1 /*        $NetBSD: mvsoc.c,v 1.33 2023/06/19 08:40:29 msaitoh Exp $   */
2 /*
3  * Copyright (c) 2007, 2008, 2013, 2014, 2016 KIYOHARA Takashi
4  * All rights reserved.
5  *
6  * Redistribution and use in source and binary forms, with or without
7  * modification, are permitted provided that the following conditions
8  * are met:
9  * 1. Redistributions of source code must retain the above copyright
10  *    notice, this list of conditions and the following disclaimer.
11  * 2. Redistributions in binary form must reproduce the above copyright
12  *    notice, this list of conditions and the following disclaimer in the
13  *    documentation and/or other materials provided with the distribution.
14  *
15  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
16  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
17  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
18  * DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
19  * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
20  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
21  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
22  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
23  * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
24  * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
25  * POSSIBILITY OF SUCH DAMAGE.
26  */
27 
28 #include <sys/cdefs.h>
29 __KERNEL_RCSID(0, "$NetBSD: mvsoc.c,v 1.33 2023/06/19 08:40:29 msaitoh Exp $");
30 
31 #include "opt_cputypes.h"
32 #include "opt_mvsoc.h"
33 #ifdef ARMADAXP
34 #include "mvxpe.h"
35 #include "mvxpsec.h"
36 #endif
37 
38 #include <sys/param.h>
39 #include <sys/boot_flag.h>
40 #include <sys/systm.h>
41 #include <sys/bus.h>
42 #include <sys/device.h>
43 #include <sys/errno.h>
44 
45 #include <dev/pci/pcidevs.h>
46 #include <dev/pci/pcireg.h>
47 #include <dev/marvell/marvellreg.h>
48 #include <dev/marvell/marvellvar.h>
49 
50 #include <arm/marvell/mvsocreg.h>
51 #include <arm/marvell/mvsocvar.h>
52 #include <arm/marvell/orionreg.h>
53 #include <arm/marvell/kirkwoodreg.h>
54 #include <arm/marvell/mv78xx0reg.h>
55 #include <arm/marvell/dovereg.h>
56 #include <arm/marvell/armadaxpvar.h>
57 #include <arm/marvell/armadaxpreg.h>
58 
59 #include <uvm/uvm.h>
60 
61 #include "locators.h"
62 
63 #ifdef MVSOC_CONSOLE_EARLY
64 #include <dev/ic/ns16550reg.h>
65 #include <dev/ic/comreg.h>
66 #include <dev/cons.h>
67 #endif
68 
69 static int mvsoc_match(device_t, struct cfdata *, void *);
70 static void mvsoc_attach(device_t, device_t, void *);
71 
72 static int mvsoc_print(void *, const char *);
73 static int mvsoc_search(device_t, cfdata_t, const int *, void *);
74 
75 static int mvsoc_target_ddr(uint32_t, uint32_t *, uint32_t *);
76 static int mvsoc_target_ddr3(uint32_t, uint32_t *, uint32_t *);
77 static int mvsoc_target_axi(int, uint32_t *, uint32_t *);
78 static int mvsoc_target_peripheral(uint32_t, uint32_t, uint32_t *, uint32_t *);
79 
80 uint32_t mvPclk, mvSysclk, mvTclk = 0;
81 int nwindow = 0, nremap = 0;
82 static vaddr_t regbase = 0xffffffff, dsc_base, pex_base;
83 vaddr_t mlmb_base;
84 
85 void (*mvsoc_intr_init)(void);
86 int (*mvsoc_clkgating)(struct marvell_attach_args *);
87 
88 
89 #ifdef MVSOC_CONSOLE_EARLY
90 static vaddr_t com_base;
91 
92 static inline uint32_t
uart_read(bus_size_t o)93 uart_read(bus_size_t o)
94 {
95           return le32toh(*(volatile uint32_t *)(com_base + (o << 2)));
96 }
97 
98 static inline void
uart_write(bus_size_t o,uint32_t v)99 uart_write(bus_size_t o, uint32_t v)
100 {
101           *(volatile uint32_t *)(com_base + (o << 2)) = htole32(v);
102 }
103 
104 static int
mvsoc_cngetc(dev_t dv)105 mvsoc_cngetc(dev_t dv)
106 {
107         if ((uart_read(com_lsr) & LSR_RXRDY) == 0)
108                     return -1;
109 
110           return uart_read(com_data) & 0xff;
111 }
112 
113 static void
mvsoc_cnputc(dev_t dv,int c)114 mvsoc_cnputc(dev_t dv, int c)
115 {
116           int timo = 150000;
117 
118         while ((uart_read(com_lsr) & LSR_TXRDY) == 0 && --timo > 0)
119                     ;
120 
121           uart_write(com_data, c);
122 
123           timo = 150000;
124         while ((uart_read(com_lsr) & LSR_TSRE) == 0 && --timo > 0)
125                     ;
126 }
127 
128 static struct consdev mvsoc_earlycons = {
129           .cn_putc = mvsoc_cnputc,
130           .cn_getc = mvsoc_cngetc,
131           .cn_pollc = nullcnpollc,
132 };
133 #endif
134 
135 
136 /* attributes */
137 static struct {
138           int tag;
139           uint32_t attr;
140           uint32_t target;
141 } mvsoc_tags[] = {
142           { MARVELL_TAG_SDRAM_CS0,
143             MARVELL_ATTR_SDRAM_CS0,     MVSOC_UNITID_DDR },
144           { MARVELL_TAG_SDRAM_CS1,
145             MARVELL_ATTR_SDRAM_CS1,     MVSOC_UNITID_DDR },
146           { MARVELL_TAG_SDRAM_CS2,
147             MARVELL_ATTR_SDRAM_CS2,     MVSOC_UNITID_DDR },
148           { MARVELL_TAG_SDRAM_CS3,
149             MARVELL_ATTR_SDRAM_CS3,     MVSOC_UNITID_DDR },
150 
151           { MARVELL_TAG_AXI_CS0,
152             MARVELL_ATTR_AXI_DDR,                 MVSOC_UNITID_DDR },
153           { MARVELL_TAG_AXI_CS1,
154             MARVELL_ATTR_AXI_DDR,                 MVSOC_UNITID_DDR },
155 
156           { MARVELL_TAG_DDR3_CS0,
157             MARVELL_ATTR_SDRAM_CS0,     MVSOC_UNITID_DDR },
158           { MARVELL_TAG_DDR3_CS1,
159             MARVELL_ATTR_SDRAM_CS1,     MVSOC_UNITID_DDR },
160           { MARVELL_TAG_DDR3_CS2,
161             MARVELL_ATTR_SDRAM_CS2,     MVSOC_UNITID_DDR },
162           { MARVELL_TAG_DDR3_CS3,
163             MARVELL_ATTR_SDRAM_CS3,     MVSOC_UNITID_DDR },
164 
165 #if defined(ORION)
166           { ORION_TAG_DEVICE_CS0,
167             ORION_ATTR_DEVICE_CS0,      MVSOC_UNITID_DEVBUS },
168           { ORION_TAG_DEVICE_CS1,
169             ORION_ATTR_DEVICE_CS1,      MVSOC_UNITID_DEVBUS },
170           { ORION_TAG_DEVICE_CS2,
171             ORION_ATTR_DEVICE_CS2,      MVSOC_UNITID_DEVBUS },
172           { ORION_TAG_DEVICE_BOOTCS,
173             ORION_ATTR_BOOT_CS,                   MVSOC_UNITID_DEVBUS },
174           { ORION_TAG_FLASH_CS,
175             ORION_ATTR_FLASH_CS,                  MVSOC_UNITID_DEVBUS },
176           { ORION_TAG_PEX0_MEM,
177             ORION_ATTR_PEX_MEM,                   MVSOC_UNITID_PEX },
178           { ORION_TAG_PEX0_IO,
179             ORION_ATTR_PEX_IO,                    MVSOC_UNITID_PEX },
180           { ORION_TAG_PEX1_MEM,
181             ORION_ATTR_PEX_MEM,                   ORION_UNITID_PEX1 },
182           { ORION_TAG_PEX1_IO,
183             ORION_ATTR_PEX_IO,                    ORION_UNITID_PEX1 },
184           { ORION_TAG_PCI_MEM,
185             ORION_ATTR_PCI_MEM,                   ORION_UNITID_PCI },
186           { ORION_TAG_PCI_IO,
187             ORION_ATTR_PCI_IO,                    ORION_UNITID_PCI },
188           { ORION_TAG_CRYPT,
189             ORION_ATTR_CRYPT,           ORION_UNITID_CRYPT },
190 #endif
191 
192 #if defined(KIRKWOOD)
193           { KIRKWOOD_TAG_NAND,
194             KIRKWOOD_ATTR_NAND,                   MVSOC_UNITID_DEVBUS },
195           { KIRKWOOD_TAG_SPI,
196             KIRKWOOD_ATTR_SPI,                    MVSOC_UNITID_DEVBUS },
197           { KIRKWOOD_TAG_BOOTROM,
198             KIRKWOOD_ATTR_BOOTROM,      MVSOC_UNITID_DEVBUS },
199           { KIRKWOOD_TAG_PEX_MEM,
200             KIRKWOOD_ATTR_PEX_MEM,      MVSOC_UNITID_PEX },
201           { KIRKWOOD_TAG_PEX_IO,
202             KIRKWOOD_ATTR_PEX_IO,                 MVSOC_UNITID_PEX },
203           { KIRKWOOD_TAG_PEX1_MEM,
204             KIRKWOOD_ATTR_PEX1_MEM,     MVSOC_UNITID_PEX },
205           { KIRKWOOD_TAG_PEX1_IO,
206             KIRKWOOD_ATTR_PEX1_IO,      MVSOC_UNITID_PEX },
207           { KIRKWOOD_TAG_CRYPT,
208             KIRKWOOD_ATTR_CRYPT,                  KIRKWOOD_UNITID_CRYPT },
209 #endif
210 
211 #if defined(MV78XX0)
212           { MV78XX0_TAG_DEVICE_CS0,
213             MV78XX0_ATTR_DEVICE_CS0,    MVSOC_UNITID_DEVBUS },
214           { MV78XX0_TAG_DEVICE_CS1,
215             MV78XX0_ATTR_DEVICE_CS1,    MVSOC_UNITID_DEVBUS },
216           { MV78XX0_TAG_DEVICE_CS2,
217             MV78XX0_ATTR_DEVICE_CS2,    MVSOC_UNITID_DEVBUS },
218           { MV78XX0_TAG_DEVICE_CS3,
219             MV78XX0_ATTR_DEVICE_CS3,    MVSOC_UNITID_DEVBUS },
220           { MV78XX0_TAG_DEVICE_BOOTCS,
221             MV78XX0_ATTR_BOOT_CS,                 MVSOC_UNITID_DEVBUS },
222           { MV78XX0_TAG_SPI,
223             MV78XX0_ATTR_SPI,           MVSOC_UNITID_DEVBUS },
224           { MV78XX0_TAG_PEX0_MEM,
225             MV78XX0_ATTR_PEX_0_MEM,     MVSOC_UNITID_PEX },
226           { MV78XX0_TAG_PEX01_MEM,
227             MV78XX0_ATTR_PEX_1_MEM,     MVSOC_UNITID_PEX },
228           { MV78XX0_TAG_PEX02_MEM,
229             MV78XX0_ATTR_PEX_2_MEM,     MVSOC_UNITID_PEX },
230           { MV78XX0_TAG_PEX03_MEM,
231             MV78XX0_ATTR_PEX_3_MEM,     MVSOC_UNITID_PEX },
232           { MV78XX0_TAG_PEX0_IO,
233             MV78XX0_ATTR_PEX_0_IO,      MVSOC_UNITID_PEX },
234           { MV78XX0_TAG_PEX01_IO,
235             MV78XX0_ATTR_PEX_1_IO,      MVSOC_UNITID_PEX },
