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-rw-r--r--include/asm-ia64/processor.h771
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diff --git a/include/asm-ia64/processor.h b/include/asm-ia64/processor.h
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1#ifndef _ASM_IA64_PROCESSOR_H
2#define _ASM_IA64_PROCESSOR_H
3
4/*
5 * Copyright (C) 1998-2004 Hewlett-Packard Co
6 * David Mosberger-Tang <davidm@hpl.hp.com>
7 * Stephane Eranian <eranian@hpl.hp.com>
8 * Copyright (C) 1999 Asit Mallick <asit.k.mallick@intel.com>
9 * Copyright (C) 1999 Don Dugger <don.dugger@intel.com>
10 *
11 * 11/24/98 S.Eranian added ia64_set_iva()
12 * 12/03/99 D. Mosberger implement thread_saved_pc() via kernel unwind API
13 * 06/16/00 A. Mallick added csd/ssd/tssd for ia32 support
14 */
15
16
17#include <asm/intrinsics.h>
18#include <asm/kregs.h>
19#include <asm/ptrace.h>
20#include <asm/ustack.h>
21
22#define IA64_NUM_PHYS_STACK_REG 96
23#define IA64_NUM_DBG_REGS 8
24
25#define DEFAULT_MAP_BASE __IA64_UL_CONST(0x2000000000000000)
26#define DEFAULT_TASK_SIZE __IA64_UL_CONST(0xa000000000000000)
27
28/*
29 * TASK_SIZE really is a mis-named. It really is the maximum user
30 * space address (plus one). On IA-64, there are five regions of 2TB
31 * each (assuming 8KB page size), for a total of 8TB of user virtual
32 * address space.
33 */
34#define TASK_SIZE_OF(tsk) ((tsk)->thread.task_size)
35#define TASK_SIZE TASK_SIZE_OF(current)
36
37/*
38 * This decides where the kernel will search for a free chunk of vm
39 * space during mmap's.
40 */
41#define TASK_UNMAPPED_BASE (current->thread.map_base)
42
43#define IA64_THREAD_FPH_VALID (__IA64_UL(1) << 0) /* floating-point high state valid? */
44#define IA64_THREAD_DBG_VALID (__IA64_UL(1) << 1) /* debug registers valid? */
45#define IA64_THREAD_PM_VALID (__IA64_UL(1) << 2) /* performance registers valid? */
46#define IA64_THREAD_UAC_NOPRINT (__IA64_UL(1) << 3) /* don't log unaligned accesses */
47#define IA64_THREAD_UAC_SIGBUS (__IA64_UL(1) << 4) /* generate SIGBUS on unaligned acc. */
48#define IA64_THREAD_MIGRATION (__IA64_UL(1) << 5) /* require migration
49 sync at ctx sw */
50#define IA64_THREAD_FPEMU_NOPRINT (__IA64_UL(1) << 6) /* don't log any fpswa faults */
51#define IA64_THREAD_FPEMU_SIGFPE (__IA64_UL(1) << 7) /* send a SIGFPE for fpswa faults */
52
53#define IA64_THREAD_UAC_SHIFT 3
54#define IA64_THREAD_UAC_MASK (IA64_THREAD_UAC_NOPRINT | IA64_THREAD_UAC_SIGBUS)
55#define IA64_THREAD_FPEMU_SHIFT 6
56#define IA64_THREAD_FPEMU_MASK (IA64_THREAD_FPEMU_NOPRINT | IA64_THREAD_FPEMU_SIGFPE)
57
58
59/*
60 * This shift should be large enough to be able to represent 1000000000/itc_freq with good
61 * accuracy while being small enough to fit 10*1000000000<<IA64_NSEC_PER_CYC_SHIFT in 64 bits
62 * (this will give enough slack to represent 10 seconds worth of time as a scaled number).
