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       /*
        * Arm PrimeCell PL190 Vector Interrupt Controller
+       *
        * Copyright (c) 2006 CodeSourcery.
        * Written by Paul Brook
+       *
        * This code is licenced under the GPL.
        */
       #include "hw.h"
       #include "primecell.h"
       /* The number of virtual priority levels.  16 user vectors plus the
          unvectored IRQ.  Chained interrupts would require an additional level
          if implemented.  */
       #define PL190_NUM_PRIO 17
       typedef struct {
           uint32_t level;
           uint32_t soft_level;
           uint32_t irq_enable;
           uint32_t fiq_select;
           uint32_t default_addr;
           uint8_t vect_control[16];
           uint32_t vect_addr[PL190_NUM_PRIO];
           /* Mask containing interrupts with higher priority than this one.  */
           uint32_t prio_mask[PL190_NUM_PRIO + 1];
           int protected;
           /* Current priority level.  */
           int priority;
           int prev_prio[PL190_NUM_PRIO];
           qemu_irq irq;
           qemu_irq fiq;
       } pl190_state;
       static const unsigned char pl190_id[] =
       { 0x90, 0x11, 0x04, 0x00, 0x0D, 0xf0, 0x05, 0xb1 };
       static inline uint32_t pl190_irq_level(pl190_state *s)
+      {
           return (s->level | s->soft_level) & s->irq_enable & ~s->fiq_select;
+      }
       /* Update interrupts.  */
       static void pl190_update(pl190_state *s)
+      {
           uint32_t level = pl190_irq_level(s);
           int set;
           set = (level & s->prio_mask[s->priority]) != 0;
           qemu_set_irq(s->irq, set);
           set = ((s->level | s->soft_level) & s->fiq_select) != 0;
           qemu_set_irq(s->fiq, set);
+      }
       static void pl190_set_irq(void *opaque, int irq, int level)
+      {
           pl190_state *s = (pl190_state *)opaque;
           if (level)
               s->level |= 1u << irq;
           else
               s->level &= ~(1u << irq);
           pl190_update(s);
+      }
       static void pl190_update_vectors(pl190_state *s)
+      {
           uint32_t mask;
           int i;
           int n;
           mask = 0;
           for (i = 0; i < 16; i++)
+            {
               s->prio_mask[i] = mask;
               if (s->vect_control[i] & 0x20)
+                {
                   n = s->vect_control[i] & 0x1f;
                   mask |= 1 << n;
+                }
+            }
           s->prio_mask[16] = mask;
           pl190_update(s);
+      }
       static uint32_t pl190_read(void *opaque, target_phys_addr_t offset)
+      {
           pl190_state *s = (pl190_state *)opaque;
           int i;
           if (offset >= 0xfe0 && offset < 0x1000) {
               return pl190_id[(offset - 0xfe0) >> 2];
+          }
           if (offset >= 0x100 && offset < 0x140) {
               return s->vect_addr[(offset - 0x100) >> 2];
+          }
           if (offset >= 0x200 && offset < 0x240) {
               return s->vect_control[(offset - 0x200) >> 2];
+          }
           switch (offset >> 2) {
           case 0: /* IRQSTATUS */
               return pl190_irq_level(s);
           case 1: /* FIQSATUS */
               return (s->level | s->soft_level) & s->fiq_select;
           case 2: /* RAWINTR */
               return s->level | s->soft_level;
           case 3: /* INTSELECT */
               return s->fiq_select;
           case 4: /* INTENABLE */
               return s->irq_enable;
           case 6: /* SOFTINT */
               return s->soft_level;
           case 8: /* PROTECTION */
               return s->protected;
           case 12: /* VECTADDR */
               /* Read vector address at the start of an ISR.  Increases the
                  current priority level to that of the current interrupt.  */
               for (i = 0; i < s->priority; i++)
+                {
                   if ((s->level | s->soft_level) & s->prio_mask[i])
                     break;
+                }
               /* Reading this value with no pending interrupts is undefined.
                  We return the default address.  */
               if (i == PL190_NUM_PRIO)
                 return s->vect_addr[16];
               if (i < s->priority)
+                {
                   s->prev_prio[i] = s->priority;
                   s->priority = i;
                   pl190_update(s);
+                }
               return s->vect_addr[s->priority];
           case 13: /* DEFVECTADDR */
               return s->vect_addr[16];
           default:
               hw_error("pl190_read: Bad offset %x\n", (int)offset);
               return 0;
+          }
+      }
       static void pl190_write(void *opaque, target_phys_addr_t offset, uint32_t val)
+      {
           pl190_state *s = (pl190_state *)opaque;
           if (offset >= 0x100 && offset < 0x140) {
               s->vect_addr[(offset - 0x100) >> 2] = val;
               pl190_update_vectors(s);
               return;
+          }
           if (offset >= 0x200 && offset < 0x240) {
               s->vect_control[(offset - 0x200) >> 2] = val;
               pl190_update_vectors(s);
               return;
+          }
           switch (offset >> 2) {
           case 0: /* SELECT */
               /* This is a readonly register, but linux tries to write to it
                  anyway.  Ignore the write.  */
               break;
           case 3: /* INTSELECT */
               s->fiq_select = val;
               break;
           case 4: /* INTENABLE */
               s->irq_enable |= val;
               break;
           case 5: /* INTENCLEAR */
               s->irq_enable &= ~val;
               break;
           case 6: /* SOFTINT */
               s->soft_level |= val;
               break;
           case 7: /* SOFTINTCLEAR */
               s->soft_level &= ~val;
               break;
           case 8: /* PROTECTION */
               /* TODO: Protection (supervisor only access) is not implemented.  */
               s->protected = val & 1;
               break;
           case 12: /* VECTADDR */
               /* Restore the previous priority level.  The value written is
                  ignored.  */
               if (s->priority < PL190_NUM_PRIO)
                   s->priority = s->prev_prio[s->priority];
               break;
           case 13: /* DEFVECTADDR */
               s->default_addr = val;
               break;
           case 0xc0: /* ITCR */
               if (val) {
                   hw_error("pl190: Test mode not implemented\n");
+              }
               break;
           default:
               hw_error("pl190_write: Bad offset %x\n", (int)offset);
               return;
+          }
           pl190_update(s);
+      }
       static CPUReadMemoryFunc *pl190_readfn[] = {
          pl190_read,
          pl190_read,
          pl190_read
       };
       static CPUWriteMemoryFunc *pl190_writefn[] = {
          pl190_write,
          pl190_write,
          pl190_write
       };
       static void pl190_reset(pl190_state *s)
+      {
         int i;
         for (i = 0; i < 16; i++)
+          {
             s->vect_addr[i] = 0;
             s->vect_control[i] = 0;
+          }
         s->vect_addr[16] = 0;
         s->prio_mask[17] = 0xffffffff;
         s->priority = PL190_NUM_PRIO;
         pl190_update_vectors(s);
+      }
       qemu_irq *pl190_init(uint32_t base, qemu_irq irq, qemu_irq fiq)
+      {
           pl190_state *s;
           qemu_irq *qi;
           int iomemtype;
           s = (pl190_state *)qemu_mallocz(sizeof(pl190_state));
           iomemtype = cpu_register_io_memory(0, pl190_readfn,
                                              pl190_writefn, s);
           cpu_register_physical_memory(base, 0x00001000, iomemtype);
           qi = qemu_allocate_irqs(pl190_set_irq, s, 32);
           s->irq = irq;
           s->fiq = fiq;
           pl190_reset(s);
           /* ??? Save/restore.  */
           return qi;
+      }

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