236           { MV78XX0_TAG_PEX02_IO,
237             MV78XX0_ATTR_PEX_2_IO,      MVSOC_UNITID_PEX },
238           { MV78XX0_TAG_PEX03_IO,
239             MV78XX0_ATTR_PEX_3_IO,      MVSOC_UNITID_PEX },
240           { MV78XX0_TAG_PEX1_MEM,
241             MV78XX0_ATTR_PEX_0_MEM,     MV78XX0_UNITID_PEX1 },
242           { MV78XX0_TAG_PEX11_MEM,
243             MV78XX0_ATTR_PEX_1_MEM,     MV78XX0_UNITID_PEX1 },
244           { MV78XX0_TAG_PEX12_MEM,
245             MV78XX0_ATTR_PEX_2_MEM,     MV78XX0_UNITID_PEX1 },
246           { MV78XX0_TAG_PEX13_MEM,
247             MV78XX0_ATTR_PEX_3_MEM,     MV78XX0_UNITID_PEX1 },
248           { MV78XX0_TAG_PEX1_IO,
249             MV78XX0_ATTR_PEX_0_IO,      MV78XX0_UNITID_PEX1 },
250           { MV78XX0_TAG_PEX11_IO,
251             MV78XX0_ATTR_PEX_1_IO,      MV78XX0_UNITID_PEX1 },
252           { MV78XX0_TAG_PEX12_IO,
253             MV78XX0_ATTR_PEX_2_IO,      MV78XX0_UNITID_PEX1 },
254           { MV78XX0_TAG_PEX13_IO,
255             MV78XX0_ATTR_PEX_3_IO,      MV78XX0_UNITID_PEX1 },
256           { MV78XX0_TAG_CRYPT,
257             MV78XX0_ATTR_CRYPT,                   MV78XX0_UNITID_CRYPT },
258 #endif
259 
260 #if defined(DOVE)
261           { DOVE_TAG_PEX0_MEM,
262             DOVE_ATTR_PEX_MEM,                    MVSOC_UNITID_PEX },
263           { DOVE_TAG_PEX0_IO,
264             DOVE_ATTR_PEX_IO,           MVSOC_UNITID_PEX },
265           { DOVE_TAG_PEX1_MEM,
266             DOVE_ATTR_PEX_MEM,                    DOVE_UNITID_PEX1 },
267           { DOVE_TAG_PEX1_IO,
268             DOVE_ATTR_PEX_IO,           DOVE_UNITID_PEX1 },
269           { DOVE_TAG_CRYPT,
270             DOVE_ATTR_SA,                         DOVE_UNITID_SA },
271           { DOVE_TAG_SPI0,
272             DOVE_ATTR_SPI0,             MVSOC_UNITID_DEVBUS },
273           { DOVE_TAG_SPI1,
274             DOVE_ATTR_SPI1,             MVSOC_UNITID_DEVBUS },
275           { DOVE_TAG_BOOTROM,
276             DOVE_ATTR_BOOTROM,                    MVSOC_UNITID_DEVBUS },
277           { DOVE_TAG_PMU,
278             DOVE_ATTR_NAND,             DOVE_UNITID_NAND },
279           { DOVE_TAG_PMU,
280             DOVE_ATTR_PMU,              DOVE_UNITID_PMU },
281 #endif
282 
283 #if defined(ARMADAXP)
284           { ARMADAXP_TAG_PEX00_MEM,
285             ARMADAXP_ATTR_PEXx0_MEM,    ARMADAXP_UNITID_PEX0 },
286           { ARMADAXP_TAG_PEX00_IO,
287             ARMADAXP_ATTR_PEXx0_IO,     ARMADAXP_UNITID_PEX0 },
288 
289           { ARMADAXP_TAG_PEX01_MEM,
290             ARMADAXP_ATTR_PEXx1_MEM,    ARMADAXP_UNITID_PEX0 },
291           { ARMADAXP_TAG_PEX01_IO,
292             ARMADAXP_ATTR_PEXx1_IO,     ARMADAXP_UNITID_PEX0 },
293 
294           { ARMADAXP_TAG_PEX02_MEM,
295             ARMADAXP_ATTR_PEXx2_MEM,    ARMADAXP_UNITID_PEX0 },
296           { ARMADAXP_TAG_PEX02_IO,
297             ARMADAXP_ATTR_PEXx2_IO,     ARMADAXP_UNITID_PEX0 },
298 
299           { ARMADAXP_TAG_PEX03_MEM,
300             ARMADAXP_ATTR_PEXx3_MEM,    ARMADAXP_UNITID_PEX0 },
301           { ARMADAXP_TAG_PEX03_IO,
302             ARMADAXP_ATTR_PEXx3_IO,     ARMADAXP_UNITID_PEX0 },
303 
304           { ARMADAXP_TAG_PEX10_MEM,
305             ARMADAXP_ATTR_PEXx0_MEM,    ARMADAXP_UNITID_PEX1 },
306           { ARMADAXP_TAG_PEX10_IO,
307             ARMADAXP_ATTR_PEXx0_IO,     ARMADAXP_UNITID_PEX1 },
308 
309           { ARMADAXP_TAG_PEX11_MEM,
310             ARMADAXP_ATTR_PEXx1_MEM,    ARMADAXP_UNITID_PEX1 },
311           { ARMADAXP_TAG_PEX11_IO,
312             ARMADAXP_ATTR_PEXx1_IO,     ARMADAXP_UNITID_PEX1 },
313 
314           { ARMADAXP_TAG_PEX12_MEM,
315             ARMADAXP_ATTR_PEXx2_MEM,    ARMADAXP_UNITID_PEX1 },
316           { ARMADAXP_TAG_PEX12_IO,
317             ARMADAXP_ATTR_PEXx2_IO,     ARMADAXP_UNITID_PEX1 },
318 
319           { ARMADAXP_TAG_PEX13_MEM,
320             ARMADAXP_ATTR_PEXx3_MEM,    ARMADAXP_UNITID_PEX1 },
321           { ARMADAXP_TAG_PEX13_IO,
322             ARMADAXP_ATTR_PEXx3_IO,     ARMADAXP_UNITID_PEX1 },
323 
324           { ARMADAXP_TAG_PEX2_MEM,
325             ARMADAXP_ATTR_PEX2_MEM,     ARMADAXP_UNITID_PEX2 },
326           { ARMADAXP_TAG_PEX2_IO,
327             ARMADAXP_ATTR_PEX2_IO,      ARMADAXP_UNITID_PEX2 },
328 
329           { ARMADAXP_TAG_PEX3_MEM,
330             ARMADAXP_ATTR_PEX3_MEM,     ARMADAXP_UNITID_PEX3 },
331           { ARMADAXP_TAG_PEX3_IO,
332             ARMADAXP_ATTR_PEX3_IO,      ARMADAXP_UNITID_PEX3 },
333 
334           { ARMADAXP_TAG_CRYPT0,
335             ARMADAXP_ATTR_CRYPT0_NOSWAP,          ARMADAXP_UNITID_CRYPT },
336           { ARMADAXP_TAG_CRYPT1,
337             ARMADAXP_ATTR_CRYPT1_NOSWAP,          ARMADAXP_UNITID_CRYPT },
338 #endif
339 };
340 
341 #if defined(ORION)
342 #define ORION_1(m)  MARVELL_ORION_1_ ## m
343 #define ORION_2(m)  MARVELL_ORION_2_ ## m
344 #endif
345 #if defined(KIRKWOOD)
346 #undef KIRKWOOD
347 #define KIRKWOOD(m) MARVELL_KIRKWOOD_ ## m
348 #endif
349 #if defined(MV78XX0)
350 #undef MV78XX0
351 #define MV78XX0(m)  MARVELL_MV78XX0_ ## m
352 #endif
353 #if defined(DOVE)
354 #undef DOVE
355 #define DOVE(m)               MARVELL_DOVE_ ## m
356 #endif
357 #if defined(ARMADAXP)
358 #undef ARMADAXP
359 #define ARMADAXP(m) MARVELL_ARMADAXP_ ## m
360 #define ARMADA370(m)          MARVELL_ARMADA370_ ## m
361 #endif
362 static struct {
363           uint16_t model;
364           uint8_t rev;
365           const char *modelstr;
366           const char *revstr;
367           const char *typestr;
368 } nametbl[] = {
369 #if defined(ORION)
370           { ORION_1(88F1181), 0, "MV88F1181", NULL,         "Orion1" },
371           { ORION_1(88F5082), 2, "MV88F5082", "A2",         "Orion1" },
372           { ORION_1(88F5180N),          3, "MV88F5180N","B1",         "Orion1" },
373           { ORION_1(88F5181), 0, "MV88F5181",     "A0",     "Orion1" },
374           { ORION_1(88F5181), 1, "MV88F5181",     "A1",     "Orion1" },
375           { ORION_1(88F5181), 2, "MV88F5181",     "B0",     "Orion1" },
376           { ORION_1(88F5181), 3, "MV88F5181",     "B1",     "Orion1" },
377           { ORION_1(88F5181), 8, "MV88F5181L","A0",         "Orion1" },
378           { ORION_1(88F5181), 9, "MV88F5181L","A1",         "Orion1" },
379           { ORION_1(88F5182), 0, "MV88F5182",     "A0",     "Orion1" },
380           { ORION_1(88F5182), 1, "MV88F5182",     "A1",     "Orion1" },
381           { ORION_1(88F5182), 2, "MV88F5182",     "A2",     "Orion1" },
382           { ORION_1(88F6082), 0, "MV88F6082",     "A0",     "Orion1" },
383           { ORION_1(88F6082), 1, "MV88F6082",     "A1",     "Orion1" },
384           { ORION_1(88F6183), 0, "MV88F6183",     "A0",     "Orion1" },
385           { ORION_1(88F6183), 1, "MV88F6183",     "Z0",     "Orion1" },
386           { ORION_1(88W8660), 0, "MV88W8660",     "A0",     "Orion1" },
387           { ORION_1(88W8660), 1, "MV88W8660",     "A1",     "Orion1" },
388 
389           { ORION_2(88F1281), 0, "MV88F1281",     "A0",     "Orion2" },
390           { ORION_2(88F5281), 0, "MV88F5281",     "A0",     "Orion2" },
391           { ORION_2(88F5281), 1, "MV88F5281",     "B0",     "Orion2" },
392           { ORION_2(88F5281), 2, "MV88F5281",     "C0",     "Orion2" },
393           { ORION_2(88F5281), 3, "MV88F5281",     "C1",     "Orion2" },
394           { ORION_2(88F5281), 4, "MV88F5281",     "D0",     "Orion2" },
395 #endif
396 
397 #if defined(KIRKWOOD)
398           { KIRKWOOD(88F6180),          2, "88F6180",       "A0",     "Kirkwood" },
399           { KIRKWOOD(88F6180),          3, "88F6180",       "A1",     "Kirkwood" },
400           { KIRKWOOD(88F6192),          0, "88F619x",       "Z0",     "Kirkwood" },
401           { KIRKWOOD(88F6192),          2, "88F619x",       "A0",     "Kirkwood" },
402           { KIRKWOOD(88F6192),          3, "88F619x",       "A1",     "Kirkwood" },
403           { KIRKWOOD(88F6281),          0, "88F6281",       "Z0",     "Kirkwood" },
404           { KIRKWOOD(88F6281),          2, "88F6281",       "A0",     "Kirkwood" },
405           { KIRKWOOD(88F6281),          3, "88F6281",       "A1",     "Kirkwood" },
406           { KIRKWOOD(88F6282),          0, "88F6282",       "A0",     "Kirkwood" },
407           { KIRKWOOD(88F6282),          1, "88F6282",       "A1",     "Kirkwood" },
408 #endif
409 
410 #if defined(MV78XX0)
411           { MV78XX0(MV78100), 1, "MV78100",       "A0",  "Discovery Innovation" },
412           { MV78XX0(MV78100), 2, "MV78100",       "A1",  "Discovery Innovation" },
413           { MV78XX0(MV78200), 1, "MV78200",       "A0",  "Discovery Innovation" },
414 #endif
415 
416 #if defined(DOVE)
417           { DOVE(88AP510),    0, "88AP510",       "Z0",  "Dove" },
418           { DOVE(88AP510),    1, "88AP510",       "Z1",  "Dove" },
419           { DOVE(88AP510),    2, "88AP510",       "Y0",  "Dove" },
420           { DOVE(88AP510),    3, "88AP510",       "Y1",  "Dove" },
421           { DOVE(88AP510),    4, "88AP510",       "X0",  "Dove" },
422           { DOVE(88AP510),    6, "88AP510",       "A0",  "Dove" },
423           { DOVE(88AP510),    7, "88AP510",       "A1",  "Dove" },