63 */
64#define IA64_NSEC_PER_CYC_SHIFT 30
65
66#ifndef __ASSEMBLY__
67
68#include <linux/cache.h>
69#include <linux/compiler.h>
70#include <linux/threads.h>
71#include <linux/types.h>
72
73#include <asm/fpu.h>
74#include <asm/page.h>
75#include <asm/percpu.h>
76#include <asm/rse.h>
77#include <asm/unwind.h>
78#include <asm/atomic.h>
79#ifdef CONFIG_NUMA
80#include <asm/nodedata.h>
81#endif
82
83/* like above but expressed as bitfields for more efficient access: */
84struct ia64_psr {
85 __u64 reserved0 : 1;
86 __u64 be : 1;
87 __u64 up : 1;
88 __u64 ac : 1;
89 __u64 mfl : 1;
90 __u64 mfh : 1;
91 __u64 reserved1 : 7;
92 __u64 ic : 1;
93 __u64 i : 1;
94 __u64 pk : 1;
95 __u64 reserved2 : 1;
96 __u64 dt : 1;
97 __u64 dfl : 1;
98 __u64 dfh : 1;
99 __u64 sp : 1;
100 __u64 pp : 1;
101 __u64 di : 1;
102 __u64 si : 1;
103 __u64 db : 1;
104 __u64 lp : 1;
105 __u64 tb : 1;
106 __u64 rt : 1;
107 __u64 reserved3 : 4;
108 __u64 cpl : 2;
109 __u64 is : 1;
110 __u64 mc : 1;
111 __u64 it : 1;
112 __u64 id : 1;
113 __u64 da : 1;
114 __u64 dd : 1;
115 __u64 ss : 1;
116 __u64 ri : 2;
117 __u64 ed : 1;
118 __u64 bn : 1;
119 __u64 reserved4 : 19;
120};
121
122union ia64_isr {
123 __u64 val;
124 struct {
125 __u64 code : 16;
126 __u64 vector : 8;
127 __u64 reserved1 : 8;
128 __u64 x : 1;
129 __u64 w : 1;
130 __u64 r : 1;
131 __u64 na : 1;
132 __u64 sp : 1;
133 __u64 rs : 1;
134 __u64 ir : 1;
135 __u64 ni : 1;
136 __u64 so : 1;
137 __u64 ei : 2;
138 __u64 ed : 1;
139 __u64 reserved2 : 20;
140 };
141};
142
143union ia64_lid {
144 __u64 val;
145 struct {
146 __u64 rv : 16;
147 __u64 eid : 8;
148 __u64 id : 8;
149 __u64 ig : 32;
150 };
151};
152
153union ia64_tpr {
154 __u64 val;
155 struct {
156 __u64 ig0 : 4;
157 __u64 mic : 4;
158 __u64 rsv : 8;
159 __u64 mmi : 1;
160 __u64 ig1 : 47;
161 };
162};
163
164union ia64_itir {
165 __u64 val;
166 struct {
167 __u64 rv3 : 2; /* 0-1 */
168 __u64 ps : 6; /* 2-7 */
169 __u64 key : 24; /* 8-31 */
170 __u64 rv4 : 32; /* 32-63 */
171 };
172};
173
174union ia64_rr {
175 __u64 val;
176 struct {
177 __u64 ve : 1; /* enable hw walker */
178 __u64 reserved0: 1; /* reserved */
179 __u64 ps : 6; /* log page size */
180 __u64 rid : 24; /* region id */
181 __u64 reserved1: 32; /* reserved */
182 };
183};
184
185/*
186 * CPU type, hardware bug flags, and per-CPU state. Frequently used
187 * state comes earlier:
188 */
189struct cpuinfo_ia64 {
190 __u32 softirq_pending;
191 __u64 itm_delta; /* # of clock cycles between clock ticks */
192 __u64 itm_next; /* interval timer mask value to use for next clock tick */
193 __u64 nsec_per_cyc; /* (1000000000<<IA64_NSEC_PER_CYC_SHIFT)/itc_freq */
194 __u64 unimpl_va_mask; /* mask of unimplemented virtual address bits (from PAL) */
195 __u64 unimpl_pa_mask; /* mask of unimplemented physical address bits (from PAL) */
196 __u64 itc_freq; /* frequency of ITC counter */
197 __u64 proc_freq; /* frequency of processor */
198 __u64 cyc_per_usec; /* itc_freq/1000000 */
199 __u64 ptce_base;
200 __u32 ptce_count[2];
201 __u32 ptce_stride[2];
202 struct task_struct *ksoftirqd; /* kernel softirq daemon for this CPU */
203
204#ifdef CONFIG_SMP
205 __u64 loops_per_jiffy;
206 int cpu;
207 __u32 socket_id; /* physical processor socket id */
208 __u16 core_id; /* core id */
209 __u16 thread_id; /* thread id */
210 __u16 num_log; /* Total number of logical processors on
211 * this socket that were successfully booted */
212 __u8 cores_per_socket; /* Cores per processor socket */
213 __u8 threads_per_core; /* Threads per core */
214#endif
215
216 /* CPUID-derived information: */
217 __u64 ppn;
218 __u64 features;
219 __u8 number;
220 __u8 revision;
221 __u8 model;
222 __u8 family;
223 __u8 archrev;
224 char vendor[16];
225 char *model_name;
226
227#ifdef CONFIG_NUMA
228 struct ia64_node_data *node_data;
229#endif
230};
231
232DECLARE_PER_CPU(struct cpuinfo_ia64, cpu_info);
233
234/*
235 * The "local" data variable. It refers to the per-CPU data of the currently executing
236 * CPU, much like "current" points to the per-task data of the currently executing task.
