spi-topcliff-pch: supports a spi mode setup and bit order setup by IO control
[zen-stable.git] / arch / arm / mach-shmobile / intc-sh73a0.c
blob9857595eaa7925186f73664277c0ddf9a57a481b
1 /*
2 * sh73a0 processor support - INTC hardware block
4 * Copyright (C) 2010 Magnus Damm
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation; version 2 of the License.
10 * This program is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 * GNU General Public License for more details.
15 * You should have received a copy of the GNU General Public License
16 * along with this program; if not, write to the Free Software
17 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
19 #include <linux/kernel.h>
20 #include <linux/init.h>
21 #include <linux/interrupt.h>
22 #include <linux/module.h>
23 #include <linux/irq.h>
24 #include <linux/io.h>
25 #include <linux/sh_intc.h>
26 #include <mach/intc.h>
27 #include <mach/sh73a0.h>
28 #include <asm/hardware/gic.h>
29 #include <asm/mach-types.h>
30 #include <asm/mach/arch.h>
32 enum {
33 UNUSED = 0,
35 /* interrupt sources INTCS */
36 PINTCS_PINT1, PINTCS_PINT2,
37 RTDMAC_0_DEI0, RTDMAC_0_DEI1, RTDMAC_0_DEI2, RTDMAC_0_DEI3,
38 CEU, MFI, BBIF2, VPU, TSIF1, _3DG_SGX543, _2DDMAC_2DDM0,
39 RTDMAC_1_DEI4, RTDMAC_1_DEI5, RTDMAC_1_DADERR,
40 KEYSC_KEY, VINT, MSIOF,
41 TMU0_TUNI00, TMU0_TUNI01, TMU0_TUNI02,
42 CMT0, TSIF0, CMT2, LMB, MSUG, MSU_MSU, MSU_MSU2,
43 CTI, RWDT0, ICB, PEP, ASA, JPU_JPEG, LCDC, LCRC,
44 RTDMAC_2_DEI6, RTDMAC_2_DEI7, RTDMAC_2_DEI8, RTDMAC_2_DEI9,
45 RTDMAC_3_DEI10, RTDMAC_3_DEI11,
46 FRC, GCU, LCDC1, CSIRX,
47 DSITX0_DSITX00, DSITX0_DSITX01,
48 SPU2_SPU0, SPU2_SPU1, FSI,
49 TMU1_TUNI10, TMU1_TUNI11, TMU1_TUNI12,
50 TSIF2, CMT4, MFIS2, CPORTS2R, TSG, DMASCH1, SCUW,
51 VIO60, VIO61, CEU21, CSI21, DSITX1_DSITX10, DSITX1_DSITX11,
52 DISP, DSRV, EMUX2_EMUX20I, EMUX2_EMUX21I,
53 MSTIF0_MST00I, MSTIF0_MST01I, MSTIF1_MST10I, MSTIF1_MST11I,
54 SPUV,
56 /* interrupt groups INTCS */
57 RTDMAC_0, RTDMAC_1, RTDMAC_2, RTDMAC_3,
58 DSITX0, SPU2, TMU1, MSU,
61 static struct intc_vect intcs_vectors[] = {
62 INTCS_VECT(PINTCS_PINT1, 0x0600), INTCS_VECT(PINTCS_PINT2, 0x0620),
63 INTCS_VECT(RTDMAC_0_DEI0, 0x0800), INTCS_VECT(RTDMAC_0_DEI1, 0x0820),
64 INTCS_VECT(RTDMAC_0_DEI2, 0x0840), INTCS_VECT(RTDMAC_0_DEI3, 0x0860),
65 INTCS_VECT(CEU, 0x0880), INTCS_VECT(MFI, 0x0900),
66 INTCS_VECT(BBIF2, 0x0960), INTCS_VECT(VPU, 0x0980),