424 #endif
425 
426 #if defined(ARMADAXP)
427           { ARMADAXP(MV78130),          1, "MV78130",       "A0",  "Armada XP" },
428           { ARMADAXP(MV78160),          1, "MV78160",       "A0",  "Armada XP" },
429           { ARMADAXP(MV78230),          1, "MV78230",       "A0",  "Armada XP" },
430           { ARMADAXP(MV78260),          1, "MV78260",       "A0",  "Armada XP" },
431           { ARMADAXP(MV78260),          2, "MV78260",       "B0",  "Armada XP" },
432           { ARMADAXP(MV78460),          1, "MV78460",       "A0",  "Armada XP" },
433           { ARMADAXP(MV78460),          2, "MV78460",       "B0",  "Armada XP" },
434 
435           { ARMADA370(MV6707),          0, "MV6707",        "A0",  "Armada 370" },
436           { ARMADA370(MV6707),          1, "MV6707",        "A1",  "Armada 370" },
437           { ARMADA370(MV6710),          0, "MV6710",        "A0",  "Armada 370" },
438           { ARMADA370(MV6710),          1, "MV6710",        "A1",  "Armada 370" },
439           { ARMADA370(MV6W11),          0, "MV6W11",        "A0",  "Armada 370" },
440           { ARMADA370(MV6W11),          1, "MV6W11",        "A1",  "Armada 370" },
441 #endif
442 };
443 
444 enum marvell_tags ddr_tags[] = {
445           MARVELL_TAG_SDRAM_CS0,
446           MARVELL_TAG_SDRAM_CS1,
447           MARVELL_TAG_SDRAM_CS2,
448           MARVELL_TAG_SDRAM_CS3,
449 
450           MARVELL_TAG_UNDEFINED
451 };
452 enum marvell_tags ddr3_tags[] = {
453           MARVELL_TAG_DDR3_CS0,
454           MARVELL_TAG_DDR3_CS1,
455           MARVELL_TAG_DDR3_CS2,
456           MARVELL_TAG_DDR3_CS3,
457 
458           MARVELL_TAG_UNDEFINED
459 };
460 enum marvell_tags axi_tags[] = {
461           MARVELL_TAG_AXI_CS0,
462           MARVELL_TAG_AXI_CS1,
463 
464           MARVELL_TAG_UNDEFINED
465 };
466 static struct {
467           uint16_t model;
468           uint8_t rev;
469           enum marvell_tags *tags;
470 } tagstbl[] = {
471 #if defined(ORION)
472           { ORION_1(88F1181), 0, ddr_tags },
473           { ORION_1(88F5082), 2, ddr_tags },
474           { ORION_1(88F5180N),          3, ddr_tags },
475           { ORION_1(88F5181), 0, ddr_tags },
476           { ORION_1(88F5181), 1, ddr_tags },
477           { ORION_1(88F5181), 2, ddr_tags },
478           { ORION_1(88F5181), 3, ddr_tags },
479           { ORION_1(88F5181), 8, ddr_tags },
480           { ORION_1(88F5181), 9, ddr_tags },
481           { ORION_1(88F5182), 0, ddr_tags },
482           { ORION_1(88F5182), 1, ddr_tags },
483           { ORION_1(88F5182), 2, ddr_tags },
484           { ORION_1(88F6082), 0, ddr_tags },
485           { ORION_1(88F6082), 1, ddr_tags },
486           { ORION_1(88F6183), 0, ddr_tags },
487           { ORION_1(88F6183), 1, ddr_tags },
488           { ORION_1(88W8660), 0, ddr_tags },
489           { ORION_1(88W8660), 1, ddr_tags },
490 
491           { ORION_2(88F1281), 0, ddr_tags },
492           { ORION_2(88F5281), 0, ddr_tags },
493           { ORION_2(88F5281), 1, ddr_tags },
494           { ORION_2(88F5281), 2, ddr_tags },
495           { ORION_2(88F5281), 3, ddr_tags },
496           { ORION_2(88F5281), 4, ddr_tags },
497 #endif
498 
499 #if defined(KIRKWOOD)
500           { KIRKWOOD(88F6180),          2, ddr_tags },
501           { KIRKWOOD(88F6180),          3, ddr_tags },
502           { KIRKWOOD(88F6192),          0, ddr_tags },
503           { KIRKWOOD(88F6192),          2, ddr_tags },
504           { KIRKWOOD(88F6192),          3, ddr_tags },
505           { KIRKWOOD(88F6281),          0, ddr_tags },
506           { KIRKWOOD(88F6281),          2, ddr_tags },
507           { KIRKWOOD(88F6281),          3, ddr_tags },
508           { KIRKWOOD(88F6282),          0, ddr_tags },
509           { KIRKWOOD(88F6282),          1, ddr_tags },
510 #endif
511 
512 #if defined(MV78XX0)
513           { MV78XX0(MV78100), 1, ddr_tags },
514           { MV78XX0(MV78100), 2, ddr_tags },
515           { MV78XX0(MV78200), 1, ddr_tags },
516 #endif
517 
518 #if defined(DOVE)
519           { DOVE(88AP510),    0, axi_tags },
520           { DOVE(88AP510),    1, axi_tags },
521           { DOVE(88AP510),    2, axi_tags },
522           { DOVE(88AP510),    3, axi_tags },
523           { DOVE(88AP510),    4, axi_tags },
524           { DOVE(88AP510),    5, axi_tags },
525           { DOVE(88AP510),    6, axi_tags },
526           { DOVE(88AP510),    7, axi_tags },
527 #endif
528 
529 #if defined(ARMADAXP)
530           { ARMADAXP(MV78130),          1, ddr3_tags },
531           { ARMADAXP(MV78160),          1, ddr3_tags },
532           { ARMADAXP(MV78230),          1, ddr3_tags },
533           { ARMADAXP(MV78260),          1, ddr3_tags },
534           { ARMADAXP(MV78260),          2, ddr3_tags },
535           { ARMADAXP(MV78460),          1, ddr3_tags },
536           { ARMADAXP(MV78460),          2, ddr3_tags },
537 
538           { ARMADA370(MV6707),          0, ddr3_tags },
539           { ARMADA370(MV6707),          1, ddr3_tags },
540           { ARMADA370(MV6710),          0, ddr3_tags },
541           { ARMADA370(MV6710),          1, ddr3_tags },
542           { ARMADA370(MV6W11),          0, ddr3_tags },
543           { ARMADA370(MV6W11),          1, ddr3_tags },
544 #endif
545 };
546 
547 
548 #define OFFSET_DEFAULT        MVA_OFFSET_DEFAULT
549 #define IRQ_DEFAULT MVA_IRQ_DEFAULT
550 static const struct mvsoc_periph {
551           int model;
552           const char *name;
553           int unit;
554           bus_size_t offset;
555           int irq;
556 } mvsoc_periphs[] = {
557 #if defined(ORION)
558 #define ORION_IRQ_TMR                   (32 + MVSOC_MLMB_MLMBI_CPUTIMER0INTREQ)
559 
560     { ORION_1(88F1181),       "mvsoctmr",0, MVSOC_TMR_BASE, ORION_IRQ_TMR },
561     { ORION_1(88F1181),       "mvsocgpp",0, MVSOC_GPP_BASE, ORION_IRQ_GPIO7_0 },
562     { ORION_1(88F1181),       "com",     0, MVSOC_COM0_BASE,          ORION_IRQ_UART0 },
563     { ORION_1(88F1181),       "com",     1, MVSOC_COM1_BASE,          ORION_IRQ_UART1 },
564     { ORION_1(88F1181),       "gttwsi",  0, MVSOC_TWSI_BASE,          ORION_IRQ_TWSI },
565     { ORION_1(88F1181),       "mvpex",   0, MVSOC_PEX_BASE, ORION_IRQ_PEX0INT },
566     { ORION_1(88F1181),       "mvpex",   1, ORION_PEX1_BASE,          ORION_IRQ_PEX1INT },
567 
568     { ORION_1(88F5082),       "mvsoctmr",0, MVSOC_TMR_BASE, ORION_IRQ_TMR },
569     { ORION_1(88F5082),       "mvsocgpp",0, MVSOC_GPP_BASE, ORION_IRQ_GPIO7_0 },
570     { ORION_1(88F5082),       "com",     0, MVSOC_COM0_BASE,          ORION_IRQ_UART0 },
571     { ORION_1(88F5082),       "com",     1, MVSOC_COM1_BASE,          ORION_IRQ_UART1 },
572     { ORION_1(88F5082),       "ehci",    0, ORION_USB0_BASE,          ORION_IRQ_USBCNT0 },
573     { ORION_1(88F5082),       "ehci",    1, ORION_USB1_BASE,          ORION_IRQ_USBCNT1 },
574     { ORION_1(88F5082),       "gtidmac", 0, ORION_IDMAC_BASE,         IRQ_DEFAULT },
575     { ORION_1(88F5082),       "gttwsi",  0, MVSOC_TWSI_BASE,          ORION_IRQ_TWSI },
576     { ORION_1(88F5082),       "mvcesa",  0, ORION_CESA_BASE,          ORION_IRQ_SECURITYINTR},
577     { ORION_1(88F5082),       "mvgbec",  0, ORION_GBE_BASE, IRQ_DEFAULT },
578     { ORION_1(88F5082),       "mvpex",   0, MVSOC_PEX_BASE, ORION_IRQ_PEX0INT },
579     { ORION_1(88F5082),       "mvsata",  0, ORION_SATAHC_BASE,ORION_IRQ_SATAINTR },
580 
581     { ORION_1(88F5180N),"mvsoctmr",0, MVSOC_TMR_BASE,       ORION_IRQ_TMR },
582     { ORION_1(88F5180N),"mvsocgpp",0, MVSOC_GPP_BASE,       ORION_IRQ_GPIO7_0 },
583     { ORION_1(88F5180N),"com",     0, MVSOC_COM0_BASE,      ORION_IRQ_UART0 },
584     { ORION_1(88F5180N),"com",     1, MVSOC_COM1_BASE,      ORION_IRQ_UART1 },
585     { ORION_1(88F5180N),"ehci",    0, ORION_USB0_BASE,      ORION_IRQ_USBCNT0 },
586     { ORION_1(88F5180N),"gtidmac", 0, ORION_IDMAC_BASE,     IRQ_DEFAULT },
587     { ORION_1(88F5180N),"gtpci",   0, ORION_PCI_BASE,       ORION_IRQ_PEX0INT },
588     { ORION_1(88F5180N),"gttwsi",  0, MVSOC_TWSI_BASE,      ORION_IRQ_TWSI },
589     { ORION_1(88F5180N),"mvgbec",  0, ORION_GBE_BASE,       IRQ_DEFAULT },
590     { ORION_1(88F5180N),"mvpex",   0, MVSOC_PEX_BASE,       ORION_IRQ_PEX0INT },
591 
592     { ORION_1(88F5181),       "mvsoctmr",0, MVSOC_TMR_BASE, ORION_IRQ_TMR },
593     { ORION_1(88F5181),       "mvsocgpp",0, MVSOC_GPP_BASE, ORION_IRQ_GPIO7_0 },
594     { ORION_1(88F5181),       "com",     0, MVSOC_COM0_BASE,          ORION_IRQ_UART0 },
595     { ORION_1(88F5181),       "com",     1, MVSOC_COM1_BASE,          ORION_IRQ_UART1 },
596     { ORION_1(88F5181),       "ehci",    0, ORION_USB0_BASE,          ORION_IRQ_USBCNT0 },
597     { ORION_1(88F5181),       "gtidmac", 0, ORION_IDMAC_BASE,         IRQ_DEFAULT },
598     { ORION_1(88F5181),       "gtpci",   0, ORION_PCI_BASE, ORION_IRQ_PEX0INT },
599     { ORION_1(88F5181),       "gttwsi",  0, MVSOC_TWSI_BASE,          ORION_IRQ_TWSI },
600     { ORION_1(88F5181),       "mvcesa",  0, ORION_CESA_BASE,          ORION_IRQ_SECURITYINTR},
601     { ORION_1(88F5181),       "mvgbec",  0, ORION_GBE_BASE, IRQ_DEFAULT },
