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#ifndef _ASM_IA64_PROCESSOR_H
#define _ASM_IA64_PROCESSOR_H
/*
* Copyright (C) 1998-2000 Hewlett-Packard Co
* Copyright (C) 1998-2000 David Mosberger-Tang <davidm@hpl.hp.com>
* Copyright (C) 1998, 1999 Stephane Eranian <eranian@hpl.hp.com>
* Copyright (C) 1999 Asit Mallick <asit.k.mallick@intel.com>
* Copyright (C) 1999 Don Dugger <don.dugger@intel.com>
*
* 11/24/98 S.Eranian added ia64_set_iva()
* 12/03/99 D. Mosberger implement thread_saved_pc() via kernel unwind API
* 06/16/00 A. Mallick added csd/ssd/tssd for ia32 support
*/
#include <linux/config.h>
#include <asm/ptrace.h>
#include <asm/types.h>
#define IA64_NUM_DBG_REGS 8
/*
* TASK_SIZE really is a mis-named. It really is the maximum user
* space address (plus one). On ia-64, there are five regions of 2TB
* each (assuming 8KB page size), for a total of 8TB of user virtual
* address space.
*/
#define TASK_SIZE 0xa000000000000000
/*
* This decides where the kernel will search for a free chunk of vm
* space during mmap's.
*/
#define TASK_UNMAPPED_BASE (current->thread.map_base)
/*
* Bus types
*/
#define EISA_bus 0
#define EISA_bus__is_a_macro /* for versions in ksyms.c */
#define MCA_bus 0
#define MCA_bus__is_a_macro /* for versions in ksyms.c */
/* Processor status register bits: */
#define IA64_PSR_BE_BIT 1
#define IA64_PSR_UP_BIT 2
#define IA64_PSR_AC_BIT 3
#define IA64_PSR_MFL_BIT 4
#define IA64_PSR_MFH_BIT 5
#define IA64_PSR_IC_BIT 13
#define IA64_PSR_I_BIT 14
#define IA64_PSR_PK_BIT 15
#define IA64_PSR_DT_BIT 17
#define IA64_PSR_DFL_BIT 18
#define IA64_PSR_DFH_BIT 19
#define IA64_PSR_SP_BIT 20
#define IA64_PSR_PP_BIT 21
#define IA64_PSR_DI_BIT 22
#define IA64_PSR_SI_BIT 23
#define IA64_PSR_DB_BIT 24
#define IA64_PSR_LP_BIT 25
#define IA64_PSR_TB_BIT 26
#define IA64_PSR_RT_BIT 27
/* The following are not affected by save_flags()/restore_flags(): */
#define IA64_PSR_CPL0_BIT 32
#define IA64_PSR_CPL1_BIT 33
#define IA64_PSR_IS_BIT 34
#define IA64_PSR_MC_BIT 35
#define IA64_PSR_IT_BIT 36
#define IA64_PSR_ID_BIT 37
#define IA64_PSR_DA_BIT 38
#define IA64_PSR_DD_BIT 39
#define IA64_PSR_SS_BIT 40
#define IA64_PSR_RI_BIT 41
#define IA64_PSR_ED_BIT 43
#define IA64_PSR_BN_BIT 44
#define IA64_PSR_BE (__IA64_UL(1) << IA64_PSR_BE_BIT)
#define IA64_PSR_UP (__IA64_UL(1) << IA64_PSR_UP_BIT)
#define IA64_PSR_AC (__IA64_UL(1) << IA64_PSR_AC_BIT)
#define IA64_PSR_MFL (__IA64_UL(1) << IA64_PSR_MFL_BIT)
#define IA64_PSR_MFH (__IA64_UL(1) << IA64_PSR_MFH_BIT)
