/* * $Id: idle.c,v 1.68 1999/10/15 18:16:03 cort Exp $ * * Idle daemon for PowerPC. Idle daemon will handle any action * that needs to be taken when the system becomes idle. * * Written by Cort Dougan (cort@cs.nmt.edu) * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version * 2 of the License, or (at your option) any later version. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include void zero_paged(void); void power_save(void); void inline htab_reclaim(void); unsigned long htab_reclaim_on = 0; unsigned long zero_paged_on = 0; unsigned long powersave_nap = 0; unsigned long *zero_cache; /* head linked list of pre-zero'd pages */ atomic_t zerototal; /* # pages zero'd over time */ atomic_t zeropage_hits; /* # zero'd pages request that we've done */ atomic_t zero_sz; /* # currently pre-zero'd pages */ atomic_t zeropage_calls; /* # zero'd pages request that've been made */ int idled(void) { int do_power_save = 0; /* only sleep on the 603-family/750 processors */ switch (_get_PVR() >> 16) { case 3: /* 603 */ case 6: /* 603e */ case 7: /* 603ev */ case 8: /* 750 */ case 12: /* 7400 */ do_power_save = 1; } /* endless loop with no priority at all */ current->nice = 20; current->counter = -100; init_idle(); for (;;) { /*if ( !current->need_resched && zero_paged_on ) zero_paged();*/ if (!current->need_resched && htab_reclaim_on) htab_reclaim(); if (do_power_save && !current->need_resched) power_save(); if (current->need_resched) { schedule(); check_pgt_cache(); } } return 0; } /* * SMP entry into the idle task - calls the same thing as the * non-smp versions. -- Cort */ int cpu_idle(void) { idled(); return 0; } /* * Mark 'zombie' pte's in the hash table as invalid. * This improves performance for the hash table reload code * a bit since we don't consider unused pages as valid. * -- Cort */ PTE *reclaim_ptr = 0; void inline htab_reclaim(void) { #ifndef CONFIG_8xx #if 0 PTE *ptr, *start; static int dir = 1; #endif struct task_struct *p; unsigned long valid = 0; extern PTE *Hash, *Hash_end; extern unsigned long Hash_size; /* if we don't have a htab */ if ( Hash_size == 0 ) return; #if 0 /* find a random place in the htab to start each time */ start = &Hash[jiffies%(Hash_size/sizeof(PTE))]; /* go a different direction each time */ dir *= -1; for ( ptr = start; !current->need_resched && (ptr != Hash_end) && (ptr != Hash); ptr += dir) { #else if ( !reclaim_ptr ) reclaim_ptr = Hash; while ( !current->need_resched ) { reclaim_ptr++; if ( reclaim_ptr == Hash_end ) reclaim_ptr = Hash; #endif if (!reclaim_ptr->v) continue; valid = 0; for_each_task(p) { if ( current->need_resched ) goto out; /* if this vsid/context is in use */ if ( (reclaim_ptr->vsid >> 4) == p->mm->context ) { valid = 1; break; } } if ( valid ) continue; /* this pte isn't used */ reclaim_ptr->v = 0; } out: if ( current->need_resched ) printk("need_resched: %lx\n", current->need_resched); #endif /* CONFIG_8xx */ } #if 0 /* * Returns a pre-zero'd page from the list otherwise returns * NULL. */ unsigned long get_zero_page_fast(void) { unsigned long page = 0; atomic_inc(&zero_cache_calls); if ( zero_quicklist ) { /* atomically remove this page from the list */ register unsigned long tmp; asm ( "101:lwarx %1,0,%3\n" /* reserve zero_cache */ " lwz %0,0(%1)\n" /* get next -- new zero_cache */ " stwcx. %0,0,%3\n" /* update zero_cache */ " bne- 101b\n" /* if lost reservation try again */ : "=&r" (tmp), "=&r" (page), "+m" (zero_cache) : "r" (&zero_quicklist) : "cc" ); #ifdef CONFIG_SMP /* if another cpu beat us above this can happen -- Cort */ if ( page == 0 ) return 0; #endif /* CONFIG_SMP */ /* we can update zerocount after the fact since it is not * used for anything but control of a loop which doesn't * matter since it won't affect anything