67 INTCS_VECT(TSIF1, 0x09a0), INTCS_VECT(_3DG_SGX543, 0x09e0),
68 INTCS_VECT(_2DDMAC_2DDM0, 0x0a00),
69 INTCS_VECT(RTDMAC_1_DEI4, 0x0b80), INTCS_VECT(RTDMAC_1_DEI5, 0x0ba0),
70 INTCS_VECT(RTDMAC_1_DADERR, 0x0bc0),
71 INTCS_VECT(KEYSC_KEY, 0x0be0), INTCS_VECT(VINT, 0x0c80),
72 INTCS_VECT(MSIOF, 0x0d20),
73 INTCS_VECT(TMU0_TUNI00, 0x0e80), INTCS_VECT(TMU0_TUNI01, 0x0ea0),
74 INTCS_VECT(TMU0_TUNI02, 0x0ec0),
75 INTCS_VECT(CMT0, 0x0f00), INTCS_VECT(TSIF0, 0x0f20),
76 INTCS_VECT(CMT2, 0x0f40), INTCS_VECT(LMB, 0x0f60),
77 INTCS_VECT(MSUG, 0x0f80),
78 INTCS_VECT(MSU_MSU, 0x0fa0), INTCS_VECT(MSU_MSU2, 0x0fc0),
79 INTCS_VECT(CTI, 0x0400), INTCS_VECT(RWDT0, 0x0440),
80 INTCS_VECT(ICB, 0x0480), INTCS_VECT(PEP, 0x04a0),
81 INTCS_VECT(ASA, 0x04c0), INTCS_VECT(JPU_JPEG, 0x0560),
82 INTCS_VECT(LCDC, 0x0580), INTCS_VECT(LCRC, 0x05a0),
83 INTCS_VECT(RTDMAC_2_DEI6, 0x1300), INTCS_VECT(RTDMAC_2_DEI7, 0x1320),
84 INTCS_VECT(RTDMAC_2_DEI8, 0x1340), INTCS_VECT(RTDMAC_2_DEI9, 0x1360),
85 INTCS_VECT(RTDMAC_3_DEI10, 0x1380), INTCS_VECT(RTDMAC_3_DEI11, 0x13a0),
86 INTCS_VECT(FRC, 0x1700), INTCS_VECT(GCU, 0x1760),
87 INTCS_VECT(LCDC1, 0x1780), INTCS_VECT(CSIRX, 0x17a0),
88 INTCS_VECT(DSITX0_DSITX00, 0x17c0), INTCS_VECT(DSITX0_DSITX01, 0x17e0),
89 INTCS_VECT(SPU2_SPU0, 0x1800), INTCS_VECT(SPU2_SPU1, 0x1820),
90 INTCS_VECT(FSI, 0x1840),
91 INTCS_VECT(TMU1_TUNI10, 0x1900), INTCS_VECT(TMU1_TUNI11, 0x1920),
92 INTCS_VECT(TMU1_TUNI12, 0x1940),
93 INTCS_VECT(TSIF2, 0x1960), INTCS_VECT(CMT4, 0x1980),
94 INTCS_VECT(MFIS2, 0x1a00), INTCS_VECT(CPORTS2R, 0x1a20),
95 INTCS_VECT(TSG, 0x1ae0), INTCS_VECT(DMASCH1, 0x1b00),
96 INTCS_VECT(SCUW, 0x1b40),
97 INTCS_VECT(VIO60, 0x1b60), INTCS_VECT(VIO61, 0x1b80),
98 INTCS_VECT(CEU21, 0x1ba0), INTCS_VECT(CSI21, 0x1be0),
99 INTCS_VECT(DSITX1_DSITX10, 0x1c00), INTCS_VECT(DSITX1_DSITX11, 0x1c20),
100 INTCS_VECT(DISP, 0x1c40), INTCS_VECT(DSRV, 0x1c60),
101 INTCS_VECT(EMUX2_EMUX20I, 0x1c80), INTCS_VECT(EMUX2_EMUX21I, 0x1ca0),
102 INTCS_VECT(MSTIF0_MST00I, 0x1cc0), INTCS_VECT(MSTIF0_MST01I, 0x1ce0),
103 INTCS_VECT(MSTIF1_MST10I, 0x1d00), INTCS_VECT(MSTIF1_MST11I, 0x1d20),
104 INTCS_VECT(SPUV, 0x2300),
107 static struct intc_group intcs_groups[] __initdata = {
108 INTC_GROUP(RTDMAC_0, RTDMAC_0_DEI0, RTDMAC_0_DEI1,
109 RTDMAC_0_DEI2, RTDMAC_0_DEI3),
110 INTC_GROUP(RTDMAC_1, RTDMAC_1_DEI4, RTDMAC_1_DEI5, RTDMAC_1_DADERR),
111 INTC_GROUP(RTDMAC_2, RTDMAC_2_DEI6, RTDMAC_2_DEI7,