237 * Do not use the address of local_cpu_data, since it will be different from
238 * cpu_data(smp_processor_id())!
239 */
240#define local_cpu_data (&__ia64_per_cpu_var(cpu_info))
241#define cpu_data(cpu) (&per_cpu(cpu_info, cpu))
242
243extern void print_cpu_info (struct cpuinfo_ia64 *);
244
245typedef struct {
246 unsigned long seg;
247} mm_segment_t;
248
249#define SET_UNALIGN_CTL(task,value) \
250({ \
251 (task)->thread.flags = (((task)->thread.flags & ~IA64_THREAD_UAC_MASK) \
252 | (((value) << IA64_THREAD_UAC_SHIFT) & IA64_THREAD_UAC_MASK)); \
253 0; \
254})
255#define GET_UNALIGN_CTL(task,addr) \
256({ \
257 put_user(((task)->thread.flags & IA64_THREAD_UAC_MASK) >> IA64_THREAD_UAC_SHIFT, \
258 (int __user *) (addr)); \
259})
260
261#define SET_FPEMU_CTL(task,value) \
262({ \
263 (task)->thread.flags = (((task)->thread.flags & ~IA64_THREAD_FPEMU_MASK) \
264 | (((value) << IA64_THREAD_FPEMU_SHIFT) & IA64_THREAD_FPEMU_MASK)); \
265 0; \
266})
267#define GET_FPEMU_CTL(task,addr) \
268({ \
269 put_user(((task)->thread.flags & IA64_THREAD_FPEMU_MASK) >> IA64_THREAD_FPEMU_SHIFT, \
270 (int __user *) (addr)); \
271})
272
273#ifdef CONFIG_IA32_SUPPORT
274struct desc_struct {
275 unsigned int a, b;
276};
277
278#define desc_empty(desc) (!((desc)->a | (desc)->b))
279#define desc_equal(desc1, desc2) (((desc1)->a == (desc2)->a) && ((desc1)->b == (desc2)->b))
280
281#define GDT_ENTRY_TLS_ENTRIES 3
282#define GDT_ENTRY_TLS_MIN 6
283#define GDT_ENTRY_TLS_MAX (GDT_ENTRY_TLS_MIN + GDT_ENTRY_TLS_ENTRIES - 1)
284
285#define TLS_SIZE (GDT_ENTRY_TLS_ENTRIES * 8)
286
287struct ia64_partial_page_list;
288#endif
289
290struct thread_struct {
291 __u32 flags; /* various thread flags (see IA64_THREAD_*) */
292 /* writing on_ustack is performance-critical, so it's worth spending 8 bits on it... */
293 __u8 on_ustack; /* executing on user-stacks? */
294 __u8 pad[3];
295 __u64 ksp; /* kernel stack pointer */
296 __u64 map_base; /* base address for get_unmapped_area() */
297 __u64 task_size; /* limit for task size */
298 __u64 rbs_bot; /* the base address for the RBS */
299 int last_fph_cpu; /* CPU that may hold the contents of f32-f127 */
300
301#ifdef CONFIG_IA32_SUPPORT
302 __u64 eflag; /* IA32 EFLAGS reg */
303 __u64 fsr; /* IA32 floating pt status reg */
304 __u64 fcr; /* IA32 floating pt control reg */
305 __u64 fir; /* IA32 fp except. instr. reg */
306 __u64 fdr; /* IA32 fp except. data reg */
307 __u64 old_k1; /* old value of ar.k1 */
308 __u64 old_iob; /* old IOBase value */
309 struct ia64_partial_page_list *ppl; /* partial page list for 4K page size issue */
310 /* cached TLS descriptors. */
311 struct desc_struct tls_array[GDT_ENTRY_TLS_ENTRIES];
312
313# define INIT_THREAD_IA32 .eflag = 0, \
314 .fsr = 0, \
315 .fcr = 0x17800000037fULL, \
316 .fir = 0, \
317 .fdr = 0, \
318 .old_k1 = 0, \
319 .old_iob = 0, \