602     { ORION_1(88F5181),       "mvpex",   0, MVSOC_PEX_BASE, ORION_IRQ_PEX0INT },
603 
604     { ORION_1(88F5182),       "mvsoctmr",0, MVSOC_TMR_BASE, ORION_IRQ_TMR },
605     { ORION_1(88F5182),       "mvsocgpp",0, MVSOC_GPP_BASE, ORION_IRQ_GPIO7_0 },
606     { ORION_1(88F5182),       "com",     0, MVSOC_COM0_BASE,          ORION_IRQ_UART0 },
607     { ORION_1(88F5182),       "com",     1, MVSOC_COM1_BASE,          ORION_IRQ_UART1 },
608     { ORION_1(88F5182),       "ehci",    0, ORION_USB0_BASE,          ORION_IRQ_USBCNT0 },
609     { ORION_1(88F5182),       "ehci",    1, ORION_USB1_BASE,          ORION_IRQ_USBCNT1 },
610     { ORION_1(88F5182),       "gtidmac", 0, ORION_IDMAC_BASE,         IRQ_DEFAULT },
611     { ORION_1(88F5182),       "gtpci",   0, ORION_PCI_BASE, ORION_IRQ_PEX0INT },
612     { ORION_1(88F5182),       "gttwsi",  0, MVSOC_TWSI_BASE,          ORION_IRQ_TWSI },
613     { ORION_1(88F5182),       "mvgbec",  0, ORION_GBE_BASE, IRQ_DEFAULT },
614     { ORION_1(88F5182),       "mvsata",  0, ORION_SATAHC_BASE,ORION_IRQ_SATAINTR },
615     { ORION_1(88F5182),       "mvpex",   0, MVSOC_PEX_BASE, ORION_IRQ_PEX0INT },
616 
617     { ORION_1(88F6082),       "mvsoctmr",0, MVSOC_TMR_BASE, ORION_IRQ_TMR },
618     { ORION_1(88F6082),       "mvsocgpp",0, MVSOC_GPP_BASE, ORION_IRQ_GPIO7_0 },
619     { ORION_1(88F6082),       "com",     0, MVSOC_COM0_BASE,          ORION_IRQ_UART0 },
620     { ORION_1(88F6082),       "com",     1, MVSOC_COM1_BASE,          ORION_IRQ_UART1 },
621     { ORION_1(88F6082),       "ehci",    0, ORION_USB0_BASE,          ORION_IRQ_USBCNT0 },
622     { ORION_1(88F6082),       "gttwsi",  0, MVSOC_TWSI_BASE,          ORION_IRQ_TWSI },
623     { ORION_1(88F6082),       "mvcesa",  0, ORION_CESA_BASE,          ORION_IRQ_SECURITYINTR},
624     { ORION_1(88F6082),       "mvgbec",  0, ORION_GBE_BASE, IRQ_DEFAULT },
625     { ORION_1(88F6082),       "mvsata",  0, ORION_SATAHC_BASE,ORION_IRQ_SATAINTR },
626     { ORION_1(88F6082),       "mvpex",   0, MVSOC_PEX_BASE, ORION_IRQ_PEX0INT },
627 
628     { ORION_1(88F6183),       "mvsoctmr",0, MVSOC_TMR_BASE, ORION_IRQ_TMR },
629     { ORION_1(88F6183),       "mvsocgpp",0, MVSOC_GPP_BASE, ORION_IRQ_GPIO7_0 },
630     { ORION_1(88F6183),       "gttwsi",  0, MVSOC_TWSI_BASE,          ORION_IRQ_TWSI },
631     { ORION_1(88F6183),       "mvpex",   0, MVSOC_PEX_BASE, ORION_IRQ_PEX0INT },
632 
633     { ORION_1(88W8660),       "mvsoctmr",0, MVSOC_TMR_BASE, ORION_IRQ_TMR },
634     { ORION_1(88W8660),       "mvsocgpp",0, MVSOC_GPP_BASE, ORION_IRQ_GPIO7_0 },
635     { ORION_1(88W8660),       "com",     0, MVSOC_COM0_BASE,          ORION_IRQ_UART0 },
636     { ORION_1(88W8660),       "com",     1, MVSOC_COM1_BASE,          ORION_IRQ_UART1 },
637     { ORION_1(88W8660),       "ehci",    0, ORION_USB0_BASE,          ORION_IRQ_USBCNT0 },
638     { ORION_1(88W8660),       "gtidmac", 0, ORION_IDMAC_BASE,         IRQ_DEFAULT },
639     { ORION_1(88W8660),       "gtpci",   0, ORION_PCI_BASE, ORION_IRQ_PEX0INT },
640     { ORION_1(88W8660),       "gttwsi",  0, MVSOC_TWSI_BASE,          ORION_IRQ_TWSI },
641     { ORION_1(88W8660),       "mvgbec",  0, ORION_GBE_BASE, IRQ_DEFAULT },
642     { ORION_1(88W8660),       "mvpex",   0, MVSOC_PEX_BASE, ORION_IRQ_PEX0INT },
643 
644     { ORION_2(88F1281),       "mvsoctmr",0, MVSOC_TMR_BASE, ORION_IRQ_TMR },
645     { ORION_2(88F1281),       "mvsocgpp",0, MVSOC_GPP_BASE, ORION_IRQ_GPIO7_0 },
646     { ORION_2(88F1281),       "com",     0, MVSOC_COM0_BASE,          ORION_IRQ_UART0 },
647     { ORION_2(88F1281),       "com",     1, MVSOC_COM1_BASE,          ORION_IRQ_UART1 },
648     { ORION_2(88F1281),       "gttwsi",  0, MVSOC_TWSI_BASE,          ORION_IRQ_TWSI },
649     { ORION_2(88F1281),       "mvpex",   0, MVSOC_PEX_BASE, ORION_IRQ_PEX0INT },
650     { ORION_2(88F1281),       "mvpex",   1, ORION_PEX1_BASE,          ORION_IRQ_PEX1INT },
651 
652     { ORION_2(88F5281),       "mvsoctmr",0, MVSOC_TMR_BASE, ORION_IRQ_TMR },
653     { ORION_2(88F5281),       "mvsocgpp",0, MVSOC_GPP_BASE, ORION_IRQ_GPIO7_0 },
654     { ORION_2(88F5281),       "com",     0, MVSOC_COM0_BASE,          ORION_IRQ_UART0 },
655     { ORION_2(88F5281),       "com",     1, MVSOC_COM1_BASE,          ORION_IRQ_UART1 },
656     { ORION_2(88F5281),       "ehci",    0, ORION_USB0_BASE,          ORION_IRQ_USBCNT0 },
657     { ORION_2(88F5281),       "gtidmac", 0, ORION_IDMAC_BASE,         IRQ_DEFAULT },
658     { ORION_2(88F5281),       "gtpci",   0, ORION_PCI_BASE, ORION_IRQ_PEX0INT },
659     { ORION_2(88F5281),       "gttwsi",  0, MVSOC_TWSI_BASE,          ORION_IRQ_TWSI },
660     { ORION_2(88F5281),       "mvgbec",  0, ORION_GBE_BASE, IRQ_DEFAULT },
661     { ORION_2(88F5281),       "mvpex",   0, MVSOC_PEX_BASE, ORION_IRQ_PEX0INT },
662 #endif
663 
664 #if defined(KIRKWOOD)
665 #define KIRKWOOD_IRQ_TMR      (64 + MVSOC_MLMB_MLMBI_CPUTIMER0INTREQ)
666 
667     { KIRKWOOD(88F6180),"mvsoctmr",0, MVSOC_TMR_BASE,       KIRKWOOD_IRQ_TMR },
668     { KIRKWOOD(88F6180),"mvsocgpp",0, MVSOC_GPP_BASE,       KIRKWOOD_IRQ_GPIOLO7_0},
669     { KIRKWOOD(88F6180),"mvsocrtc",0, KIRKWOOD_RTC_BASE,IRQ_DEFAULT },
670     { KIRKWOOD(88F6180),"com",     0, MVSOC_COM0_BASE,      KIRKWOOD_IRQ_UART0INT },
671     { KIRKWOOD(88F6180),"com",     1, MVSOC_COM1_BASE,      KIRKWOOD_IRQ_UART1INT },
672     { KIRKWOOD(88F6180),"ehci",    0, KIRKWOOD_USB_BASE,KIRKWOOD_IRQ_USB0CNT },
673     { KIRKWOOD(88F6180),"gtidmac", 0, KIRKWOOD_IDMAC_BASE,IRQ_DEFAULT },
674     { KIRKWOOD(88F6180),"gttwsi",  0, MVSOC_TWSI_BASE,      KIRKWOOD_IRQ_TWSI },
675     { KIRKWOOD(88F6180),"mvcesa",  0, KIRKWOOD_CESA_BASE,KIRKWOOD_IRQ_SECURITYINT},
676     { KIRKWOOD(88F6180),"mvgbec",  0, KIRKWOOD_GBE0_BASE,IRQ_DEFAULT },
677     { KIRKWOOD(88F6180),"mvpex",   0, MVSOC_PEX_BASE,       KIRKWOOD_IRQ_PEX0INT },
678     { KIRKWOOD(88F6180),"mvsdio",  0, KIRKWOOD_SDIO_BASE,KIRKWOOD_IRQ_SDIOINT },
679 
680     { KIRKWOOD(88F6192),"mvsoctmr",0, MVSOC_TMR_BASE,       KIRKWOOD_IRQ_TMR },
681     { KIRKWOOD(88F6192),"mvsocgpp",0, MVSOC_GPP_BASE,       KIRKWOOD_IRQ_GPIOLO7_0},
682     { KIRKWOOD(88F6192),"mvsocrtc",0, KIRKWOOD_RTC_BASE,IRQ_DEFAULT },
683     { KIRKWOOD(88F6192),"com",     0, MVSOC_COM0_BASE,      KIRKWOOD_IRQ_UART0INT },
684     { KIRKWOOD(88F6192),"com",     1, MVSOC_COM1_BASE,      KIRKWOOD_IRQ_UART1INT },
685     { KIRKWOOD(88F6192),"ehci",    0, KIRKWOOD_USB_BASE,KIRKWOOD_IRQ_USB0CNT },
686     { KIRKWOOD(88F6192),"gtidmac", 0, KIRKWOOD_IDMAC_BASE,IRQ_DEFAULT },
687     { KIRKWOOD(88F6192),"gttwsi",  0, MVSOC_TWSI_BASE,      KIRKWOOD_IRQ_TWSI },
688     { KIRKWOOD(88F6192),"mvcesa",  0, KIRKWOOD_CESA_BASE,KIRKWOOD_IRQ_SECURITYINT},
689     { KIRKWOOD(88F6192),"mvgbec",  0, KIRKWOOD_GBE0_BASE,IRQ_DEFAULT },
690     { KIRKWOOD(88F6192),"mvgbec",  1, KIRKWOOD_GBE1_BASE,IRQ_DEFAULT },
691     { KIRKWOOD(88F6192),"mvpex",   0, MVSOC_PEX_BASE,       KIRKWOOD_IRQ_PEX0INT },
692     { KIRKWOOD(88F6192),"mvsata",  0, KIRKWOOD_SATAHC_BASE,KIRKWOOD_IRQ_SATA },
693     { KIRKWOOD(88F6192),"mvsdio",  0, KIRKWOOD_SDIO_BASE,KIRKWOOD_IRQ_SDIOINT },
694 
695     { KIRKWOOD(88F6281),"mvsoctmr",0, MVSOC_TMR_BASE,       KIRKWOOD_IRQ_TMR },
696     { KIRKWOOD(88F6281),"mvsocgpp",0, MVSOC_GPP_BASE,       KIRKWOOD_IRQ_GPIOLO7_0},
697     { KIRKWOOD(88F6281),"mvsocrtc",0, KIRKWOOD_RTC_BASE,IRQ_DEFAULT },
698     { KIRKWOOD(88F6281),"com",     0, MVSOC_COM0_BASE,      KIRKWOOD_IRQ_UART0INT },
699     { KIRKWOOD(88F6281),"com",     1, MVSOC_COM1_BASE,      KIRKWOOD_IRQ_UART1INT },
700     { KIRKWOOD(88F6281),"ehci",    0, KIRKWOOD_USB_BASE,KIRKWOOD_IRQ_USB0CNT },
701     { KIRKWOOD(88F6281),"gtidmac", 0, KIRKWOOD_IDMAC_BASE,IRQ_DEFAULT },
702     { KIRKWOOD(88F6281),"gttwsi",  0, MVSOC_TWSI_BASE,      KIRKWOOD_IRQ_TWSI },
703     { KIRKWOOD(88F6281),"mvcesa",  0, KIRKWOOD_CESA_BASE,KIRKWOOD_IRQ_SECURITYINT },
704     { KIRKWOOD(88F6281),"mvgbec",  0, KIRKWOOD_GBE0_BASE,IRQ_DEFAULT },
705     { KIRKWOOD(88F6281),"mvgbec",  1, KIRKWOOD_GBE1_BASE,IRQ_DEFAULT },
706     { KIRKWOOD(88F6281),"mvpex",   0, MVSOC_PEX_BASE,       KIRKWOOD_IRQ_PEX0INT },
707     { KIRKWOOD(88F6281),"mvsata",  0, KIRKWOOD_SATAHC_BASE,KIRKWOOD_IRQ_SATA },
708     { KIRKWOOD(88F6281),"mvsdio",  0, KIRKWOOD_SDIO_BASE,KIRKWOOD_IRQ_SDIOINT },
709 
710     { KIRKWOOD(88F6282),"mvsoctmr",0, MVSOC_TMR_BASE,       KIRKWOOD_IRQ_TMR },
711     { KIRKWOOD(88F6282),"mvsocgpp",0, MVSOC_GPP_BASE,       KIRKWOOD_IRQ_GPIOLO7_0},
712     { KIRKWOOD(88F6282),"mvsocrtc",0, KIRKWOOD_RTC_BASE,IRQ_DEFAULT },
713     { KIRKWOOD(88F6282),"mvsocts", 0, KIRKWOOD_TS_BASE,     IRQ_DEFAULT },
714     { KIRKWOOD(88F6282),"com",     0, MVSOC_COM0_BASE,      KIRKWOOD_IRQ_UART0INT },
715     { KIRKWOOD(88F6282),"com",     1, MVSOC_COM1_BASE,      KIRKWOOD_IRQ_UART1INT },
716     { KIRKWOOD(88F6282),"ehci",    0, KIRKWOOD_USB_BASE,KIRKWOOD_IRQ_USB0CNT },
717     { KIRKWOOD(88F6282),"gtidmac", 0, KIRKWOOD_IDMAC_BASE,IRQ_DEFAULT },
718     { KIRKWOOD(88F6282),"gttwsi",  0, MVSOC_TWSI_BASE,      KIRKWOOD_IRQ_TWSI },
719     { KIRKWOOD(88F6282),"gttwsi",  1, KIRKWOOD_TWSI1_BASE,KIRKWOOD_IRQ_TWSI1 },
