 1 */
187 #define FMBM_CFG1_FBPS_MASK	0x03ff0000 /* Free buffer pool size */
188 #define FMBM_CFG1_FBPS_SHIFT	16
189 #define FMBM_CFG1_FBPO_MASK	0x000003ff /* Free buffer pool offset */
190 
191 /* FMBM_IEVR - interrupt event */
192 #define FMBM_IEVR_PEC		0x80000000 /* pipeline table ECC err detected */
193 #define FMBM_IEVR_LEC		0x40000000 /* linked list RAM ECC error */
194 #define FMBM_IEVR_SEC		0x20000000 /* statistics count RAM ECC error */
195 #define FMBM_IEVR_CLEAR_ALL	(FMBM_IEVR_PEC | FMBM_IEVR_LEC | FMBM_IEVR_SEC)
196 
197 /* FMBM_IER - interrupt enable */
198 #define FMBM_IER_PECE		0x80000000 /* PEC interrupt enable */
199 #define FMBM_IER_LECE		0x40000000 /* LEC interrupt enable */
200 #define FMBM_IER_SECE		0x20000000 /* SEC interrupt enable */
201 
202 #define FMBM_IER_DISABLE_ALL	0x00000000
203 
204 /* FMBM_PP - BMI Port Parameters */
205 #define FMBM_PP_MXT_MASK	0x3f000000 /* Max # tasks */
206 #define FMBM_PP_MXT(x)		(((x-1) << 24) & FMBM_PP_MXT_MASK)
207 #define FMBM_PP_MXD_MASK	0x00000f00 /* Max DMA */
208 #define FMBM_PP_MXD(x)		(((x-1) << 8) & FMBM_PP_MXD_MASK)
209 
210 /* FMBM_PFS - BMI Port FIFO Size */
211 #define FMBM_PFS_IFSZ_MASK	0x000003ff /* Internal Fifo Size */
212 #define FMBM_PFS_IFSZ(x)	(x & FMBM_PFS_IFSZ_MASK)
213 
214 /* FMQM_GC - global configuration */
215 #define FMQM_GC_ENQ_EN		0x80000000 /* enqueue enable */
216 #define FMQM_GC_DEQ_EN		0x40000000 /* dequeue enable */
217 #define FMQM_GC_STEN		0x10000000 /* enable global stat counters */
218 #define FMQM_GC_ENQ_THR_MASK	0x00003f00 /* max number of enqueue Tnum */
219 #define FMQM_GC_ENQ(x)		((x << 8) &  FMQM_GC_ENQ_THR_MAS)
220 #define FMQM_GC_DEQ_THR_MASK	0x0000003f /* max number of dequeue Tnum */
221 #define FMQM_GC_DEQ(x)		(x & FMQM_GC_DEQ_THR_MASK)
222 
223 /* FMQM_EIE - error interrupt event register */
224 #define FMQM_EIE_DEE		0x80000000 /* double-bit ECC error */
225 #define FMQM_EIE_DFUPE		0x40000000 /* dequeue from unknown PortID */
226 #define FMQM_EIE_CLEAR_ALL	(FMQM_EIE_DEE | FMQM_EIE_DFUPE)
227 
228 /* FMQM_EIEN - error interrupt enable register */
229 #define FMQM_EIEN_DEEN		0x80000000 /* double-bit ECC error */
230 #define FMQM_EIEN_DFUPEN	0x40000000 /* dequeue from unknown PortID */
231 #define FMQM_EIEN_DISABLE_ALL	0x00000000
232 
233 /* FMQM_IE - interrupt event register */
234 #define FMQM_IE_SEE		0x80000000 /* single-bit ECC error detected */
235 #define FMQM_IE_CLEAR_ALL	FMQM_IE_SEE
236 
237 /* FMQM_IEN - interrupt enable register */
238 #define FMQM_IEN_SEE		0x80000000 /* single-bit ECC err IRQ enable */
239 #define FMQM_IEN_DISABLE_ALL	0x00000000
240 
241 /* NIA - next invoked action */
242 #define NIA_ENG_RISC		0x00000000
243 #define NIA_ENG_MASK		0x007c0000
244 
245 /* action code */
246 #define NIA_RISC_AC_CC		0x00000006
247 #define NIA_RISC_AC_IM_TX	0x00000008 /* independent mode Tx */
248 #define NIA_RISC_AC_IM_RX	0x0000000a /* independent mode Rx */
249 #define NIA_RISC_AC_HC		0x0000000c
250 
251 typedef struct fm_parser {
252 	u8	res[1024];
253 } fm_parser_t;
254 
255 typedef struct fm_policer {
256 	u8	res[4*1024];
257 } fm_policer_t;
258 
259 typedef struct fm_keygen {
260 	u8	res[4*1024];
261 } fm_keygen_t;
262 
263 typedef struct fm_dma {
264 	u32	fmdmsr;		/* status register */
265 	u32	fmdmmr;		/* mode register */
266 	u32	fmdmtr;		/* bus threshold register */
267 	u32	fmdmhy;		/* bus hysteresis register */
268 	u32	fmdmsetr;	/* SOS emergency threshold register */
269 	u32	fmdmtah;	/* transfer bus address high register */
