WebSVN – HelenOS – Blame – /branches/dynload/kernel/generic/src/mm/frame.c/

Rev	Author	Line No.	Line
1	jermar	1	/*
564	jermar	2	* Copyright (C) 2001-2005 Jakub Jermar
		3	* Copyright (C) 2005 Sergey Bondari
1	jermar	4	* All rights reserved.
		5	*
		6	* Redistribution and use in source and binary forms, with or without
		7	* modification, are permitted provided that the following conditions
		8	* are met:
		9	*
		10	* - Redistributions of source code must retain the above copyright
		11	* notice, this list of conditions and the following disclaimer.
		12	* - Redistributions in binary form must reproduce the above copyright
		13	* notice, this list of conditions and the following disclaimer in the
		14	* documentation and/or other materials provided with the distribution.
		15	* - The name of the author may not be used to endorse or promote products
		16	* derived from this software without specific prior written permission.
		17	*
		18	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
		19	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
		20	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
		21	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
		22	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
		23	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
		24	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
		25	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
		26	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
		27	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
		28	*/
		29
1248	jermar	30	/**
		31	* @file frame.c
		32	* @brief Physical frame allocator.
		33	*
		34	* This file contains the physical frame allocator and memory zone management.
		35	* The frame allocator is built on top of the buddy allocator.
		36	*
		37	* @see buddy.c
		38	*/
		39
814	palkovsky	40	/*
		41	* Locking order
		42	*
		43	* In order to access particular zone, the process must first lock
		44	* the zones.lock, then lock the zone and then unlock the zones.lock.
		45	* This insures, that we can fiddle with the zones in runtime without
		46	* affecting the processes.
		47	*
		48	*/
		49
368	jermar	50	#include <typedefs.h>
1	jermar	51	#include <arch/types.h>
		52	#include <mm/frame.h>
703	jermar	53	#include <mm/as.h>
1	jermar	54	#include <panic.h>
367	jermar	55	#include <debug.h>
788	jermar	56	#include <adt/list.h>
1	jermar	57	#include <synch/spinlock.h>
115	jermar	58	#include <arch/asm.h>
195	vana	59	#include <arch.h>
533	bondari	60	#include <print.h>
536	bondari	61	#include <align.h>
814	palkovsky	62	#include <mm/slab.h>
822	palkovsky	63	#include <bitops.h>
1063	palkovsky	64	#include <macros.h>
115	jermar	65
814	palkovsky	66	typedef struct {
		67	count_t refcount; /*< tracking of shared frames /
		68	__u8 buddy_order; /*< buddy system block order /
		69	link_t buddy_link; /*< link to the next free block inside one order /
		70	void parent; /< If allocated by slab, this points there /
1236	jermar	71	} frame_t;
367	jermar	72
814	palkovsky	73	typedef struct {
		74	SPINLOCK_DECLARE(lock); /*< this lock protects everything below /
1236	jermar	75	pfn_t base; /*< frame_no of the first frame in the frames array /
820	jermar	76	count_t count; /*< Size of zone /
533	bondari	77
814	palkovsky	78	frame_t frames; /< array of frame_t structures in this zone /
		79	count_t free_count; /*< number of free frame_t structures /
		80	count_t busy_count; /*< number of busy frame_t structures /
		81
		82	buddy_system_t * buddy_system; /*< buddy system for the zone /
		83	int flags;
1236	jermar	84	} zone_t;
479	bondari	85
814	palkovsky	86	/*
		87	* The zoneinfo.lock must be locked when accessing zoneinfo structure.
		88	* Some of the attributes in zone_t structures are 'read-only'
368	jermar	89	*/
1	jermar	90
814	palkovsky	91	struct {
		92	SPINLOCK_DECLARE(lock);
		93	int count;
		94	zone_t *info[ZONES_MAX];
1236	jermar	95	} zones;
1	jermar	96
814	palkovsky	97
		98	/*********************************/
		99	/* Helper functions */
		100	static inline index_t frame_index(zone_t zone, frame_t frame)
762	palkovsky	101	{
814	palkovsky	102	return (index_t)(frame - zone->frames);
762	palkovsky	103	}
814	palkovsky	104	static inline index_t frame_index_abs(zone_t zone, frame_t frame)
1	jermar	105	{
814	palkovsky	106	return (index_t)(frame - zone->frames) + zone->base;
1	jermar	107	}
814	palkovsky	108	static inline int frame_index_valid(zone_t *zone, index_t index)
		109	{
		110	return index >= 0 && index < zone->count;
		111	}
1	jermar	112
814	palkovsky	113	/** Compute pfn_t from frame_t pointer & zone pointer */
820	jermar	114	static index_t make_frame_index(zone_t zone, frame_t frame)
762	palkovsky	115	{
814	palkovsky	116	return frame - zone->frames;
762	palkovsky	117	}
		118
814	palkovsky	119	/** Initialize frame structure
762	palkovsky	120	*
814	palkovsky	121	* Initialize frame structure.
		122	*
		123	* @param frame Frame structure to be initialized.