720     { KIRKWOOD(88F6282),"mvcesa",  0, KIRKWOOD_CESA_BASE,KIRKWOOD_IRQ_SECURITYINT},
721     { KIRKWOOD(88F6282),"mvgbec",  0, KIRKWOOD_GBE0_BASE,IRQ_DEFAULT },
722     { KIRKWOOD(88F6282),"mvgbec",  1, KIRKWOOD_GBE1_BASE,IRQ_DEFAULT },
723     { KIRKWOOD(88F6282),"mvpex",   0, MVSOC_PEX_BASE,       KIRKWOOD_IRQ_PEX0INT },
724     { KIRKWOOD(88F6282),"mvpex",   1, KIRKWOOD_PEX1_BASE,KIRKWOOD_IRQ_PEX1INT },
725     { KIRKWOOD(88F6282),"mvsata",  0, KIRKWOOD_SATAHC_BASE,KIRKWOOD_IRQ_SATA },
726     { KIRKWOOD(88F6282),"mvsdio",  0, KIRKWOOD_SDIO_BASE,KIRKWOOD_IRQ_SDIOINT },
727 #endif
728 
729 #if defined(MV78XX0)
730     { MV78XX0(MV78100),       "mvsoctmr",0, MVSOC_TMR_BASE, MV78XX0_IRQ_TIMER0 },
731     { MV78XX0(MV78100),       "mvsocgpp",0, MVSOC_GPP_BASE, MV78XX0_IRQ_GPIO0_7 },
732     { MV78XX0(MV78100),       "com",       0, MVSOC_COM0_BASE,        MV78XX0_IRQ_UART0 },
733     { MV78XX0(MV78100),       "com",       1, MVSOC_COM1_BASE,        MV78XX0_IRQ_UART1 },
734     { MV78XX0(MV78100),       "com",       2, MV78XX0_COM2_BASE,MV78XX0_IRQ_UART2 },
735     { MV78XX0(MV78100),       "com",       3, MV78XX0_COM3_BASE,MV78XX0_IRQ_UART3 },
736     { MV78XX0(MV78100),       "gttwsi",  0, MVSOC_TWSI_BASE,          MV78XX0_IRQ_TWSI0 },
737     { MV78XX0(MV78100),       "gttwsi",  1, MV78XX0_TWSI1_BASE,MV78XX0_IRQ_TWSI1 },
738     { MV78XX0(MV78100), "mvgbec",  0, MV78XX0_GBE0_BASE,IRQ_DEFAULT },
739     { MV78XX0(MV78100), "mvgbec",  1, MV78XX0_GBE1_BASE,IRQ_DEFAULT },
740     { MV78XX0(MV78100), "mvsata",  0, MV78XX0_SATAHC_BASE,MV78XX0_IRQ_SATA },
741 
742     { MV78XX0(MV78200),       "mvsoctmr",0, MVSOC_TMR_BASE, MV78XX0_IRQ_TIMER0 },
743     { MV78XX0(MV78200),       "mvsocgpp",0, MVSOC_GPP_BASE, MV78XX0_IRQ_GPIO0_7 },
744     { MV78XX0(MV78200),       "com",     0, MVSOC_COM0_BASE,          MV78XX0_IRQ_UART0 },
745     { MV78XX0(MV78200),       "com",     1, MVSOC_COM1_BASE,          MV78XX0_IRQ_UART1 },
746     { MV78XX0(MV78200),       "com",       2, MV78XX0_COM2_BASE,MV78XX0_IRQ_UART2 },
747     { MV78XX0(MV78200),       "com",       3, MV78XX0_COM3_BASE,MV78XX0_IRQ_UART3 },
748     { MV78XX0(MV78200),       "gttwsi",  0, MVSOC_TWSI_BASE,          MV78XX0_IRQ_TWSI0 },
749     { MV78XX0(MV78200),       "gttwsi",  1, MV78XX0_TWSI1_BASE,MV78XX0_IRQ_TWSI1 },
750     { MV78XX0(MV78200), "mvgbec",  0, MV78XX0_GBE0_BASE,IRQ_DEFAULT },
751     { MV78XX0(MV78200), "mvgbec",  1, MV78XX0_GBE1_BASE,IRQ_DEFAULT },
752     { MV78XX0(MV78200), "mvgbec",  2, MV78XX0_GBE2_BASE,IRQ_DEFAULT },
753     { MV78XX0(MV78200), "mvgbec",  3, MV78XX0_GBE3_BASE,IRQ_DEFAULT },
754     { MV78XX0(MV78200), "mvsata",  0, MV78XX0_SATAHC_BASE,MV78XX0_IRQ_SATA },
755 #endif
756 
757 #if defined(DOVE)
758 #define DOVE_IRQ_TMR                    (64 + MVSOC_MLMB_MLMBI_CPUTIMER0INTREQ)
759 
760     { DOVE(88AP510),          "mvsoctmr",0, MVSOC_TMR_BASE, DOVE_IRQ_TMR },
761     { DOVE(88AP510),          "mvsocpmu",0, DOVE_PMU_BASE,  DOVE_IRQ_PMU },
762     { DOVE(88AP510),          "com",     0, MVSOC_COM0_BASE,          DOVE_IRQ_UART0 },
763     { DOVE(88AP510),          "com",     1, MVSOC_COM1_BASE,          DOVE_IRQ_UART1 },
764     { DOVE(88AP510),          "com",     2, DOVE_COM2_BASE, DOVE_IRQ_UART2 },
765     { DOVE(88AP510),          "com",     3, DOVE_COM3_BASE, DOVE_IRQ_UART3 },
766     { DOVE(88AP510),          "gttwsi",  0, MVSOC_TWSI_BASE,          DOVE_IRQ_TWSI },
767     { DOVE(88AP510),          "mvspi",   0, DOVE_SPI0_BASE, DOVE_IRQ_SPI0 },
768     { DOVE(88AP510),          "mvspi",   1, DOVE_SPI1_BASE, DOVE_IRQ_SPI1 },
769     { DOVE(88AP510),          "mvcesa",  0, DOVE_CESA_BASE, DOVE_IRQ_SECURITYINT },
770     { DOVE(88AP510),          "ehci",    0, DOVE_USB0_BASE, DOVE_IRQ_USB0CNT },
771     { DOVE(88AP510),          "ehci",    1, DOVE_USB1_BASE, DOVE_IRQ_USB1CNT },
772     { DOVE(88AP510),          "gtidmac", 0, DOVE_XORE_BASE, IRQ_DEFAULT },
773     { DOVE(88AP510),          "mvgbec",  0, DOVE_GBE_BASE,  IRQ_DEFAULT },
774     { DOVE(88AP510),          "mvpex",   0, MVSOC_PEX_BASE, DOVE_IRQ_PEX0_INT },
775     { DOVE(88AP510),          "mvpex",   1, DOVE_PEX1_BASE, DOVE_IRQ_PEX1_INT },
776     { DOVE(88AP510),          "sdhc",    0, DOVE_SDHC0_BASE,          DOVE_IRQ_SD0 },
777     { DOVE(88AP510),          "sdhc",    1, DOVE_SDHC1_BASE,          DOVE_IRQ_SD1 },
778     { DOVE(88AP510),          "mvsata",  0, DOVE_SATAHC_BASE,         DOVE_IRQ_SATAINT },
779 //    { DOVE(88AP510),        "mvsocgpp",0, MVSOC_GPP_BASE, IRQ_DEFAULT },
780     { DOVE(88AP510),          "mvsocrtc",0, DOVE_RTC_BASE,  IRQ_DEFAULT },
781 #endif
782 
783 #if defined(ARMADAXP)
784     { ARMADAXP(MV78130), "mvsoctmr",0,MVSOC_TMR_BASE,       ARMADAXP_IRQ_TIMER0 },
785     { ARMADAXP(MV78130), "com",    0, MVSOC_COM0_BASE,      ARMADAXP_IRQ_UART0 },
786     { ARMADAXP(MV78130), "com",    1, MVSOC_COM1_BASE,      ARMADAXP_IRQ_UART1 },
787     { ARMADAXP(MV78130), "com",    2, ARMADAXP_COM2_BASE,ARMADAXP_IRQ_UART2 },
788     { ARMADAXP(MV78130), "com",    3, ARMADAXP_COM3_BASE,ARMADAXP_IRQ_UART3 },
789     { ARMADAXP(MV78130), "mvsocrtc",0,ARMADAXP_RTC_BASE,ARMADAXP_IRQ_RTC },
790     { ARMADAXP(MV78130), "gttwsi", 0, MVSOC_TWSI_BASE,      ARMADAXP_IRQ_TWSI0 },
791     { ARMADAXP(MV78130), "gttwsi", 1, ARMADAXP_TWSI1_BASE,ARMADAXP_IRQ_TWSI1 },
792     { ARMADAXP(MV78130), "gtidmac",0, ARMADAXP_XORE0_BASE,IRQ_DEFAULT },
793     { ARMADAXP(MV78130), "gtidmac",1, ARMADAXP_XORE1_BASE,IRQ_DEFAULT },
794     { ARMADAXP(MV78130), "mvsocts",0, ARMADAXP_TS_BASE,     ARMADAXP_IRQ_PMU },
795     { ARMADAXP(MV78130), "ehci",   0, ARMADAXP_USB0_BASE,ARMADAXP_IRQ_USB0 },
796     { ARMADAXP(MV78130), "ehci",   1, ARMADAXP_USB1_BASE,ARMADAXP_IRQ_USB1 },
797     { ARMADAXP(MV78130), "ehci",   2, ARMADAXP_USB2_BASE,ARMADAXP_IRQ_USB2 },
798     { ARMADAXP(MV78130), "mvpex",  0, MVSOC_PEX_BASE,       ARMADAXP_IRQ_PEX00 },
799     { ARMADAXP(MV78130), "mvpex",  1, ARMADAXP_PEX01_BASE,ARMADAXP_IRQ_PEX01 },
800     { ARMADAXP(MV78130), "mvpex",  2, ARMADAXP_PEX02_BASE,ARMADAXP_IRQ_PEX02 },
801     { ARMADAXP(MV78130), "mvpex",  3, ARMADAXP_PEX03_BASE,ARMADAXP_IRQ_PEX03 },
802     { ARMADAXP(MV78130), "mvsata", 0, ARMADAXP_SATAHC_BASE,ARMADAXP_IRQ_SATA0 },
803     { ARMADAXP(MV78130), "mvspi",  0, ARMADAXP_SPI_BASE,ARMADAXP_IRQ_SPI },
804     { ARMADAXP(MV78130), "mvsdio", 0, ARMADAXP_SDIO_BASE,ARMADAXP_IRQ_SDIO },
805     { ARMADAXP(MV78130), "mvxpe", 0, ARMADAXP_GBE0_BASE,ARMADAXP_IRQ_GBE0_TH_RXTX },
806 #if NMVXPE > 0
807     { ARMADAXP(MV78130), "mvxpbm", 0, MVA_OFFSET_DEFAULT,IRQ_DEFAULT },
808     { ARMADAXP(MV78130), "mvxpe", 1, ARMADAXP_GBE1_BASE,ARMADAXP_IRQ_GBE1_TH_RXTX },
809     { ARMADAXP(MV78130), "mvxpe", 2, ARMADAXP_GBE2_BASE,ARMADAXP_IRQ_GBE2_TH_RXTX },
810 #else
811     { ARMADAXP(MV78130), "mvgbec", 1, ARMADAXP_GBE1_BASE,IRQ_DEFAULT },
812     { ARMADAXP(MV78130), "mvgbec", 2, ARMADAXP_GBE2_BASE,IRQ_DEFAULT },
813 #endif
814 #if NMVXPSEC > 0
815     { ARMADAXP(MV78130), "mvxpsec", 0, ARMADAXP_XPSEC0_BASE,ARMADAXP_IRQ_CESA0 },
816     { ARMADAXP(MV78130), "mvxpsec", 1, ARMADAXP_XPSEC1_BASE,ARMADAXP_IRQ_CESA1 },
817 #else
818     { ARMADAXP(MV78130), "mvcesa", 0, ARMADAXP_CESA0_BASE,ARMADAXP_IRQ_CESA0 },
819     { ARMADAXP(MV78130), "mvcesa", 1, ARMADAXP_CESA1_BASE,ARMADAXP_IRQ_CESA1 },
820 #endif
821 
822     { ARMADAXP(MV78160), "mvsoctmr",0,MVSOC_TMR_BASE,       ARMADAXP_IRQ_TIMER0 },
823     { ARMADAXP(MV78160), "com",    0, MVSOC_COM0_BASE,      ARMADAXP_IRQ_UART0 },
824     { ARMADAXP(MV78160), "com",    1, MVSOC_COM1_BASE,      ARMADAXP_IRQ_UART1 },
825     { ARMADAXP(MV78160), "com",    2, ARMADAXP_COM2_BASE,ARMADAXP_IRQ_UART2 },
826     { ARMADAXP(MV78160), "com",    3, ARMADAXP_COM3_BASE,ARMADAXP_IRQ_UART3 },
827     { ARMADAXP(MV78160), "mvsocrtc",0,ARMADAXP_RTC_BASE,ARMADAXP_IRQ_RTC },
828     { ARMADAXP(MV78160), "gttwsi", 0, MVSOC_TWSI_BASE,      ARMADAXP_IRQ_TWSI0 },
829     { ARMADAXP(MV78160), "gttwsi", 1, ARMADAXP_TWSI1_BASE,ARMADAXP_IRQ_TWSI1 },
830     { ARMADAXP(MV78160), "gtidmac",0, ARMADAXP_XORE0_BASE,IRQ_DEFAULT },
831     { ARMADAXP(MV78160), "gtidmac",1, ARMADAXP_XORE1_BASE,IRQ_DEFAULT },
832     { ARMADAXP(MV78160), "mvsocts",0, ARMADAXP_TS_BASE,     ARMADAXP_IRQ_PMU },
833     { ARMADAXP(MV78160), "ehci",   0, ARMADAXP_USB0_BASE,ARMADAXP_IRQ_USB0 },
834     { ARMADAXP(MV78160), "ehci",   1, ARMADAXP_USB1_BASE,ARMADAXP_IRQ_USB1 },
835     { ARMADAXP(MV78160), "ehci",   2, ARMADAXP_USB2_BASE,ARMADAXP_IRQ_USB2 },
836     { ARMADAXP(MV78160), "mvpex",  0, MVSOC_PEX_BASE,       ARMADAXP_IRQ_PEX00 },
837     { ARMADAXP(MV78160), "mvpex",  1, ARMADAXP_PEX01_BASE,ARMADAXP_IRQ_PEX01 },
838     { ARMADAXP(MV78160), "mvpex",  2, ARMADAXP_PEX02_BASE,ARMADAXP_IRQ_PEX02 },
839     { ARMADAXP(MV78160), "mvpex",  3, ARMADAXP_PEX03_BASE,ARMADAXP_IRQ_PEX03 },
840     { ARMADAXP(MV78160), "mvpex",  4, ARMADAXP_PEX2_BASE,ARMADAXP_IRQ_PEX2 },
841     { ARMADAXP(MV78160), "mvsata", 0, ARMADAXP_SATAHC_BASE,ARMADAXP_IRQ_SATA0 },
842     { ARMADAXP(MV78160), "mvspi",  0, ARMADAXP_SPI_BASE,ARMADAXP_IRQ_SPI },
843     { ARMADAXP(MV78160), "mvsdio", 0, ARMADAXP_SDIO_BASE,ARMADAXP_IRQ_SDIO },