270 	u32	fmdmtal;	/* transfer bus address low register */
271 	u32	fmdmtcid;	/* transfer bus communication ID register */
272 	u32	fmdmra;		/* DMA bus internal ram address register */
273 	u32	fmdmrd;		/* DMA bus internal ram data register */
274 	u32	res0[0xb];
275 	u32	fmdmdcr;	/* debug counter */
276 	u32	fmdmemsr;	/* emrgency smoother register */
277 	u32	res1;
278 	u32	fmdmplr[32];	/* FM DMA PID-LIODN # register */
279 	u32	res[0x3c8];
280 } fm_dma_t;
281 
282 /* FMDMSR - Fman DMA status register */
283 #define FMDMSR_CMDQNE		0x10000000 /* command queue not empty */
284 #define FMDMSR_BER		0x08000000 /* bus err event occurred on bus */
285 #define FMDMSR_RDB_ECC		0x04000000 /* read buffer ECC error */
286 #define FMDMSR_WRB_SECC		0x02000000 /* write buf ECC err sys side */
287 #define FMDMSR_WRB_FECC		0x01000000 /* write buf ECC err Fman side */
288 #define FMDMSR_DPEXT_SECC	0x00800000 /* DP external ECC err sys side */
289 #define FMDMSR_DPEXT_FECC	0x00400000 /* DP external ECC err Fman side */
290 #define FMDMSR_DPDAT_SECC	0x00200000 /* DP data ECC err on sys side */
291 #define FMDMSR_DPDAT_FECC	0x00100000 /* DP data ECC err on Fman side */
292 #define FMDMSR_SPDAT_FECC	0x00080000 /* SP data ECC error Fman side */
293 
294 #define FMDMSR_CLEAR_ALL	(FMDMSR_BER | FMDMSR_RDB_ECC \
295 				| FMDMSR_WRB_SECC | FMDMSR_WRB_FECC \
296 				| FMDMSR_DPEXT_SECC | FMDMSR_DPEXT_FECC \
297 				| FMDMSR_DPDAT_SECC | FMDMSR_DPDAT_FECC \
298 				| FMDMSR_SPDAT_FECC)
299 
300 /* FMDMMR - FMan DMA mode register */
301 #define FMDMMR_SBER		0x10000000 /* stop the DMA if a bus error */
302 
303 typedef struct fm_fpm {
304 	u32	fpmtnc;		/* TNUM control */
305 	u32	fpmprc;		/* Port_ID control */
306 	u32	res0;
307 	u32	fpmflc;		/* flush control */
308 	u32	fpmdis1;	/* dispatch thresholds1 */
309 	u32	fpmdis2;	/* dispatch thresholds2 */
310 	u32	fmepi;		/* error pending interrupts */
311 	u32	fmrie;		/* rams interrupt enable */
312 	u32	fpmfcevent[0x4];/* FMan controller event 0-3 */
313 	u32	res1[0x4];
314 	u32	fpmfcmask[0x4];	/* FMan controller mask 0-3 */
315 	u32	res2[0x4];
316 	u32	fpmtsc1;	/* timestamp control1 */
317 	u32	fpmtsc2;	/* timestamp control2 */
318 	u32	fpmtsp;		/* time stamp */
319 	u32	fpmtsf;		/* time stamp fraction */
320 	u32	fpmrcr;		/* rams control and event */
321 	u32	res3[0x3];
322 	u32	fpmdrd[0x4];	/* data_ram data 0-3 */
323 	u32	res4[0xc];
324 	u32	fpmdra;		/* data ram access */
325 	u32	fm_ip_rev_1;	/* IP block revision 1 */
326 	u32	fm_ip_rev_2;	/* IP block revision 2 */
327 	u32	fmrstc;		/* reset command */
328 	u32	fmcld;		/* classifier debug control */
329 	u32	fmnpi;		/* normal pending interrupts */
330 	u32	res5;
331 	u32	fmfpee;		/* event and enable */
332 	u32	fpmcev[0x4];	/* CPU event 0-3 */
333 	u32	res6[0x4];
334 	u32	fmfp_ps[0x40];	/* port status */
335 	u32	res7[0x260];
336 	u32	fpmts[0x80];	/* task status */
337 	u32	res8[0xa0];
338 } fm_fpm_t;
339 
340 /* FMFP_PRC - FPM Port_ID Control Register */
341 #define FMFPPRC_PORTID_MASK	0x3f000000
342 #define FMFPPRC_PORTID_SHIFT	24
343 #define FMFPPRC_ORA_SHIFT	16
344 #define FMFPPRC_RISC1		0x00000001
345 #define FMFPPRC_RISC2		0x00000002
346 #define FMFPPRC_RISC_ALL	(FMFPPRC_RISC1 | FMFPPRC_RSIC2)
347 
348 /* FPM Flush Control Register */
349 #define FMFP_FLC_DISP_LIM_NONE	0x00000000 /* no dispatch limitation */
350 
351 /* FMFP_EE - FPM event and enable register */
352 #define FMFPEE_DECC		0x80000000 /* double ECC err on FPM ram */
