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TOMOYO Linux Cross Reference
Linux/arch/powerpc/sysdev/mpic.c

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  1 /*
  2  *  arch/powerpc/kernel/mpic.c
  3  *
  4  *  Driver for interrupt controllers following the OpenPIC standard, the
  5  *  common implementation being IBM's MPIC. This driver also can deal
  6  *  with various broken implementations of this HW.
  7  *
  8  *  Copyright (C) 2004 Benjamin Herrenschmidt, IBM Corp.
  9  *  Copyright 2010-2012 Freescale Semiconductor, Inc.
 10  *
 11  *  This file is subject to the terms and conditions of the GNU General Public
 12  *  License.  See the file COPYING in the main directory of this archive
 13  *  for more details.
 14  */
 15 
 16 #undef DEBUG
 17 #undef DEBUG_IPI
 18 #undef DEBUG_IRQ
 19 #undef DEBUG_LOW
 20 
 21 #include <linux/types.h>
 22 #include <linux/kernel.h>
 23 #include <linux/init.h>
 24 #include <linux/irq.h>
 25 #include <linux/smp.h>
 26 #include <linux/interrupt.h>
 27 #include <linux/spinlock.h>
 28 #include <linux/pci.h>
 29 #include <linux/slab.h>
 30 #include <linux/syscore_ops.h>
 31 #include <linux/ratelimit.h>
 32 #include <linux/pgtable.h>
 33 #include <linux/of_address.h>
 34 #include <linux/of_irq.h>
 35 
 36 #include <asm/ptrace.h>
 37 #include <asm/signal.h>
 38 #include <asm/io.h>
 39 #include <asm/irq.h>
 40 #include <asm/machdep.h>
 41 #include <asm/mpic.h>
 42 #include <asm/smp.h>
 43 
 44 #include "mpic.h"
 45 
 46 #ifdef DEBUG
 47 #define DBG(fmt...) printk(fmt)
 48 #else
 49 #define DBG(fmt...)
 50 #endif
 51 
 52 const struct bus_type mpic_subsys = {
 53         .name = "mpic",
 54         .dev_name = "mpic",
 55 };
 56 EXPORT_SYMBOL_GPL(mpic_subsys);
 57 
 58 static struct mpic *mpics;
 59 static struct mpic *mpic_primary;
 60 static DEFINE_RAW_SPINLOCK(mpic_lock);
 61 
 62 #ifdef CONFIG_PPC32     /* XXX for now */
 63 #ifdef CONFIG_IRQ_ALL_CPUS
 64 #define distribute_irqs (1)
 65 #else
 66 #define distribute_irqs (0)
 67 #endif
 68 #endif
 69 
 70 #ifdef CONFIG_MPIC_WEIRD
 71 static u32 mpic_infos[][MPIC_IDX_END] = {
 72         [0] = { /* Original OpenPIC compatible MPIC */
 73                 MPIC_GREG_BASE,
 74                 MPIC_GREG_FEATURE_0,
 75                 MPIC_GREG_GLOBAL_CONF_0,
 76                 MPIC_GREG_VENDOR_ID,
 77                 MPIC_GREG_IPI_VECTOR_PRI_0,
 78                 MPIC_GREG_IPI_STRIDE,
 79                 MPIC_GREG_SPURIOUS,
 80                 MPIC_GREG_TIMER_FREQ,
 81 
 82                 MPIC_TIMER_BASE,
 83                 MPIC_TIMER_STRIDE,
 84                 MPIC_TIMER_CURRENT_CNT,
 85                 MPIC_TIMER_BASE_CNT,
 86                 MPIC_TIMER_VECTOR_PRI,
 87                 MPIC_TIMER_DESTINATION,
 88 
 89                 MPIC_CPU_BASE,
 90                 MPIC_CPU_STRIDE,
 91                 MPIC_CPU_IPI_DISPATCH_0,
 92                 MPIC_CPU_IPI_DISPATCH_STRIDE,
 93                 MPIC_CPU_CURRENT_TASK_PRI,
 94                 MPIC_CPU_WHOAMI,
 95                 MPIC_CPU_INTACK,
 96                 MPIC_CPU_EOI,
 97                 MPIC_CPU_MCACK,
 98 
 99                 MPIC_IRQ_BASE,
100                 MPIC_IRQ_STRIDE,
101                 MPIC_IRQ_VECTOR_PRI,
102                 MPIC_VECPRI_VECTOR_MASK,
103                 MPIC_VECPRI_POLARITY_POSITIVE,
104                 MPIC_VECPRI_POLARITY_NEGATIVE,
105                 MPIC_VECPRI_SENSE_LEVEL,
106                 MPIC_VECPRI_SENSE_EDGE,
107                 MPIC_VECPRI_POLARITY_MASK,
108                 MPIC_VECPRI_SENSE_MASK,
109                 MPIC_IRQ_DESTINATION
110         },
111         [1] = { /* Tsi108/109 PIC */
112                 TSI108_GREG_BASE,
113                 TSI108_GREG_FEATURE_0,
114                 TSI108_GREG_GLOBAL_CONF_0,
115                 TSI108_GREG_VENDOR_ID,
116                 TSI108_GREG_IPI_VECTOR_PRI_0,
117                 TSI108_GREG_IPI_STRIDE,
118                 TSI108_GREG_SPURIOUS,
119                 TSI108_GREG_TIMER_FREQ,
120 
121                 TSI108_TIMER_BASE,
122                 TSI108_TIMER_STRIDE,
123                 TSI108_TIMER_CURRENT_CNT,
124                 TSI108_TIMER_BASE_CNT,
125                 TSI108_TIMER_VECTOR_PRI,
126                 TSI108_TIMER_DESTINATION,
127 
128                 TSI108_CPU_BASE,
129                 TSI108_CPU_STRIDE,
130                 TSI108_CPU_IPI_DISPATCH_0,
131                 TSI108_CPU_IPI_DISPATCH_STRIDE,
132                 TSI108_CPU_CURRENT_TASK_PRI,
133                 TSI108_CPU_WHOAMI,
134                 TSI108_CPU_INTACK,
135                 TSI108_CPU_EOI,
136                 TSI108_CPU_MCACK,
137 
138                 TSI108_IRQ_BASE,
139                 TSI108_IRQ_STRIDE,
140                 TSI108_IRQ_VECTOR_PRI,
141                 TSI108_VECPRI_VECTOR_MASK,
142                 TSI108_VECPRI_POLARITY_POSITIVE,
143                 TSI108_VECPRI_POLARITY_NEGATIVE,
144                 TSI108_VECPRI_SENSE_LEVEL,
145                 TSI108_VECPRI_SENSE_EDGE,
146                 TSI108_VECPRI_POLARITY_MASK,
147                 TSI108_VECPRI_SENSE_MASK,
148                 TSI108_IRQ_DESTINATION
149         },
150 };
151 
152 #define MPIC_INFO(name) mpic->hw_set[MPIC_IDX_##name]
153 
154 #else /* CONFIG_MPIC_WEIRD */
155 
156 #define MPIC_INFO(name) MPIC_##name
157 
158 #endif /* CONFIG_MPIC_WEIRD */
159 
160 static inline unsigned int mpic_processor_id(struct mpic *mpic)
161 {
162         unsigned int cpu = 0;
163 
164         if (!(mpic->flags & MPIC_SECONDARY))
165                 cpu = hard_smp_processor_id();
166 
167         return cpu;
168 }
169 
170 /*
171  * Register accessor functions
172  */
173 
174 
175 static inline u32 _mpic_read(enum mpic_reg_type type,
176                              struct mpic_reg_bank *rb,
177                              unsigned int reg)
178 {
179         switch(type) {
180 #ifdef CONFIG_PPC_DCR
181         case mpic_access_dcr:
182                 return dcr_read(rb->dhost, reg);
183 #endif
184         case mpic_access_mmio_be:
185                 return in_be32(rb->base + (reg >> 2));
186         case mpic_access_mmio_le:
187         default:
188                 return in_le32(rb->base + (reg >> 2));
189         }
190 }
191 
192 static inline void _mpic_write(enum mpic_reg_type type,
193                                struct mpic_reg_bank *rb,
194                                unsigned int reg, u32 value)
195 {
196         switch(type) {
197 #ifdef CONFIG_PPC_DCR
198         case mpic_access_dcr:
199                 dcr_write(rb->dhost, reg, value);
200                 break;
201 #endif
202         case mpic_access_mmio_be:
203                 out_be32(rb->base + (reg >> 2), value);
204                 break;
205         case mpic_access_mmio_le:
206         default:
207                 out_le32(rb->base + (reg >> 2), value);
208                 break;
209         }
210 }
211 
212 static inline u32 _mpic_ipi_read(struct mpic *mpic, unsigned int ipi)
213 {
214         enum mpic_reg_type type = mpic->reg_type;
215         unsigned int offset = MPIC_INFO(GREG_IPI_VECTOR_PRI_0) +
216                               (ipi * MPIC_INFO(GREG_IPI_STRIDE));
217 
218         if ((mpic->flags & MPIC_BROKEN_IPI) && type == mpic_access_mmio_le)
219                 type = mpic_access_mmio_be;
220         return _mpic_read(type, &mpic->gregs, offset);
221 }
222 
223 static inline void _mpic_ipi_write(struct mpic *mpic, unsigned int ipi, u32 value)
224 {
225         unsigned int offset = MPIC_INFO(GREG_IPI_VECTOR_PRI_0) +
226                               (ipi * MPIC_INFO(GREG_IPI_STRIDE));
227 
228         _mpic_write(mpic->reg_type, &mpic->gregs, offset, value);
229 }
230 
231 static inline unsigned int mpic_tm_offset(struct mpic *mpic, unsigned int tm)
232 {
233         return (tm >> 2) * MPIC_TIMER_GROUP_STRIDE +
234                (tm & 3) * MPIC_INFO(TIMER_STRIDE);
235 }
236 
237 static inline u32 _mpic_tm_read(struct mpic *mpic, unsigned int tm)
238 {
239         unsigned int offset = mpic_tm_offset(mpic, tm) +
240                               MPIC_INFO(TIMER_VECTOR_PRI);
241 
242         return _mpic_read(mpic->reg_type, &mpic->tmregs, offset);
243 }
244 
245 static inline void _mpic_tm_write(struct mpic *mpic, unsigned int tm, u32 value)
246 {
247         unsigned int offset = mpic_tm_offset(mpic, tm) +
248                               MPIC_INFO(TIMER_VECTOR_PRI);
249 
250         _mpic_write(mpic->reg_type, &mpic->tmregs, offset, value);
251 }
252 
253 static inline u32 _mpic_cpu_read(struct mpic *mpic, unsigned int reg)
254 {
255         unsigned int cpu = mpic_processor_id(mpic);
256 
257         return _mpic_read(mpic->reg_type, &mpic->cpuregs[cpu], reg);
258 }
259 
260 static inline void _mpic_cpu_write(struct mpic *mpic, unsigned int reg, u32 value)
261 {
262         unsigned int cpu = mpic_processor_id(mpic);
263 
264         _mpic_write(mpic->reg_type, &mpic->cpuregs[cpu], reg, value);
265 }
266 
267 static inline u32 _mpic_irq_read(struct mpic *mpic, unsigned int src_no, unsigned int reg)
268 {
269         unsigned int    isu = src_no >> mpic->isu_shift;
270         unsigned int    idx = src_no & mpic->isu_mask;
271         unsigned int    val;
272 
273         val = _mpic_read(mpic->reg_type, &mpic->isus[isu],
274                          reg + (idx * MPIC_INFO(IRQ_STRIDE)));
275 #ifdef CONFIG_MPIC_BROKEN_REGREAD
276         if (reg == 0)
277                 val = (val & (MPIC_VECPRI_MASK | MPIC_VECPRI_ACTIVITY)) |
278                         mpic->isu_reg0_shadow[src_no];
279 #endif
280         return val;
281 }
282 
283 static inline void _mpic_irq_write(struct mpic *mpic, unsigned int src_no,
284                                    unsigned int reg, u32 value)
285 {
286         unsigned int    isu = src_no >> mpic->isu_shift;
287         unsigned int    idx = src_no & mpic->isu_mask;
288 
289         _mpic_write(mpic->reg_type, &mpic->isus[isu],
290                     reg + (idx * MPIC_INFO(IRQ_STRIDE)), value);
291 
292 #ifdef CONFIG_MPIC_BROKEN_REGREAD
293         if (reg == 0)