844 #if NMVXPE > 0
845     { ARMADAXP(MV78160), "mvxpbm", 0, MVA_OFFSET_DEFAULT,IRQ_DEFAULT },
846     { ARMADAXP(MV78160), "mvxpe", 0, ARMADAXP_GBE0_BASE,ARMADAXP_IRQ_GBE0_TH_RXTX },
847     { ARMADAXP(MV78160), "mvxpe", 1, ARMADAXP_GBE1_BASE,ARMADAXP_IRQ_GBE1_TH_RXTX },
848     { ARMADAXP(MV78160), "mvxpe", 2, ARMADAXP_GBE2_BASE,ARMADAXP_IRQ_GBE2_TH_RXTX },
849     { ARMADAXP(MV78160), "mvxpe", 3, ARMADAXP_GBE3_BASE,ARMADAXP_IRQ_GBE3_TH_RXTX },
850 #else
851     { ARMADAXP(MV78160), "mvgbec", 0, ARMADAXP_GBE0_BASE,IRQ_DEFAULT },
852     { ARMADAXP(MV78160), "mvgbec", 1, ARMADAXP_GBE1_BASE,IRQ_DEFAULT },
853     { ARMADAXP(MV78160), "mvgbec", 2, ARMADAXP_GBE2_BASE,IRQ_DEFAULT },
854     { ARMADAXP(MV78160), "mvgbec", 3, ARMADAXP_GBE3_BASE,IRQ_DEFAULT },
855 #endif
856 #if NMVXPSEC > 0
857     { ARMADAXP(MV78160), "mvxpsec", 0, ARMADAXP_XPSEC0_BASE,ARMADAXP_IRQ_CESA0 },
858     { ARMADAXP(MV78160), "mvxpsec", 1, ARMADAXP_XPSEC1_BASE,ARMADAXP_IRQ_CESA1 },
859 #else
860     { ARMADAXP(MV78160), "mvcesa", 0, ARMADAXP_CESA0_BASE,ARMADAXP_IRQ_CESA0 },
861     { ARMADAXP(MV78160), "mvcesa", 1, ARMADAXP_CESA1_BASE,ARMADAXP_IRQ_CESA1 },
862 #endif
863 
864     { ARMADAXP(MV78230), "mvsoctmr",0,MVSOC_TMR_BASE,       ARMADAXP_IRQ_TIMER0 },
865     { ARMADAXP(MV78230), "com",    0, MVSOC_COM0_BASE,      ARMADAXP_IRQ_UART0 },
866     { ARMADAXP(MV78230), "com",    1, MVSOC_COM1_BASE,      ARMADAXP_IRQ_UART1 },
867     { ARMADAXP(MV78230), "com",    2, ARMADAXP_COM2_BASE,ARMADAXP_IRQ_UART2 },
868     { ARMADAXP(MV78230), "com",    3, ARMADAXP_COM3_BASE,ARMADAXP_IRQ_UART3 },
869     { ARMADAXP(MV78230), "mvsocrtc",0,ARMADAXP_RTC_BASE,ARMADAXP_IRQ_RTC },
870     { ARMADAXP(MV78230), "gttwsi", 0, MVSOC_TWSI_BASE,      ARMADAXP_IRQ_TWSI0 },
871     { ARMADAXP(MV78230), "gttwsi", 1, ARMADAXP_TWSI1_BASE,ARMADAXP_IRQ_TWSI1 },
872     { ARMADAXP(MV78230), "gtidmac",0, ARMADAXP_XORE0_BASE,IRQ_DEFAULT },
873     { ARMADAXP(MV78230), "gtidmac",1, ARMADAXP_XORE1_BASE,IRQ_DEFAULT },
874     { ARMADAXP(MV78230), "mvsocts",0, ARMADAXP_TS_BASE,     ARMADAXP_IRQ_PMU },
875     { ARMADAXP(MV78230), "ehci",   0, ARMADAXP_USB0_BASE,ARMADAXP_IRQ_USB0 },
876     { ARMADAXP(MV78230), "ehci",   1, ARMADAXP_USB1_BASE,ARMADAXP_IRQ_USB1 },
877     { ARMADAXP(MV78230), "ehci",   2, ARMADAXP_USB2_BASE,ARMADAXP_IRQ_USB2 },
878     { ARMADAXP(MV78230), "mvpex",  0, MVSOC_PEX_BASE,       ARMADAXP_IRQ_PEX00 },
879     { ARMADAXP(MV78230), "mvpex",  1, ARMADAXP_PEX01_BASE,ARMADAXP_IRQ_PEX01 },
880     { ARMADAXP(MV78230), "mvpex",  2, ARMADAXP_PEX02_BASE,ARMADAXP_IRQ_PEX02 },
881     { ARMADAXP(MV78230), "mvpex",  3, ARMADAXP_PEX03_BASE,ARMADAXP_IRQ_PEX03 },
882     { ARMADAXP(MV78230), "mvpex",  4, ARMADAXP_PEX10_BASE,ARMADAXP_IRQ_PEX10 },
883     { ARMADAXP(MV78230), "mvpex",  5, ARMADAXP_PEX2_BASE,ARMADAXP_IRQ_PEX2 },
884     { ARMADAXP(MV78230), "mvpex",  6, ARMADAXP_PEX3_BASE,ARMADAXP_IRQ_PEX3 },
885     { ARMADAXP(MV78230), "mvsata", 0, ARMADAXP_SATAHC_BASE,ARMADAXP_IRQ_SATA0 },
886     { ARMADAXP(MV78230), "mvspi",  0, ARMADAXP_SPI_BASE,ARMADAXP_IRQ_SPI },
887     { ARMADAXP(MV78230), "mvsdio", 0, ARMADAXP_SDIO_BASE,ARMADAXP_IRQ_SDIO },
888 #if NMVXPE > 0
889     { ARMADAXP(MV78230), "mvxpbm", 0, MVA_OFFSET_DEFAULT,IRQ_DEFAULT },
890     { ARMADAXP(MV78230), "mvxpe", 0, ARMADAXP_GBE0_BASE,ARMADAXP_IRQ_GBE0_TH_RXTX },
891     { ARMADAXP(MV78230), "mvxpe", 1, ARMADAXP_GBE1_BASE,ARMADAXP_IRQ_GBE1_TH_RXTX },
892     { ARMADAXP(MV78230), "mvxpe", 2, ARMADAXP_GBE2_BASE,ARMADAXP_IRQ_GBE2_TH_RXTX },
893 #else
894     { ARMADAXP(MV78230), "mvgbec", 0, ARMADAXP_GBE0_BASE,IRQ_DEFAULT },
895     { ARMADAXP(MV78230), "mvgbec", 1, ARMADAXP_GBE1_BASE,IRQ_DEFAULT },
896     { ARMADAXP(MV78230), "mvgbec", 2, ARMADAXP_GBE2_BASE,IRQ_DEFAULT },
897 #endif
898 #if NMVXPSEC > 0
899     { ARMADAXP(MV78230), "mvxpsec", 0, ARMADAXP_XPSEC0_BASE,ARMADAXP_IRQ_CESA0 },
900     { ARMADAXP(MV78230), "mvxpsec", 1, ARMADAXP_XPSEC1_BASE,ARMADAXP_IRQ_CESA1 },
901 #else
902     { ARMADAXP(MV78230), "mvcesa", 0, ARMADAXP_CESA0_BASE,ARMADAXP_IRQ_CESA0 },
903     { ARMADAXP(MV78230), "mvcesa", 1, ARMADAXP_CESA1_BASE,ARMADAXP_IRQ_CESA1 },
904 #endif
905 
906     { ARMADAXP(MV78260), "mvsoctmr",0,MVSOC_TMR_BASE,       ARMADAXP_IRQ_TIMER0 },
907     { ARMADAXP(MV78260), "com",    0, MVSOC_COM0_BASE,      ARMADAXP_IRQ_UART0 },
908     { ARMADAXP(MV78260), "com",    1, MVSOC_COM1_BASE,      ARMADAXP_IRQ_UART1 },
909     { ARMADAXP(MV78260), "com",    2, ARMADAXP_COM2_BASE,ARMADAXP_IRQ_UART2 },
910     { ARMADAXP(MV78260), "com",    3, ARMADAXP_COM3_BASE,ARMADAXP_IRQ_UART3 },
911     { ARMADAXP(MV78260), "mvsocrtc",0,ARMADAXP_RTC_BASE,ARMADAXP_IRQ_RTC },
912     { ARMADAXP(MV78260), "gttwsi", 0, MVSOC_TWSI_BASE,      ARMADAXP_IRQ_TWSI0 },
913     { ARMADAXP(MV78260), "gttwsi", 1, ARMADAXP_TWSI1_BASE,ARMADAXP_IRQ_TWSI1 },
914     { ARMADAXP(MV78260), "gtidmac",0, ARMADAXP_XORE0_BASE,IRQ_DEFAULT },
915     { ARMADAXP(MV78260), "gtidmac",1, ARMADAXP_XORE1_BASE,IRQ_DEFAULT },
916     { ARMADAXP(MV78260), "mvsocts",0, ARMADAXP_TS_BASE,     ARMADAXP_IRQ_PMU },
917     { ARMADAXP(MV78260), "ehci",   0, ARMADAXP_USB0_BASE,ARMADAXP_IRQ_USB0 },
918     { ARMADAXP(MV78260), "ehci",   1, ARMADAXP_USB1_BASE,ARMADAXP_IRQ_USB1 },
919     { ARMADAXP(MV78260), "ehci",   2, ARMADAXP_USB2_BASE,ARMADAXP_IRQ_USB2 },
920     { ARMADAXP(MV78260), "mvpex",  0, MVSOC_PEX_BASE,       ARMADAXP_IRQ_PEX00 },
921     { ARMADAXP(MV78260), "mvpex",  1, ARMADAXP_PEX01_BASE,ARMADAXP_IRQ_PEX01 },
922     { ARMADAXP(MV78260), "mvpex",  2, ARMADAXP_PEX02_BASE,ARMADAXP_IRQ_PEX02 },
923     { ARMADAXP(MV78260), "mvpex",  3, ARMADAXP_PEX03_BASE,ARMADAXP_IRQ_PEX03 },
924     { ARMADAXP(MV78260), "mvpex",  4, ARMADAXP_PEX2_BASE,ARMADAXP_IRQ_PEX2 },
925     { ARMADAXP(MV78260), "mvsata", 0, ARMADAXP_SATAHC_BASE,ARMADAXP_IRQ_SATA0 },
926     { ARMADAXP(MV78260), "mvspi",  0, ARMADAXP_SPI_BASE,ARMADAXP_IRQ_SPI },
927     { ARMADAXP(MV78260), "mvsdio", 0, ARMADAXP_SDIO_BASE,ARMADAXP_IRQ_SDIO },
928 #if NMVXPE > 0
929     { ARMADAXP(MV78260), "mvxpbm", 0, MVA_OFFSET_DEFAULT,IRQ_DEFAULT },
930     { ARMADAXP(MV78260), "mvxpe", 0, ARMADAXP_GBE0_BASE,ARMADAXP_IRQ_GBE0_TH_RXTX },
931     { ARMADAXP(MV78260), "mvxpe", 1, ARMADAXP_GBE1_BASE,ARMADAXP_IRQ_GBE1_TH_RXTX },
932     { ARMADAXP(MV78260), "mvxpe", 2, ARMADAXP_GBE2_BASE,ARMADAXP_IRQ_GBE2_TH_RXTX },
933     { ARMADAXP(MV78260), "mvxpe", 3, ARMADAXP_GBE3_BASE,ARMADAXP_IRQ_GBE3_TH_RXTX },
934 #else
935     { ARMADAXP(MV78260), "mvgbec", 0, ARMADAXP_GBE0_BASE,IRQ_DEFAULT },
936     { ARMADAXP(MV78260), "mvgbec", 1, ARMADAXP_GBE1_BASE,IRQ_DEFAULT },
937     { ARMADAXP(MV78260), "mvgbec", 2, ARMADAXP_GBE2_BASE,IRQ_DEFAULT },
938     { ARMADAXP(MV78260), "mvgbec", 3, ARMADAXP_GBE3_BASE,IRQ_DEFAULT },
939 #endif
940 #if NMVXPSEC > 0
941     { ARMADAXP(MV78260), "mvxpsec", 0, ARMADAXP_XPSEC0_BASE,ARMADAXP_IRQ_CESA0 },
942     { ARMADAXP(MV78260), "mvxpsec", 1, ARMADAXP_XPSEC1_BASE,ARMADAXP_IRQ_CESA1 },
943 #else
944     { ARMADAXP(MV78260), "mvcesa", 0, ARMADAXP_CESA0_BASE,ARMADAXP_IRQ_CESA0 },
945     { ARMADAXP(MV78260), "mvcesa", 1, ARMADAXP_CESA1_BASE,ARMADAXP_IRQ_CESA1 },
946 #endif
947 
948     { ARMADAXP(MV78460), "mvsoctmr",0,MVSOC_TMR_BASE,       ARMADAXP_IRQ_TIMER0 },
949     { ARMADAXP(MV78460), "com",    0, MVSOC_COM0_BASE,      ARMADAXP_IRQ_UART0 },
950     { ARMADAXP(MV78460), "com",    1, MVSOC_COM1_BASE,      ARMADAXP_IRQ_UART1 },
951     { ARMADAXP(MV78460), "com",    2, ARMADAXP_COM2_BASE,ARMADAXP_IRQ_UART2 },
952     { ARMADAXP(MV78460), "com",    3, ARMADAXP_COM3_BASE,ARMADAXP_IRQ_UART3 },
953     { ARMADAXP(MV78460), "mvsocrtc",0,ARMADAXP_RTC_BASE,ARMADAXP_IRQ_RTC },
954     { ARMADAXP(MV78460), "gttwsi", 0, MVSOC_TWSI_BASE,      ARMADAXP_IRQ_TWSI0 },
955     { ARMADAXP(MV78460), "gttwsi", 1, ARMADAXP_TWSI1_BASE,ARMADAXP_IRQ_TWSI1 },
956     { ARMADAXP(MV78460), "gtidmac",0, ARMADAXP_XORE0_BASE,IRQ_DEFAULT },
957     { ARMADAXP(MV78460), "gtidmac",1, ARMADAXP_XORE1_BASE,IRQ_DEFAULT },
958     { ARMADAXP(MV78460), "mvsocts",0, ARMADAXP_TS_BASE,     ARMADAXP_IRQ_PMU },
959     { ARMADAXP(MV78460), "ehci",   0, ARMADAXP_USB0_BASE,ARMADAXP_IRQ_USB0 },
960     { ARMADAXP(MV78460), "ehci",   1, ARMADAXP_USB1_BASE,ARMADAXP_IRQ_USB1 },
961     { ARMADAXP(MV78460), "ehci",   2, ARMADAXP_USB2_BASE,ARMADAXP_IRQ_USB2 },
962     { ARMADAXP(MV78460), "mvpex",  0, MVSOC_PEX_BASE,       ARMADAXP_IRQ_PEX00 },
963     { ARMADAXP(MV78460), "mvpex",  1, ARMADAXP_PEX01_BASE,ARMADAXP_IRQ_PEX01 },
964     { ARMADAXP(MV78460), "mvpex",  2, ARMADAXP_PEX02_BASE,ARMADAXP_IRQ_PEX02 },
965     { ARMADAXP(MV78460), "mvpex",  3, ARMADAXP_PEX03_BASE,ARMADAXP_IRQ_PEX03 },
966     { ARMADAXP(MV78460), "mvpex",  4, ARMADAXP_PEX2_BASE,ARMADAXP_IRQ_PEX2 },
967     { ARMADAXP(MV78460), "mvpex",  5, ARMADAXP_PEX3_BASE,ARMADAXP_IRQ_PEX3 },
968     { ARMADAXP(MV78460), "mvsata", 0, ARMADAXP_SATAHC_BASE,ARMADAXP_IRQ_SATA0 },
969     { ARMADAXP(MV78460), "mvspi",  0, ARMADAXP_SPI_BASE,ARMADAXP_IRQ_SPI },
970     { ARMADAXP(MV78460), "mvsdio", 0, ARMADAXP_SDIO_BASE,ARMADAXP_IRQ_SDIO },
971 #if NMVXPE > 0
972     { ARMADAXP(MV78460), "mvxpbm", 0, MVA_OFFSET_DEFAULT,IRQ_DEFAULT },