353 #define FMFPEE_STL		0x40000000 /* stall of task ... */
354 #define FMFPEE_SECC		0x20000000 /* single ECC error */
355 #define FMFPEE_RFM		0x00010000 /* release FMan */
356 #define FMFPEE_DECC_EN		0x00008000 /* double ECC interrupt enable */
357 #define FMFPEE_STL_EN		0x00004000 /* stall of task interrupt enable */
358 #define FMFPEE_SECC_EN		0x00002000 /* single ECC err interrupt enable */
359 #define FMFPEE_EHM		0x00000008 /* external halt enable */
360 #define FMFPEE_UEC		0x00000004 /* FMan is not halted */
361 #define FMFPEE_CER		0x00000002 /* only errornous task stalled */
362 #define FMFPEE_DER		0x00000001 /* DMA error is just reported */
363 
364 #define FMFPEE_CLEAR_EVENT	(FMFPEE_DECC | FMFPEE_STL | FMFPEE_SECC | \
365 				 FMFPEE_EHM | FMFPEE_UEC | FMFPEE_CER | \
366 				 FMFPEE_DER | FMFPEE_RFM)
367 
368 /* FMFP_RCR - FMan Rams Control and Event */
369 #define FMFP_RCR_MDEC		0x00008000 /* double ECC error in muram */
370 #define FMFP_RCR_IDEC		0x00004000 /* double ECC error in iram */
371 
372 typedef struct fm_imem {
373 	u32	iadd;		/* instruction address register */
374 	u32	idata;		/* instruction data register */
375 	u32	itcfg;		/* timing config register */
376 	u32	iready;		/* ready register */
377 	u8	res[0xff0];
378 } fm_imem_t;
379 #define IRAM_IADD_AIE		0x80000000 /* address auto increase enable */
380 #define IRAM_READY		0x80000000 /* ready to use */
381 
382 typedef struct fm_soft_parser {
383 	u8	res[4*1024];
384 } fm_soft_parser_t;
385 
386 typedef struct fm_dtesc {
387 	u8	res[4*1024];
388 } fm_dtsec_t;
389 
390 typedef struct fm_mdio {
391 	u8	res0[0x120];
392 	u32	miimcfg;	/* MII management configuration reg */
393 	u32	miimcom;	/* MII management command reg */
394 	u32	miimadd;	/* MII management address reg */
395 	u32	miimcon;	/* MII management control reg */
396 	u32	miimstat;	/* MII management status reg  */
397 	u32	miimind;	/* MII management indication reg */
398 	u8	res1[0x1000 - 0x138];
399 } fm_mdio_t;
400 
401 typedef struct fm_10gec {
402 	u8	res[4*1024];
403 } fm_10gec_t;
404 
405 typedef struct fm_10gec_mdio {
406 	u8	res[4*1024];
407 } fm_10gec_mdio_t;
408 
409 typedef struct fm_memac {
410 	u8	res[4*1024];
411 } fm_memac_t;
412 
413 typedef struct fm_memac_mdio {
414 	u8	res[4*1024];
415 } fm_memac_mdio_t;
416 
417 typedef struct fm_1588 {
418 	u8	res[4*1024];
419 } fm_1588_t;
420 
421 typedef struct ccsr_fman {
422 	u8			muram[0x80000];
423 	fm_bmi_common_t		fm_bmi_common;
424 	fm_qmi_common_t		fm_qmi_common;
425 	u8			res0[2048];
426 	struct {
427 		fm_bmi_t	fm_bmi;
428 		fm_qmi_t	fm_qmi;
429 		fm_parser_t	fm_parser;
430 		u8		res[1024];
431 	} port[63];
432 	fm_policer_t		fm_policer;
433 	fm_keygen_t		fm_keygen;
434 	fm_dma_t		fm_dma;
435 	fm_fpm_t		fm_fpm;
436 	fm_imem_t		fm_imem;
437 	u8			res1[8*1024];
438 	fm_soft_parser_t	fm_soft_parser;
439 	u8			res2[96*1024];
440 #ifdef CONFIG_SYS_FMAN_V3
441 	struct {
442 		fm_memac_t		fm_memac;
443 		fm_memac_mdio_t		fm_memac_mdio;
444 	} memac[10];
445 	u8			res4[32*1024];
446 	fm_memac_mdio_t		fm_dedicated_mdio[2];
447 #else
448 	struct {
449 		fm_dtsec_t	fm_dtesc;
450 		fm_mdio_t	fm_mdio;
451 	} mac_1g[8];		/* support up to 8 1g controllers */
452 	struct {
453 		fm_10gec_t		fm_10gec;
454 		fm_10gec_mdio_t		fm_10gec_mdio;
455 	} mac_10g[1];
456 	u8			res4[48*1024];
457 #endif
458 	fm_1588_t		fm_1588;
459 	u8			res5[4*1024];
460 } ccsr_fman_t;
461 
462 void fdt_fixup_fman_firmware(void *blob);
463 #endif /*__FSL_FMAN_H__*/
464