294                 mpic->isu_reg0_shadow[src_no] =
295                         value & ~(MPIC_VECPRI_MASK | MPIC_VECPRI_ACTIVITY);
296 #endif
297 }
298 
299 #define mpic_read(b,r)          _mpic_read(mpic->reg_type,&(b),(r))
300 #define mpic_write(b,r,v)       _mpic_write(mpic->reg_type,&(b),(r),(v))
301 #define mpic_ipi_read(i)        _mpic_ipi_read(mpic,(i))
302 #define mpic_ipi_write(i,v)     _mpic_ipi_write(mpic,(i),(v))
303 #define mpic_tm_read(i)         _mpic_tm_read(mpic,(i))
304 #define mpic_tm_write(i,v)      _mpic_tm_write(mpic,(i),(v))
305 #define mpic_cpu_read(i)        _mpic_cpu_read(mpic,(i))
306 #define mpic_cpu_write(i,v)     _mpic_cpu_write(mpic,(i),(v))
307 #define mpic_irq_read(s,r)      _mpic_irq_read(mpic,(s),(r))
308 #define mpic_irq_write(s,r,v)   _mpic_irq_write(mpic,(s),(r),(v))
309 
310 
311 /*
312  * Low level utility functions
313  */
314 
315 
316 static void _mpic_map_mmio(struct mpic *mpic, phys_addr_t phys_addr,
317                            struct mpic_reg_bank *rb, unsigned int offset,
318                            unsigned int size)
319 {
320         rb->base = ioremap(phys_addr + offset, size);
321         BUG_ON(rb->base == NULL);
322 }
323 
324 #ifdef CONFIG_PPC_DCR
325 static void _mpic_map_dcr(struct mpic *mpic, struct mpic_reg_bank *rb,
326                           unsigned int offset, unsigned int size)
327 {
328         phys_addr_t phys_addr = dcr_resource_start(mpic->node, 0);
329         rb->dhost = dcr_map(mpic->node, phys_addr + offset, size);
330         BUG_ON(!DCR_MAP_OK(rb->dhost));
331 }
332 
333 static inline void mpic_map(struct mpic *mpic,
334                             phys_addr_t phys_addr, struct mpic_reg_bank *rb,
335                             unsigned int offset, unsigned int size)
336 {
337         if (mpic->flags & MPIC_USES_DCR)
338                 _mpic_map_dcr(mpic, rb, offset, size);
339         else
340                 _mpic_map_mmio(mpic, phys_addr, rb, offset, size);
341 }
342 #else /* CONFIG_PPC_DCR */
343 #define mpic_map(m,p,b,o,s)     _mpic_map_mmio(m,p,b,o,s)
344 #endif /* !CONFIG_PPC_DCR */
345 
346 
347 
348 /* Check if we have one of those nice broken MPICs with a flipped endian on
349  * reads from IPI registers
350  */
351 static void __init mpic_test_broken_ipi(struct mpic *mpic)
352 {
353         u32 r;
354 
355         mpic_write(mpic->gregs, MPIC_INFO(GREG_IPI_VECTOR_PRI_0), MPIC_VECPRI_MASK);
356         r = mpic_read(mpic->gregs, MPIC_INFO(GREG_IPI_VECTOR_PRI_0));
357 
358         if (r == swab32(MPIC_VECPRI_MASK)) {
359                 printk(KERN_INFO "mpic: Detected reversed IPI registers\n");
360                 mpic->flags |= MPIC_BROKEN_IPI;
361         }
362 }
363 
364 #ifdef CONFIG_MPIC_U3_HT_IRQS
365 
366 /* Test if an interrupt is sourced from HyperTransport (used on broken U3s)
367  * to force the edge setting on the MPIC and do the ack workaround.
368  */
369 static inline int mpic_is_ht_interrupt(struct mpic *mpic, unsigned int source)
370 {
371         if (source >= 128 || !mpic->fixups)
372                 return 0;
373         return mpic->fixups[source].base != NULL;
374 }
375 
376 
377 static inline void mpic_ht_end_irq(struct mpic *mpic, unsigned int source)
378 {
379         struct mpic_irq_fixup *fixup = &mpic->fixups[source];
380 
381         if (fixup->applebase) {
382                 unsigned int soff = (fixup->index >> 3) & ~3;
383                 unsigned int mask = 1U << (fixup->index & 0x1f);
384                 writel(mask, fixup->applebase + soff);
385         } else {
386                 raw_spin_lock(&mpic->fixup_lock);
387                 writeb(0x11 + 2 * fixup->index, fixup->base + 2);
388                 writel(fixup->data, fixup->base + 4);
389                 raw_spin_unlock(&mpic->fixup_lock);
390         }
391 }
392 
393 static void mpic_startup_ht_interrupt(struct mpic *mpic, unsigned int source,
394                                       bool level)
395 {
396         struct mpic_irq_fixup *fixup = &mpic->fixups[source];
397         unsigned long flags;
398         u32 tmp;
399 
400         if (fixup->base == NULL)
401                 return;
402 
403         DBG("startup_ht_interrupt(0x%x) index: %d\n",
404             source, fixup->index);
405         raw_spin_lock_irqsave(&mpic->fixup_lock, flags);
406         /* Enable and configure */
407         writeb(0x10 + 2 * fixup->index, fixup->base + 2);
408         tmp = readl(fixup->base + 4);
409         tmp &= ~(0x23U);
410         if (level)
411                 tmp |= 0x22;
412         writel(tmp, fixup->base + 4);
413         raw_spin_unlock_irqrestore(&mpic->fixup_lock, flags);
414 
415 #ifdef CONFIG_PM
416         /* use the lowest bit inverted to the actual HW,
417          * set if this fixup was enabled, clear otherwise */
418         mpic->save_data[source].fixup_data = tmp | 1;
419 #endif
420 }
421 
422 static void mpic_shutdown_ht_interrupt(struct mpic *mpic, unsigned int source)
423 {
424         struct mpic_irq_fixup *fixup = &mpic->fixups[source];
425         unsigned long flags;
426         u32 tmp;
427 
428         if (fixup->base == NULL)
429                 return;
430 
431         DBG("shutdown_ht_interrupt(0x%x)\n", source);
432 
433         /* Disable */
434         raw_spin_lock_irqsave(&mpic->fixup_lock, flags);
435         writeb(0x10 + 2 * fixup->index, fixup->base + 2);
436         tmp = readl(fixup->base + 4);
437         tmp |= 1;
438         writel(tmp, fixup->base + 4);
439         raw_spin_unlock_irqrestore(&mpic->fixup_lock, flags);
440 
441 #ifdef CONFIG_PM
442         /* use the lowest bit inverted to the actual HW,
443          * set if this fixup was enabled, clear otherwise */
444         mpic->save_data[source].fixup_data = tmp & ~1;
445 #endif
446 }
447 
448 #ifdef CONFIG_PCI_MSI
449 static void __init mpic_scan_ht_msi(struct mpic *mpic, u8 __iomem *devbase,
450                                     unsigned int devfn)
451 {
452         u8 __iomem *base;
453         u8 pos, flags;
454         u64 addr = 0;
455 
456         for (pos = readb(devbase + PCI_CAPABILITY_LIST); pos != 0;
457              pos = readb(devbase + pos + PCI_CAP_LIST_NEXT)) {
458                 u8 id = readb(devbase + pos + PCI_CAP_LIST_ID);
459                 if (id == PCI_CAP_ID_HT) {
460                         id = readb(devbase + pos + 3);
461                         if ((id & HT_5BIT_CAP_MASK) == HT_CAPTYPE_MSI_MAPPING)
462                                 break;
463                 }
464         }
465 
466         if (pos == 0)
467                 return;
468 
469         base = devbase + pos;
470 
471         flags = readb(base + HT_MSI_FLAGS);
472         if (!(flags & HT_MSI_FLAGS_FIXED)) {
473                 addr = readl(base + HT_MSI_ADDR_LO) & HT_MSI_ADDR_LO_MASK;
474                 addr = addr | ((u64)readl(base + HT_MSI_ADDR_HI) << 32);
475         }
476 
477         printk(KERN_DEBUG "mpic:   - HT:%02x.%x %s MSI mapping found @ 0x%llx\n",
478                 PCI_SLOT(devfn), PCI_FUNC(devfn),
479                 flags & HT_MSI_FLAGS_ENABLE ? "enabled" : "disabled", addr);
480 
481         if (!(flags & HT_MSI_FLAGS_ENABLE))
482                 writeb(flags | HT_MSI_FLAGS_ENABLE, base + HT_MSI_FLAGS);
483 }
484 #else
485 static void __init mpic_scan_ht_msi(struct mpic *mpic, u8 __iomem *devbase,
486                                     unsigned int devfn)
487 {
488         return;
489 }
490 #endif
491 
492 static void __init mpic_scan_ht_pic(struct mpic *mpic, u8 __iomem *devbase,
493                                     unsigned int devfn, u32 vdid)
494 {
495         int i, irq, n;
496         u8 __iomem *base;
497         u32 tmp;
498         u8 pos;
499 
500         for (pos = readb(devbase + PCI_CAPABILITY_LIST); pos != 0;
501              pos = readb(devbase + pos + PCI_CAP_LIST_NEXT)) {
502                 u8 id = readb(devbase + pos + PCI_CAP_LIST_ID);
503                 if (id == PCI_CAP_ID_HT) {
504                         id = readb(devbase + pos + 3);
505                         if ((id & HT_5BIT_CAP_MASK) == HT_CAPTYPE_IRQ)
506                                 break;
507                 }
508         }
509         if (pos == 0)
510                 return;
511 
512         base = devbase + pos;
513         writeb(0x01, base + 2);
514         n = (readl(base + 4) >> 16) & 0xff;
515 
516         printk(KERN_INFO "mpic:   - HT:%02x.%x [0x%02x] vendor %04x device %04x"
517                " has %d irqs\n",
518                devfn >> 3, devfn & 0x7, pos, vdid & 0xffff, vdid >> 16, n + 1);
519 
520         for (i = 0; i <= n; i++) {
521                 writeb(0x10 + 2 * i, base + 2);
522                 tmp = readl(base + 4);
523                 irq = (tmp >> 16) & 0xff;
524                 DBG("HT PIC index 0x%x, irq 0x%x, tmp: %08x\n", i, irq, tmp);
525                 /* mask it , will be unmasked later */
526                 tmp |= 0x1;
527                 writel(tmp, base + 4);
528                 mpic->fixups[irq].index = i;
529                 mpic->fixups[irq].base = base;
530                 /* Apple HT PIC has a non-standard way of doing EOIs */
531                 if ((vdid & 0xffff) == 0x106b)
532                         mpic->fixups[irq].applebase = devbase + 0x60;
533                 else
534                         mpic->fixups[irq].applebase = NULL;
535                 writeb(0x11 + 2 * i, base + 2);
536                 mpic->fixups[irq].data = readl(base + 4) | 0x80000000;
537         }
538 }
539 
540 
541 static void __init mpic_scan_ht_pics(struct mpic *mpic)
542 {
543         unsigned int devfn;
544         u8 __iomem *cfgspace;
545 
546         printk(KERN_INFO "mpic: Setting up HT PICs workarounds for U3/U4\n");
547 
548         /* Allocate fixups array */
549         mpic->fixups = kcalloc(128, sizeof(*mpic->fixups), GFP_KERNEL);
550         BUG_ON(mpic->fixups == NULL);
551 
552         /* Init spinlock */
553         raw_spin_lock_init(&mpic->fixup_lock);
554 
555         /* Map U3 config space. We assume all IO-APICs are on the primary bus
556          * so we only need to map 64kB.