973     { ARMADAXP(MV78460), "mvxpe", 0, ARMADAXP_GBE0_BASE,ARMADAXP_IRQ_GBE0_TH_RXTX },
974     { ARMADAXP(MV78460), "mvxpe", 1, ARMADAXP_GBE1_BASE,ARMADAXP_IRQ_GBE1_TH_RXTX },
975     { ARMADAXP(MV78460), "mvxpe", 2, ARMADAXP_GBE2_BASE,ARMADAXP_IRQ_GBE2_TH_RXTX },
976     { ARMADAXP(MV78460), "mvxpe", 3, ARMADAXP_GBE3_BASE,ARMADAXP_IRQ_GBE3_TH_RXTX },
977 #else
978     { ARMADAXP(MV78460), "mvgbec", 0, ARMADAXP_GBE0_BASE,IRQ_DEFAULT },
979     { ARMADAXP(MV78460), "mvgbec", 1, ARMADAXP_GBE1_BASE,IRQ_DEFAULT },
980     { ARMADAXP(MV78460), "mvgbec", 2, ARMADAXP_GBE2_BASE,IRQ_DEFAULT },
981     { ARMADAXP(MV78460), "mvgbec", 3, ARMADAXP_GBE3_BASE,IRQ_DEFAULT },
982 #endif
983 #if NMVXPSEC > 0
984     { ARMADAXP(MV78460), "mvxpsec", 0, ARMADAXP_XPSEC0_BASE,ARMADAXP_IRQ_CESA0 },
985     { ARMADAXP(MV78460), "mvxpsec", 1, ARMADAXP_XPSEC1_BASE,ARMADAXP_IRQ_CESA1 },
986 #else
987     { ARMADAXP(MV78460), "mvcesa", 0, ARMADAXP_CESA0_BASE,ARMADAXP_IRQ_CESA0 },
988     { ARMADAXP(MV78460), "mvcesa", 1, ARMADAXP_CESA1_BASE,ARMADAXP_IRQ_CESA1 },
989 #endif
990 
991     { ARMADA370(MV6710), "mvsoctmr",0,MVSOC_TMR_BASE,       ARMADAXP_IRQ_TIMER0 },
992     { ARMADA370(MV6710), "com",    0, MVSOC_COM0_BASE,      ARMADAXP_IRQ_UART0 },
993     { ARMADA370(MV6710), "com",    1, MVSOC_COM1_BASE,      ARMADAXP_IRQ_UART1 },
994     { ARMADA370(MV6710), "mvsocrtc",0,ARMADAXP_RTC_BASE,ARMADAXP_IRQ_RTC },
995     { ARMADA370(MV6710), "gttwsi", 0, MVSOC_TWSI_BASE,      ARMADAXP_IRQ_TWSI0 },
996     { ARMADA370(MV6710), "gttwsi", 1, ARMADAXP_TWSI1_BASE,ARMADAXP_IRQ_TWSI1 },
997     { ARMADA370(MV6710), "gtidmac",0, ARMADAXP_XORE0_BASE,IRQ_DEFAULT },
998     { ARMADA370(MV6710), "ehci",   0, ARMADAXP_USB0_BASE,ARMADAXP_IRQ_USB0 },
999     { ARMADA370(MV6710), "ehci",   1, ARMADAXP_USB1_BASE,ARMADAXP_IRQ_USB1 },
1000     { ARMADA370(MV6710), "mvpex",  0, MVSOC_PEX_BASE,       ARMADAXP_IRQ_PEX00 },
1001     { ARMADA370(MV6710), "mvpex",  1, ARMADAXP_PEX01_BASE,ARMADAXP_IRQ_PEX01 },
1002     { ARMADA370(MV6710), "mvsata", 0, ARMADAXP_SATAHC_BASE,ARMADAXP_IRQ_SATA0 },
1003     { ARMADA370(MV6710), "mvspi",  0, ARMADAXP_SPI_BASE,ARMADAXP_IRQ_SPI },
1004     { ARMADA370(MV6710), "mvspi",  1, ARMADAXP_SPI_BASE,ARMADAXP_IRQ_SPI },
1005     { ARMADA370(MV6710), "mvsdio", 0, ARMADAXP_SDIO_BASE,ARMADAXP_IRQ_SDIO },
1006 #if NMVXPE > 0
1007     { ARMADA370(MV6710), "mvxpbm", 0, MVA_OFFSET_DEFAULT,IRQ_DEFAULT },
1008     { ARMADA370(MV6710), "mvxpe", 0, ARMADAXP_GBE0_BASE,ARMADAXP_IRQ_GBE0_TH_RXTX },
1009     { ARMADA370(MV6710), "mvxpe", 1, ARMADAXP_GBE1_BASE,ARMADAXP_IRQ_GBE1_TH_RXTX },
1010 #else
1011     { ARMADA370(MV6710), "mvgbec", 0, ARMADAXP_GBE0_BASE,IRQ_DEFAULT },
1012     { ARMADA370(MV6710), "mvgbec", 1, ARMADAXP_GBE1_BASE,IRQ_DEFAULT },
1013 #endif
1014 #if NMVXPSEC > 0
1015     { ARMADA370(MV6710), "mvxpsec", 0, ARMADAXP_XPSEC0_BASE,ARMADAXP_IRQ_CESA0 },
1016 #else
1017     { ARMADA370(MV6710), "mvcesa", 0, ARMADAXP_CESA0_BASE,ARMADAXP_IRQ_CESA0 },
1018 #endif
1019 #endif
1020 };
1021 
1022 
1023 CFATTACH_DECL_NEW(mvsoc, sizeof(struct mvsoc_softc),
1024     mvsoc_match, mvsoc_attach, NULL, NULL);
1025 
1026 /* ARGSUSED */
1027 static int
mvsoc_match(device_t parent,struct cfdata * match,void * aux)1028 mvsoc_match(device_t parent, struct cfdata *match, void *aux)
1029 {
1030 
1031           return 1;
1032 }
1033 
1034 /* ARGSUSED */
1035 static void
mvsoc_attach(device_t parent,device_t self,void * aux)1036 mvsoc_attach(device_t parent, device_t self, void *aux)
1037 {
1038           struct mvsoc_softc *sc = device_private(self);
1039           struct marvell_attach_args mva;
1040           enum marvell_tags *tags;
1041           uint16_t model;
1042           uint8_t rev;
1043           int i;
1044 
1045           sc->sc_dev = self;
1046           sc->sc_iot = &mvsoc_bs_tag;
1047           sc->sc_addr = vtophys(regbase);
1048           sc->sc_dmat = &mvsoc_bus_dma_tag;
1049           if (bus_space_map(sc->sc_iot, sc->sc_addr, 0x100000, 0, &sc->sc_ioh) !=
1050               0) {
1051                     aprint_error_dev(self, "can't map registers\n");
1052                     return;
1053           }
1054 
1055           model = mvsoc_model();
1056           rev = mvsoc_rev();
1057           for (i = 0; i < __arraycount(nametbl); i++)
1058                     if (nametbl[i].model == model && nametbl[i].rev == rev)
1059                               break;
1060           if (i >= __arraycount(nametbl))
1061                     panic("unknown SoC: model 0x%04x, rev 0x%02x", model, rev);
1062 
1063           aprint_normal(": Marvell %s %s%s  %s\n",
1064               nametbl[i].modelstr,
1065               nametbl[i].revstr != NULL ? "Rev. " : "",
1066               nametbl[i].revstr != NULL ? nametbl[i].revstr : "",
1067               nametbl[i].typestr);
1068         aprint_normal("%s: CPU Clock %d.%03d MHz"
1069               "  SysClock %d.%03d MHz  TClock %d.%03d MHz\n",
1070               device_xname(self),
1071               mvPclk / 1000000, (mvPclk / 1000) % 1000,
1072               mvSysclk / 1000000, (mvSysclk / 1000) % 1000,
1073               mvTclk / 1000000, (mvTclk / 1000) % 1000);
1074           aprint_naive("\n");
1075 
1076           mvsoc_intr_init();
1077 
1078           for (i = 0; i < __arraycount(tagstbl); i++)
1079                     if (tagstbl[i].model == model && tagstbl[i].rev == rev)
1080                               break;
1081           if (i >= __arraycount(tagstbl))
1082                     panic("unknown SoC: model 0x%04x, rev 0x%02x", model, rev);
1083           tags = tagstbl[i].tags;
1084 
1085           if (boothowto & (AB_VERBOSE | AB_DEBUG))
1086                     mvsoc_target_dump(sc);
1087 
1088           for (i = 0; i < __arraycount(mvsoc_periphs); i++) {
1089                     if (mvsoc_periphs[i].model != model)
1090                               continue;
1091 
1092                     mva.mva_name = mvsoc_periphs[i].name;
1093                     mva.mva_model = model;
1094                     mva.mva_revision = rev;
1095                     mva.mva_iot = sc->sc_iot;
1096                     mva.mva_ioh = sc->sc_ioh;
1097                     mva.mva_unit = mvsoc_periphs[i].unit;
1098                     mva.mva_addr = sc->sc_addr;
1099                     mva.mva_offset = mvsoc_periphs[i].offset;
1100                     mva.mva_size = 0;
1101                     mva.mva_dmat = sc->sc_dmat;
1102                     mva.mva_irq = mvsoc_periphs[i].irq;
1103                     mva.mva_tags = tags;
1104 
1105                     /* Skip clock disabled devices */
1106                     if (mvsoc_clkgating != NULL && mvsoc_clkgating(&mva)) {
1107                               aprint_normal_dev(self, "%s%d clock disabled\n",
1108                                   mvsoc_periphs[i].name, mvsoc_periphs[i].unit);
1109                               continue;
1110                     }
1111 
1112                     config_found(sc->sc_dev, &mva, mvsoc_print,
1113                         CFARGS(.submatch = mvsoc_search));
1114           }
1115 }
1116 
1117 static int
mvsoc_print(void * aux,const char * pnp)1118 mvsoc_print(void *aux, const char *pnp)
1119 {
1120           struct marvell_attach_args *mva = aux;
1121 
1122           if (pnp)
1123                     aprint_normal("%s at %s unit %d",
1124                         mva->mva_name, pnp, mva->mva_unit);
1125           else {
1126                     if (mva->mva_unit != MVA_UNIT_DEFAULT)
1127                               aprint_normal(" unit %d", mva->mva_unit);
1128                     if (mva->mva_offset != MVA_OFFSET_DEFAULT) {
1129                               aprint_normal(" offset 0x%04lx", mva->mva_offset);
1130                               if (mva->mva_size > 0)
1131                                         aprint_normal("-0x%04lx",
1132                                             mva->mva_offset + mva->mva_size - 1);
1133                     }
1134                     if (mva->mva_irq != MVA_IRQ_DEFAULT)
1135                               aprint_normal(" irq %d", mva->mva_irq);
1136           }
1137 
1138           return UNCONF;
1139 }
1140 
1141 /* ARGSUSED */
1142 static int
mvsoc_search(device_t parent,cfdata_t cf,const int * ldesc,void * aux)1143 mvsoc_search(device_t parent, cfdata_t cf, const int *ldesc, void *aux)
1144 {
1145 
1146           return config_match(parent, cf, aux);
1147 }
1148 
1149 /* ARGSUSED */
1150 int
marvell_winparams_by_tag(device_t dev,int tag,int * target,int * attribute,uint64_t * base,uint32_t * size)1151 marvell_winparams_by_tag(device_t dev, int tag, int *target, int *attribute,
1152                                uint64_t *base, uint32_t *size)
1153 {
1154           uint32_t base32;
1155           int rv;
1156 
1157           rv = mvsoc_target(tag, target, attribute, &base32, size);
1158           *base = base32;
1159           if (rv == -1)
1160                     return -1;
1161           return 0;
1162 }
1163 
1164 
1165 /*
1166  * These functions is called before bus_space is initialized.
