hw_irq.h 6.3 KB

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  1. #ifndef _ASM_IA64_HW_IRQ_H
  2. #define _ASM_IA64_HW_IRQ_H
  3. /*
  4. * Copyright (C) 2001-2003 Hewlett-Packard Co
  5. * David Mosberger-Tang <davidm@hpl.hp.com>
  6. */
  7. #include <linux/interrupt.h>
  8. #include <linux/sched.h>
  9. #include <linux/types.h>
  10. #include <linux/profile.h>
  11. #include <asm/machvec.h>
  12. #include <asm/ptrace.h>
  13. #include <asm/smp.h>
  14. typedef u8 ia64_vector;
  15. /*
  16. * 0 special
  17. *
  18. * 1,3-14 are reserved from firmware
  19. *
  20. * 16-255 (vectored external interrupts) are available
  21. *
  22. * 15 spurious interrupt (see IVR)
  23. *
  24. * 16 lowest priority, 255 highest priority
  25. *
  26. * 15 classes of 16 interrupts each.
  27. */
  28. #define IA64_MIN_VECTORED_IRQ 16
  29. #define IA64_MAX_VECTORED_IRQ 255
  30. #define IA64_NUM_VECTORS 256
  31. #define AUTO_ASSIGN -1
  32. #define IA64_SPURIOUS_INT_VECTOR 0x0f
  33. /*
  34. * Vectors 0x10-0x1f are used for low priority interrupts, e.g. CMCI.
  35. */
  36. #define IA64_CPEP_VECTOR 0x1c /* corrected platform error polling vector */
  37. #define IA64_CMCP_VECTOR 0x1d /* corrected machine-check polling vector */
  38. #define IA64_CPE_VECTOR 0x1e /* corrected platform error interrupt vector */
  39. #define IA64_CMC_VECTOR 0x1f /* corrected machine-check interrupt vector */
  40. /*
  41. * Vectors 0x20-0x2f are reserved for legacy ISA IRQs.
  42. * Use vectors 0x30-0xe7 as the default device vector range for ia64.
  43. * Platforms may choose to reduce this range in platform_irq_setup, but the
  44. * platform range must fall within
  45. * [IA64_DEF_FIRST_DEVICE_VECTOR..IA64_DEF_LAST_DEVICE_VECTOR]
  46. */
  47. extern int ia64_first_device_vector;
  48. extern int ia64_last_device_vector;
  49. #if defined(CONFIG_SMP) && (defined(CONFIG_IA64_GENERIC) || defined (CONFIG_IA64_DIG))
  50. /* Reserve the lower priority vector than device vectors for "move IRQ" IPI */
  51. #define IA64_IRQ_MOVE_VECTOR 0x30 /* "move IRQ" IPI */
  52. #define IA64_DEF_FIRST_DEVICE_VECTOR 0x31
  53. #else
  54. #define IA64_DEF_FIRST_DEVICE_VECTOR 0x30
  55. #endif
  56. #define IA64_DEF_LAST_DEVICE_VECTOR 0xe7
  57. #define IA64_FIRST_DEVICE_VECTOR ia64_first_device_vector
  58. #define IA64_LAST_DEVICE_VECTOR ia64_last_device_vector
  59. #define IA64_MAX_DEVICE_VECTORS (IA64_DEF_LAST_DEVICE_VECTOR - IA64_DEF_FIRST_DEVICE_VECTOR + 1)
  60. #define IA64_NUM_DEVICE_VECTORS (IA64_LAST_DEVICE_VECTOR - IA64_FIRST_DEVICE_VECTOR + 1)
  61. #define IA64_MCA_RENDEZ_VECTOR 0xe8 /* MCA rendez interrupt */
  62. #define IA64_PERFMON_VECTOR 0xee /* performance monitor interrupt vector */
  63. #define IA64_TIMER_VECTOR 0xef /* use highest-prio group 15 interrupt for timer */
  64. #define IA64_MCA_WAKEUP_VECTOR 0xf0 /* MCA wakeup (must be >MCA_RENDEZ_VECTOR) */
  65. #define IA64_IPI_LOCAL_TLB_FLUSH 0xfc /* SMP flush local TLB */
  66. #define IA64_IPI_RESCHEDULE 0xfd /* SMP reschedule */
  67. #define IA64_IPI_VECTOR 0xfe /* inter-processor interrupt vector */
  68. /* Used for encoding redirected irqs */
  69. #define IA64_IRQ_REDIRECTED (1 << 31)
  70. /* IA64 inter-cpu interrupt related definitions */
  71. #define IA64_IPI_DEFAULT_BASE_ADDR 0xfee00000
  72. /* Delivery modes for inter-cpu interrupts */
  73. enum {
  74. IA64_IPI_DM_INT = 0x0, /* pend an external interrupt */
  75. IA64_IPI_DM_PMI = 0x2, /* pend a PMI */
  76. IA64_IPI_DM_NMI = 0x4, /* pend an NMI (vector 2) */
  77. IA64_IPI_DM_INIT = 0x5, /* pend an INIT interrupt */
  78. IA64_IPI_DM_EXTINT = 0x7, /* pend an 8259-compatible interrupt. */