112 RTDMAC_2_DEI8, RTDMAC_2_DEI9),
113 INTC_GROUP(RTDMAC_3, RTDMAC_3_DEI10, RTDMAC_3_DEI11),
114 INTC_GROUP(TMU1, TMU1_TUNI12, TMU1_TUNI11, TMU1_TUNI10),
115 INTC_GROUP(DSITX0, DSITX0_DSITX00, DSITX0_DSITX01),
116 INTC_GROUP(SPU2, SPU2_SPU0, SPU2_SPU1),
117 INTC_GROUP(MSU, MSU_MSU, MSU_MSU2),
120 static struct intc_mask_reg intcs_mask_registers[] = {
121 { 0xffd20184, 0xffd201c4, 8, /* IMR1SA / IMCR1SA */
122 { 0, 0, 0, CEU,
123 0, 0, 0, 0 } },
124 { 0xffd20188, 0xffd201c8, 8, /* IMR2SA / IMCR2SA */
125 { 0, 0, 0, VPU,
126 BBIF2, 0, 0, MFI } },
127 { 0xffd2018c, 0xffd201cc, 8, /* IMR3SA / IMCR3SA */
128 { 0, 0, 0, _2DDMAC_2DDM0,
129 0, ASA, PEP, ICB } },
130 { 0xffd20190, 0xffd201d0, 8, /* IMR4SA / IMCR4SA */
131 { 0, 0, 0, CTI,
132 JPU_JPEG, 0, LCRC, LCDC } },
133 { 0xffd20194, 0xffd201d4, 8, /* IMR5SA / IMCR5SA */
134 { KEYSC_KEY, RTDMAC_1_DADERR, RTDMAC_1_DEI5, RTDMAC_1_DEI4,
135 RTDMAC_0_DEI3, RTDMAC_0_DEI2, RTDMAC_0_DEI1, RTDMAC_0_DEI0 } },
136 { 0xffd20198, 0xffd201d8, 8, /* IMR6SA / IMCR6SA */
137 { 0, 0, MSIOF, 0,
138 _3DG_SGX543, 0, 0, 0 } },
139 { 0xffd2019c, 0xffd201dc, 8, /* IMR7SA / IMCR7SA */
140 { 0, TMU0_TUNI02, TMU0_TUNI01, TMU0_TUNI00,
141 0, 0, 0, 0 } },
142 { 0xffd201a0, 0xffd201e0, 8, /* IMR8SA / IMCR8SA */
143 { 0, 0, 0, 0,
144 0, MSU_MSU, MSU_MSU2, MSUG } },
145 { 0xffd201a4, 0xffd201e4, 8, /* IMR9SA / IMCR9SA */
146 { 0, RWDT0, CMT2, CMT0,
147 0, 0, 0, 0 } },
148 { 0xffd201ac, 0xffd201ec, 8, /* IMR11SA / IMCR11SA */
149 { 0, 0, 0, 0,
150 0, TSIF1, LMB, TSIF0 } },
151 { 0xffd201b0, 0xffd201f0, 8, /* IMR12SA / IMCR12SA */
152 { 0, 0, 0, 0,
153 0, 0, PINTCS_PINT2, PINTCS_PINT1 } },
154 { 0xffd50180, 0xffd501c0, 8, /* IMR0SA3 / IMCR0SA3 */
155 { RTDMAC_2_DEI6, RTDMAC_2_DEI7, RTDMAC_2_DEI8, RTDMAC_2_DEI9,
156 RTDMAC_3_DEI10, RTDMAC_3_DEI11, 0, 0 } },
157 { 0xffd50190, 0xffd501d0, 8, /* IMR4SA3 / IMCR4SA3 */
158 { FRC, 0, 0, GCU,
159 LCDC1, CSIRX, DSITX0_DSITX00, DSITX0_DSITX01 } },
160 { 0xffd50194, 0xffd501d4, 8, /* IMR5SA3 / IMCR5SA3 */
161 { SPU2_SPU0, SPU2_SPU1, FSI, 0,
162 0, 0, 0, 0 } },
163 { 0xffd50198, 0xffd501d8, 8, /* IMR6SA3 / IMCR6SA3 */
164 { TMU1_TUNI10, TMU1_TUNI11, TMU1_TUNI12, 0,
165 TSIF2, CMT4, 0, 0 } },
166 { 0xffd5019c, 0xffd501dc, 8, /* IMR7SA3 / IMCR7SA3 */
167 { MFIS2, CPORTS2R, 0, 0,
168 0, 0, 0, TSG } },
169 { 0xffd501a0, 0xffd501e0, 8, /* IMR8SA3 / IMCR8SA3 */
170 { DMASCH1, 0, SCUW, VIO60,
171 VIO61, CEU21, 0, CSI21 } },