320 .ppl = NULL,
321#else
322# define INIT_THREAD_IA32
323#endif /* CONFIG_IA32_SUPPORT */
324#ifdef CONFIG_PERFMON
325 void *pfm_context; /* pointer to detailed PMU context */
326 unsigned long pfm_needs_checking; /* when >0, pending perfmon work on kernel exit */
327# define INIT_THREAD_PM .pfm_context = NULL, \
328 .pfm_needs_checking = 0UL,
329#else
330# define INIT_THREAD_PM
331#endif
332 __u64 dbr[IA64_NUM_DBG_REGS];
333 __u64 ibr[IA64_NUM_DBG_REGS];
334 struct ia64_fpreg fph[96]; /* saved/loaded on demand */
335};
336
337#define INIT_THREAD { \
338 .flags = 0, \
339 .on_ustack = 0, \
340 .ksp = 0, \
341 .map_base = DEFAULT_MAP_BASE, \
342 .rbs_bot = STACK_TOP - DEFAULT_USER_STACK_SIZE, \
343 .task_size = DEFAULT_TASK_SIZE, \
344 .last_fph_cpu = -1, \
345 INIT_THREAD_IA32 \
346 INIT_THREAD_PM \
347 .dbr = {0, }, \
348 .ibr = {0, }, \
349 .fph = {{{{0}}}, } \
350}
351
352#define start_thread(regs,new_ip,new_sp) do { \
353 set_fs(USER_DS); \
354 regs->cr_ipsr = ((regs->cr_ipsr | (IA64_PSR_BITS_TO_SET | IA64_PSR_CPL)) \
355 & ~(IA64_PSR_BITS_TO_CLEAR | IA64_PSR_RI | IA64_PSR_IS)); \
356 regs->cr_iip = new_ip; \
357 regs->ar_rsc = 0xf; /* eager mode, privilege level 3 */ \
358 regs->ar_rnat = 0; \
359 regs->ar_bspstore = current->thread.rbs_bot; \
360 regs->ar_fpsr = FPSR_DEFAULT; \
361 regs->loadrs = 0; \
362 regs->r8 = get_dumpable(current->mm); /* set "don't zap registers" flag */ \
363 regs->r12 = new_sp - 16; /* allocate 16 byte scratch area */ \
364 if (unlikely(!get_dumpable(current->mm))) { \
365 /* \
366 * Zap scratch regs to avoid leaking bits between processes with different \
367 * uid/privileges. \
368 */ \
369 regs->ar_pfs = 0; regs->b0 = 0; regs->pr = 0; \
370 regs->r1 = 0; regs->r9 = 0; regs->r11 = 0; regs->r13 = 0; regs->r15 = 0; \
371 } \
372} while (0)
373
374/* Forward declarations, a strange C thing... */
375struct mm_struct;
376struct task_struct;
377
378/*
379 * Free all resources held by a thread. This is called after the
380 * parent of DEAD_TASK has collected the exit status of the task via
381 * wait().
382 */
383#define release_thread(dead_task)
384
385/* Prepare to copy thread state - unlazy all lazy status */
386#define prepare_to_copy(tsk) do { } while (0)
387
388/*
389 * This is the mechanism for creating a new kernel thread.
390 *
391 * NOTE 1: Only a kernel-only process (ie the swapper or direct
392 * descendants who haven't done an "execve()") should use this: it
393 * will work within a system call from a "real" process, but the
394 * process memory space will not be free'd until both the parent and
395 * the child have exited.
396 *
397 * NOTE 2: This MUST NOT be an inlined function. Otherwise, we get
398 * into trouble in init/main.c when the child thread returns to
399 * do_basic_setup() and the timing is such that free_initmem() has
400 * been called already.