  79. };
  80. extern __u8 isa_irq_to_vector_map[16];
  81. #define isa_irq_to_vector(x) isa_irq_to_vector_map[(x)]
  82. struct irq_cfg {
  83. ia64_vector vector;
  84. cpumask_t domain;
  85. cpumask_t old_domain;
  86. unsigned move_cleanup_count;
  87. u8 move_in_progress : 1;
  88. };
  89. extern spinlock_t vector_lock;
  90. extern struct irq_cfg irq_cfg[NR_IRQS];
  91. #define irq_to_domain(x) irq_cfg[(x)].domain
  92. DECLARE_PER_CPU(int[IA64_NUM_VECTORS], vector_irq);
  93. extern struct irq_chip irq_type_ia64_lsapic; /* CPU-internal interrupt controller */
  94. #define ia64_register_ipi ia64_native_register_ipi
  95. #define assign_irq_vector ia64_native_assign_irq_vector
  96. #define free_irq_vector ia64_native_free_irq_vector
  97. #define register_percpu_irq ia64_native_register_percpu_irq
  98. #define ia64_resend_irq ia64_native_resend_irq
  99. extern void ia64_native_register_ipi(void);
  100. extern int bind_irq_vector(int irq, int vector, cpumask_t domain);
  101. extern int ia64_native_assign_irq_vector (int irq); /* allocate a free vector */
  102. extern void ia64_native_free_irq_vector (int vector);
  103. extern int reserve_irq_vector (int vector);
  104. extern void __setup_vector_irq(int cpu);
  105. extern void ia64_send_ipi (int cpu, int vector, int delivery_mode, int redirect);
  106. extern void ia64_native_register_percpu_irq (ia64_vector vec, struct irqaction *action);
  107. extern void destroy_and_reserve_irq (unsigned int irq);
  108. #if defined(CONFIG_SMP) && (defined(CONFIG_IA64_GENERIC) || defined(CONFIG_IA64_DIG))
  109. extern int irq_prepare_move(int irq, int cpu);
  110. extern void irq_complete_move(unsigned int irq);
  111. #else
  112. static inline int irq_prepare_move(int irq, int cpu) { return 0; }
  113. static inline void irq_complete_move(unsigned int irq) {}
  114. #endif
  115. static inline void ia64_native_resend_irq(unsigned int vector)
  116. {
  117. platform_send_ipi(smp_processor_id(), vector, IA64_IPI_DM_INT, 0);
  118. }
  119. /*
  120. * Default implementations for the irq-descriptor API:
  121. */
  122. #ifndef CONFIG_IA64_GENERIC
  123. static inline ia64_vector __ia64_irq_to_vector(int irq)
  124. {
  125. return irq_cfg[irq].vector;
  126. }
  127. static inline unsigned int
  128. __ia64_local_vector_to_irq (ia64_vector vec)
  129. {
  130. return __this_cpu_read(vector_irq[vec]);
  131. }
  132. #endif
  133. /*
  134. * Next follows the irq descriptor interface. On IA-64, each CPU supports 256 interrupt
  135. * vectors. On smaller systems, there is a one-to-one correspondence between interrupt
  136. * vectors and the Linux irq numbers. However, larger systems may have multiple interrupt
  137. * domains meaning that the translation from vector number to irq number depends on the
  138. * interrupt domain that a CPU belongs to. This API abstracts such platform-dependent
  139. * differences and provides a uniform means to translate between vector and irq numbers
  140. * and to obtain the irq descriptor for a given irq number.
  141. */
  142. /* Extract the IA-64 vector that corresponds to IRQ. */
  143. static inline ia64_vector
  144. irq_to_vector (int irq)
  145. {
  146. return platform_irq_to_vector(irq);
  147. }
  148. /*
  149. * Convert the local IA-64 vector to the corresponding irq number. This translation is
  150. * done in the context of the interrupt domain that the currently executing CPU belongs
  151. * to.
  152. */
  153. static inline unsigned int
  154. local_vector_to_irq (ia64_vector vec)
  155. {
  156. return platform_local_vector_to_irq(vec);
  157. }
  158. #endif /* _ASM_IA64_HW_IRQ_H */