172 { 0xffd501a4, 0xffd501e4, 8, /* IMR9SA3 / IMCR9SA3 */
173 { DSITX1_DSITX10, DSITX1_DSITX11, DISP, DSRV,
174 EMUX2_EMUX20I, EMUX2_EMUX21I, MSTIF0_MST00I, MSTIF0_MST01I } },
175 { 0xffd501a8, 0xffd501e8, 8, /* IMR10SA3 / IMCR10SA3 */
176 { MSTIF0_MST00I, MSTIF0_MST01I, 0, 0,
177 0, 0, 0, 0 } },
178 { 0xffd60180, 0xffd601c0, 8, /* IMR0SA4 / IMCR0SA4 */
179 { SPUV, 0, 0, 0,
180 0, 0, 0, 0 } },
183 /* Priority is needed for INTCA to receive the INTCS interrupt */
184 static struct intc_prio_reg intcs_prio_registers[] = {
185 { 0xffd20000, 0, 16, 4, /* IPRAS */ { CTI, 0, _2DDMAC_2DDM0, ICB } },
186 { 0xffd20004, 0, 16, 4, /* IPRBS */ { JPU_JPEG, LCDC, 0, LCRC } },
187 { 0xffd20008, 0, 16, 4, /* IPRCS */ { BBIF2, 0, 0, 0 } },
188 { 0xffd2000c, 0, 16, 4, /* IPRDS */ { PINTCS_PINT1, PINTCS_PINT2,
189 0, 0 } },
190 { 0xffd20010, 0, 16, 4, /* IPRES */ { RTDMAC_0, CEU, MFI, VPU } },
191 { 0xffd20014, 0, 16, 4, /* IPRFS */ { KEYSC_KEY, RTDMAC_1,
192 CMT2, CMT0 } },
193 { 0xffd20018, 0, 16, 4, /* IPRGS */ { TMU0_TUNI00, TMU0_TUNI01,
194 TMU0_TUNI02, TSIF1 } },
195 { 0xffd2001c, 0, 16, 4, /* IPRHS */ { VINT, 0, 0, 0 } },
196 { 0xffd20020, 0, 16, 4, /* IPRIS */ { 0, MSIOF, TSIF0, 0 } },
197 { 0xffd20024, 0, 16, 4, /* IPRJS */ { 0, _3DG_SGX543, MSUG, MSU } },
198 { 0xffd20028, 0, 16, 4, /* IPRKS */ { 0, ASA, LMB, PEP } },
199 { 0xffd20030, 0, 16, 4, /* IPRMS */ { 0, 0, 0, RWDT0 } },
200 { 0xffd50000, 0, 16, 4, /* IPRAS3 */ { RTDMAC_2, 0, 0, 0 } },
201 { 0xffd50004, 0, 16, 4, /* IPRBS3 */ { RTDMAC_3, 0, 0, 0 } },
202 { 0xffd50020, 0, 16, 4, /* IPRIS3 */ { FRC, 0, 0, 0 } },
203 { 0xffd50024, 0, 16, 4, /* IPRJS3 */ { LCDC1, CSIRX, DSITX0, 0 } },
204 { 0xffd50028, 0, 16, 4, /* IPRKS3 */ { SPU2, 0, FSI, 0 } },
205 { 0xffd50030, 0, 16, 4, /* IPRMS3 */ { TMU1, 0, 0, TSIF2 } },
206 { 0xffd50034, 0, 16, 4, /* IPRNS3 */ { CMT4, 0, 0, 0 } },
207 { 0xffd50038, 0, 16, 4, /* IPROS3 */ { MFIS2, CPORTS2R, 0, 0 } },
208 { 0xffd50040, 0, 16, 4, /* IPRQS3 */ { DMASCH1, 0, SCUW, VIO60 } },
209 { 0xffd50044, 0, 16, 4, /* IPRRS3 */ { VIO61, CEU21, 0, CSI21 } },
210 { 0xffd50048, 0, 16, 4, /* IPRSS3 */ { DSITX1_DSITX10, DSITX1_DSITX11,
211 DISP, DSRV } },
212 { 0xffd5004c, 0, 16, 4, /* IPRTS3 */ { EMUX2_EMUX20I, EMUX2_EMUX21I,
213 MSTIF0_MST00I, MSTIF0_MST01I } },
214 { 0xffd50050, 0, 16, 4, /* IPRUS3 */ { MSTIF1_MST10I, MSTIF1_MST11I,
215 0, 0 } },
216 { 0xffd60000, 0, 16, 4, /* IPRAS4 */ { SPUV, 0, 0, 0 } },