762	palkovsky	124	*/
814	palkovsky	125	static void frame_initialize(frame_t *frame)
762	palkovsky	126	{
814	palkovsky	127	frame->refcount = 1;
		128	frame->buddy_order = 0;
762	palkovsky	129	}
		130
814	palkovsky	131	/*************************************/
		132	/* Zoneinfo functions */
762	palkovsky	133
814	palkovsky	134	/**
		135	* Insert-sort zone into zones list
822	palkovsky	136	*
1568	palkovsky	137	* @param newzone New zone to be inserted into zone list
822	palkovsky	138	* @return zone number on success, -1 on error
1	jermar	139	*/
822	palkovsky	140	static int zones_add_zone(zone_t *newzone)
1	jermar	141	{
822	palkovsky	142	int i,j;
		143	ipl_t ipl;
		144	zone_t *z;
762	palkovsky	145
822	palkovsky	146	ipl = interrupts_disable();
814	palkovsky	147	spinlock_lock(&zones.lock);
		148	/* Try to merge */
1037	decky	149	if (zones.count + 1 == ZONES_MAX)
822	palkovsky	150	panic("Maximum zone(%d) count exceeded.", ZONES_MAX);
1037	decky	151	for (i = 0; i < zones.count; i++) {
822	palkovsky	152	/* Check for overflow */
852	palkovsky	153	z = zones.info[i];
822	palkovsky	154	if (overlaps(newzone->base,newzone->count,
		155	z->base, z->count)) {
		156	printf("Zones overlap!\n");
		157	return -1;
814	palkovsky	158	}
852	palkovsky	159	if (newzone->base < z->base)
822	palkovsky	160	break;
368	jermar	161	}
822	palkovsky	162	/* Move other zones up */
1037	decky	163	for (j = i;j < zones.count; j++)
		164	zones.info[j + 1] = zones.info[j];
822	palkovsky	165	zones.info[i] = newzone;
		166	zones.count++;
814	palkovsky	167	spinlock_unlock(&zones.lock);
822	palkovsky	168	interrupts_restore(ipl);
		169
		170	return i;
1	jermar	171	}
		172
814	palkovsky	173	/**
		174	* Try to find a zone where can we find the frame
368	jermar	175	*
1568	palkovsky	176	* @param frame Frame number contained in zone
		177	* @param pzone If not null, it is used as zone hint. Zone index
		178	* is filled into the variable on success.
		179	* @return Pointer to LOCKED zone containing frame
368	jermar	180	*
814	palkovsky	181	* Assume interrupts disable
368	jermar	182	*/
814	palkovsky	183	static zone_t * find_zone_and_lock(pfn_t frame, int *pzone)
1	jermar	184	{
533	bondari	185	int i;
814	palkovsky	186	int hint = pzone ? *pzone : 0;
		187	zone_t *z;
533	bondari	188
814	palkovsky	189	spinlock_lock(&zones.lock);
		190
		191	if (hint >= zones.count \|\| hint < 0)
		192	hint = 0;
533	bondari	193
814	palkovsky	194	i = hint;
		195	do {
		196	z = zones.info[i];
		197	spinlock_lock(&z->lock);
		198	if (z->base <= frame && z->base + z->count > frame) {
		199	spinlock_unlock(&zones.lock); /* Unlock the global lock */
		200	if (pzone)
		201	*pzone = i;
		202	return z;
533	bondari	203	}
814	palkovsky	204	spinlock_unlock(&z->lock);
533	bondari	205
814	palkovsky	206	i++;
		207	if (i >= zones.count)
		208	i = 0;
		209	} while(i != hint);
		210
		211	spinlock_unlock(&zones.lock);
		212	return NULL;
533	bondari	213	}
		214
822	palkovsky	215	/** @return True if zone can allocate specified order */
		216	static int zone_can_alloc(zone_t *z, __u8 order)
		217	{
		218	return buddy_system_can_alloc(z->buddy_system, order);
		219	}
		220
814	palkovsky	221	/**
		222	* Find AND LOCK zone that can allocate order frames
367	jermar	223	*
814	palkovsky	224	* Assume interrupts are disabled!!
367	jermar	225	*
1568	palkovsky	226	* @param order Size (2^order) of free space we are trying to find
814	palkovsky	227	* @param pzone Pointer to preferred zone or NULL, on return contains zone number
367	jermar	228	*/
814	palkovsky	229	static zone_t * find_free_zone_lock(__u8 order, int *pzone)
367	jermar	230	{
814	palkovsky	231	int i;
367	jermar	232	zone_t *z;
814	palkovsky	233	int hint = pzone ? *pzone : 0;
367	jermar	234
814	palkovsky	235	spinlock_lock(&zones.lock);
		236	if (hint >= zones.count)
		237	hint = 0;
		238	i = hint;
		239	do {
		240	z = zones.info[i];
724	palkovsky	241
814	palkovsky	242	spinlock_lock(&z->lock);
367	jermar	243
814	palkovsky	244	/* Check if the zone has 2^order frames area available */
822	palkovsky	245	if (zone_can_alloc(z, order)) {
814	palkovsky	246	spinlock_unlock(&zones.lock);
		247	if (pzone)
		248	*pzone = i;
		249	return z;
367	jermar	250	}
814	palkovsky	251	spinlock_unlock(&z->lock);
		252	if (++i >= zones.count)
		253	i = 0;
		254	} while(i != hint);
		255	spinlock_unlock(&zones.lock);
		256	return NULL;
367	jermar	257	}
		258
814	palkovsky	259	/********************************************/
		260	/* Buddy system functions */
		261
		262	/** Buddy system find_block implementation
367	jermar	263	*
814	palkovsky	264	* Find block that is parent of current list.
		265	* That means go to lower addresses, until such block is found
367	jermar	266	*
814	palkovsky	267	* @param order - Order of parent must be different then this parameter!!
367	jermar	268	*/
814	palkovsky	269	static link_t zone_buddy_find_block(buddy_system_t b, link_t *child,
		270	__u8 order)
367	jermar	271	{
814	palkovsky	272	frame_t * frame;
		273	zone_t * zone;
		274	index_t index;
367	jermar	275
814	palkovsky	276	frame = list_get_instance(child, frame_t, buddy_link);
		277	zone = (zone_t *) b->data;
367	jermar	278
814	palkovsky	279	index = frame_index(zone, frame);
		280	do {
		281	if (zone->frames[index].buddy_order != order) {
		282	return &zone->frames[index].buddy_link;
		283	}
		284	} while(index-- > 0);
		285	return NULL;
367	jermar	286	}
479	bondari	287
822	palkovsky	288	static void zone_buddy_print_id(buddy_system_t b, link_t block)
		289	{
		290	frame_t * frame;
		291	zone_t * zone;
		292	index_t index;
479	bondari	293
822	palkovsky	294	frame = list_get_instance(block, frame_t, buddy_link);
		295	zone = (zone_t *) b->data;
		296	index = frame_index(zone, frame);
1196	cejka	297	printf("%zd", index);
822	palkovsky	298	}
		299
479	bondari	300	/** Buddy system find_buddy implementation
489	jermar	301	*
		302	* @param b Buddy system.