#define IA64_PSR_IC (__IA64_UL(1) << IA64_PSR_IC_BIT)
#define IA64_PSR_I (__IA64_UL(1) << IA64_PSR_I_BIT)
#define IA64_PSR_PK (__IA64_UL(1) << IA64_PSR_PK_BIT)
#define IA64_PSR_DT (__IA64_UL(1) << IA64_PSR_DT_BIT)
#define IA64_PSR_DFL (__IA64_UL(1) << IA64_PSR_DFL_BIT)
#define IA64_PSR_DFH (__IA64_UL(1) << IA64_PSR_DFH_BIT)
#define IA64_PSR_SP (__IA64_UL(1) << IA64_PSR_SP_BIT)
#define IA64_PSR_PP (__IA64_UL(1) << IA64_PSR_PP_BIT)
#define IA64_PSR_DI (__IA64_UL(1) << IA64_PSR_DI_BIT)
#define IA64_PSR_SI (__IA64_UL(1) << IA64_PSR_SI_BIT)
#define IA64_PSR_DB (__IA64_UL(1) << IA64_PSR_DB_BIT)
#define IA64_PSR_LP (__IA64_UL(1) << IA64_PSR_LP_BIT)
#define IA64_PSR_TB (__IA64_UL(1) << IA64_PSR_TB_BIT)
#define IA64_PSR_RT (__IA64_UL(1) << IA64_PSR_RT_BIT)
/* The following are not affected by save_flags()/restore_flags(): */
#define IA64_PSR_IS (__IA64_UL(1) << IA64_PSR_IS_BIT)
#define IA64_PSR_MC (__IA64_UL(1) << IA64_PSR_MC_BIT)
#define IA64_PSR_IT (__IA64_UL(1) << IA64_PSR_IT_BIT)
#define IA64_PSR_ID (__IA64_UL(1) << IA64_PSR_ID_BIT)
#define IA64_PSR_DA (__IA64_UL(1) << IA64_PSR_DA_BIT)
#define IA64_PSR_DD (__IA64_UL(1) << IA64_PSR_DD_BIT)
#define IA64_PSR_SS (__IA64_UL(1) << IA64_PSR_SS_BIT)
#define IA64_PSR_RI (__IA64_UL(3) << IA64_PSR_RI_BIT)
#define IA64_PSR_ED (__IA64_UL(1) << IA64_PSR_ED_BIT)
#define IA64_PSR_BN (__IA64_UL(1) << IA64_PSR_BN_BIT)
/* User mask bits: */
#define IA64_PSR_UM (IA64_PSR_BE | IA64_PSR_UP | IA64_PSR_AC | IA64_PSR_MFL | IA64_PSR_MFH)
/* Default Control Register */
#define IA64_DCR_PP_BIT 0 /* privileged performance monitor default */
#define IA64_DCR_BE_BIT 1 /* big-endian default */
#define IA64_DCR_LC_BIT 2 /* ia32 lock-check enable */
#define IA64_DCR_DM_BIT 8 /* defer TLB miss faults */
#define IA64_DCR_DP_BIT 9 /* defer page-not-present faults */
#define IA64_DCR_DK_BIT 10 /* defer key miss faults */
#define IA64_DCR_DX_BIT 11 /* defer key permission faults */
#define IA64_DCR_DR_BIT 12 /* defer access right faults */
#define IA64_DCR_DA_BIT 13 /* defer access bit faults */
#define IA64_DCR_DD_BIT 14 /* defer debug faults */
#define IA64_DCR_PP (__IA64_UL(1) << IA64_DCR_PP_BIT)
#define IA64_DCR_BE (__IA64_UL(1) << IA64_DCR_BE_BIT)
#define IA64_DCR_LC (__IA64_UL(1) << IA64_DCR_LC_BIT)
#define IA64_DCR_DM (__IA64_UL(1) << IA64_DCR_DM_BIT)
#define IA64_DCR_DP (__IA64_UL(1) << IA64_DCR_DP_BIT)
#define IA64_DCR_DK (__IA64_UL(1) << IA64_DCR_DK_BIT)
#define IA64_DCR_DX (__IA64_UL(1) << IA64_DCR_DX_BIT)
#define IA64_DCR_DR (__IA64_UL(1) << IA64_DCR_DR_BIT)
