211 строки
5.8 KiB
C
211 строки
5.8 KiB
C
#ifndef __PARISC_SYSTEM_H
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#define __PARISC_SYSTEM_H
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#include <linux/config.h>
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#include <asm/psw.h>
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/* The program status word as bitfields. */
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struct pa_psw {
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unsigned int y:1;
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unsigned int z:1;
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unsigned int rv:2;
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unsigned int w:1;
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unsigned int e:1;
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unsigned int s:1;
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unsigned int t:1;
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unsigned int h:1;
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unsigned int l:1;
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unsigned int n:1;
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unsigned int x:1;
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unsigned int b:1;
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unsigned int c:1;
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unsigned int v:1;
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unsigned int m:1;
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unsigned int cb:8;
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unsigned int o:1;
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unsigned int g:1;
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unsigned int f:1;
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unsigned int r:1;
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unsigned int q:1;
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unsigned int p:1;
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unsigned int d:1;
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unsigned int i:1;
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};
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#ifdef __LP64__
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#define pa_psw(task) ((struct pa_psw *) ((char *) (task) + TASK_PT_PSW + 4))
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#else
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#define pa_psw(task) ((struct pa_psw *) ((char *) (task) + TASK_PT_PSW))
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#endif
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struct task_struct;
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extern struct task_struct *_switch_to(struct task_struct *, struct task_struct *);
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#define switch_to(prev, next, last) do { \
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(last) = _switch_to(prev, next); \
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} while(0)
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/* interrupt control */
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#define local_save_flags(x) __asm__ __volatile__("ssm 0, %0" : "=r" (x) : : "memory")
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#define local_irq_disable() __asm__ __volatile__("rsm %0,%%r0\n" : : "i" (PSW_I) : "memory" )
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#define local_irq_enable() __asm__ __volatile__("ssm %0,%%r0\n" : : "i" (PSW_I) : "memory" )
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#define local_irq_save(x) \
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__asm__ __volatile__("rsm %1,%0" : "=r" (x) :"i" (PSW_I) : "memory" )
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#define local_irq_restore(x) \
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__asm__ __volatile__("mtsm %0" : : "r" (x) : "memory" )
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#define irqs_disabled() \
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({ \
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unsigned long flags; \
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local_save_flags(flags); \
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(flags & PSW_I) == 0; \
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})
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#define mfctl(reg) ({ \
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unsigned long cr; \
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__asm__ __volatile__( \
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"mfctl " #reg ",%0" : \
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"=r" (cr) \
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); \
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cr; \
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})
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#define mtctl(gr, cr) \
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__asm__ __volatile__("mtctl %0,%1" \
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: /* no outputs */ \
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: "r" (gr), "i" (cr) : "memory")
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/* these are here to de-mystefy the calling code, and to provide hooks */
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/* which I needed for debugging EIEM problems -PB */
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#define get_eiem() mfctl(15)
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static inline void set_eiem(unsigned long val)
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{
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mtctl(val, 15);
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}
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#define mfsp(reg) ({ \
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unsigned long cr; \
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__asm__ __volatile__( \
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"mfsp " #reg ",%0" : \
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"=r" (cr) \
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); \
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cr; \
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})
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#define mtsp(gr, cr) \
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__asm__ __volatile__("mtsp %0,%1" \
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: /* no outputs */ \
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: "r" (gr), "i" (cr) : "memory")
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/*
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** This is simply the barrier() macro from linux/kernel.h but when serial.c
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** uses tqueue.h uses smp_mb() defined using barrier(), linux/kernel.h
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** hasn't yet been included yet so it fails, thus repeating the macro here.
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**
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** PA-RISC architecture allows for weakly ordered memory accesses although
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** none of the processors use it. There is a strong ordered bit that is
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** set in the O-bit of the page directory entry. Operating systems that
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** can not tolerate out of order accesses should set this bit when mapping
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** pages. The O-bit of the PSW should also be set to 1 (I don't believe any
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** of the processor implemented the PSW O-bit). The PCX-W ERS states that
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** the TLB O-bit is not implemented so the page directory does not need to
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** have the O-bit set when mapping pages (section 3.1). This section also
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** states that the PSW Y, Z, G, and O bits are not implemented.
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** So it looks like nothing needs to be done for parisc-linux (yet).
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** (thanks to chada for the above comment -ggg)
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**
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** The __asm__ op below simple prevents gcc/ld from reordering
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** instructions across the mb() "call".
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*/
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#define mb() __asm__ __volatile__("":::"memory") /* barrier() */
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#define rmb() mb()
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#define wmb() mb()
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#define smp_mb() mb()
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#define smp_rmb() mb()
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#define smp_wmb() mb()
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#define smp_read_barrier_depends() do { } while(0)
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#define read_barrier_depends() do { } while(0)
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#define set_mb(var, value) do { var = value; mb(); } while (0)
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#define set_wmb(var, value) do { var = value; wmb(); } while (0)
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/* LDCW, the only atomic read-write operation PA-RISC has. *sigh*. */
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#define __ldcw(a) ({ \
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unsigned __ret; \
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__asm__ __volatile__("ldcw 0(%1),%0" : "=r" (__ret) : "r" (a)); \
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__ret; \
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})
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/* Because kmalloc only guarantees 8-byte alignment for kmalloc'd data,
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and GCC only guarantees 8-byte alignment for stack locals, we can't
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be assured of 16-byte alignment for atomic lock data even if we
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specify "__attribute ((aligned(16)))" in the type declaration. So,
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we use a struct containing an array of four ints for the atomic lock
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type and dynamically select the 16-byte aligned int from the array
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for the semaphore. */
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#define __PA_LDCW_ALIGNMENT 16
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#define __ldcw_align(a) ({ \
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unsigned long __ret = (unsigned long) &(a)->lock[0]; \
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__ret = (__ret + __PA_LDCW_ALIGNMENT - 1) & ~(__PA_LDCW_ALIGNMENT - 1); \
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(volatile unsigned int *) __ret; \
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})
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#ifdef CONFIG_SMP
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/*
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* Your basic SMP spinlocks, allowing only a single CPU anywhere
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*/
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typedef struct {
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volatile unsigned int lock[4];
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#ifdef CONFIG_DEBUG_SPINLOCK
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unsigned long magic;
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volatile unsigned int babble;
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const char *module;
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char *bfile;
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int bline;
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int oncpu;
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void *previous;
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struct task_struct * task;
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#endif
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#ifdef CONFIG_PREEMPT
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unsigned int break_lock;
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#endif
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} spinlock_t;
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#define __lock_aligned __attribute__((__section__(".data.lock_aligned")))
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#endif
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#define KERNEL_START (0x10100000 - 0x1000)
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/* This is for the serialisation of PxTLB broadcasts. At least on the
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* N class systems, only one PxTLB inter processor broadcast can be
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* active at any one time on the Merced bus. This tlb purge
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* synchronisation is fairly lightweight and harmless so we activate
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* it on all SMP systems not just the N class. */
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#ifdef CONFIG_SMP
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extern spinlock_t pa_tlb_lock;
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#define purge_tlb_start(x) spin_lock(&pa_tlb_lock)
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#define purge_tlb_end(x) spin_unlock(&pa_tlb_lock)
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#else
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#define purge_tlb_start(x) do { } while(0)
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#define purge_tlb_end(x) do { } while (0)
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#endif
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#define arch_align_stack(x) (x)
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#endif
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