480	bondari	303	* @param block Block for which buddy should be found
479	bondari	304	*
480	bondari	305	* @return Buddy for given block if found
479	bondari	306	*/
814	palkovsky	307	static link_t * zone_buddy_find_buddy(buddy_system_t b, link_t block)
		308	{
539	jermar	309	frame_t * frame;
480	bondari	310	zone_t * zone;
564	jermar	311	index_t index;
480	bondari	312	bool is_left, is_right;
479	bondari	313
480	bondari	314	frame = list_get_instance(block, frame_t, buddy_link);
533	bondari	315	zone = (zone_t *) b->data;
814	palkovsky	316	ASSERT(IS_BUDDY_ORDER_OK(frame_index_abs(zone, frame), frame->buddy_order));
480	bondari	317
724	palkovsky	318	is_left = IS_BUDDY_LEFT_BLOCK_ABS(zone, frame);
		319	is_right = IS_BUDDY_RIGHT_BLOCK_ABS(zone, frame);
814	palkovsky	320
564	jermar	321	ASSERT(is_left ^ is_right);
533	bondari	322	if (is_left) {
814	palkovsky	323	index = (frame_index(zone, frame)) + (1 << frame->buddy_order);
615	palkovsky	324	} else { // if (is_right)
814	palkovsky	325	index = (frame_index(zone, frame)) - (1 << frame->buddy_order);
533	bondari	326	}
		327
814	palkovsky	328	if (frame_index_valid(zone, index)) {
		329	if (zone->frames[index].buddy_order == frame->buddy_order &&
		330	zone->frames[index].refcount == 0) {
533	bondari	331	return &zone->frames[index].buddy_link;
480	bondari	332	}
		333	}
814	palkovsky	334
539	jermar	335	return NULL;
479	bondari	336	}
		337
		338	/** Buddy system bisect implementation
		339	*
489	jermar	340	* @param b Buddy system.
480	bondari	341	* @param block Block to bisect
		342	*
		343	* @return right block
479	bondari	344	*/
814	palkovsky	345	static link_t * zone_buddy_bisect(buddy_system_t b, link_t block) {
480	bondari	346	frame_t * frame_l, * frame_r;
564	jermar	347
480	bondari	348	frame_l = list_get_instance(block, frame_t, buddy_link);
533	bondari	349	frame_r = (frame_l + (1 << (frame_l->buddy_order - 1)));
564	jermar	350
480	bondari	351	return &frame_r->buddy_link;
479	bondari	352	}
		353
		354	/** Buddy system coalesce implementation
		355	*
489	jermar	356	* @param b Buddy system.
480	bondari	357	* @param block_1 First block
		358	* @param block_2 First block's buddy
		359	*
		360	* @return Coalesced block (actually block that represents lower address)
479	bondari	361	*/
814	palkovsky	362	static link_t * zone_buddy_coalesce(buddy_system_t b, link_t block_1,
822	palkovsky	363	link_t * block_2)
		364	{
814	palkovsky	365	frame_t frame1, frame2;
564	jermar	366
480	bondari	367	frame1 = list_get_instance(block_1, frame_t, buddy_link);
		368	frame2 = list_get_instance(block_2, frame_t, buddy_link);
564	jermar	369
533	bondari	370	return frame1 < frame2 ? block_1 : block_2;
479	bondari	371	}
		372
		373	/** Buddy system set_order implementation
489	jermar	374	*
		375	* @param b Buddy system.
480	bondari	376	* @param block Buddy system block
		377	* @param order Order to set
479	bondari	378	*/
814	palkovsky	379	static void zone_buddy_set_order(buddy_system_t b, link_t block, __u8 order) {
480	bondari	380	frame_t * frame;
		381	frame = list_get_instance(block, frame_t, buddy_link);
		382	frame->buddy_order = order;
479	bondari	383	}
		384
		385	/** Buddy system get_order implementation
489	jermar	386	*
		387	* @param b Buddy system.
480	bondari	388	* @param block Buddy system block
479	bondari	389	*
480	bondari	390	* @return Order of block
479	bondari	391	*/
814	palkovsky	392	static __u8 zone_buddy_get_order(buddy_system_t b, link_t block) {
480	bondari	393	frame_t * frame;
		394	frame = list_get_instance(block, frame_t, buddy_link);
		395	return frame->buddy_order;
479	bondari	396	}
533	bondari	397
		398	/** Buddy system mark_busy implementation
		399	*
		400	* @param b Buddy system
		401	* @param block Buddy system block
		402	*
		403	*/
814	palkovsky	404	static void zone_buddy_mark_busy(buddy_system_t b, link_t block) {
533	bondari	405	frame_t * frame;
822	palkovsky	406
533	bondari	407	frame = list_get_instance(block, frame_t, buddy_link);
		408	frame->refcount = 1;
		409	}
676	bondari	410
814	palkovsky	411	/** Buddy system mark_available implementation
		412	*
		413	* @param b Buddy system
		414	* @param block Buddy system block
		415	*
		416	*/
		417	static void zone_buddy_mark_available(buddy_system_t b, link_t block) {
		418	frame_t * frame;
		419	frame = list_get_instance(block, frame_t, buddy_link);
		420	frame->refcount = 0;
		421	}
		422
		423	static struct buddy_system_operations zone_buddy_system_operations = {
		424	.find_buddy = zone_buddy_find_buddy,
		425	.bisect = zone_buddy_bisect,
		426	.coalesce = zone_buddy_coalesce,
		427	.set_order = zone_buddy_set_order,
		428	.get_order = zone_buddy_get_order,
		429	.mark_busy = zone_buddy_mark_busy,
		430	.mark_available = zone_buddy_mark_available,
822	palkovsky	431	.find_block = zone_buddy_find_block,
		432	.print_id = zone_buddy_print_id
814	palkovsky	433	};
		434
		435	/*************************************/
		436	/* Zone functions */
		437
		438	/** Allocate frame in particular zone
		439	*
		440	* Assume zone is locked
1269	decky	441	* Panics if allocation is impossible.