557          */
558         cfgspace = ioremap(0xf2000000, 0x10000);
559         BUG_ON(cfgspace == NULL);
560 
561         /* Now we scan all slots. We do a very quick scan, we read the header
562          * type, vendor ID and device ID only, that's plenty enough
563          */
564         for (devfn = 0; devfn < 0x100; devfn++) {
565                 u8 __iomem *devbase = cfgspace + (devfn << 8);
566                 u8 hdr_type = readb(devbase + PCI_HEADER_TYPE);
567                 u32 l = readl(devbase + PCI_VENDOR_ID);
568                 u16 s;
569 
570                 DBG("devfn %x, l: %x\n", devfn, l);
571 
572                 /* If no device, skip */
573                 if (l == 0xffffffff || l == 0x00000000 ||
574                     l == 0x0000ffff || l == 0xffff0000)
575                         goto next;
576                 /* Check if is supports capability lists */
577                 s = readw(devbase + PCI_STATUS);
578                 if (!(s & PCI_STATUS_CAP_LIST))
579                         goto next;
580 
581                 mpic_scan_ht_pic(mpic, devbase, devfn, l);
582                 mpic_scan_ht_msi(mpic, devbase, devfn);
583 
584         next:
585                 /* next device, if function 0 */
586                 if (PCI_FUNC(devfn) == 0 && (hdr_type & 0x80) == 0)
587                         devfn += 7;
588         }
589 }
590 
591 #else /* CONFIG_MPIC_U3_HT_IRQS */
592 
593 static inline int mpic_is_ht_interrupt(struct mpic *mpic, unsigned int source)
594 {
595         return 0;
596 }
597 
598 static void __init mpic_scan_ht_pics(struct mpic *mpic)
599 {
600 }
601 
602 #endif /* CONFIG_MPIC_U3_HT_IRQS */
603 
604 /* Find an mpic associated with a given linux interrupt */
605 static struct mpic *mpic_find(unsigned int irq)
606 {
607         if (irq < NR_IRQS_LEGACY)
608                 return NULL;
609 
610         return irq_get_chip_data(irq);
611 }
612 
613 /* Determine if the linux irq is an IPI */
614 static unsigned int mpic_is_ipi(struct mpic *mpic, unsigned int src)
615 {
616         return (src >= mpic->ipi_vecs[0] && src <= mpic->ipi_vecs[3]);
617 }
618 
619 /* Determine if the linux irq is a timer */
620 static unsigned int mpic_is_tm(struct mpic *mpic, unsigned int src)
621 {
622         return (src >= mpic->timer_vecs[0] && src <= mpic->timer_vecs[7]);
623 }
624 
625 /* Convert a cpu mask from logical to physical cpu numbers. */
626 static inline u32 mpic_physmask(u32 cpumask)
627 {
628         int i;
629         u32 mask = 0;
630 
631         for (i = 0; i < min(32, NR_CPUS) && cpu_possible(i); ++i, cpumask >>= 1)
632                 mask |= (cpumask & 1) << get_hard_smp_processor_id(i);
633         return mask;
634 }
635 
636 #ifdef CONFIG_SMP
637 /* Get the mpic structure from the IPI number */
638 static inline struct mpic * mpic_from_ipi(struct irq_data *d)
639 {
640         return irq_data_get_irq_chip_data(d);
641 }
642 #endif
643 
644 /* Get the mpic structure from the irq number */
645 static inline struct mpic * mpic_from_irq(unsigned int irq)
646 {
647         return irq_get_chip_data(irq);
648 }
649 
650 /* Get the mpic structure from the irq data */
651 static inline struct mpic * mpic_from_irq_data(struct irq_data *d)
652 {
653         return irq_data_get_irq_chip_data(d);
654 }
655 
656 /* Send an EOI */
657 static inline void mpic_eoi(struct mpic *mpic)
658 {
659         mpic_cpu_write(MPIC_INFO(CPU_EOI), 0);
660 }
661 
662 /*
663  * Linux descriptor level callbacks
664  */
665 
666 
667 void mpic_unmask_irq(struct irq_data *d)
668 {
669         unsigned int loops = 100000;
670         struct mpic *mpic = mpic_from_irq_data(d);
671         unsigned int src = irqd_to_hwirq(d);
672 
673         DBG("%p: %s: enable_irq: %d (src %d)\n", mpic, mpic->name, d->irq, src);
674 
675         mpic_irq_write(src, MPIC_INFO(IRQ_VECTOR_PRI),
676                        mpic_irq_read(src, MPIC_INFO(IRQ_VECTOR_PRI)) &
677                        ~MPIC_VECPRI_MASK);
678         /* make sure mask gets to controller before we return to user */
679         do {
680                 if (!loops--) {
681                         printk(KERN_ERR "%s: timeout on hwirq %u\n",
682                                __func__, src);
683                         break;
684                 }
685         } while(mpic_irq_read(src, MPIC_INFO(IRQ_VECTOR_PRI)) & MPIC_VECPRI_MASK);
686 }
687 
688 void mpic_mask_irq(struct irq_data *d)
689 {
690         unsigned int loops = 100000;
691         struct mpic *mpic = mpic_from_irq_data(d);
692         unsigned int src = irqd_to_hwirq(d);
693 
694         DBG("%s: disable_irq: %d (src %d)\n", mpic->name, d->irq, src);
695 
696         mpic_irq_write(src, MPIC_INFO(IRQ_VECTOR_PRI),
697                        mpic_irq_read(src, MPIC_INFO(IRQ_VECTOR_PRI)) |
698                        MPIC_VECPRI_MASK);
699 
700         /* make sure mask gets to controller before we return to user */
701         do {
702                 if (!loops--) {
703                         printk(KERN_ERR "%s: timeout on hwirq %u\n",
704                                __func__, src);
705                         break;
706                 }
707         } while(!(mpic_irq_read(src, MPIC_INFO(IRQ_VECTOR_PRI)) & MPIC_VECPRI_MASK));
708 }
709 
710 void mpic_end_irq(struct irq_data *d)
711 {
712         struct mpic *mpic = mpic_from_irq_data(d);
713 
714 #ifdef DEBUG_IRQ
715         DBG("%s: end_irq: %d\n", mpic->name, d->irq);
716 #endif
717         /* We always EOI on end_irq() even for edge interrupts since that
718          * should only lower the priority, the MPIC should have properly
719          * latched another edge interrupt coming in anyway
720          */
721 
722         mpic_eoi(mpic);
723 }
724 
725 #ifdef CONFIG_MPIC_U3_HT_IRQS
726 
727 static void mpic_unmask_ht_irq(struct irq_data *d)
728 {
729         struct mpic *mpic = mpic_from_irq_data(d);
730         unsigned int src = irqd_to_hwirq(d);
731 
732         mpic_unmask_irq(d);
733 
734         if (irqd_is_level_type(d))
735                 mpic_ht_end_irq(mpic, src);
736 }
737 
738 static unsigned int mpic_startup_ht_irq(struct irq_data *d)
739 {
740         struct mpic *mpic = mpic_from_irq_data(d);
741         unsigned int src = irqd_to_hwirq(d);
742 
743         mpic_unmask_irq(d);
744         mpic_startup_ht_interrupt(mpic, src, irqd_is_level_type(d));
745 
746         return 0;
747 }
748 
749 static void mpic_shutdown_ht_irq(struct irq_data *d)
750 {
751         struct mpic *mpic = mpic_from_irq_data(d);
752         unsigned int src = irqd_to_hwirq(d);
753 
754         mpic_shutdown_ht_interrupt(mpic, src);
755         mpic_mask_irq(d);
756 }
757 
758 static void mpic_end_ht_irq(struct irq_data *d)
759 {
760         struct mpic *mpic = mpic_from_irq_data(d);
761         unsigned int src = irqd_to_hwirq(d);
762 
763 #ifdef DEBUG_IRQ
764         DBG("%s: end_irq: %d\n", mpic->name, d->irq);
765 #endif
766         /* We always EOI on end_irq() even for edge interrupts since that
767          * should only lower the priority, the MPIC should have properly
768          * latched another edge interrupt coming in anyway
769          */
770 
771         if (irqd_is_level_type(d))
772                 mpic_ht_end_irq(mpic, src);
773         mpic_eoi(mpic);
774 }
775 #endif /* !CONFIG_MPIC_U3_HT_IRQS */
776 
777 #ifdef CONFIG_SMP
778 
779 static void mpic_unmask_ipi(struct irq_data *d)
780 {
781         struct mpic *mpic = mpic_from_ipi(d);
782         unsigned int src = virq_to_hw(d->irq) - mpic->ipi_vecs[0];
783 
784         DBG("%s: enable_ipi: %d (ipi %d)\n", mpic->name, d->irq, src);
785         mpic_ipi_write(src, mpic_ipi_read(src) & ~MPIC_VECPRI_MASK);
786 }
787 
788 static void mpic_mask_ipi(struct irq_data *d)
789 {
790         /* NEVER disable an IPI... that's just plain wrong! */
791 }
792 
793 static void mpic_end_ipi(struct irq_data *d)
794 {
795         struct mpic *mpic = mpic_from_ipi(d);
796 
797         /*
798          * IPIs are marked IRQ_PER_CPU. This has the side effect of
799          * preventing the IRQ_PENDING/IRQ_INPROGRESS logic from
800          * applying to them. We EOI them late to avoid re-entering.