#define IA64_DCR_DA (__IA64_UL(1) << IA64_DCR_DA_BIT)
#define IA64_DCR_DD (__IA64_UL(1) << IA64_DCR_DD_BIT)
/* Interrupt Status Register */
#define IA64_ISR_X_BIT 32 /* execute access */
#define IA64_ISR_W_BIT 33 /* write access */
#define IA64_ISR_R_BIT 34 /* read access */
#define IA64_ISR_NA_BIT 35 /* non-access */
#define IA64_ISR_SP_BIT 36 /* speculative load exception */
#define IA64_ISR_RS_BIT 37 /* mandatory register-stack exception */
#define IA64_ISR_IR_BIT 38 /* invalid register frame exception */
#define IA64_ISR_X (__IA64_UL(1) << IA64_ISR_X_BIT)
#define IA64_ISR_W (__IA64_UL(1) << IA64_ISR_W_BIT)
#define IA64_ISR_R (__IA64_UL(1) << IA64_ISR_R_BIT)
#define IA64_ISR_NA (__IA64_UL(1) << IA64_ISR_NA_BIT)
#define IA64_ISR_SP (__IA64_UL(1) << IA64_ISR_SP_BIT)
#define IA64_ISR_RS (__IA64_UL(1) << IA64_ISR_RS_BIT)
#define IA64_ISR_IR (__IA64_UL(1) << IA64_ISR_IR_BIT)
#define IA64_THREAD_FPH_VALID (__IA64_UL(1) << 0) /* floating-point high state valid? */
#define IA64_THREAD_DBG_VALID (__IA64_UL(1) << 1) /* debug registers valid? */
#define IA64_THREAD_UAC_NOPRINT (__IA64_UL(1) << 2) /* don't log unaligned accesses */
#define IA64_THREAD_UAC_SIGBUS (__IA64_UL(1) << 3) /* generate SIGBUS on unaligned acc. */
#define IA64_THREAD_KRBS_SYNCED (__IA64_UL(1) << 4) /* krbs synced with process vm? */
#define IA64_KERNEL_DEATH (__IA64_UL(1) << 63) /* see die_if_kernel()... */
#define IA64_THREAD_UAC_SHIFT 2
#define IA64_THREAD_UAC_MASK (IA64_THREAD_UAC_NOPRINT | IA64_THREAD_UAC_SIGBUS)
#ifndef __ASSEMBLY__
#include <linux/smp.h>
#include <linux/threads.h>
#include <asm/fpu.h>
#include <asm/offsets.h>
#include <asm/page.h>
#include <asm/rse.h>
#include <asm/unwind.h>
/* like above but expressed as bitfields for more efficient access: */
struct ia64_psr {
__u64 reserved0 : 1;
__u64 be : 1;
__u64 up : 1;
__u64 ac : 1;
__u64 mfl : 1;
__u64 mfh : 1;
__u64 reserved1 : 7;
__u64 ic : 1;
__u64 i : 1;
__u64 pk : 1;
__u64 reserved2 : 1;
__u64 dt : 1;
__u64 dfl : 1;
__u64 dfh : 1;
__u64 sp : 1;
__u64 pp : 1;
__u64 di : 1;
__u64 si : 1;
__u64 db : 1;
__u64 lp : 1;
__u64 tb : 1;
__u64 rt : 1;
__u64 reserved3 : 4;
__u64 cpl : 2;
__u64 is : 1;
__u64 mc : 1;
__u64 it : 1;
__u64 id : 1;
__u64 da : 1;
__u64 dd : 1;
__u64 ss : 1;
__u64 ri : 2;
__u64 ed : 1;
__u64 bn : 1;
__u64 reserved4 : 19;
};
/*
* This shift should be large enough to be able to represent
* 1000000/itc_freq with good accuracy while being small enough to fit
* 1000000<<IA64_USEC_PER_CYC_SHIFT in 64 bits.