814	palkovsky	442	*
1269	decky	443	* @param zone Zone to allocate from.
		444	* @param order Allocate exactly 2^order frames.
		445	*
814	palkovsky	446	* @return Frame index in zone
1269	decky	447	*
814	palkovsky	448	*/
1269	decky	449	static pfn_t zone_frame_alloc(zone_t *zone, __u8 order)
814	palkovsky	450	{
		451	pfn_t v;
		452	link_t *tmp;
		453	frame_t *frame;
		454
		455	/* Allocate frames from zone buddy system */
		456	tmp = buddy_system_alloc(zone->buddy_system, order);
		457
		458	ASSERT(tmp);
		459
		460	/* Update zone information. */
		461	zone->free_count -= (1 << order);
		462	zone->busy_count += (1 << order);
		463
		464	/* Frame will be actually a first frame of the block. */
		465	frame = list_get_instance(tmp, frame_t, buddy_link);
		466
		467	/* get frame address */
		468	v = make_frame_index(zone, frame);
		469	return v;
		470	}
		471
		472	/** Free frame from zone
		473	*
		474	* Assume zone is locked
1568	palkovsky	475	*
		476	* @param zone Pointer to zone from which the frame is to be freed
		477	* @param frame_idx Frame index relative to zone
814	palkovsky	478	*/
820	jermar	479	static void zone_frame_free(zone_t *zone, index_t frame_idx)
814	palkovsky	480	{
		481	frame_t *frame;
		482	__u8 order;
		483
		484	frame = &zone->frames[frame_idx];
		485
		486	/* remember frame order */
		487	order = frame->buddy_order;
		488
		489	ASSERT(frame->refcount);
		490
		491	if (!--frame->refcount) {
		492	buddy_system_free(zone->buddy_system, &frame->buddy_link);
946	jermar	493
		494	/* Update zone information. */
		495	zone->free_count += (1 << order);
		496	zone->busy_count -= (1 << order);
814	palkovsky	497	}
		498	}
		499
		500	/** Return frame from zone */
820	jermar	501	static frame_t * zone_get_frame(zone_t *zone, index_t frame_idx)
814	palkovsky	502	{
		503	ASSERT(frame_idx < zone->count);
		504	return &zone->frames[frame_idx];
		505	}
		506
		507	/** Mark frame in zone unavailable to allocation */
820	jermar	508	static void zone_mark_unavailable(zone_t *zone, index_t frame_idx)
814	palkovsky	509	{
		510	frame_t *frame;
		511	link_t *link;
		512
		513	frame = zone_get_frame(zone, frame_idx);
822	palkovsky	514	if (frame->refcount)
		515	return;
814	palkovsky	516	link = buddy_system_alloc_block(zone->buddy_system,
		517	&frame->buddy_link);
		518	ASSERT(link);
		519	zone->free_count--;
		520	}
		521
822	palkovsky	522	/**
		523	* Join 2 zones
		524	*
		525	* Expect zone_t *z to point to space at least zone_conf_size large
		526	*
		527	* Assume z1 & z2 are locked
1568	palkovsky	528	*
		529	* @param z Target zone structure pointer
		530	* @param z1 Zone to merge
		531	* @param z2 Zone to merge
822	palkovsky	532	*/
		533
		534	static void _zone_merge(zone_t z, zone_t z1, zone_t *z2)
		535	{
		536	__u8 max_order;
		537	int i, z2idx;
		538	pfn_t frame_idx;
		539	frame_t *frame;
		540
		541	ASSERT(!overlaps(z1->base,z1->count,z2->base,z2->count));
		542	ASSERT(z1->base < z2->base);
		543
		544	spinlock_initialize(&z->lock, "zone_lock");
		545	z->base = z1->base;
		546	z->count = z2->base+z2->count - z1->base;
		547	z->flags = z1->flags & z2->flags;
		548
		549	z->free_count = z1->free_count + z2->free_count;
		550	z->busy_count = z1->busy_count + z2->busy_count;
		551
		552	max_order = fnzb(z->count);
		553
		554	z->buddy_system = (buddy_system_t *)&z[1];
		555	buddy_system_create(z->buddy_system, max_order,
		556	&zone_buddy_system_operations,
		557	(void *) z);
		558
		559	z->frames = (frame_t )((void )z->buddy_system+buddy_conf_size(max_order));
		560	for (i = 0; i < z->count; i++) {
		561	/* This marks all frames busy */
		562	frame_initialize(&z->frames[i]);
		563	}
		564	/* Copy frames from both zones to preserve full frame orders,
1093	palkovsky	565	* parents etc. Set all free frames with refcount=0 to 1, because
822	palkovsky	566	* we add all free frames to buddy allocator later again, clear
1093	palkovsky	567	* order to 0. Don't set busy frames with refcount=0, as they
		568	* will not be reallocated during merge and it would make later
		569	* problems with allocation/free.