401 */
402extern pid_t kernel_thread (int (*fn)(void *), void *arg, unsigned long flags);
403
404/* Get wait channel for task P. */
405extern unsigned long get_wchan (struct task_struct *p);
406
407/* Return instruction pointer of blocked task TSK. */
408#define KSTK_EIP(tsk) \
409 ({ \
410 struct pt_regs *_regs = task_pt_regs(tsk); \
411 _regs->cr_iip + ia64_psr(_regs)->ri; \
412 })
413
414/* Return stack pointer of blocked task TSK. */
415#define KSTK_ESP(tsk) ((tsk)->thread.ksp)
416
417extern void ia64_getreg_unknown_kr (void);
418extern void ia64_setreg_unknown_kr (void);
419
420#define ia64_get_kr(regnum) \
421({ \
422 unsigned long r = 0; \
423 \
424 switch (regnum) { \
425 case 0: r = ia64_getreg(_IA64_REG_AR_KR0); break; \
426 case 1: r = ia64_getreg(_IA64_REG_AR_KR1); break; \
427 case 2: r = ia64_getreg(_IA64_REG_AR_KR2); break; \
428 case 3: r = ia64_getreg(_IA64_REG_AR_KR3); break; \
429 case 4: r = ia64_getreg(_IA64_REG_AR_KR4); break; \
430 case 5: r = ia64_getreg(_IA64_REG_AR_KR5); break; \
431 case 6: r = ia64_getreg(_IA64_REG_AR_KR6); break; \
432 case 7: r = ia64_getreg(_IA64_REG_AR_KR7); break; \
433 default: ia64_getreg_unknown_kr(); break; \
434 } \
435 r; \
436})
437
438#define ia64_set_kr(regnum, r) \
439({ \
440 switch (regnum) { \
441 case 0: ia64_setreg(_IA64_REG_AR_KR0, r); break; \
442 case 1: ia64_setreg(_IA64_REG_AR_KR1, r); break; \
443 case 2: ia64_setreg(_IA64_REG_AR_KR2, r); break; \
444 case 3: ia64_setreg(_IA64_REG_AR_KR3, r); break; \
445 case 4: ia64_setreg(_IA64_REG_AR_KR4, r); break; \
446 case 5: ia64_setreg(_IA64_REG_AR_KR5, r); break; \
447 case 6: ia64_setreg(_IA64_REG_AR_KR6, r); break; \
448 case 7: ia64_setreg(_IA64_REG_AR_KR7, r); break; \
449 default: ia64_setreg_unknown_kr(); break; \
450 } \
451})
452
453/*
454 * The following three macros can't be inline functions because we don't have struct
455 * task_struct at this point.
456 */
457
458/*
459 * Return TRUE if task T owns the fph partition of the CPU we're running on.
460 * Must be called from code that has preemption disabled.
461 */
462#define ia64_is_local_fpu_owner(t) \
463({ \
464 struct task_struct *__ia64_islfo_task = (t); \
465 (__ia64_islfo_task->thread.last_fph_cpu == smp_processor_id() \
466 && __ia64_islfo_task == (struct task_struct *) ia64_get_kr(IA64_KR_FPU_OWNER)); \
467})
468
469/*
470 * Mark task T as owning the fph partition of the CPU we're running on.
471 * Must be called from code that has preemption disabled.