*/
#define IA64_USEC_PER_CYC_SHIFT 41
/*
* CPU type, hardware bug flags, and per-CPU state.
*/
struct cpuinfo_ia64 {
__u64 *pgd_quick;
__u64 *pmd_quick;
__u64 *pte_quick;
__u64 pgtable_cache_sz;
/* CPUID-derived information: */
__u64 ppn;
__u64 features;
__u8 number;
__u8 revision;
__u8 model;
__u8 family;
__u8 archrev;
char vendor[16];
__u64 itc_freq; /* frequency of ITC counter */
__u64 proc_freq; /* frequency of processor */
__u64 cyc_per_usec; /* itc_freq/1000000 */
__u64 usec_per_cyc; /* 2^IA64_USEC_PER_CYC_SHIFT*1000000/itc_freq */
__u64 unimpl_va_mask; /* mask of unimplemented virtual address bits (from PAL) */
__u64 unimpl_pa_mask; /* mask of unimplemented physical address bits (from PAL) */
#ifdef CONFIG_SMP
__u64 loops_per_sec;
__u64 ipi_count;
__u64 prof_counter;
__u64 prof_multiplier;
#endif
};
#define my_cpu_data cpu_data[smp_processor_id()]
#ifdef CONFIG_SMP
# define loops_per_sec() my_cpu_data.loops_per_sec
#else
# define loops_per_sec() loops_per_sec
#endif
extern struct cpuinfo_ia64 cpu_data[NR_CPUS];
extern void identify_cpu (struct cpuinfo_ia64 *);
extern void print_cpu_info (struct cpuinfo_ia64 *);
typedef struct {
unsigned long seg;
} mm_segment_t;
#define SET_UNALIGN_CTL(task,value) \
({ \
(task)->thread.flags = (((task)->thread.flags & ~IA64_THREAD_UAC_MASK) \
| (((value) << IA64_THREAD_UAC_SHIFT) & IA64_THREAD_UAC_MASK)); \
0; \
})
#define GET_UNALIGN_CTL(task,addr) \
({ \
put_user(((task)->thread.flags & IA64_THREAD_UAC_MASK) >> IA64_THREAD_UAC_SHIFT, \
(int *) (addr)); \
})
struct siginfo;
struct thread_struct {
__u64 ksp; /* kernel stack pointer */
unsigned long flags; /* various flags */
struct ia64_fpreg fph[96]; /* saved/loaded on demand */
__u64 dbr[IA64_NUM_DBG_REGS];
__u64 ibr[IA64_NUM_DBG_REGS];
__u64 map_base; /* base address for mmap() */
#ifdef CONFIG_IA32_SUPPORT
__u64 eflag; /* IA32 EFLAGS reg */
__u64 fsr; /* IA32 floating pt status reg */
__u64 fcr; /* IA32 floating pt control reg */
__u64 fir; /* IA32 fp except. instr. reg */
__u64 fdr; /* IA32 fp except. data reg */
__u64 csd; /* IA32 code selector descriptor */
__u64 ssd; /* IA32 stack selector descriptor */
__u64 tssd; /* IA32 TSS descriptor */
union {
__u64 sigmask; /* aligned mask for sigsuspend scall */
} un;
# define INIT_THREAD_IA32 , 0, 0, 0x17800000037fULL, 0, 0, 0, 0, 0, {0}
#else
# define INIT_THREAD_IA32
#endif /* CONFIG_IA32_SUPPORT */
struct siginfo *siginfo; /* current siginfo struct for ptrace() */
};
#define INIT_MMAP { \
&init_mm, PAGE_OFFSET, PAGE_OFFSET + 0x10000000, NULL, PAGE_SHARED, \
VM_READ | VM_WRITE | VM_EXEC, 1, NULL, NULL \
}
#define INIT_THREAD { \
0, /* ksp */ \
0, /* flags */ \
{{{{0}}}, }, /* fph */ \
{0, }, /* dbr */ \
{0, }, /* ibr */ \
0x2000000000000000 /* map_base */ \
INIT_THREAD_IA32, \
0 /* siginfo */ \
}
#define start_thread(regs,new_ip,new_sp) do { \
set_fs(USER_DS); \
ia64_psr(regs)->cpl = 3; /* set user mode */ \
ia64_psr(regs)->ri = 0; /* clear return slot number */ \
ia64_psr(regs)->is = 0; /* IA-64 instruction set */ \
regs->cr_iip = new_ip; \
regs->ar_rsc = 0xf; /* eager mode, privilege level 3 */ \
regs->r12 = new_sp - 16; /* allocate 16 byte scratch area */ \
regs->ar_bspstore = IA64_RBS_BOT; \
regs->ar_rnat = 0; \
regs->loadrs = 0; \
} while (0)
/* Forward declarations, a strange C thing... */
struct mm_struct;
struct task_struct;
/* Free all resources held by a thread. */
extern void release_thread (struct task_struct *);
/*
* This is the mechanism for creating a new kernel thread.