822	palkovsky	570	*/
		571	for (i=0; i<z1->count; i++)
		572	z->frames[i] = z1->frames[i];
		573	for (i=0; i < z2->count; i++) {
		574	z2idx = i + (z2->base - z1->base);
		575	z->frames[z2idx] = z2->frames[i];
		576	}
1093	palkovsky	577	i = 0;
		578	while (i < z->count) {
		579	if (z->frames[i].refcount) {
		580	/* skip busy frames */
		581	i += 1 << z->frames[i].buddy_order;
		582	} else { /* Free frames, set refcount=1 */
		583	/* All free frames have refcount=0, we need not
		584	* to check the order */
822	palkovsky	585	z->frames[i].refcount = 1;
		586	z->frames[i].buddy_order = 0;
1093	palkovsky	587	i++;
822	palkovsky	588	}
		589	}
		590	/* Add free blocks from the 2 original zones */
		591	while (zone_can_alloc(z1, 0)) {
		592	frame_idx = zone_frame_alloc(z1, 0);
		593	frame = &z->frames[frame_idx];
		594	frame->refcount = 0;
		595	buddy_system_free(z->buddy_system, &frame->buddy_link);
		596	}
		597	while (zone_can_alloc(z2, 0)) {
		598	frame_idx = zone_frame_alloc(z2, 0);
		599	frame = &z->frames[frame_idx + (z2->base-z1->base)];
		600	frame->refcount = 0;
		601	buddy_system_free(z->buddy_system, &frame->buddy_link);
		602	}
		603	}
		604
		605	/** Return old configuration frames into the zone
		606	*
		607	* We have several cases
		608	* - the conf. data is outside of zone -> exit, shall we call frame_free??
824	palkovsky	609	* - the conf. data was created by zone_create or
		610	* updated with reduce_region -> free every frame
		611	*
		612	* @param newzone The actual zone where freeing should occur
		613	* @param oldzone Pointer to old zone configuration data that should
		614	* be freed from new zone
822	palkovsky	615	*/
		616	static void return_config_frames(zone_t newzone, zone_t oldzone)
		617	{
		618	pfn_t pfn;
		619	frame_t *frame;
		620	count_t cframes;
		621	int i;
		622
		623	pfn = ADDR2PFN((__address)KA2PA(oldzone));
		624	cframes = SIZE2FRAMES(zone_conf_size(oldzone->count));
		625
		626	if (pfn < newzone->base \|\| pfn >= newzone->base + newzone->count)
		627	return;
		628
		629	frame = &newzone->frames[pfn - newzone->base];
824	palkovsky	630	ASSERT(!frame->buddy_order);
822	palkovsky	631
		632	for (i=0; i < cframes; i++) {
		633	newzone->busy_count++;
		634	zone_frame_free(newzone, pfn+i-newzone->base);
		635	}
		636	}
		637
824	palkovsky	638	/** Reduce allocated block to count of order 0 frames
		639	*
		640	* The allocated block need 2^order frames of space. Reduce all frames
1568	palkovsky	641	* in block to order 0 and free the unneeded frames. This means, that
		642	* when freeing the previously allocated block starting with frame_idx,
		643	* you have to free every frame.
824	palkovsky	644	*
		645	* @param zone
		646	* @param frame_idx Index to block
		647	* @param count Allocated space in block
		648	*/
		649	static void zone_reduce_region(zone_t *zone, pfn_t frame_idx, count_t count)
		650	{
		651	count_t i;
		652	__u8 order;
		653	frame_t *frame;
		654
		655	ASSERT(frame_idx+count < zone->count);
		656
		657	order = zone->frames[frame_idx].buddy_order;
		658	ASSERT((1 << order) >= count);
		659
		660	/* Reduce all blocks to order 0 */
		661	for (i=0; i < (1 << order); i++) {
		662	frame = &zone->frames[i + frame_idx];
		663	frame->buddy_order = 0;
		664	if (! frame->refcount)
		665	frame->refcount = 1;
		666	ASSERT(frame->refcount == 1);
		667	}
		668	/* Free unneeded frames */
		669	for (i=count; i < (1 << order); i++) {
		670	zone_frame_free(zone, i + frame_idx);
		671	}
		672	}
		673
822	palkovsky	674	/** Merge zones z1 and z2
		675	*
		676	* - the zones must be 2 zones with no zone existing in between,
		677	* which means that z2 = z1+1
		678	*
		679	* - When you create a new zone, the frame allocator configuration does
		680	* not to be 2^order size. Once the allocator is running it is no longer
		681	* possible, merged configuration data occupies more space :-/
		682	*/
		683	void zone_merge(int z1, int z2)
		684	{
		685	ipl_t ipl;
		686	zone_t zone1, zone2, *newzone;
		687	int cframes;
		688	__u8 order;
		689	int i;
		690	pfn_t pfn;
		691
		692	ipl = interrupts_disable();
		693	spinlock_lock(&zones.lock);
		694
		695	if (z1 < 0 \|\| z1 >= zones.count \|\| z2 < 0 \|\| z2 >= zones.count)
		696	goto errout;
		697	/* We can join only 2 zones with none existing inbetween */
		698	if (z2-z1 != 1)
		699	goto errout;
		700
		701	zone1 = zones.info[z1];
		702	zone2 = zones.info[z2];
		703	spinlock_lock(&zone1->lock);
		704	spinlock_lock(&zone2->lock);
		705
		706	cframes = SIZE2FRAMES(zone_conf_size(zone2->base+zone2->count-zone1->base));
1700	palkovsky	707	if (cframes == 1)
		708	order = 0;
		709	else
		710	order = fnzb(cframes - 1) + 1;
822	palkovsky	711
		712	/* Allocate zonedata inside one of the zones */
		713	if (zone_can_alloc(zone1, order))
		714	pfn = zone1->base + zone_frame_alloc(zone1, order);
		715	else if (zone_can_alloc(zone2, order))
		716	pfn = zone2->base + zone_frame_alloc(zone2, order);
		717	else
		718	goto errout2;
		719
		720	newzone = (zone_t *)PA2KA(PFN2ADDR(pfn));
		721
		722	_zone_merge(newzone, zone1, zone2);
		723
824	palkovsky	724	/* Free unneeded config frames */
		725	zone_reduce_region(newzone, pfn - newzone->base, cframes);
822	palkovsky	726	/* Subtract zone information from busy frames */
824	palkovsky	727	newzone->busy_count -= cframes;
822	palkovsky	728
824	palkovsky	729	/* Replace existing zones in zoneinfo list */
822	palkovsky	730	zones.info[z1] = newzone;
1037	decky	731	for (i = z2 + 1; i < zones.count; i++)
		732	zones.info[i - 1] = zones.info[i];
822	palkovsky	733	zones.count--;
		734
		735	/* Free old zone information */
		736	return_config_frames(newzone, zone1);
		737	return_config_frames(newzone, zone2);
		738	errout2:
		739	/* Nobody is allowed to enter to zone, so we are safe
		740	* to touch the spinlocks last time */
		741	spinlock_unlock(&zone1->lock);
		742	spinlock_unlock(&zone2->lock);
		743	errout:
		744	spinlock_unlock(&zones.lock);
		745	interrupts_restore(ipl);
		746	}
		747
		748	/**
		749	* Merge all zones into one big zone
		750	*
		751	* It is reasonable to do this on systems whose bios reports parts in chunks,
		752	* so that we could have 1 zone (it's faster).