219 static struct resource intcs_resources[] __initdata = {
220 [0] = {
221 .start = 0xffd20000,
222 .end = 0xffd201ff,
223 .flags = IORESOURCE_MEM,
225 [1] = {
226 .start = 0xffd50000,
227 .end = 0xffd501ff,
228 .flags = IORESOURCE_MEM,
230 [2] = {
231 .start = 0xffd60000,
232 .end = 0xffd601ff,
233 .flags = IORESOURCE_MEM,
237 static struct intc_desc intcs_desc __initdata = {
238 .name = "sh73a0-intcs",
239 .resource = intcs_resources,
240 .num_resources = ARRAY_SIZE(intcs_resources),
241 .hw = INTC_HW_DESC(intcs_vectors, intcs_groups, intcs_mask_registers,
242 intcs_prio_registers, NULL, NULL),
245 static struct irqaction sh73a0_intcs_cascade;
247 static irqreturn_t sh73a0_intcs_demux(int irq, void *dev_id)
249 unsigned int evtcodeas = ioread32((void __iomem *)dev_id);
251 generic_handle_irq(intcs_evt2irq(evtcodeas));
253 return IRQ_HANDLED;
256 static int sh73a0_set_wake(struct irq_data *data, unsigned int on)
258 return 0; /* always allow wakeup */
261 #define RELOC_BASE 0x1000
263 /* INTCA IRQ pins at INTCS + 0x1000 to make space for GIC+INTC handling */
264 #define INTCS_VECT_RELOC(n, vect) INTCS_VECT((n), (vect) + RELOC_BASE)
266 INTC_IRQ_PINS_32(intca_irq_pins, 0xe6900000,
267 INTCS_VECT_RELOC, "sh73a0-intca-irq-pins");
269 static int to_gic_irq(struct irq_data *data)
271 unsigned int vect = irq2evt(data->irq) - INTCS_VECT_BASE;
273 if (vect >= 0x3200)
274 vect -= 0x3000;
275 else
276 vect -= 0x0200;
278 return gic_spi((vect >> 5) + 1);
281 static int to_intca_reloc_irq(struct irq_data *data)
283 return data->irq + (RELOC_BASE >> 5);
286 #define irq_cb(cb, irq) irq_get_chip(irq)->cb(irq_get_irq_data(irq))
287 #define irq_cbp(cb, irq, p...) irq_get_chip(irq)->cb(irq_get_irq_data(irq), p)
289 static void intca_gic_enable(struct irq_data *data)
291 irq_cb(irq_unmask, to_intca_reloc_irq(data));
292 irq_cb(irq_unmask, to_gic_irq(data));
295 static void intca_gic_disable(struct irq_data *data)
297 irq_cb(irq_mask, to_gic_irq(data));
298 irq_cb(irq_mask, to_intca_reloc_irq(data));
301 static void intca_gic_mask_ack(struct irq_data *data)
303 irq_cb(irq_mask, to_gic_irq(data));
304 irq_cb(irq_mask_ack, to_intca_reloc_irq(data));
307 static void intca_gic_eoi(struct irq_data *data)
309 irq_cb(irq_eoi, to_gic_irq(data));
312 static int intca_gic_set_type(struct irq_data *data, unsigned int type)
314 return irq_cbp(irq_set_type, to_intca_reloc_irq(data), type);