*
* NOTE 1: Only a kernel-only process (ie the swapper or direct
* descendants who haven't done an "execve()") should use this: it
* will work within a system call from a "real" process, but the
* process memory space will not be free'd until both the parent and
* the child have exited.
*
* NOTE 2: This MUST NOT be an inlined function. Otherwise, we get
* into trouble in init/main.c when the child thread returns to
* do_basic_setup() and the timing is such that free_initmem() has
* been called already.
*/
extern int kernel_thread (int (*fn)(void *), void *arg, unsigned long flags);
/* Copy and release all segment info associated with a VM */
#define copy_segments(tsk, mm) do { } while (0)
#define release_segments(mm) do { } while (0)
#define forget_segments() do { } while (0)
/* Get wait channel for task P. */
extern unsigned long get_wchan (struct task_struct *p);
/* Return instruction pointer of blocked task TSK. */
#define KSTK_EIP(tsk) \
({ \
struct pt_regs *_regs = ia64_task_regs(tsk); \
_regs->cr_iip + ia64_psr(_regs)->ri; \
})
/* Return stack pointer of blocked task TSK. */
#define KSTK_ESP(tsk) ((tsk)->thread.ksp)
static inline struct task_struct *
ia64_get_fpu_owner (void)
{
struct task_struct *t;
__asm__ ("mov %0=ar.k5" : "=r"(t));
return t;
}
static inline void
ia64_set_fpu_owner (struct task_struct *t)
{
__asm__ __volatile__ ("mov ar.k5=%0" :: "r"(t));
}
extern void __ia64_init_fpu (void);
extern void __ia64_save_fpu (struct ia64_fpreg *fph);
extern void __ia64_load_fpu (struct ia64_fpreg *fph);
#define ia64_fph_enable() __asm__ __volatile__ (";; rsm psr.dfh;; srlz.d;;" ::: "memory");
#define ia64_fph_disable() __asm__ __volatile__ (";; ssm psr.dfh;; srlz.d;;" ::: "memory");
/* load fp 0.0 into fph */
static inline void
ia64_init_fpu (void) {
ia64_fph_enable();
__ia64_init_fpu();
ia64_fph_disable();
}
/* save f32-f127 at FPH */
static inline void
ia64_save_fpu (struct ia64_fpreg *fph) {
ia64_fph_enable();
__ia64_save_fpu(fph);
ia64_fph_disable();
}
/* load f32-f127 from FPH */
static inline void
ia64_load_fpu (struct ia64_fpreg *fph) {
ia64_fph_enable();
__ia64_load_fpu(fph);
ia64_fph_disable();
}
extern inline void
ia64_fc (void *addr)
{
__asm__ __volatile__ ("fc %0" :: "r"(addr) : "memory");
}
extern inline void
ia64_sync_i (void)
{
__asm__ __volatile__ (";; sync.i" ::: "memory");
}