if it zeros one * less page -- Cort */ atomic_inc((atomic_t *)&zero_cache_hits); atomic_dec((atomic_t *)&zero_cache_sz); /* zero out the pointer to next in the page */ *(unsigned long *)page = 0; return page; } return 0; } /* * Experimental stuff to zero out pages in the idle task * to speed up get_free_pages(). Zero's out pages until * we've reached the limit of zero'd pages. We handle * reschedule()'s in here so when we return we know we've * zero'd all we need to for now. */ int zero_cache_water[2] = { 25, 96 }; /* high and low water marks for zero cache */ void zero_paged(void) { unsigned long pageptr = 0; /* current page being zero'd */ unsigned long bytecount = 0; register unsigned long tmp; pte_t *pte; if ( atomic_read(&zero_cache_sz) >= zero_cache_water[0] ) return; while ( (atomic_read(&zero_cache_sz) < zero_cache_water[1]) && (!current->need_resched) ) { /* * Mark a page as reserved so we can mess with it * If we're interrupted we keep this page and our place in it * since we validly hold it and it's reserved for us. */ pageptr = __get_free_pages(GFP_ATOMIC, 0); if ( !pageptr ) return; if ( current->need_resched ) schedule(); /* * Make the page no cache so we don't blow our cache with 0's */ pte = find_pte(&init_mm, pageptr); if ( !pte ) { printk("pte NULL in zero_paged()\n"); return; } pte_uncache(*pte); flush_tlb_page(find_vma(&init_mm,pageptr),pageptr); /* * Important here to not take time away from real processes. */ for ( bytecount = 0; bytecount < PAGE_SIZE ; bytecount += 4 ) { if ( current->need_resched ) schedule(); *(unsigned long *)(bytecount + pageptr) = 0; } /* * If we finished zero-ing out a page add this page to * the zero_cache atomically -- we can't use * down/up since we can't sleep in idle. * Disabling interrupts is also a bad idea since we would * steal time away from real processes. * We can also have several zero_paged's running * on different processors so we can't interfere with them. * So we update the list atomically without locking it. * -- Cort */ /* turn cache on for this page */ pte_cache(*pte); flush_tlb_page(find_vma(&init_mm,pageptr),pageptr); /* atomically add this page to the list */ asm ( "101:lwarx %0,0,%2\n" /* reserve zero_cache */ " stw %0,0(%3)\n" /* update *pageptr */ #ifdef CONFIG_SMP " sync\n" /* let store settle */ #endif " stwcx. %3,0,%2\n" /* update zero_cache in mem */ " bne- 101b\n" /* if lost reservation try again */ : "=&r" (tmp), "+m" (zero_quicklist) : "r" (&zero_quicklist), "r" (pageptr) : "cc" ); /* * This variable is used in the above loop and nowhere * else so the worst that could happen is we would * zero out one more or one less page than we want * per processor on the machine. This is because * we could add our page to the list but not have * zerocount updated yet when another processor * reads it. -- Cort */ atomic_inc((atomic_t *)&zero_cache_sz); atomic_inc((atomic_t *)&zero_cache_total); } } #endif void power_save(void) { unsigned long hid0; /* * Disable interrupts to prevent a lost wakeup * when going to sleep. This is necessary even with * RTLinux since we are not guaranteed an interrupt * didn't come in and is waiting for a __sti() before * emulating one. This way, we really do hard disable. * * We assume that we're sti-ed when we come in here. We * are in the idle loop so if we're cli-ed then it's a bug * anyway. * -- Cort */ _nmask_and_or_msr(MSR_EE, 0); if (!current->need_resched) { asm("mfspr %0,1008" : "=r" (hid0) :); hid0 &= ~(HID0_NAP | HID0_SLEEP | HID0_DOZE); hid0 |= (powersave_nap? HID0_NAP: HID0_DOZE) | HID0_DPM; asm("mtspr 1008,%0" : : "r" (hid0)); /* set the POW bit in the MSR, and enable interrupts * so we wake up sometime! */ _nmask_and_or_msr(0, MSR_POW | MSR_EE); } _nmask_and_or_msr(0, MSR_EE); }