801          */
802         mpic_eoi(mpic);
803 }
804 
805 #endif /* CONFIG_SMP */
806 
807 static void mpic_unmask_tm(struct irq_data *d)
808 {
809         struct mpic *mpic = mpic_from_irq_data(d);
810         unsigned int src = virq_to_hw(d->irq) - mpic->timer_vecs[0];
811 
812         DBG("%s: enable_tm: %d (tm %d)\n", mpic->name, d->irq, src);
813         mpic_tm_write(src, mpic_tm_read(src) & ~MPIC_VECPRI_MASK);
814         mpic_tm_read(src);
815 }
816 
817 static void mpic_mask_tm(struct irq_data *d)
818 {
819         struct mpic *mpic = mpic_from_irq_data(d);
820         unsigned int src = virq_to_hw(d->irq) - mpic->timer_vecs[0];
821 
822         mpic_tm_write(src, mpic_tm_read(src) | MPIC_VECPRI_MASK);
823         mpic_tm_read(src);
824 }
825 
826 int mpic_set_affinity(struct irq_data *d, const struct cpumask *cpumask,
827                       bool force)
828 {
829         struct mpic *mpic = mpic_from_irq_data(d);
830         unsigned int src = irqd_to_hwirq(d);
831 
832         if (mpic->flags & MPIC_SINGLE_DEST_CPU) {
833                 int cpuid = irq_choose_cpu(cpumask);
834 
835                 mpic_irq_write(src, MPIC_INFO(IRQ_DESTINATION), 1 << cpuid);
836         } else {
837                 u32 mask = cpumask_bits(cpumask)[0];
838 
839                 mask &= cpumask_bits(cpu_online_mask)[0];
840 
841                 mpic_irq_write(src, MPIC_INFO(IRQ_DESTINATION),
842                                mpic_physmask(mask));
843         }
844 
845         return IRQ_SET_MASK_OK;
846 }
847 
848 static unsigned int mpic_type_to_vecpri(struct mpic *mpic, unsigned int type)
849 {
850         /* Now convert sense value */
851         switch(type & IRQ_TYPE_SENSE_MASK) {
852         case IRQ_TYPE_EDGE_RISING:
853                 return MPIC_INFO(VECPRI_SENSE_EDGE) |
854                        MPIC_INFO(VECPRI_POLARITY_POSITIVE);
855         case IRQ_TYPE_EDGE_FALLING:
856         case IRQ_TYPE_EDGE_BOTH:
857                 return MPIC_INFO(VECPRI_SENSE_EDGE) |
858                        MPIC_INFO(VECPRI_POLARITY_NEGATIVE);
859         case IRQ_TYPE_LEVEL_HIGH:
860                 return MPIC_INFO(VECPRI_SENSE_LEVEL) |
861                        MPIC_INFO(VECPRI_POLARITY_POSITIVE);
862         case IRQ_TYPE_LEVEL_LOW:
863         default:
864                 return MPIC_INFO(VECPRI_SENSE_LEVEL) |
865                        MPIC_INFO(VECPRI_POLARITY_NEGATIVE);
866         }
867 }
868 
869 int mpic_set_irq_type(struct irq_data *d, unsigned int flow_type)
870 {
871         struct mpic *mpic = mpic_from_irq_data(d);
872         unsigned int src = irqd_to_hwirq(d);
873         unsigned int vecpri, vold, vnew;
874 
875         DBG("mpic: set_irq_type(mpic:@%p,virq:%d,src:0x%x,type:0x%x)\n",
876             mpic, d->irq, src, flow_type);
877 
878         if (src >= mpic->num_sources)
879                 return -EINVAL;
880 
881         vold = mpic_irq_read(src, MPIC_INFO(IRQ_VECTOR_PRI));
882 
883         /* We don't support "none" type */
884         if (flow_type == IRQ_TYPE_NONE)
885                 flow_type = IRQ_TYPE_DEFAULT;
886 
887         /* Default: read HW settings */
888         if (flow_type == IRQ_TYPE_DEFAULT) {
889                 int vold_ps;
890 
891                 vold_ps = vold & (MPIC_INFO(VECPRI_POLARITY_MASK) |
892                                   MPIC_INFO(VECPRI_SENSE_MASK));
893 
894                 if (vold_ps == (MPIC_INFO(VECPRI_SENSE_EDGE) |
895                                 MPIC_INFO(VECPRI_POLARITY_POSITIVE)))
896                         flow_type = IRQ_TYPE_EDGE_RISING;
897                 else if (vold_ps == (MPIC_INFO(VECPRI_SENSE_EDGE) |
898                                      MPIC_INFO(VECPRI_POLARITY_NEGATIVE)))
899                         flow_type = IRQ_TYPE_EDGE_FALLING;
900                 else if (vold_ps == (MPIC_INFO(VECPRI_SENSE_LEVEL) |
901                                      MPIC_INFO(VECPRI_POLARITY_POSITIVE)))
902                         flow_type = IRQ_TYPE_LEVEL_HIGH;
903                 else if (vold_ps == (MPIC_INFO(VECPRI_SENSE_LEVEL) |
904                                      MPIC_INFO(VECPRI_POLARITY_NEGATIVE)))
905                         flow_type = IRQ_TYPE_LEVEL_LOW;
906                 else
907                         WARN_ONCE(1, "mpic: unknown IRQ type %d\n", vold);
908         }
909 
910         /* Apply to irq desc */
911         irqd_set_trigger_type(d, flow_type);
912 
913         /* Apply to HW */
914         if (mpic_is_ht_interrupt(mpic, src))
915                 vecpri = MPIC_VECPRI_POLARITY_POSITIVE |
916                         MPIC_VECPRI_SENSE_EDGE;
917         else
918                 vecpri = mpic_type_to_vecpri(mpic, flow_type);
919 
920         vnew = vold & ~(MPIC_INFO(VECPRI_POLARITY_MASK) |
921                         MPIC_INFO(VECPRI_SENSE_MASK));
922         vnew |= vecpri;
923         if (vold != vnew)
924                 mpic_irq_write(src, MPIC_INFO(IRQ_VECTOR_PRI), vnew);
925 
926         return IRQ_SET_MASK_OK_NOCOPY;
927 }
928 
929 void mpic_set_vector(unsigned int virq, unsigned int vector)
930 {
931         struct mpic *mpic = mpic_from_irq(virq);
932         unsigned int src = virq_to_hw(virq);
933         unsigned int vecpri;
934 
935         DBG("mpic: set_vector(mpic:@%p,virq:%d,src:%d,vector:0x%x)\n",
936             mpic, virq, src, vector);
937 
938         if (src >= mpic->num_sources)
939                 return;
940 
941         vecpri = mpic_irq_read(src, MPIC_INFO(IRQ_VECTOR_PRI));
942         vecpri = vecpri & ~MPIC_INFO(VECPRI_VECTOR_MASK);
943         vecpri |= vector;
944         mpic_irq_write(src, MPIC_INFO(IRQ_VECTOR_PRI), vecpri);
945 }
946 
947 static void mpic_set_destination(unsigned int virq, unsigned int cpuid)
948 {
949         struct mpic *mpic = mpic_from_irq(virq);
950         unsigned int src = virq_to_hw(virq);
951 
952         DBG("mpic: set_destination(mpic:@%p,virq:%d,src:%d,cpuid:0x%x)\n",
953             mpic, virq, src, cpuid);
954 
955         if (src >= mpic->num_sources)
956                 return;
957 
958         mpic_irq_write(src, MPIC_INFO(IRQ_DESTINATION), 1 << cpuid);
959 }
960 
961 static struct irq_chip mpic_irq_chip = {
962         .irq_mask       = mpic_mask_irq,
963         .irq_unmask     = mpic_unmask_irq,
964         .irq_eoi        = mpic_end_irq,
965         .irq_set_type   = mpic_set_irq_type,
966 };
967 
968 #ifdef CONFIG_SMP
969 static const struct irq_chip mpic_ipi_chip = {
970         .irq_mask       = mpic_mask_ipi,
971         .irq_unmask     = mpic_unmask_ipi,
972         .irq_eoi        = mpic_end_ipi,
973 };
974 #endif /* CONFIG_SMP */
975 
976 static struct irq_chip mpic_tm_chip = {
977         .irq_mask       = mpic_mask_tm,
978         .irq_unmask     = mpic_unmask_tm,
979         .irq_eoi        = mpic_end_irq,
980 };
981 
982 #ifdef CONFIG_MPIC_U3_HT_IRQS
983 static const struct irq_chip mpic_irq_ht_chip = {
984         .irq_startup    = mpic_startup_ht_irq,
985         .irq_shutdown   = mpic_shutdown_ht_irq,
986         .irq_mask       = mpic_mask_irq,
987         .irq_unmask     = mpic_unmask_ht_irq,
988         .irq_eoi        = mpic_end_ht_irq,
989         .irq_set_type   = mpic_set_irq_type,
990 };
991 #endif /* CONFIG_MPIC_U3_HT_IRQS */
992 
993 
994 static int mpic_host_match(struct irq_domain *h, struct device_node *node,
995                            enum irq_domain_bus_token bus_token)
996 {
997         /* Exact match, unless mpic node is NULL */
998         struct device_node *of_node = irq_domain_get_of_node(h);
999         return of_node == NULL || of_node == node;
1000 }
1001 
1002 static int mpic_host_map(struct irq_domain *h, unsigned int virq,
1003                          irq_hw_number_t hw)
1004 {
1005         struct mpic *mpic = h->host_data;
1006         struct irq_chip *chip;
1007 
1008         DBG("mpic: map virq %d, hwirq 0x%lx\n", virq, hw);
1009 
1010         if (hw == mpic->spurious_vec)
1011                 return -EINVAL;
1012         if (mpic->protected && test_bit(hw, mpic->protected)) {
1013                 pr_warn("mpic: Mapping of source 0x%x failed, source protected by firmware !\n",
1014                         (unsigned int)hw);
1015                 return -EPERM;
1016         }
1017 
1018 #ifdef CONFIG_SMP
1019         else if (hw >= mpic->ipi_vecs[0]) {
1020                 WARN_ON(mpic->flags & MPIC_SECONDARY);
1021 
1022                 DBG("mpic: mapping as IPI\n");
1023                 irq_set_chip_data(virq, mpic);
1024                 irq_set_chip_and_handler(virq, &mpic->hc_ipi,
1025                                          handle_percpu_irq);
1026                 return 0;
1027         }
1028 #endif /* CONFIG_SMP */
1029 
1030         if (hw >= mpic->timer_vecs[0] && hw <= mpic->timer_vecs[7]) {
1031                 WARN_ON(mpic->flags & MPIC_SECONDARY);
1032 
1033                 DBG("mpic: mapping as timer\n");
1034                 irq_set_chip_data(virq, mpic);
1035                 irq_set_chip_and_handler(virq, &mpic->hc_tm,
1036                                          handle_fasteoi_irq);
1037                 return 0;
1038         }
1039 
1040         if (mpic_map_error_int(mpic, virq, hw))
1041                 return 0;
1042 
1043         if (hw >= mpic->num_sources) {
1044                 pr_warn("mpic: Mapping of source 0x%x failed, source out of range !\n",
1045                         (unsigned int)hw);
1046                 return -EINVAL;
1047         }
1048 
1049         mpic_msi_reserve_hwirq(mpic, hw);
1050 
1051         /* Default chip */
1052         chip = &mpic->hc_irq;
1053 
1054 #ifdef CONFIG_MPIC_U3_HT_IRQS
1055         /* Check for HT interrupts, override vecpri */
1056         if (mpic_is_ht_interrupt(mpic, hw))
1057                 chip = &mpic->hc_ht_irq;
1058 #endif /* CONFIG_MPIC_U3_HT_IRQS */
1059 
1060         DBG("mpic: mapping to irq chip @%p\n", chip);
1061 
1062         irq_set_chip_data(virq, mpic);
1063         irq_set_chip_and_handler(virq, chip, handle_fasteoi_irq);
1064 
1065         /* Set default irq type */
1066         irq_set_irq_type(virq, IRQ_TYPE_DEFAULT);
1067 
1068         /* If the MPIC was reset, then all vectors have already been
1069          * initialized.  Otherwise, a per source lazy initialization
1070          * is done here.