extern inline void
ia64_srlz_i (void)
{
__asm__ __volatile__ (";; srlz.i ;;" ::: "memory");
}
extern inline void
ia64_srlz_d (void)
{
__asm__ __volatile__ (";; srlz.d" ::: "memory");
}
extern inline __u64
ia64_get_rr (__u64 reg_bits)
{
__u64 r;
__asm__ __volatile__ ("mov %0=rr[%1]" : "=r"(r) : "r"(reg_bits) : "memory");
return r;
}
extern inline void
ia64_set_rr (__u64 reg_bits, __u64 rr_val)
{
__asm__ __volatile__ ("mov rr[%0]=%1" :: "r"(reg_bits), "r"(rr_val) : "memory");
}
extern inline __u64
ia64_get_dcr (void)
{
__u64 r;
__asm__ ("mov %0=cr.dcr" : "=r"(r));
return r;
}
extern inline void
ia64_set_dcr (__u64 val)
{
__asm__ __volatile__ ("mov cr.dcr=%0;;" :: "r"(val) : "memory");
ia64_srlz_d();
}
extern inline __u64
ia64_get_lid (void)
{
__u64 r;
__asm__ ("mov %0=cr.lid" : "=r"(r));
return r;
}
extern inline void
ia64_invala (void)
{
__asm__ __volatile__ ("invala" ::: "memory");
}
/*
* Save the processor status flags in FLAGS and then clear the
* interrupt collection and interrupt enable bits.
*/
#define ia64_clear_ic(flags) \
__asm__ __volatile__ ("mov %0=psr;; rsm psr.i | psr.ic;; srlz.i;;" \
: "=r"(flags) :: "memory");
/*
* Insert a translation into an instruction and/or data translation
* register.
*/
extern inline void
ia64_itr (__u64 target_mask, __u64 tr_num,
__u64 vmaddr, __u64 pte,
__u64 log_page_size)
{
__asm__ __volatile__ ("mov cr.itir=%0" :: "r"(log_page_size << 2) : "memory");
__asm__ __volatile__ ("mov cr.ifa=%0;;" :: "r"(vmaddr) : "memory");
if (target_mask & 0x1)
__asm__ __volatile__ ("itr.i itr[%0]=%1"
:: "r"(tr_num), "r"(pte) : "memory");
if (target_mask & 0x2)
__asm__ __volatile__ (";;itr.d dtr[%0]=%1"
:: "r"(tr_num), "r"(pte) : "memory");
}
/*
* Insert a translation into the instruction and/or data translation
* cache.
*/
extern inline void
ia64_itc (__u64 target_mask, __u64 vmaddr, __u64 pte,
__u64 log_page_size)
{
__asm__ __volatile__ ("mov cr.itir=%0" :: "r"(log_page_size << 2) : "memory");
__asm__ __volatile__ ("mov cr.ifa=%0;;" :: "r"(vmaddr) : "memory");
/* as per EAS2.6, itc must be the last instruction in an instruction group */
if (target_mask & 0x1)
__asm__ __volatile__ ("itc.i %0;;" :: "r"(pte) : "memory");
if (target_mask & 0x2)
__asm__ __volatile__ (";;itc.d %0;;" :: "r"(pte) : "memory");
}
/*
* Purge a range of addresses from instruction and/or data translation
* register(s).