		753	*/
		754	void zone_merge_all(void)
		755	{
		756	int count = zones.count;
		757
		758	while (zones.count > 1 && --count) {
		759	zone_merge(0,1);
		760	break;
		761	}
		762	}
		763
814	palkovsky	764	/** Create frame zone
		765	*
		766	* Create new frame zone.
		767	*
		768	* @param start Physical address of the first frame within the zone.
1568	palkovsky	769	* @param count Count of frames in zone
		770	* @param z Address of configuration information of zone
814	palkovsky	771	* @param flags Zone flags.
		772	*
		773	* @return Initialized zone.
		774	*/
822	palkovsky	775	static void zone_construct(pfn_t start, count_t count, zone_t *z, int flags)
814	palkovsky	776	{
		777	int i;
		778	__u8 max_order;
		779
		780	spinlock_initialize(&z->lock, "zone_lock");
		781	z->base = start;
		782	z->count = count;
		783	z->flags = flags;
		784	z->free_count = count;
		785	z->busy_count = 0;
		786
		787	/*
		788	* Compute order for buddy system, initialize
		789	*/
822	palkovsky	790	max_order = fnzb(count);
814	palkovsky	791	z->buddy_system = (buddy_system_t *)&z[1];
		792
		793	buddy_system_create(z->buddy_system, max_order,
		794	&zone_buddy_system_operations,
		795	(void *) z);
		796
		797	/* Allocate frames _after_ the conframe */
		798	/* Check sizes */
		799	z->frames = (frame_t )((void )z->buddy_system+buddy_conf_size(max_order));
		800	for (i = 0; i<count; i++) {
		801	frame_initialize(&z->frames[i]);
		802	}
852	palkovsky	803
814	palkovsky	804	/* Stuffing frames */
		805	for (i = 0; i < count; i++) {
		806	z->frames[i].refcount = 0;
		807	buddy_system_free(z->buddy_system, &z->frames[i].buddy_link);
		808	}
		809	}
		810
1568	palkovsky	811	/** Compute configuration data size for zone
		812	*
		813	* @param count Size of zone in frames
		814	* @return Size of zone configuration info (in bytes)
		815	*/
822	palkovsky	816	__address zone_conf_size(count_t count)
814	palkovsky	817	{
		818	int size = sizeof(zone_t) + count*sizeof(frame_t);
		819	int max_order;
		820
822	palkovsky	821	max_order = fnzb(count);
814	palkovsky	822	size += buddy_conf_size(max_order);
		823	return size;
		824	}
		825
		826	/** Create and add zone to system
		827	*
1568	palkovsky	828	* @param start First frame number (absolute)
		829	* @param count Size of zone in frames
		830	* @param confframe Where configuration frames are supposed to be.
		831	* Automatically checks, that we will not disturb the
		832	* kernel and possibly init.
814	palkovsky	833	* If confframe is given _outside_ this zone, it is expected,
		834	* that the area is already marked BUSY and big enough
1568	palkovsky	835	* to contain zone_conf_size() amount of data.
		836	* If the confframe is inside the area, the zone free frame
		837	* information is modified not to include it.