317 static int intca_gic_set_wake(struct irq_data *data, unsigned int on)
319 return irq_cbp(irq_set_wake, to_intca_reloc_irq(data), on);
322 #ifdef CONFIG_SMP
323 static int intca_gic_set_affinity(struct irq_data *data,
324 const struct cpumask *cpumask,
325 bool force)
327 return irq_cbp(irq_set_affinity, to_gic_irq(data), cpumask, force);
329 #endif
331 struct irq_chip intca_gic_irq_chip = {
332 .name = "INTCA-GIC",
333 .irq_mask = intca_gic_disable,
334 .irq_unmask = intca_gic_enable,
335 .irq_mask_ack = intca_gic_mask_ack,
336 .irq_eoi = intca_gic_eoi,
337 .irq_enable = intca_gic_enable,
338 .irq_disable = intca_gic_disable,
339 .irq_shutdown = intca_gic_disable,
340 .irq_set_type = intca_gic_set_type,
341 .irq_set_wake = intca_gic_set_wake,
342 #ifdef CONFIG_SMP
343 .irq_set_affinity = intca_gic_set_affinity,
344 #endif
347 static int to_intc_vect(int irq)
349 unsigned int irq_pin = irq - gic_spi(1);
350 unsigned int offs;
352 if (irq_pin < 16)
353 offs = 0x0200;
354 else
355 offs = 0x3000;
357 return offs + (irq_pin << 5);
360 static irqreturn_t sh73a0_irq_pin_demux(int irq, void *dev_id)
362 generic_handle_irq(intcs_evt2irq(to_intc_vect(irq)));
363 return IRQ_HANDLED;
366 static struct irqaction sh73a0_irq_pin_cascade[32];
368 #define PINTER0 0xe69000a0
369 #define PINTER1 0xe69000a4
370 #define PINTRR0 0xe69000d0
371 #define PINTRR1 0xe69000d4
373 #define PINT0A_IRQ(n, irq) INTC_IRQ((n), SH73A0_PINT0_IRQ(irq))
374 #define PINT0B_IRQ(n, irq) INTC_IRQ((n), SH73A0_PINT0_IRQ(irq + 8))
375 #define PINT0C_IRQ(n, irq) INTC_IRQ((n), SH73A0_PINT0_IRQ(irq + 16))
376 #define PINT0D_IRQ(n, irq) INTC_IRQ((n), SH73A0_PINT0_IRQ(irq + 24))
377 #define PINT1E_IRQ(n, irq) INTC_IRQ((n), SH73A0_PINT1_IRQ(irq))
379 INTC_PINT(intc_pint0, PINTER0, 0xe69000b0, "sh73a0-pint0", \
380 INTC_PINT_E(A), INTC_PINT_E(B), INTC_PINT_E(C), INTC_PINT_E(D), \
381 INTC_PINT_V(A, PINT0A_IRQ), INTC_PINT_V(B, PINT0B_IRQ), \
382 INTC_PINT_V(C, PINT0C_IRQ), INTC_PINT_V(D, PINT0D_IRQ), \
383 INTC_PINT_E(A), INTC_PINT_E(B), INTC_PINT_E(C), INTC_PINT_E(D), \
384 INTC_PINT_E(A), INTC_PINT_E(B), INTC_PINT_E(C), INTC_PINT_E(D));
386 INTC_PINT(intc_pint1, PINTER1, 0xe69000c0, "sh73a0-pint1", \
387 INTC_PINT_E(E), INTC_PINT_E_EMPTY, INTC_PINT_E_EMPTY, INTC_PINT_E_EMPTY, \
388 INTC_PINT_V(E, PINT1E_IRQ), INTC_PINT_V_NONE, \
389 INTC_PINT_V_NONE, INTC_PINT_V_NONE, \
390 INTC_PINT_E_NONE, INTC_PINT_E_NONE, INTC_PINT_E_NONE, INTC_PINT_E(E), \