1167  */
1168 
1169 void
mvsoc_bootstrap(bus_addr_t iobase)1170 mvsoc_bootstrap(bus_addr_t iobase)
1171 {
1172 
1173           regbase = iobase;
1174           dsc_base = iobase + MVSOC_DSC_BASE;
1175           mlmb_base = iobase + MVSOC_MLMB_BASE;
1176           pex_base = iobase + MVSOC_PEX_BASE;
1177 #ifdef MVSOC_CONSOLE_EARLY
1178           com_base = iobase + MVSOC_COM0_BASE;
1179           cn_tab = &mvsoc_earlycons;
1180           printf("Hello\n");
1181 #endif
1182 }
1183 
1184 /*
1185  * We can read register of PCI configurations from (MVSOC_PEX_BASE + 0).
1186  */
1187 uint16_t
mvsoc_model(void)1188 mvsoc_model(void)
1189 {
1190           /*
1191            * We read product-id from vendor/device register of PCI-Express.
1192            */
1193           uint32_t reg;
1194           uint16_t model;
1195 
1196           KASSERT(regbase != 0xffffffff);
1197 
1198           reg = le32toh(*(volatile uint32_t *)(pex_base + PCI_ID_REG));
1199           model = PCI_PRODUCT(reg);
1200 
1201 #if defined(ORION)
1202           if (model == PCI_PRODUCT_MARVELL_88F5182) {
1203                     reg = le32toh(*(volatile uint32_t *)(regbase + ORION_PMI_BASE +
1204                         ORION_PMI_SAMPLE_AT_RESET));
1205                     if ((reg & ORION_PMISMPL_TCLK_MASK) == 0)
1206                               model = PCI_PRODUCT_MARVELL_88F5082;
1207           }
1208 #endif
1209 #if defined(KIRKWOOD)
1210           if (model == PCI_PRODUCT_MARVELL_88F6281) {
1211                     reg = le32toh(*(volatile uint32_t *)(regbase +
1212                         KIRKWOOD_MISC_BASE + KIRKWOOD_MISC_DEVICEID));
1213                     if (reg == 1)       /* 88F6192 is 1 */
1214                               model = MARVELL_KIRKWOOD_88F6192;
1215           }
1216 #endif
1217 
1218           return model;
1219 }
1220 
1221 uint8_t
mvsoc_rev(void)1222 mvsoc_rev(void)
1223 {
1224           uint32_t reg;
1225           uint8_t rev;
1226 
1227           KASSERT(regbase != 0xffffffff);
1228 
1229           reg = le32toh(*(volatile uint32_t *)(pex_base + PCI_CLASS_REG));
1230           rev = PCI_REVISION(reg);
1231 
1232           return rev;
1233 }
1234 
1235 
1236 int
mvsoc_target(int tag,uint32_t * target,uint32_t * attr,uint32_t * base,uint32_t * size)1237 mvsoc_target(int tag, uint32_t *target, uint32_t *attr, uint32_t *base,
1238                uint32_t *size)
1239 {
1240           int i;
1241 
1242           KASSERT(regbase != 0xffffffff);
1243 
1244           if (tag == MVSOC_TAG_INTERNALREG) {
1245                     if (target != NULL)
1246                               *target = 0;
1247                     if (attr != NULL)
1248                               *attr = 0;
1249                     if (base != NULL)
1250                               *base = read_mlmbreg(MVSOC_MLMB_IRBAR) &
1251                                   MVSOC_MLMB_IRBAR_BASE_MASK;
1252                     if (size != NULL)
1253                               *size = 0;
1254 
1255                     return 0;
1256           }
1257 
1258           /* sanity check */
1259           for (i = 0; i < __arraycount(mvsoc_tags); i++)
1260                     if (mvsoc_tags[i].tag == tag)
1261                               break;
1262           if (i >= __arraycount(mvsoc_tags))
1263                     return -1;
1264 
1265           if (target != NULL)
1266                     *target = mvsoc_tags[i].target;
1267           if (attr != NULL)
1268                     *attr = mvsoc_tags[i].attr;
1269 
1270           if (mvsoc_tags[i].target == MVSOC_UNITID_DDR) {
1271                     if (tag == MARVELL_TAG_SDRAM_CS0 ||
1272                         tag == MARVELL_TAG_SDRAM_CS1 ||
1273                         tag == MARVELL_TAG_SDRAM_CS2 ||
1274                         tag == MARVELL_TAG_SDRAM_CS3)
1275                               return mvsoc_target_ddr(mvsoc_tags[i].attr, base, size);
1276                     else if (tag == MARVELL_TAG_AXI_CS0 ||
1277                         tag == MARVELL_TAG_AXI_CS1)
1278                               return mvsoc_target_axi(tag, base, size);
1279                     else
1280                               return mvsoc_target_ddr3(mvsoc_tags[i].attr, base,
1281                                   size);
1282           } else
1283                     return mvsoc_target_peripheral(mvsoc_tags[i].target,
1284                         mvsoc_tags[i].attr, base, size);
1285 }
1286 
1287 static int
mvsoc_target_ddr(uint32_t attr,uint32_t * base,uint32_t * size)1288 mvsoc_target_ddr(uint32_t attr, uint32_t *base, uint32_t *size)
1289 {
1290           uint32_t baseaddrreg, sizereg;
1291           int cs;
1292 
1293           /*
1294            * Read DDR SDRAM Controller Address Decode Registers
1295            */
1296 
1297           switch (attr) {
1298           case MARVELL_ATTR_SDRAM_CS0:
1299                     cs = 0;
1300                     break;
1301           case MARVELL_ATTR_SDRAM_CS1:
1302                     cs = 1;
1303                     break;
1304           case MARVELL_ATTR_SDRAM_CS2:
1305                     cs = 2;
1306                     break;
1307           case MARVELL_ATTR_SDRAM_CS3:
1308                     cs = 3;
1309                     break;
1310           default:
1311                     aprint_error("unknown ATTR: 0x%x", attr);
1312                     return -1;
1313           }
1314           sizereg = le32toh(*(volatile uint32_t *)(dsc_base +
1315               MVSOC_DSC_CSSR(cs)));
1316           if (sizereg & MVSOC_DSC_CSSR_WINEN) {
1317                     baseaddrreg = le32toh(*(volatile uint32_t *)(dsc_base +
1318                         MVSOC_DSC_CSBAR(cs)));
1319 
1320                     if (base != NULL)
1321                               *base = baseaddrreg & MVSOC_DSC_CSBAR_BASE_MASK;
1322                     if (size != NULL)
1323                               *size = (sizereg & MVSOC_DSC_CSSR_SIZE_MASK) +
1324                                   (~MVSOC_DSC_CSSR_SIZE_MASK + 1);
1325           } else {
1326                     if (base != NULL)
1327                               *base = 0;
1328                     if (size != NULL)
1329                               *size = 0;
1330           }
1331           return 0;
1332 }
1333 
1334 static int
mvsoc_target_ddr3(uint32_t attr,uint32_t * base,uint32_t * size)1335 mvsoc_target_ddr3(uint32_t attr, uint32_t *base, uint32_t *size)
1336 {
1337           uint32_t baseaddrreg, sizereg;
1338           int cs, i;
1339 
1340           /*
1341            * Read DDR3 SDRAM Address Decoding Registers
1342            */
1343 
1344           switch (attr) {
1345           case MARVELL_ATTR_SDRAM_CS0:
1346                     cs = 0;
1347                     break;
1348           case MARVELL_ATTR_SDRAM_CS1:
1349                     cs = 1;
1350                     break;
1351           case MARVELL_ATTR_SDRAM_CS2:
1352                     cs = 2;
1353                     break;
1354           case MARVELL_ATTR_SDRAM_CS3:
1355                     cs = 3;
1356                     break;
1357           default:
1358                     aprint_error("unknown ATTR: 0x%x", attr);
1359                     return -1;
1360           }
1361           for (i = 0; i < MVSOC_MLMB_NWIN; i++) {
1362                     sizereg = read_mlmbreg(MVSOC_MLMB_WINCR(i));
1363                     if ((sizereg & MVSOC_MLMB_WINCR_EN) &&
1364                         MVSOC_MLMB_WINCR_WINCS(sizereg) == cs)
1365                               break;
1366           }
1367           if (i == MVSOC_MLMB_NWIN) {
1368                     if (base != NULL)
1369                               *base = 0;
1370                     if (size != NULL)
1371                               *size = 0;
1372                     return 0;
1373           }
1374 
1375           baseaddrreg = read_mlmbreg(MVSOC_MLMB_WINBAR(i));
1376           if (base != NULL)
1377                     *base = baseaddrreg & MVSOC_MLMB_WINBAR_BASE_MASK;
1378           if (size != NULL)
1379                     *size = (sizereg & MVSOC_MLMB_WINCR_SIZE_MASK) +
1380                         (~MVSOC_MLMB_WINCR_SIZE_MASK + 1);
1381           return 0;
1382 }
1383 
1384 static int
mvsoc_target_axi(int tag,uint32_t * base,uint32_t * size)1385 mvsoc_target_axi(int tag, uint32_t *base, uint32_t *size)
1386 {
1387           uint32_t val;
1388           int cs;
1389 
1390           /*
1391            * Read MMAP1 Chip Select N the other side of AXI DDR Registers
1392            */
1393 
1394           switch (tag) {
1395           case MARVELL_TAG_AXI_CS0:
1396                     cs = 0;
1397                     break;
1398           case MARVELL_TAG_AXI_CS1:
1399                     cs = 1;
1400                     break;
1401           default:
1402                     aprint_error("unknown TAG: 0x%x", tag);
1403                     return -1;
1404           }
1405           val = le32toh(*(volatile uint32_t *)(regbase + MVSOC_AXI_MMAP1(cs)));
1406           if (val & MVSOC_AXI_MMAP1_VALID) {
1407                     if (base != NULL)
1408                               *base = MVSOC_AXI_MMAP1_STARTADDRESS(val);
1409                     if (size != NULL)
1410                               *size = MVSOC_AXI_MMAP1_AREALENGTH(val);
1411           } else {
1412                     if (base != NULL)
1413                               *base = 0;
1414                     if (size != NULL)
1415                               *size = 0;
1416           }
1417           return 0;
1418 }
1419 
1420 static int
mvsoc_target_peripheral(uint32_t target,uint32_t attr,uint32_t * base,uint32_t * size)1421 mvsoc_target_peripheral(uint32_t target, uint32_t attr, uint32_t *base,
1422                               uint32_t *size)
1423 {
1424           uint32_t basereg, ctrlreg, ta, tamask;
1425           int i;
1426 
1427           /*
1428            * Read CPU Address Map Registers
1429            */
1430 
1431           ta = MVSOC_MLMB_WCR_TARGET(target) | MVSOC_MLMB_WCR_ATTR(attr);
1432           tamask = MVSOC_MLMB_WCR_TARGET(MVSOC_UNITID_MASK) |
1433               MVSOC_MLMB_WCR_ATTR(MARVELL_ATTR_MASK);
1434 
1435           if (base != NULL)
1436                     *base = 0;
1437           if (size != NULL)
1438                     *size = 0;
1439 
1440           for (i = 0; i < nwindow; i++) {
1441                     ctrlreg = read_mlmbreg(MVSOC_MLMB_WCR(i));
1442                     if ((ctrlreg & tamask) != ta)
1443                               continue;
1444                     if (ctrlreg & MVSOC_MLMB_WCR_WINEN) {
1445                               basereg = read_mlmbreg(MVSOC_MLMB_WBR(i));
1446 
1447                               if (base != NULL)
1448                                         *base = basereg & MVSOC_MLMB_WBR_BASE_MASK;
1449                               if (size != NULL)
1450                                         *size = (ctrlreg &
1451                                             MVSOC_MLMB_WCR_SIZE_MASK) +
1452                                             (~MVSOC_MLMB_WCR_SIZE_MASK + 1);
1453                     }
1454                     break;
1455           }
1456           return i;
1457 }
1458 
1459 int
mvsoc_target_dump(struct mvsoc_softc * sc)1460 mvsoc_target_dump(struct mvsoc_softc *sc)
1461 {
1462           uint32_t reg, base, size, target, attr, enable;
1463           int i, n;
1464 
1465           for (i = 0, n = 0; i < nwindow; i++) {
1466                     reg = read_mlmbreg(MVSOC_MLMB_WCR(i));
1467                     enable = reg & MVSOC_MLMB_WCR_WINEN;
1468                     target = MVSOC_MLMB_WCR_GET_TARGET(reg);
1469                     attr = MVSOC_MLMB_WCR_GET_ATTR(reg);
1470                     size = MVSOC_MLMB_WCR_GET_SIZE(reg);
1471 
1472                     reg = read_mlmbreg(MVSOC_MLMB_WBR(i));
1473                     base = MVSOC_MLMB_WBR_GET_BASE(reg);
1474 
1475                     if (!enable)
1476                               continue;
1477 
1478                     aprint_verbose_dev(sc->sc_dev,
1479                         "Mbus window %2d: Base 0x%08x Size 0x%08x ", i, base, size);
1480 #ifdef ARMADAXP
1481                     armadaxp_attr_dump(sc, target, attr);
1482 #else
1483                     mvsoc_attr_dump(sc, target, attr);
1484 #endif
1485                     printf("\n");
1486                     n++;
1487           }
1488 
1489           return n;
1490 }
1491 
1492 int
mvsoc_attr_dump(struct mvsoc_softc * sc,uint32_t target,uint32_t attr)1493 mvsoc_attr_dump(struct mvsoc_softc *sc, uint32_t target, uint32_t attr)
1494 {
1495           aprint_verbose_dev(sc->sc_dev, "target 0x%x(attr 0x%x)", target, attr);
1496           return 0;
1497 }
1498