📄 synergy.h

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#ifndef ASM_IA64_SN_SYNERGY_H#define ASM_IA64_SN_SYNERGY_H#include "asm/io.h"#include "asm/sn/intr_public.h"/* * Definitions for the synergy asic driver *  * These are for SGI platforms only. * * Copyright (C) 2000 Silicon Graphics, Inc * Copyright (C) 2000 Alan Mayer (ajm@sgi.com) */#define SSPEC_BASE	(0xe0000000000)#define LB_REG_BASE	(SSPEC_BASE + 0x0)#define VEC_MASK3A_ADDR	(0x2a0 + LB_REG_BASE + __IA64_UNCACHED_OFFSET)#define VEC_MASK3B_ADDR	(0x2a8 + LB_REG_BASE + __IA64_UNCACHED_OFFSET)#define VEC_MASK3A	(0x2a0)#define VEC_MASK3B	(0x2a8)#define VEC_MASK2A_ADDR	(0x2b0 + LB_REG_BASE + __IA64_UNCACHED_OFFSET)#define VEC_MASK2B_ADDR	(0x2b8 + LB_REG_BASE + __IA64_UNCACHED_OFFSET)#define VEC_MASK2A	(0x2b0)#define VEC_MASK2B	(0x2b8)#define VEC_MASK1A_ADDR	(0x2c0 + LB_REG_BASE + __IA64_UNCACHED_OFFSET)#define VEC_MASK1B_ADDR	(0x2c8 + LB_REG_BASE + __IA64_UNCACHED_OFFSET)#define VEC_MASK1A	(0x2c0)#define VEC_MASK1B	(0x2c8)#define VEC_MASK0A_ADDR	(0x2d0 + LB_REG_BASE + __IA64_UNCACHED_OFFSET)#define VEC_MASK0B_ADDR	(0x2d8 + LB_REG_BASE + __IA64_UNCACHED_OFFSET)#define VEC_MASK0A	(0x2d0)#define VEC_MASK0B	(0x2d8)#define WRITE_LOCAL_SYNERGY_REG(addr, value)	__synergy_out(addr, value)#define HUBREG_CAST             (volatile hubreg_t *)#define NODE_OFFSET(_n)         (UINT64_CAST (_n) << NODE_SIZE_BITS)#define SYN_UNCACHED_SPACE      0xc000000000000000#define NODE_HSPEC_BASE(_n)     (HSPEC_BASE + NODE_OFFSET(_n))#define NODE_LREG_BASE(_n)      (NODE_HSPEC_BASE(_n) + 0x30000000)#define RREG_BASE(_n)           (NODE_LREG_BASE(_n))#define REMOTE_HSPEC(_n, _x)    (HUBREG_CAST (RREG_BASE(_n) + (_x)))#define    HSPEC_SYNERGY0_0          0x04000000    /* Synergy0 Registers     */#define    HSPEC_SYNERGY1_0          0x05000000    /* Synergy1 Registers     */#define HS_SYNERGY_STRIDE               (HSPEC_SYNERGY1_0 - HSPEC_SYNERGY0_0)#define HUB_L(_a)                       *(_a)#define HUB_S(_a, _d)                   *(_a) = (_d)#define REMOTE_SYNERGY_LOAD(nasid, fsb, reg)  __remote_synergy_in(nasid, fsb, reg)#define REMOTE_SYNERGY_STORE(nasid, fsb, reg, val) __remote_synergy_out(nasid, fsb, reg, val)extern inline void__remote_synergy_out(int nasid, int fsb, unsigned long reg, unsigned long val) {	unsigned long addr = ((RREG_BASE(nasid)) + 		((HSPEC_SYNERGY0_0 | (fsb)*HS_SYNERGY_STRIDE) | ((reg) << 2)));	HUB_S((unsigned long *)(addr),      (val) >> 48);	HUB_S((unsigned long *)(addr+0x08), (val) >> 32);	HUB_S((unsigned long *)(addr+0x10), (val) >> 16);	HUB_S((unsigned long *)(addr+0x18), (val)      );	__ia64_mf_a();}extern inline unsigned long__remote_synergy_in(int nasid, int fsb, unsigned long reg) {	volatile unsigned long *addr = (unsigned long *) ((RREG_BASE(nasid)) + 		((HSPEC_SYNERGY0_0 | (fsb)*HS_SYNERGY_STRIDE) | (reg)));	unsigned long ret;	ret = *addr;	__ia64_mf_a();	return ret;}extern inline void__synergy_out(unsigned long addr, unsigned long value){	volatile unsigned long *adr = (unsigned long *)			(addr | __IA64_UNCACHED_OFFSET);	*adr = value;	__ia64_mf_a();}#define READ_LOCAL_SYNERGY_REG(addr)	__synergy_in(addr)extern inline unsigned long__synergy_in(unsigned long addr){	unsigned long ret, *adr = (unsigned long *)			(addr | __IA64_UNCACHED_OFFSET);	ret = *adr;	__ia64_mf_a();	return ret;}struct sn1_intr_action {	void (*handler)(int, void *, struct pt_regs *);	void *intr_arg;	unsigned long flags;	struct sn1_intr_action * next;};typedef struct synergy_da_s {	hub_intmasks_t	s_intmasks;}synergy_da_t;struct sn1_cnode_action_list {	spinlock_t action_list_lock;	struct sn1_intr_action *action_list;};	/* Temporary defintions for testing: */#endif ASM_IA64_SN_SYNERGY_H
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