391 INTC_PINT_E(E), INTC_PINT_E_NONE, INTC_PINT_E_NONE, INTC_PINT_E_NONE);
393 static struct irqaction sh73a0_pint0_cascade;
394 static struct irqaction sh73a0_pint1_cascade;
396 static void pint_demux(unsigned long rr, unsigned long er, int base_irq)
398 unsigned long value = ioread32(rr) & ioread32(er);
399 int k;
401 for (k = 0; k < 32; k++) {
402 if (value & (1 << (31 - k))) {
403 generic_handle_irq(base_irq + k);
404 iowrite32(~(1 << (31 - k)), rr);
409 static irqreturn_t sh73a0_pint0_demux(int irq, void *dev_id)
411 pint_demux(PINTRR0, PINTER0, SH73A0_PINT0_IRQ(0));
412 return IRQ_HANDLED;
415 static irqreturn_t sh73a0_pint1_demux(int irq, void *dev_id)
417 pint_demux(PINTRR1, PINTER1, SH73A0_PINT1_IRQ(0));
418 return IRQ_HANDLED;
421 void __init sh73a0_init_irq(void)
423 void __iomem *gic_dist_base = __io(0xf0001000);
424 void __iomem *gic_cpu_base = __io(0xf0000100);
425 void __iomem *intevtsa = ioremap_nocache(0xffd20100, PAGE_SIZE);
426 int k, n;
428 gic_init(0, 29, gic_dist_base, gic_cpu_base);
429 gic_arch_extn.irq_set_wake = sh73a0_set_wake;
431 register_intc_controller(&intcs_desc);
432 register_intc_controller(&intca_irq_pins_desc);
433 register_intc_controller(&intc_pint0_desc);
434 register_intc_controller(&intc_pint1_desc);
436 /* demux using INTEVTSA */
437 sh73a0_intcs_cascade.name = "INTCS cascade";
438 sh73a0_intcs_cascade.handler = sh73a0_intcs_demux;
439 sh73a0_intcs_cascade.dev_id = intevtsa;
440 setup_irq(gic_spi(50), &sh73a0_intcs_cascade);
442 /* IRQ pins require special handling through INTCA and GIC */
443 for (k = 0; k < 32; k++) {
444 sh73a0_irq_pin_cascade[k].name = "INTCA-GIC cascade";
445 sh73a0_irq_pin_cascade[k].handler = sh73a0_irq_pin_demux;
446 setup_irq(gic_spi(1 + k), &sh73a0_irq_pin_cascade[k]);
448 n = intcs_evt2irq(to_intc_vect(gic_spi(1 + k)));
449 WARN_ON(irq_alloc_desc_at(n, numa_node_id()) != n);
450 irq_set_chip_and_handler_name(n, &intca_gic_irq_chip,
451 handle_level_irq, "level");
452 set_irq_flags(n, IRQF_VALID); /* yuck */
455 /* PINT pins are sanely tied to the GIC as SPI */
456 sh73a0_pint0_cascade.name = "PINT0 cascade";
457 sh73a0_pint0_cascade.handler = sh73a0_pint0_demux;
458 setup_irq(gic_spi(33), &sh73a0_pint0_cascade);
460 sh73a0_pint1_cascade.name = "PINT1 cascade";
461 sh73a0_pint1_cascade.handler = sh73a0_pint1_demux;
462 setup_irq(gic_spi(34), &sh73a0_pint1_cascade);