1071          */
1072         if (!mpic_is_ipi(mpic, hw) && (mpic->flags & MPIC_NO_RESET)) {
1073                 int cpu;
1074 
1075                 preempt_disable();
1076                 cpu = mpic_processor_id(mpic);
1077                 preempt_enable();
1078 
1079                 mpic_set_vector(virq, hw);
1080                 mpic_set_destination(virq, cpu);
1081                 mpic_irq_set_priority(virq, 8);
1082         }
1083 
1084         return 0;
1085 }
1086 
1087 static int mpic_host_xlate(struct irq_domain *h, struct device_node *ct,
1088                            const u32 *intspec, unsigned int intsize,
1089                            irq_hw_number_t *out_hwirq, unsigned int *out_flags)
1090 
1091 {
1092         struct mpic *mpic = h->host_data;
1093         static unsigned char map_mpic_senses[4] = {
1094                 IRQ_TYPE_EDGE_RISING,
1095                 IRQ_TYPE_LEVEL_LOW,
1096                 IRQ_TYPE_LEVEL_HIGH,
1097                 IRQ_TYPE_EDGE_FALLING,
1098         };
1099 
1100         *out_hwirq = intspec[0];
1101         if (intsize >= 4 && (mpic->flags & MPIC_FSL)) {
1102                 /*
1103                  * Freescale MPIC with extended intspec:
1104                  * First two cells are as usual.  Third specifies
1105                  * an "interrupt type".  Fourth is type-specific data.
1106                  *
1107                  * See Documentation/devicetree/bindings/powerpc/fsl/mpic.txt
1108                  */
1109                 switch (intspec[2]) {
1110                 case 0:
1111                         break;
1112                 case 1:
1113                         if (!(mpic->flags & MPIC_FSL_HAS_EIMR))
1114                                 break;
1115 
1116                         if (intspec[3] >= ARRAY_SIZE(mpic->err_int_vecs))
1117                                 return -EINVAL;
1118 
1119                         *out_hwirq = mpic->err_int_vecs[intspec[3]];
1120 
1121                         break;
1122                 case 2:
1123                         if (intspec[0] >= ARRAY_SIZE(mpic->ipi_vecs))
1124                                 return -EINVAL;
1125 
1126                         *out_hwirq = mpic->ipi_vecs[intspec[0]];
1127                         break;
1128                 case 3:
1129                         if (intspec[0] >= ARRAY_SIZE(mpic->timer_vecs))
1130                                 return -EINVAL;
1131 
1132                         *out_hwirq = mpic->timer_vecs[intspec[0]];
1133                         break;
1134                 default:
1135                         pr_debug("%s: unknown irq type %u\n",
1136                                  __func__, intspec[2]);
1137                         return -EINVAL;
1138                 }
1139 
1140                 *out_flags = map_mpic_senses[intspec[1] & 3];
1141         } else if (intsize > 1) {
1142                 u32 mask = 0x3;
1143 
1144                 /* Apple invented a new race of encoding on machines with
1145                  * an HT APIC. They encode, among others, the index within
1146                  * the HT APIC. We don't care about it here since thankfully,
1147                  * it appears that they have the APIC already properly
1148                  * configured, and thus our current fixup code that reads the
1149                  * APIC config works fine. However, we still need to mask out
1150                  * bits in the specifier to make sure we only get bit 0 which
1151                  * is the level/edge bit (the only sense bit exposed by Apple),
1152                  * as their bit 1 means something else.
1153                  */
1154                 if (machine_is(powermac))
1155                         mask = 0x1;
1156                 *out_flags = map_mpic_senses[intspec[1] & mask];
1157         } else
1158                 *out_flags = IRQ_TYPE_NONE;
1159 
1160         DBG("mpic: xlate (%d cells: 0x%08x 0x%08x) to line 0x%lx sense 0x%x\n",
1161             intsize, intspec[0], intspec[1], *out_hwirq, *out_flags);
1162 
1163         return 0;
1164 }
1165 
1166 /* IRQ handler for a secondary MPIC cascaded from another IRQ controller */
1167 static void mpic_cascade(struct irq_desc *desc)
1168 {
1169         struct irq_chip *chip = irq_desc_get_chip(desc);
1170         struct mpic *mpic = irq_desc_get_handler_data(desc);
1171         unsigned int virq;
1172 
1173         BUG_ON(!(mpic->flags & MPIC_SECONDARY));
1174 
1175         virq = mpic_get_one_irq(mpic);
1176         if (virq)
1177                 generic_handle_irq(virq);
1178 
1179         chip->irq_eoi(&desc->irq_data);
1180 }
1181 
1182 static const struct irq_domain_ops mpic_host_ops = {
1183         .match = mpic_host_match,
1184         .map = mpic_host_map,
1185         .xlate = mpic_host_xlate,
1186 };
1187 
1188 static u32 fsl_mpic_get_version(struct mpic *mpic)
1189 {
1190         u32 brr1;
1191 
1192         if (!(mpic->flags & MPIC_FSL))
1193                 return 0;
1194 
1195         brr1 = _mpic_read(mpic->reg_type, &mpic->thiscpuregs,
1196                         MPIC_FSL_BRR1);
1197 
1198         return brr1 & MPIC_FSL_BRR1_VER;
1199 }
1200 
1201 /*
1202  * Exported functions
1203  */
1204 
1205 u32 fsl_mpic_primary_get_version(void)
1206 {
1207         struct mpic *mpic = mpic_primary;
1208 
1209         if (mpic)
1210                 return fsl_mpic_get_version(mpic);
1211 
1212         return 0;
1213 }
1214 
1215 struct mpic * __init mpic_alloc(struct device_node *node,
1216                                 phys_addr_t phys_addr,
1217                                 unsigned int flags,
1218                                 unsigned int isu_size,
1219                                 unsigned int irq_count,
1220                                 const char *name)
1221 {
1222         int i, psize, intvec_top;
1223         struct mpic *mpic;
1224         u32 greg_feature;
1225         const char *vers;
1226         const u32 *psrc;
1227         u32 last_irq;
1228         u32 fsl_version = 0;
1229 
1230         /* Default MPIC search parameters */
1231         static const struct of_device_id __initconst mpic_device_id[] = {
1232                 { .type       = "open-pic", },
1233                 { .compatible = "open-pic", },
1234                 {},
1235         };
1236 
1237         /*
1238          * If we were not passed a device-tree node, then perform the default
1239          * search for standardized a standardized OpenPIC.