*/
extern inline void
ia64_ptr (__u64 target_mask, __u64 vmaddr, __u64 log_size)
{
if (target_mask & 0x1)
__asm__ __volatile__ ("ptr.i %0,%1" :: "r"(vmaddr), "r"(log_size << 2));
if (target_mask & 0x2)
__asm__ __volatile__ ("ptr.d %0,%1" :: "r"(vmaddr), "r"(log_size << 2));
}
/* Set the interrupt vector address. The address must be suitably aligned (32KB). */
extern inline void
ia64_set_iva (void *ivt_addr)
{
__asm__ __volatile__ ("mov cr.iva=%0;; srlz.i;;" :: "r"(ivt_addr) : "memory");
}
/* Set the page table address and control bits. */
extern inline void
ia64_set_pta (__u64 pta)
{
/* Note: srlz.i implies srlz.d */
__asm__ __volatile__ ("mov cr.pta=%0;; srlz.i;;" :: "r"(pta) : "memory");
}
extern inline __u64
ia64_get_cpuid (__u64 regnum)
{
__u64 r;
__asm__ ("mov %0=cpuid[%r1]" : "=r"(r) : "rO"(regnum));
return r;
}
extern inline void
ia64_eoi (void)
{
__asm__ ("mov cr.eoi=r0;; srlz.d;;" ::: "memory");
}
extern __inline__ void
ia64_set_lrr0 (__u8 vector, __u8 masked)
{
if (masked > 1)
masked = 1;
__asm__ __volatile__ ("mov cr.lrr0=%0;; srlz.d"
:: "r"((masked << 16) | vector) : "memory");
}
extern __inline__ void
ia64_set_lrr1 (__u8 vector, __u8 masked)
{
if (masked > 1)
masked = 1;
__asm__ __volatile__ ("mov cr.lrr1=%0;; srlz.d"
:: "r"((masked << 16) | vector) : "memory");
}
extern __inline__ void
ia64_set_pmv (__u64 val)
{
__asm__ __volatile__ ("mov cr.pmv=%0" :: "r"(val) : "memory");
}
extern __inline__ __u64
ia64_get_pmc (__u64 regnum)
{
__u64 retval;
__asm__ __volatile__ ("mov %0=pmc[%1]" : "=r"(retval) : "r"(regnum));
return retval;
}
extern __inline__ void
ia64_set_pmc (__u64 regnum, __u64 value)
{
__asm__ __volatile__ ("mov pmc[%0]=%1" :: "r"(regnum), "r"(value));
}
extern __inline__ __u64
ia64_get_pmd (__u64 regnum)
{
__u64 retval;
__asm__ __volatile__ ("mov %0=pmd[%1]" : "=r"(retval) : "r"(regnum));
return retval;
}
extern __inline__ void
ia64_set_pmd (__u64 regnum, __u64 value)
{
__asm__ __volatile__ ("mov pmd[%0]=%1" :: "r"(regnum), "r"(value));
}
/*
* Given the address to which a spill occurred, return the unat bit
* number that corresponds to this address.
*/
extern inline __u64
ia64_unat_pos (void *spill_addr)
{
return ((__u64) spill_addr >> 3) & 0x3f;
}
/*
* Set the NaT bit of an integer register which was spilled at address
* SPILL_ADDR. UNAT is the mask to be updated.
*/
extern inline void
ia64_set_unat (__u64 *unat, void *spill_addr, unsigned long nat)
{
__u64 bit = ia64_unat_pos(spill_addr);
__u64 mask = 1UL << bit;
*unat = (*unat & ~mask) | (nat << bit);
}
/*
* Return saved PC of a blocked thread.
* Note that the only way T can block is through a call to schedule() -> switch_to().
*/
extern inline unsigned long
thread_saved_pc (struct thread_struct *t)
{
struct unw_frame_info info;
unsigned long ip;
/* XXX ouch: Linus, please pass the task pointer to thread_saved_pc() instead! */
struct task_struct *p = (void *) ((unsigned long) t - IA64_TASK_THREAD_OFFSET);
unw_init_from_blocked_task(&info, p);
if (unw_unwind(&info) < 0)
return 0;
unw_get_ip(&info, &ip);
return ip;
}
/*
* Get the current instruction/program counter value.