822	palkovsky	838	*
		839	* @return Zone number or -1 on error
814	palkovsky	840	*/
822	palkovsky	841	int zone_create(pfn_t start, count_t count, pfn_t confframe, int flags)
814	palkovsky	842	{
		843	zone_t *z;
822	palkovsky	844	__address addr;
820	jermar	845	count_t confcount;
814	palkovsky	846	int i;
822	palkovsky	847	int znum;
814	palkovsky	848
		849	/* Theoretically we could have here 0, practically make sure
		850	* nobody tries to do that. If some platform requires, remove
		851	* the assert
		852	*/
		853	ASSERT(confframe);
		854	/* If conframe is supposed to be inside our zone, then make sure
		855	* it does not span kernel & init
		856	*/
822	palkovsky	857	confcount = SIZE2FRAMES(zone_conf_size(count));
814	palkovsky	858	if (confframe >= start && confframe < start+count) {
1037	decky	859	for (;confframe < start + count; confframe++) {
814	palkovsky	860	addr = PFN2ADDR(confframe);
1037	decky	861	if (overlaps(addr, PFN2ADDR(confcount), KA2PA(config.base), config.kernel_size))
814	palkovsky	862	continue;
1037	decky	863
		864	bool overlap = false;
		865	count_t i;
		866	for (i = 0; i < init.cnt; i++)
		867	if (overlaps(addr, PFN2ADDR(confcount), KA2PA(init.tasks[i].addr), init.tasks[i].size)) {
		868	overlap = true;
		869	break;
		870	}
		871	if (overlap)
		872	continue;
		873
814	palkovsky	874	break;
		875	}
1037	decky	876	if (confframe >= start + count)
814	palkovsky	877	panic("Cannot find configuration data for zone.");
		878	}
		879
822	palkovsky	880	z = (zone_t *)PA2KA(PFN2ADDR(confframe));
		881	zone_construct(start, count, z, flags);
		882	znum = zones_add_zone(z);
		883	if (znum == -1)
		884	return -1;
		885
814	palkovsky	886	/* If confdata in zone, mark as unavailable */
		887	if (confframe >= start && confframe < start+count)
		888	for (i=confframe; i<confframe+confcount; i++) {
		889	zone_mark_unavailable(z, i - z->base);
		890	}
822	palkovsky	891	return znum;
814	palkovsky	892	}
		893
		894	/***************************************/
		895	/* Frame functions */
		896
		897	/** Set parent of frame */
		898	void frame_set_parent(pfn_t pfn, void *data, int hint)
		899	{
		900	zone_t *zone = find_zone_and_lock(pfn, &hint);
		901
		902	ASSERT(zone);
		903
		904	zone_get_frame(zone, pfn-zone->base)->parent = data;
		905	spinlock_unlock(&zone->lock);
		906	}
		907
		908	void * frame_get_parent(pfn_t pfn, int hint)
		909	{
		910	zone_t *zone = find_zone_and_lock(pfn, &hint);
		911	void *res;
		912
		913	ASSERT(zone);
		914	res = zone_get_frame(zone, pfn - zone->base)->parent;
		915
		916	spinlock_unlock(&zone->lock);
		917	return res;
		918	}
		919
		920	/** Allocate power-of-two frames of physical memory.
		921	*
1269	decky	922	* @param order Allocate exactly 2^order frames.
		923	* @param flags Flags for host zone selection and address processing.
		924	* @param status Allocation status (FRAME_OK on success), unused if NULL.
		925	* @param pzone Preferred zone
814	palkovsky	926	*
		927	* @return Allocated frame.
1269	decky	928	*
814	palkovsky	929	*/
1269	decky	930	pfn_t frame_alloc_generic(__u8 order, int flags, int status, int pzone)
814	palkovsky	931	{
		932	ipl_t ipl;
		933	int freed;
		934	pfn_t v;
		935	zone_t *zone;
		936
		937	loop:
		938	ipl = interrupts_disable();
1269	decky	939
814	palkovsky	940	/*
		941	* First, find suitable frame zone.
		942	*/
1269	decky	943	zone = find_free_zone_lock(order, pzone);
		944
814	palkovsky	945	/* If no memory, reclaim some slab memory,
		946	if it does not help, reclaim all */
		947	if (!zone && !(flags & FRAME_NO_RECLAIM)) {
		948	freed = slab_reclaim(0);
		949	if (freed)
1269	decky	950	zone = find_free_zone_lock(order, pzone);
814	palkovsky	951	if (!zone) {
		952	freed = slab_reclaim(SLAB_RECLAIM_ALL);
		953	if (freed)
1269	decky	954	zone = find_free_zone_lock(order, pzone);
814	palkovsky	955	}
		956	}
		957	if (!zone) {
		958	if (flags & FRAME_PANIC)
		959	panic("Can't allocate frame.\n");
		960
		961	/*
		962	* TODO: Sleep until frames are available again.
		963	*/
		964	interrupts_restore(ipl);
		965
		966	if (flags & FRAME_ATOMIC) {
		967	ASSERT(status != NULL);
		968	if (status)
		969	*status = FRAME_NO_MEMORY;
		970	return NULL;
		971	}
		972
		973	panic("Sleep not implemented.\n");
		974	goto loop;
		975	}
1269	decky	976
		977	v = zone_frame_alloc(zone, order);
814	palkovsky	978	v += zone->base;
		979
		980	spinlock_unlock(&zone->lock);
		981	interrupts_restore(ipl);
		982
		983	if (status)
		984	*status = FRAME_OK;
		985	return v;
		986	}
		987
		988	/** Free a frame.
		989	*
1236	jermar	990	* Find respective frame structure for supplied PFN.
814	palkovsky	991	* Decrement frame reference count.
		992	* If it drops to zero, move the frame structure to free list.
		993	*
1236	jermar	994	* @param frame Frame number to be freed.
814	palkovsky	995	*/
		996	void frame_free(pfn_t pfn)
		997	{
		998	ipl_t ipl;
		999	zone_t *zone;
		1000
		1001	ipl = interrupts_disable();
		1002
		1003	/*
		1004	* First, find host frame zone for addr.
		1005	*/
		1006	zone = find_zone_and_lock(pfn,NULL);
		1007	ASSERT(zone);
		1008
		1009	zone_frame_free(zone, pfn-zone->base);
		1010
		1011	spinlock_unlock(&zone->lock);
		1012	interrupts_restore(ipl);
		1013	}
		1014
1236	jermar	1015	/** Add reference to frame.
		1016	*
		1017	* Find respective frame structure for supplied PFN and
		1018	* increment frame reference count.
		1019	*
		1020	* @param frame Frame no to be freed.