1240          */
1241         if (node) {
1242                 node = of_node_get(node);
1243         } else {
1244                 node = of_find_matching_node(NULL, mpic_device_id);
1245                 if (!node)
1246                         return NULL;
1247         }
1248 
1249         /* Pick the physical address from the device tree if unspecified */
1250         if (!phys_addr) {
1251                 /* Check if it is DCR-based */
1252                 if (of_property_read_bool(node, "dcr-reg")) {
1253                         flags |= MPIC_USES_DCR;
1254                 } else {
1255                         struct resource r;
1256                         if (of_address_to_resource(node, 0, &r))
1257                                 goto err_of_node_put;
1258                         phys_addr = r.start;
1259                 }
1260         }
1261 
1262         /* Read extra device-tree properties into the flags variable */
1263         if (of_property_read_bool(node, "big-endian"))
1264                 flags |= MPIC_BIG_ENDIAN;
1265         if (of_property_read_bool(node, "pic-no-reset"))
1266                 flags |= MPIC_NO_RESET;
1267         if (of_property_read_bool(node, "single-cpu-affinity"))
1268                 flags |= MPIC_SINGLE_DEST_CPU;
1269         if (of_device_is_compatible(node, "fsl,mpic")) {
1270                 flags |= MPIC_FSL | MPIC_LARGE_VECTORS;
1271                 mpic_irq_chip.flags |= IRQCHIP_SKIP_SET_WAKE;
1272                 mpic_tm_chip.flags |= IRQCHIP_SKIP_SET_WAKE;
1273         }
1274 
1275         mpic = kzalloc(sizeof(struct mpic), GFP_KERNEL);
1276         if (mpic == NULL)
1277                 goto err_of_node_put;
1278 
1279         mpic->name = name;
1280         mpic->node = node;
1281         mpic->paddr = phys_addr;
1282         mpic->flags = flags;
1283 
1284         mpic->hc_irq = mpic_irq_chip;
1285         mpic->hc_irq.name = name;
1286         if (!(mpic->flags & MPIC_SECONDARY))
1287                 mpic->hc_irq.irq_set_affinity = mpic_set_affinity;
1288 #ifdef CONFIG_MPIC_U3_HT_IRQS
1289         mpic->hc_ht_irq = mpic_irq_ht_chip;
1290         mpic->hc_ht_irq.name = name;
1291         if (!(mpic->flags & MPIC_SECONDARY))
1292                 mpic->hc_ht_irq.irq_set_affinity = mpic_set_affinity;
1293 #endif /* CONFIG_MPIC_U3_HT_IRQS */
1294 
1295 #ifdef CONFIG_SMP
1296         mpic->hc_ipi = mpic_ipi_chip;
1297         mpic->hc_ipi.name = name;
1298 #endif /* CONFIG_SMP */
1299 
1300         mpic->hc_tm = mpic_tm_chip;
1301         mpic->hc_tm.name = name;
1302 
1303         mpic->num_sources = 0; /* so far */
1304 
1305         if (mpic->flags & MPIC_LARGE_VECTORS)
1306                 intvec_top = 2047;
1307         else
1308                 intvec_top = 255;
1309 
1310         mpic->timer_vecs[0] = intvec_top - 12;
1311         mpic->timer_vecs[1] = intvec_top - 11;
1312         mpic->timer_vecs[2] = intvec_top - 10;
1313         mpic->timer_vecs[3] = intvec_top - 9;
1314         mpic->timer_vecs[4] = intvec_top - 8;
1315         mpic->timer_vecs[5] = intvec_top - 7;
1316         mpic->timer_vecs[6] = intvec_top - 6;
1317         mpic->timer_vecs[7] = intvec_top - 5;
1318         mpic->ipi_vecs[0]   = intvec_top - 4;
1319         mpic->ipi_vecs[1]   = intvec_top - 3;
1320         mpic->ipi_vecs[2]   = intvec_top - 2;
1321         mpic->ipi_vecs[3]   = intvec_top - 1;
1322         mpic->spurious_vec  = intvec_top;
1323 
1324         /* Look for protected sources */
1325         psrc = of_get_property(mpic->node, "protected-sources", &psize);
1326         if (psrc) {
1327                 /* Allocate a bitmap with one bit per interrupt */
1328                 mpic->protected = bitmap_zalloc(intvec_top + 1, GFP_KERNEL);
1329                 BUG_ON(mpic->protected == NULL);
1330                 for (i = 0; i < psize/sizeof(u32); i++) {
1331                         if (psrc[i] > intvec_top)
1332                                 continue;
1333                         __set_bit(psrc[i], mpic->protected);
1334                 }
1335         }
1336 
1337 #ifdef CONFIG_MPIC_WEIRD
1338         mpic->hw_set = mpic_infos[MPIC_GET_REGSET(mpic->flags)];
1339 #endif
1340 
1341         /* default register type */
1342         if (mpic->flags & MPIC_BIG_ENDIAN)
1343                 mpic->reg_type = mpic_access_mmio_be;
1344         else
1345                 mpic->reg_type = mpic_access_mmio_le;
1346 
1347         /*
1348          * An MPIC with a "dcr-reg" property must be accessed that way, but
1349          * only if the kernel includes DCR support.
1350          */
1351 #ifdef CONFIG_PPC_DCR
1352         if (mpic->flags & MPIC_USES_DCR)
1353                 mpic->reg_type = mpic_access_dcr;
1354 #else
1355         BUG_ON(mpic->flags & MPIC_USES_DCR);
1356 #endif
1357 
1358         /* Map the global registers */
1359         mpic_map(mpic, mpic->paddr, &mpic->gregs, MPIC_INFO(GREG_BASE), 0x1000);
1360         mpic_map(mpic, mpic->paddr, &mpic->tmregs, MPIC_INFO(TIMER_BASE), 0x1000);
1361 
1362         if (mpic->flags & MPIC_FSL) {
1363                 int ret;
1364 
1365                 /*
1366                  * Yes, Freescale really did put global registers in the
1367                  * magic per-cpu area -- and they don't even show up in the
1368                  * non-magic per-cpu copies that this driver normally uses.
1369                  */
1370                 mpic_map(mpic, mpic->paddr, &mpic->thiscpuregs,
1371                          MPIC_CPU_THISBASE, 0x1000);
1372 
1373                 fsl_version = fsl_mpic_get_version(mpic);
1374 
1375                 /* Error interrupt mask register (EIMR) is required for
1376                  * handling individual device error interrupts. EIMR
1377                  * was added in MPIC version 4.1.
1378                  *
1379                  * Over here we reserve vector number space for error
1380                  * interrupt vectors. This space is stolen from the
1381                  * global vector number space, as in case of ipis
1382                  * and timer interrupts.
1383                  *
1384                  * Available vector space = intvec_top - 13, where 13
1385                  * is the number of vectors which have been consumed by
1386                  * ipis, timer interrupts and spurious.
1387                  */
1388                 if (fsl_version >= 0x401) {
1389                         ret = mpic_setup_error_int(mpic, intvec_top - 13);
1390                         if (ret)
1391                                 return NULL;
1392                 }
1393 
1394         }
1395 
1396         /*
1397          * EPR is only available starting with v4.0.  To support
1398          * platforms that don't know the MPIC version at compile-time,
1399          * such as qemu-e500, turn off coreint if this MPIC doesn't
1400          * support it.  Note that we never enable it if it wasn't
1401          * requested in the first place.
1402          *
1403          * This is done outside the MPIC_FSL check, so that we
1404          * also disable coreint if the MPIC node doesn't have
1405          * an "fsl,mpic" compatible at all.  This will be the case
1406          * with device trees generated by older versions of QEMU.
1407          * fsl_version will be zero if MPIC_FSL is not set.
1408          */
1409         if (fsl_version < 0x400 && (flags & MPIC_ENABLE_COREINT))
1410                 ppc_md.get_irq = mpic_get_irq;
1411 
1412         /* Reset */
1413 
1414         /* When using a device-node, reset requests are only honored if the MPIC
1415          * is allowed to reset.
1416          */
1417         if (!(mpic->flags & MPIC_NO_RESET)) {
1418                 printk(KERN_DEBUG "mpic: Resetting\n");
1419                 mpic_write(mpic->gregs, MPIC_INFO(GREG_GLOBAL_CONF_0),
1420                            mpic_read(mpic->gregs, MPIC_INFO(GREG_GLOBAL_CONF_0))
1421                            | MPIC_GREG_GCONF_RESET);
1422                 while( mpic_read(mpic->gregs, MPIC_INFO(GREG_GLOBAL_CONF_0))
1423                        & MPIC_GREG_GCONF_RESET)
1424                         mb();
1425         }
1426 
1427         /* CoreInt */
1428         if (mpic->flags & MPIC_ENABLE_COREINT)
1429                 mpic_write(mpic->gregs, MPIC_INFO(GREG_GLOBAL_CONF_0),
1430                            mpic_read(mpic->gregs, MPIC_INFO(GREG_GLOBAL_CONF_0))
1431                            | MPIC_GREG_GCONF_COREINT);
1432 
1433         if (mpic->flags & MPIC_ENABLE_MCK)
1434                 mpic_write(mpic->gregs, MPIC_INFO(GREG_GLOBAL_CONF_0),
1435                            mpic_read(mpic->gregs, MPIC_INFO(GREG_GLOBAL_CONF_0))
1436                            | MPIC_GREG_GCONF_MCK);
1437 
1438         /*
1439          * The MPIC driver will crash if there are more cores than we
1440          * can initialize, so we may as well catch that problem here.
1441          */
1442         BUG_ON(num_possible_cpus() > MPIC_MAX_CPUS);
1443 
1444         /* Map the per-CPU registers */
1445         for_each_possible_cpu(i) {
1446                 unsigned int cpu = get_hard_smp_processor_id(i);
1447 
1448                 mpic_map(mpic, mpic->paddr, &mpic->cpuregs[cpu],
1449                          MPIC_INFO(CPU_BASE) + cpu * MPIC_INFO(CPU_STRIDE),
1450                          0x1000);
1451         }
1452 
1453         /*
1454          * Read feature register.  For non-ISU MPICs, num sources as well. On
1455          * ISU MPICs, sources are counted as ISUs are added
1456          */
1457         greg_feature = mpic_read(mpic->gregs, MPIC_INFO(GREG_FEATURE_0));
1458 
1459         /*
1460          * By default, the last source number comes from the MPIC, but the
1461          * device-tree and board support code can override it on buggy hw.
1462          * If we get passed an isu_size (multi-isu MPIC) then we use that
1463          * as a default instead of the value read from the HW.
1464          */
1465         last_irq = (greg_feature & MPIC_GREG_FEATURE_LAST_SRC_MASK)
1466                                 >> MPIC_GREG_FEATURE_LAST_SRC_SHIFT;
1467         if (isu_size)
1468                 last_irq = isu_size  * MPIC_MAX_ISU - 1;
1469         of_property_read_u32(mpic->node, "last-interrupt-source", &last_irq);
1470         if (irq_count)
1471                 last_irq = irq_count - 1;
1472 
1473         /* Initialize main ISU if none provided */
1474         if (!isu_size) {
1475                 isu_size = last_irq + 1;
1476                 mpic->num_sources = isu_size;
1477                 mpic_map(mpic, mpic->paddr, &mpic->isus[0],
1478                                 MPIC_INFO(IRQ_BASE),
1479                                 MPIC_INFO(IRQ_STRIDE) * isu_size);
1480         }
1481 
1482         mpic->isu_size = isu_size;
1483         mpic->isu_shift = 1 + __ilog2(mpic->isu_size - 1);
1484         mpic->isu_mask = (1 << mpic->isu_shift) - 1;
1485 
1486         mpic->irqhost = irq_domain_add_linear(mpic->node,
1487                                        intvec_top,
1488                                        &mpic_host_ops, mpic);
1489 
1490         /*
1491          * FIXME: The code leaks the MPIC object and mappings here; this
1492          * is very unlikely to fail but it ought to be fixed anyways.