*/
#define current_text_addr() \
({ void *_pc; __asm__ ("mov %0=ip" : "=r" (_pc)); _pc; })
#define THREAD_SIZE IA64_STK_OFFSET
/* NOTE: The task struct and the stacks are allocated together. */
#define alloc_task_struct() \
((struct task_struct *) __get_free_pages(GFP_KERNEL, IA64_TASK_STRUCT_LOG_NUM_PAGES))
#define free_task_struct(p) free_pages((unsigned long)(p), IA64_TASK_STRUCT_LOG_NUM_PAGES)
#define get_task_struct(tsk) atomic_inc(&mem_map[MAP_NR(tsk)].count)
#define init_task (init_task_union.task)
#define init_stack (init_task_union.stack)
/*
* Set the correctable machine check vector register
*/
extern __inline__ void
ia64_set_cmcv (__u64 val)
{
__asm__ __volatile__ ("mov cr.cmcv=%0" :: "r"(val) : "memory");
}
/*
* Read the correctable machine check vector register
*/
extern __inline__ __u64
ia64_get_cmcv (void)
{
__u64 val;
__asm__ ("mov %0=cr.cmcv" : "=r"(val) :: "memory");
return val;
}
extern inline __u64
ia64_get_ivr (void)
{
__u64 r;
__asm__ __volatile__ ("srlz.d;; mov %0=cr.ivr;; srlz.d;;" : "=r"(r));
return r;
}
extern inline void
ia64_set_tpr (__u64 val)
{
__asm__ __volatile__ ("mov cr.tpr=%0" :: "r"(val));
}
extern inline __u64
ia64_get_tpr (void)
{
__u64 r;
__asm__ ("mov %0=cr.tpr" : "=r"(r));
return r;
}
extern __inline__ void
ia64_set_irr0 (__u64 val)
{
__asm__ __volatile__("mov cr.irr0=%0;;" :: "r"(val) : "memory");
ia64_srlz_d();
}
extern __inline__ __u64
ia64_get_irr0 (void)
{
__u64 val;
__asm__ ("mov %0=cr.irr0" : "=r"(val));
return val;
}
extern __inline__ void
ia64_set_irr1 (__u64 val)
{
__asm__ __volatile__("mov cr.irr1=%0;;" :: "r"(val) : "memory");
ia64_srlz_d();
}
extern __inline__ __u64
ia64_get_irr1 (void)
{
__u64 val;
__asm__ ("mov %0=cr.irr1" : "=r"(val));
return val;
}
extern __inline__ void
ia64_set_irr2 (__u64 val)
{
__asm__ __volatile__("mov cr.irr2=%0;;" :: "r"(val) : "memory");
ia64_srlz_d();
}
extern __inline__ __u64
ia64_get_irr2 (void)
{
__u64 val;
__asm__ ("mov %0=cr.irr2" : "=r"(val));
return val;
}
extern __inline__ void
ia64_set_irr3 (__u64 val)
{
__asm__ __volatile__("mov cr.irr3=%0;;" :: "r"(val) : "memory");
ia64_srlz_d();
}
extern __inline__ __u64
ia64_get_irr3 (void)
{
__u64 val;
__asm__ ("mov %0=cr.irr3" : "=r"(val));
return val;
}
extern __inline__ __u64
ia64_get_gp(void)
{
__u64 val;
__asm__ ("mov %0=gp" : "=r"(val));
return val;
}
/* XXX remove the handcoded version once we have a sufficiently clever compiler... */
#ifdef SMART_COMPILER
# define ia64_rotr(w,n) \
({ \
__u64 _w = (w), _n = (n); \
\
(_w >> _n) | (_w << (64 - _n)); \
})
#else
# define ia64_rotr(w,n) \
({ \
__u64 result; \
asm ("shrp %0=%1,%1,%2" : "=r"(result) : "r"(w), "i"(n)); \
result; \
})
#endif
#define ia64_rotl(w,n) ia64_rotr((w),(64)-(n))
extern __inline__ __u64
ia64_thash (__u64 addr)
{
__u64 result;
asm ("thash %0=%1" : "=r"(result) : "r" (addr));
return result;
}
#endif /* !__ASSEMBLY__ */
#endif /* _ASM_IA64_PROCESSOR_H */
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