		1021	*/
		1022	void frame_reference_add(pfn_t pfn)
		1023	{
		1024	ipl_t ipl;
		1025	zone_t *zone;
		1026	frame_t *frame;
814	palkovsky	1027
1236	jermar	1028	ipl = interrupts_disable();
		1029
		1030	/*
		1031	* First, find host frame zone for addr.
		1032	*/
		1033	zone = find_zone_and_lock(pfn,NULL);
		1034	ASSERT(zone);
		1035
		1036	frame = &zone->frames[pfn-zone->base];
		1037	frame->refcount++;
		1038
		1039	spinlock_unlock(&zone->lock);
		1040	interrupts_restore(ipl);
		1041	}
814	palkovsky	1042
		1043	/** Mark given range unavailable in frame zones */
820	jermar	1044	void frame_mark_unavailable(pfn_t start, count_t count)
814	palkovsky	1045	{
		1046	int i;
		1047	zone_t *zone;
		1048	int prefzone = 0;
852	palkovsky	1049
822	palkovsky	1050	for (i=0; i < count; i++) {
814	palkovsky	1051	zone = find_zone_and_lock(start+i,&prefzone);
		1052	if (!zone) /* PFN not found */
		1053	continue;
		1054	zone_mark_unavailable(zone, start+i-zone->base);
		1055
		1056	spinlock_unlock(&zone->lock);
		1057	}
		1058	}
		1059
		1060	/** Initialize physical memory management
		1061	*
		1062	* Initialize physical memory managemnt.
		1063	*/
		1064	void frame_init(void)
		1065	{
		1066	if (config.cpu_active == 1) {
		1067	zones.count = 0;
		1068	spinlock_initialize(&zones.lock,"zones_glob_lock");
		1069	}
		1070	/* Tell the architecture to create some memory */
		1071	frame_arch_init();
		1072	if (config.cpu_active == 1) {
852	palkovsky	1073	pfn_t firstframe = ADDR2PFN(KA2PA(config.base));
		1074	pfn_t lastframe = ADDR2PFN(KA2PA(config.base+config.kernel_size));
		1075	frame_mark_unavailable(firstframe,lastframe-firstframe+1);
1037	decky	1076
		1077	count_t i;
		1078	for (i = 0; i < init.cnt; i++)
		1079	frame_mark_unavailable(ADDR2PFN(KA2PA(init.tasks[i].addr)), SIZE2FRAMES(init.tasks[i].size));
1599	palkovsky	1080
		1081	/* Black list first frame, as allocating NULL would
		1082	* fail on some places */
		1083	frame_mark_unavailable(0, 1);
814	palkovsky	1084	}
		1085	}
		1086
		1087
		1088
677	bondari	1089	/** Prints list of zones
		1090	*
		1091	*/
676	bondari	1092	void zone_print_list(void) {
		1093	zone_t *zone = NULL;
814	palkovsky	1094	int i;
701	jermar	1095	ipl_t ipl;
		1096
		1097	ipl = interrupts_disable();
814	palkovsky	1098	spinlock_lock(&zones.lock);
822	palkovsky	1099	printf("# Base address\tFree Frames\tBusy Frames\n");
		1100	printf(" ------------\t-----------\t-----------\n");
1037	decky	1101	for (i = 0; i < zones.count; i++) {
814	palkovsky	1102	zone = zones.info[i];
683	bondari	1103	spinlock_lock(&zone->lock);
1224	cejka	1104	printf("%d: %.p \t%10zd\t%10zd\n", i, sizeof(__address) 2, PFN2ADDR(zone->base), zone->free_count, zone->busy_count);
701	jermar	1105	spinlock_unlock(&zone->lock);
676	bondari	1106	}
814	palkovsky	1107	spinlock_unlock(&zones.lock);
701	jermar	1108	interrupts_restore(ipl);
676	bondari	1109	}
		1110
677	bondari	1111	/** Prints zone details
		1112	*
822	palkovsky	1113	* @param base Zone base address OR zone number
677	bondari	1114	*/
822	palkovsky	1115	void zone_print_one(int num) {
814	palkovsky	1116	zone_t *zone = NULL;
701	jermar	1117	ipl_t ipl;
822	palkovsky	1118	int i;
701	jermar	1119
		1120	ipl = interrupts_disable();
814	palkovsky	1121	spinlock_lock(&zones.lock);
822	palkovsky	1122
1037	decky	1123	for (i = 0; i < zones.count; i++) {
824	palkovsky	1124	if (i == num \|\| PFN2ADDR(zones.info[i]->base) == num) {
822	palkovsky	1125	zone = zones.info[i];
		1126	break;
		1127	}
676	bondari	1128	}
822	palkovsky	1129	if (!zone) {
		1130	printf("Zone not found.\n");
		1131	goto out;
		1132	}
676	bondari	1133
683	bondari	1134	spinlock_lock(&zone->lock);
822	palkovsky	1135	printf("Memory zone information\n");
1224	cejka	1136	printf("Zone base address: %#.p\n", sizeof(__address) 2, PFN2ADDR(zone->base));
1196	cejka	1137	printf("Zone size: %zd frames (%zdK)\n", zone->count, ((zone->count) * FRAME_SIZE) >> 10);
		1138	printf("Allocated space: %zd frames (%zdK)\n", zone->busy_count, (zone->busy_count * FRAME_SIZE) >> 10);
		1139	printf("Available space: %zd (%zdK)\n", zone->free_count, (zone->free_count * FRAME_SIZE) >> 10);
686	bondari	1140	buddy_system_structure_print(zone->buddy_system, FRAME_SIZE);
683	bondari	1141
		1142	spinlock_unlock(&zone->lock);
822	palkovsky	1143	out:
814	palkovsky	1144	spinlock_unlock(&zones.lock);
701	jermar	1145	interrupts_restore(ipl);
676	bondari	1146	}
		1147

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