1493          */
1494         if (mpic->irqhost == NULL)
1495                 return NULL;
1496 
1497         /* Display version */
1498         switch (greg_feature & MPIC_GREG_FEATURE_VERSION_MASK) {
1499         case 1:
1500                 vers = "1.0";
1501                 break;
1502         case 2:
1503                 vers = "1.2";
1504                 break;
1505         case 3:
1506                 vers = "1.3";
1507                 break;
1508         default:
1509                 vers = "<unknown>";
1510                 break;
1511         }
1512         printk(KERN_INFO "mpic: Setting up MPIC \"%s\" version %s at %llx,"
1513                " max %d CPUs\n",
1514                name, vers, (unsigned long long)mpic->paddr, num_possible_cpus());
1515         printk(KERN_INFO "mpic: ISU size: %d, shift: %d, mask: %x\n",
1516                mpic->isu_size, mpic->isu_shift, mpic->isu_mask);
1517 
1518         mpic->next = mpics;
1519         mpics = mpic;
1520 
1521         if (!(mpic->flags & MPIC_SECONDARY)) {
1522                 mpic_primary = mpic;
1523                 irq_set_default_host(mpic->irqhost);
1524         }
1525 
1526         return mpic;
1527 
1528 err_of_node_put:
1529         of_node_put(node);
1530         return NULL;
1531 }
1532 
1533 void __init mpic_assign_isu(struct mpic *mpic, unsigned int isu_num,
1534                             phys_addr_t paddr)
1535 {
1536         unsigned int isu_first = isu_num * mpic->isu_size;
1537 
1538         BUG_ON(isu_num >= MPIC_MAX_ISU);
1539 
1540         mpic_map(mpic,
1541                  paddr, &mpic->isus[isu_num], 0,
1542                  MPIC_INFO(IRQ_STRIDE) * mpic->isu_size);
1543 
1544         if ((isu_first + mpic->isu_size) > mpic->num_sources)
1545                 mpic->num_sources = isu_first + mpic->isu_size;
1546 }
1547 
1548 void __init mpic_init(struct mpic *mpic)
1549 {
1550         int i, cpu;
1551         int num_timers = 4;
1552 
1553         BUG_ON(mpic->num_sources == 0);
1554 
1555         printk(KERN_INFO "mpic: Initializing for %d sources\n", mpic->num_sources);
1556 
1557         /* Set current processor priority to max */
1558         mpic_cpu_write(MPIC_INFO(CPU_CURRENT_TASK_PRI), 0xf);
1559 
1560         if (mpic->flags & MPIC_FSL) {
1561                 u32 version = fsl_mpic_get_version(mpic);
1562 
1563                 /*
1564                  * Timer group B is present at the latest in MPIC 3.1 (e.g.
1565                  * mpc8536).  It is not present in MPIC 2.0 (e.g. mpc8544).
1566                  * I don't know about the status of intermediate versions (or
1567                  * whether they even exist).
1568                  */
1569                 if (version >= 0x0301)
1570                         num_timers = 8;
1571         }
1572 
1573         /* Initialize timers to our reserved vectors and mask them for now */
1574         for (i = 0; i < num_timers; i++) {
1575                 unsigned int offset = mpic_tm_offset(mpic, i);
1576 
1577                 mpic_write(mpic->tmregs,
1578                            offset + MPIC_INFO(TIMER_DESTINATION),
1579                            1 << hard_smp_processor_id());
1580                 mpic_write(mpic->tmregs,
1581                            offset + MPIC_INFO(TIMER_VECTOR_PRI),
1582                            MPIC_VECPRI_MASK |
1583                            (9 << MPIC_VECPRI_PRIORITY_SHIFT) |
1584                            (mpic->timer_vecs[0] + i));
1585         }
1586 
1587         /* Initialize IPIs to our reserved vectors and mark them disabled for now */
1588         mpic_test_broken_ipi(mpic);
1589         for (i = 0; i < 4; i++) {
1590                 mpic_ipi_write(i,
1591                                MPIC_VECPRI_MASK |
1592                                (10 << MPIC_VECPRI_PRIORITY_SHIFT) |
1593                                (mpic->ipi_vecs[0] + i));
1594         }
1595 
1596         /* Do the HT PIC fixups on U3 broken mpic */
1597         DBG("MPIC flags: %x\n", mpic->flags);
1598         if ((mpic->flags & MPIC_U3_HT_IRQS) && !(mpic->flags & MPIC_SECONDARY)) {
1599                 mpic_scan_ht_pics(mpic);
1600                 mpic_u3msi_init(mpic);
1601         }
1602 
1603         mpic_pasemi_msi_init(mpic);
1604 
1605         cpu = mpic_processor_id(mpic);
1606 
1607         if (!(mpic->flags & MPIC_NO_RESET)) {
1608                 for (i = 0; i < mpic->num_sources; i++) {
1609                         /* start with vector = source number, and masked */
1610                         u32 vecpri = MPIC_VECPRI_MASK | i |
1611                                 (8 << MPIC_VECPRI_PRIORITY_SHIFT);
1612 
1613                         /* check if protected */
1614                         if (mpic->protected && test_bit(i, mpic->protected))
1615                                 continue;
1616                         /* init hw */
1617                         mpic_irq_write(i, MPIC_INFO(IRQ_VECTOR_PRI), vecpri);
1618                         mpic_irq_write(i, MPIC_INFO(IRQ_DESTINATION), 1 << cpu);
1619                 }
1620         }
1621 
1622         /* Init spurious vector */
1623         mpic_write(mpic->gregs, MPIC_INFO(GREG_SPURIOUS), mpic->spurious_vec);
1624 
1625         /* Disable 8259 passthrough, if supported */
1626         if (!(mpic->flags & MPIC_NO_PTHROU_DIS))
1627                 mpic_write(mpic->gregs, MPIC_INFO(GREG_GLOBAL_CONF_0),
1628                            mpic_read(mpic->gregs, MPIC_INFO(GREG_GLOBAL_CONF_0))
1629                            | MPIC_GREG_GCONF_8259_PTHROU_DIS);
1630 
1631         if (mpic->flags & MPIC_NO_BIAS)
1632                 mpic_write(mpic->gregs, MPIC_INFO(GREG_GLOBAL_CONF_0),
1633                         mpic_read(mpic->gregs, MPIC_INFO(GREG_GLOBAL_CONF_0))
1634                         | MPIC_GREG_GCONF_NO_BIAS);
1635 
1636         /* Set current processor priority to 0 */
1637         mpic_cpu_write(MPIC_INFO(CPU_CURRENT_TASK_PRI), 0);
1638 
1639 #ifdef CONFIG_PM
1640         /* allocate memory to save mpic state */
1641         mpic->save_data = kmalloc_array(mpic->num_sources,
1642                                         sizeof(*mpic->save_data),
1643                                         GFP_KERNEL);
1644         BUG_ON(mpic->save_data == NULL);
1645 #endif
1646 
1647         /* Check if this MPIC is chained from a parent interrupt controller */
1648         if (mpic->flags & MPIC_SECONDARY) {
1649                 int virq = irq_of_parse_and_map(mpic->node, 0);
1650                 if (virq) {
1651                         printk(KERN_INFO "%pOF: hooking up to IRQ %d\n",
1652                                         mpic->node, virq);
1653                         irq_set_handler_data(virq, mpic);
1654                         irq_set_chained_handler(virq, &mpic_cascade);
1655                 }
1656         }
1657 
1658         /* FSL mpic error interrupt initialization */
1659         if (mpic->flags & MPIC_FSL_HAS_EIMR)
1660                 mpic_err_int_init(mpic, MPIC_FSL_ERR_INT);
1661 }
1662 
1663 void mpic_irq_set_priority(unsigned int irq, unsigned int pri)
1664 {
1665         struct mpic *mpic = mpic_find(irq);
1666         unsigned int src = virq_to_hw(irq);
1667         unsigned long flags;
1668         u32 reg;
1669 
1670         if (!mpic)
1671                 return;
1672 
1673         raw_spin_lock_irqsave(&mpic_lock, flags);
1674         if (mpic_is_ipi(mpic, src)) {
1675                 reg = mpic_ipi_read(src - mpic->ipi_vecs[0]) &
1676                         ~MPIC_VECPRI_PRIORITY_MASK;
1677                 mpic_ipi_write(src - mpic->ipi_vecs[0],
1678                                reg | (pri << MPIC_VECPRI_PRIORITY_SHIFT));
1679         } else if (mpic_is_tm(mpic, src)) {
1680                 reg = mpic_tm_read(src - mpic->timer_vecs[0]) &
1681                         ~MPIC_VECPRI_PRIORITY_MASK;
1682                 mpic_tm_write(src - mpic->timer_vecs[0],
1683                               reg | (pri << MPIC_VECPRI_PRIORITY_SHIFT));
1684         } else {
1685                 reg = mpic_irq_read(src, MPIC_INFO(IRQ_VECTOR_PRI))
1686                         & ~MPIC_VECPRI_PRIORITY_MASK;
1687                 mpic_irq_write(src, MPIC_INFO(IRQ_VECTOR_PRI),
1688                                reg | (pri << MPIC_VECPRI_PRIORITY_SHIFT));
1689         }
1690         raw_spin_unlock_irqrestore(&mpic_lock, flags);
1691 }
1692 
1693 void mpic_setup_this_cpu(void)
1694 {
1695 #ifdef CONFIG_SMP
1696         struct mpic *mpic = mpic_primary;
1697         unsigned long flags;
1698         u32 msk = 1 << hard_smp_processor_id();
1699         unsigned int i;
1700 
1701         BUG_ON(mpic == NULL);
1702 
1703         DBG("%s: setup_this_cpu(%d)\n", mpic->name, hard_smp_processor_id());
1704 
1705         raw_spin_lock_irqsave(&mpic_lock, flags);
1706 
1707         /* let the mpic know we want intrs. default affinity is 0xffffffff
1708          * until changed via /proc. That's how it's done on x86. If we want
1709          * it differently, then we should make sure we also change the default
1710          * values of irq_desc[].affinity in irq.c.