472 */
473#define ia64_set_local_fpu_owner(t) do { \
474 struct task_struct *__ia64_slfo_task = (t); \
475 __ia64_slfo_task->thread.last_fph_cpu = smp_processor_id(); \
476 ia64_set_kr(IA64_KR_FPU_OWNER, (unsigned long) __ia64_slfo_task); \
477} while (0)
478
479/* Mark the fph partition of task T as being invalid on all CPUs. */
480#define ia64_drop_fpu(t) ((t)->thread.last_fph_cpu = -1)
481
482extern void __ia64_init_fpu (void);
483extern void __ia64_save_fpu (struct ia64_fpreg *fph);
484extern void __ia64_load_fpu (struct ia64_fpreg *fph);
485extern void ia64_save_debug_regs (unsigned long *save_area);
486extern void ia64_load_debug_regs (unsigned long *save_area);
487
488#ifdef CONFIG_IA32_SUPPORT
489extern void ia32_save_state (struct task_struct *task);
490extern void ia32_load_state (struct task_struct *task);
491#endif
492
493#define ia64_fph_enable() do { ia64_rsm(IA64_PSR_DFH); ia64_srlz_d(); } while (0)
494#define ia64_fph_disable() do { ia64_ssm(IA64_PSR_DFH); ia64_srlz_d(); } while (0)
495
496/* load fp 0.0 into fph */
497static inline void
498ia64_init_fpu (void) {
499 ia64_fph_enable();
500 __ia64_init_fpu();
501 ia64_fph_disable();
502}
503
504/* save f32-f127 at FPH */
505static inline void
506ia64_save_fpu (struct ia64_fpreg *fph) {
507 ia64_fph_enable();
508 __ia64_save_fpu(fph);
509 ia64_fph_disable();
510}
511
512/* load f32-f127 from FPH */
513static inline void
514ia64_load_fpu (struct ia64_fpreg *fph) {
515 ia64_fph_enable();
516 __ia64_load_fpu(fph);
517 ia64_fph_disable();
518}
519
520static inline __u64
521ia64_clear_ic (void)
522{
523 __u64 psr;
524 psr = ia64_getreg(_IA64_REG_PSR);
525 ia64_stop();
526 ia64_rsm(IA64_PSR_I | IA64_PSR_IC);
527 ia64_srlz_i();
528 return psr;
529}
530
531/*
532 * Restore the psr.
533 */
534static inline void
535ia64_set_psr (__u64 psr)
536{
537 ia64_stop();
538 ia64_setreg(_IA64_REG_PSR_L, psr);
539 ia64_srlz_i();
540}
541
542/*
543 * Insert a translation into an instruction and/or data translation
544 * register.
545 */
546static inline void
547ia64_itr (__u64 target_mask, __u64 tr_num,
548 __u64 vmaddr, __u64 pte,
549 __u64 log_page_size)
550{
551 ia64_setreg(_IA64_REG_CR_ITIR, (log_page_size << 2));
552 ia64_setreg(_IA64_REG_CR_IFA, vmaddr);
553 ia64_stop();
554 if (target_mask & 0x1)
555 ia64_itri(tr_num, pte);
556 if (target_mask & 0x2)
557 ia64_itrd(tr_num, pte);
558}
559
560/*
561 * Insert a translation into the instruction and/or data translation
562 * cache.
563 */
564static inline void
565ia64_itc (__u64 target_mask, __u64 vmaddr, __u64 pte,
566 __u64 log_page_size)
567{
568 ia64_setreg(_IA64_REG_CR_ITIR, (log_page_size << 2));
569 ia64_setreg(_IA64_REG_CR_IFA, vmaddr);
570 ia64_stop();
571 /* as per EAS2.6, itc must be the last instruction in an instruction group */
572 if (target_mask & 0x1)
573 ia64_itci(pte);
574 if (target_mask & 0x2)
575 ia64_itcd(pte);
576}
577
578/*
579 * Purge a range of addresses from instruction and/or data translation
580 * register(s).
581 */
582static inline void
583ia64_ptr (__u64 target_mask, __u64 vmaddr, __u64 log_size)
584{
585 if (target_mask & 0x1)
586 ia64_ptri(vmaddr, (log_size << 2));
587 if (target_mask & 0x2)
588 ia64_ptrd(vmaddr, (log_size << 2));
589}
590
591/* Set the interrupt vector address. The address must be suitably aligned (32KB). */
592static inline void
593ia64_set_iva (void *ivt_addr)
594{
595 ia64_setreg(_IA64_REG_CR_IVA, (__u64) ivt_addr);
596 ia64_srlz_i();
597}
598
599/* Set the page table address and control bits. */
600static inline void
601ia64_set_pta (__u64 pta)
602{
603 /* Note: srlz.i implies srlz.d */
604 ia64_setreg(_IA64_REG_CR_PTA, pta);
605 ia64_srlz_i();
606}
607
608static inline void
609ia64_eoi (void)
610{
611 ia64_setreg(_IA64_REG_CR_EOI, 0);
612 ia64_srlz_d();
613}
614
615#define cpu_relax() ia64_hint(ia64_hint_pause)
616
617static inline int
618ia64_get_irr(unsigned int vector)
619{
620 unsigned int reg = vector / 64;
621 unsigned int bit = vector % 64;
622 u64 irr;
623
624 switch (reg) {
625 case 0: irr = ia64_getreg(_IA64_REG_CR_IRR0); break;
626 case 1: irr = ia64_getreg(_IA64_REG_CR_IRR1); break;
627 case 2: irr = ia64_getreg(_IA64_REG_CR_IRR2); break;
628 case 3: irr = ia64_getreg(_IA64_REG_CR_IRR3); break;
629 }
630
631 return test_bit(bit, &irr);
632}
633
634static inline void
635ia64_set_lrr0 (unsigned long val)
636{
637 ia64_setreg(_IA64_REG_CR_LRR0, val);
638 ia64_srlz_d();
639}
640
641static inline void
642ia64_set_lrr1 (unsigned long val)
643{
644 ia64_setreg(_IA64_REG_CR_LRR1, val);
645 ia64_srlz_d();
646}
647
648
649/*
650 * Given the address to which a spill occurred, return the unat bit
651 * number that corresponds to this address.