1711          */
1712         if (distribute_irqs && !(mpic->flags & MPIC_SINGLE_DEST_CPU)) {
1713                 for (i = 0; i < mpic->num_sources ; i++)
1714                         mpic_irq_write(i, MPIC_INFO(IRQ_DESTINATION),
1715                                 mpic_irq_read(i, MPIC_INFO(IRQ_DESTINATION)) | msk);
1716         }
1717 
1718         /* Set current processor priority to 0 */
1719         mpic_cpu_write(MPIC_INFO(CPU_CURRENT_TASK_PRI), 0);
1720 
1721         raw_spin_unlock_irqrestore(&mpic_lock, flags);
1722 #endif /* CONFIG_SMP */
1723 }
1724 
1725 int mpic_cpu_get_priority(void)
1726 {
1727         struct mpic *mpic = mpic_primary;
1728 
1729         return mpic_cpu_read(MPIC_INFO(CPU_CURRENT_TASK_PRI));
1730 }
1731 
1732 void mpic_cpu_set_priority(int prio)
1733 {
1734         struct mpic *mpic = mpic_primary;
1735 
1736         prio &= MPIC_CPU_TASKPRI_MASK;
1737         mpic_cpu_write(MPIC_INFO(CPU_CURRENT_TASK_PRI), prio);
1738 }
1739 
1740 void mpic_teardown_this_cpu(int secondary)
1741 {
1742         struct mpic *mpic = mpic_primary;
1743         unsigned long flags;
1744         u32 msk = 1 << hard_smp_processor_id();
1745         unsigned int i;
1746 
1747         BUG_ON(mpic == NULL);
1748 
1749         DBG("%s: teardown_this_cpu(%d)\n", mpic->name, hard_smp_processor_id());
1750         raw_spin_lock_irqsave(&mpic_lock, flags);
1751 
1752         /* let the mpic know we don't want intrs.  */
1753         for (i = 0; i < mpic->num_sources ; i++)
1754                 mpic_irq_write(i, MPIC_INFO(IRQ_DESTINATION),
1755                         mpic_irq_read(i, MPIC_INFO(IRQ_DESTINATION)) & ~msk);
1756 
1757         /* Set current processor priority to max */
1758         mpic_cpu_write(MPIC_INFO(CPU_CURRENT_TASK_PRI), 0xf);
1759         /* We need to EOI the IPI since not all platforms reset the MPIC
1760          * on boot and new interrupts wouldn't get delivered otherwise.
1761          */
1762         mpic_eoi(mpic);
1763 
1764         raw_spin_unlock_irqrestore(&mpic_lock, flags);
1765 }
1766 
1767 
1768 static unsigned int _mpic_get_one_irq(struct mpic *mpic, int reg)
1769 {
1770         u32 src;
1771 
1772         src = mpic_cpu_read(reg) & MPIC_INFO(VECPRI_VECTOR_MASK);
1773 #ifdef DEBUG_LOW
1774         DBG("%s: get_one_irq(reg 0x%x): %d\n", mpic->name, reg, src);
1775 #endif
1776         if (unlikely(src == mpic->spurious_vec)) {
1777                 if (mpic->flags & MPIC_SPV_EOI)
1778                         mpic_eoi(mpic);
1779                 return 0;
1780         }
1781         if (unlikely(mpic->protected && test_bit(src, mpic->protected))) {
1782                 printk_ratelimited(KERN_WARNING "%s: Got protected source %d !\n",
1783                                    mpic->name, (int)src);
1784                 mpic_eoi(mpic);
1785                 return 0;
1786         }
1787 
1788         return irq_linear_revmap(mpic->irqhost, src);
1789 }
1790 
1791 unsigned int mpic_get_one_irq(struct mpic *mpic)
1792 {
1793         return _mpic_get_one_irq(mpic, MPIC_INFO(CPU_INTACK));
1794 }
1795 
1796 unsigned int mpic_get_irq(void)
1797 {
1798         struct mpic *mpic = mpic_primary;
1799 
1800         BUG_ON(mpic == NULL);
1801 
1802         return mpic_get_one_irq(mpic);
1803 }
1804 
1805 unsigned int mpic_get_coreint_irq(void)
1806 {
1807 #ifdef CONFIG_BOOKE
1808         struct mpic *mpic = mpic_primary;
1809         u32 src;
1810 
1811         BUG_ON(mpic == NULL);
1812 
1813         src = mfspr(SPRN_EPR);
1814 
1815         if (unlikely(src == mpic->spurious_vec)) {
1816                 if (mpic->flags & MPIC_SPV_EOI)
1817                         mpic_eoi(mpic);
1818                 return 0;
1819         }
1820         if (unlikely(mpic->protected && test_bit(src, mpic->protected))) {
1821                 printk_ratelimited(KERN_WARNING "%s: Got protected source %d !\n",
1822                                    mpic->name, (int)src);
1823                 return 0;
1824         }
1825 
1826         return irq_linear_revmap(mpic->irqhost, src);
1827 #else
1828         return 0;
1829 #endif
1830 }
1831 
1832 unsigned int mpic_get_mcirq(void)
1833 {
1834         struct mpic *mpic = mpic_primary;
1835 
1836         BUG_ON(mpic == NULL);
1837 
1838         return _mpic_get_one_irq(mpic, MPIC_INFO(CPU_MCACK));
1839 }
1840 
1841 #ifdef CONFIG_SMP
1842 void __init mpic_request_ipis(void)
1843 {
1844         struct mpic *mpic = mpic_primary;
1845         int i;
1846         BUG_ON(mpic == NULL);
1847 
1848         printk(KERN_INFO "mpic: requesting IPIs...\n");
1849 
1850         for (i = 0; i < 4; i++) {
1851                 unsigned int vipi = irq_create_mapping(mpic->irqhost,
1852                                                        mpic->ipi_vecs[0] + i);
1853                 if (!vipi) {
1854                         printk(KERN_ERR "Failed to map %s\n", smp_ipi_name[i]);
1855                         continue;
1856                 }
1857                 smp_request_message_ipi(vipi, i);
1858         }
1859 }
1860 
1861 void smp_mpic_message_pass(int cpu, int msg)
1862 {
1863         struct mpic *mpic = mpic_primary;
1864         u32 physmask;
1865 
1866         BUG_ON(mpic == NULL);
1867 
1868         /* make sure we're sending something that translates to an IPI */
1869         if ((unsigned int)msg > 3) {
1870                 printk("SMP %d: smp_message_pass: unknown msg %d\n",
1871                        smp_processor_id(), msg);
1872                 return;
1873         }
1874 
1875 #ifdef DEBUG_IPI
1876         DBG("%s: send_ipi(ipi_no: %d)\n", mpic->name, msg);
1877 #endif
1878 
1879         physmask = 1 << get_hard_smp_processor_id(cpu);
1880 
1881         mpic_cpu_write(MPIC_INFO(CPU_IPI_DISPATCH_0) +
1882                        msg * MPIC_INFO(CPU_IPI_DISPATCH_STRIDE), physmask);
1883 }
1884 
1885 void __init smp_mpic_probe(void)
1886 {
1887         int nr_cpus;
1888 
1889         DBG("smp_mpic_probe()...\n");
1890 
1891         nr_cpus = num_possible_cpus();
1892 
1893         DBG("nr_cpus: %d\n", nr_cpus);
1894 
1895         if (nr_cpus > 1)
1896                 mpic_request_ipis();
1897 }
1898 
1899 void smp_mpic_setup_cpu(int cpu)
1900 {
1901         mpic_setup_this_cpu();
1902 }
1903 
1904 void mpic_reset_core(int cpu)
1905 {
1906         struct mpic *mpic = mpic_primary;
1907         u32 pir;
1908         int cpuid = get_hard_smp_processor_id(cpu);
1909         int i;
1910 
1911         /* Set target bit for core reset */
1912         pir = mpic_read(mpic->gregs, MPIC_INFO(GREG_PROCESSOR_INIT));
1913         pir |= (1 << cpuid);
1914         mpic_write(mpic->gregs, MPIC_INFO(GREG_PROCESSOR_INIT), pir);
1915         mpic_read(mpic->gregs, MPIC_INFO(GREG_PROCESSOR_INIT));
1916 
1917         /* Restore target bit after reset complete */
1918         pir &= ~(1 << cpuid);
1919         mpic_write(mpic->gregs, MPIC_INFO(GREG_PROCESSOR_INIT), pir);
1920         mpic_read(mpic->gregs, MPIC_INFO(GREG_PROCESSOR_INIT));
1921 
1922         /* Perform 15 EOI on each reset core to clear pending interrupts.
1923          * This is required for FSL CoreNet based devices */
1924         if (mpic->flags & MPIC_FSL) {
1925                 for (i = 0; i < 15; i++) {
1926                         _mpic_write(mpic->reg_type, &mpic->cpuregs[cpuid],
1927                                       MPIC_CPU_EOI, 0);
1928                 }
1929         }
1930 }
1931 #endif /* CONFIG_SMP */
1932 
1933 #ifdef CONFIG_PM
1934 static void mpic_suspend_one(struct mpic *mpic)
1935 {
1936         int i;
1937 
1938         for (i = 0; i < mpic->num_sources; i++) {
1939                 mpic->save_data[i].vecprio =
1940                         mpic_irq_read(i, MPIC_INFO(IRQ_VECTOR_PRI));
1941                 mpic->save_data[i].dest =
1942                         mpic_irq_read(i, MPIC_INFO(IRQ_DESTINATION));
1943         }
1944 }
1945 
1946 static int mpic_suspend(void)
1947 {
1948         struct mpic *mpic = mpics;
1949 
1950         while (mpic) {
1951                 mpic_suspend_one(mpic);
1952                 mpic = mpic->next;
1953         }
1954 
1955         return 0;
1956 }
1957 
1958 static void mpic_resume_one(struct mpic *mpic)
1959 {
1960         int i;
1961 
1962         for (i = 0; i < mpic->num_sources; i++) {
1963                 mpic_irq_write(i, MPIC_INFO(IRQ_VECTOR_PRI),
1964                                mpic->save_data[i].vecprio);
1965                 mpic_irq_write(i, MPIC_INFO(IRQ_DESTINATION),
1966                                mpic->save_data[i].dest);
1967 
1968 #ifdef CONFIG_MPIC_U3_HT_IRQS
1969         if (mpic->fixups) {
1970                 struct mpic_irq_fixup *fixup = &mpic->fixups[i];
1971 
1972                 if (fixup->base) {
1973                         /* we use the lowest bit in an inverted meaning */
1974                         if ((mpic->save_data[i].fixup_data & 1) == 0)
1975                                 continue;
1976 
1977                         /* Enable and configure */
1978                         writeb(0x10 + 2 * fixup->index, fixup->base + 2);
1979 
1980                         writel(mpic->save_data[i].fixup_data & ~1,
1981                                fixup->base + 4);
1982                 }
1983         }
1984 #endif
1985         } /* end for loop */
1986 }
1987 
1988 static void mpic_resume(void)
1989 {
1990         struct mpic *mpic = mpics;
1991 
1992         while (mpic) {
1993                 mpic_resume_one(mpic);
1994                 mpic = mpic->next;
1995         }
1996 }
1997 
1998 static struct syscore_ops mpic_syscore_ops = {
1999         .resume = mpic_resume,
2000         .suspend = mpic_suspend,
2001 };
2002 
2003 static int mpic_init_sys(void)
2004 {
2005         int rc;
2006 
2007         register_syscore_ops(&mpic_syscore_ops);
2008         rc = subsys_system_register(&mpic_subsys, NULL);
2009         if (rc) {
2010                 unregister_syscore_ops(&mpic_syscore_ops);
2011                 pr_err("mpic: Failed to register subsystem!\n");
2012                 return rc;
2013         }
2014 
2015         return 0;
2016 }
2017 
2018 device_initcall(mpic_init_sys);
2019 #endif
2020 

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