652 */
653static inline __u64
654ia64_unat_pos (void *spill_addr)
655{
656 return ((__u64) spill_addr >> 3) & 0x3f;
657}
658
659/*
660 * Set the NaT bit of an integer register which was spilled at address
661 * SPILL_ADDR. UNAT is the mask to be updated.
662 */
663static inline void
664ia64_set_unat (__u64 *unat, void *spill_addr, unsigned long nat)
665{
666 __u64 bit = ia64_unat_pos(spill_addr);
667 __u64 mask = 1UL << bit;
668
669 *unat = (*unat & ~mask) | (nat << bit);
670}
671
672/*
673 * Return saved PC of a blocked thread.
674 * Note that the only way T can block is through a call to schedule() -> switch_to().
675 */
676static inline unsigned long
677thread_saved_pc (struct task_struct *t)
678{
679 struct unw_frame_info info;
680 unsigned long ip;
681
682 unw_init_from_blocked_task(&info, t);
683 if (unw_unwind(&info) < 0)
684 return 0;
685 unw_get_ip(&info, &ip);
686 return ip;
687}
688
689/*
690 * Get the current instruction/program counter value.
691 */
692#define current_text_addr() \
693 ({ void *_pc; _pc = (void *)ia64_getreg(_IA64_REG_IP); _pc; })
694
695static inline __u64
696ia64_get_ivr (void)
697{
698 __u64 r;
699 ia64_srlz_d();
700 r = ia64_getreg(_IA64_REG_CR_IVR);
701 ia64_srlz_d();
702 return r;
703}
704
705static inline void
706ia64_set_dbr (__u64 regnum, __u64 value)
707{
708 __ia64_set_dbr(regnum, value);
709#ifdef CONFIG_ITANIUM
710 ia64_srlz_d();
711#endif
712}
713
714static inline __u64
715ia64_get_dbr (__u64 regnum)
716{
717 __u64 retval;
718
719 retval = __ia64_get_dbr(regnum);
720#ifdef CONFIG_ITANIUM
721 ia64_srlz_d();
722#endif
723 return retval;
724}
725
726static inline __u64
727ia64_rotr (__u64 w, __u64 n)
728{
729 return (w >> n) | (w << (64 - n));
730}
731
732#define ia64_rotl(w,n) ia64_rotr((w), (64) - (n))
733
734/*
735 * Take a mapped kernel address and return the equivalent address
736 * in the region 7 identity mapped virtual area.
737 */
738static inline void *
739ia64_imva (void *addr)
740{
741 void *result;
742 result = (void *) ia64_tpa(addr);
743 return __va(result);
744}
745
746#define ARCH_HAS_PREFETCH
747#define ARCH_HAS_PREFETCHW
748#define ARCH_HAS_SPINLOCK_PREFETCH
749#define PREFETCH_STRIDE L1_CACHE_BYTES
750
751static inline void
752prefetch (const void *x)
753{
754 ia64_lfetch(ia64_lfhint_none, x);
755}
756
757static inline void
758prefetchw (const void *x)
759{
760 ia64_lfetch_excl(ia64_lfhint_none, x);
761}
762
763#define spin_lock_prefetch(x) prefetchw(x)
764
765extern unsigned long boot_option_idle_override;
766extern unsigned long idle_halt;
767extern unsigned long idle_nomwait;
768
769#endif /* !__ASSEMBLY__ */
770
771#endif /* _ASM_IA64_PROCESSOR_H */
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