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source: trunk/kernel/libk/xlist.h @ 642

Last change on this file since 642 was 636, checked in by alain, 5 years ago
Fix a bug in list_remote_add_first() and list_remote_add_last() functions, used by the physical memory allocator, that corrupted the PPM state.
File size: 14.5 KB

Rev	Line
[1]	1	/*
	2	* xlist.h - Double Circular Linked lists, using extended pointers.
	3	*
[636]	4	* Author : Alain Greiner (2016,2017,2018,2019)
[1]	5	*
	6	* Copyright (c) UPMC Sorbonne Universites
	7	*
	8	* This file is part of ALMOS-MKH.
	9	*
	10	* ALMOS-kernel is free software; you can redistribute it and/or modify it
	11	* under the terms of the GNU General Public License as published by
	12	* the Free Software Foundation; version 2.0 of the License.
	13	*
	14	* ALMOS-kernel is distributed in the hope that it will be useful, but
	15	* WITHOUT ANY WARRANTY; without even the implied warranty of
	16	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	17	* General Public License for more details.
	18	*
	19	* You should have received a copy of the GNU General Public License
	20	* along with ALMOS-kernel; if not, write to the Free Software Foundation,
	21	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
	22	*/
	23
[603]	24	#ifndef _XLIST_H_
	25	#define _XLIST_H_
[1]	26
[14]	27	#include <kernel_config.h>
[457]	28	#include <hal_kernel_types.h>
[1]	29	#include <hal_remote.h>
[610]	30	#include <printk.h>
[1]	31
	32	/** global variables */
	33
	34	cxy_t local_cxy;
	35
	36	/***************************************************************************
	37	* This structure defines an Extended Double Circular Linked List entry.
	38	* Note (1) The list root is an extra xlist_entry_t, that is NOT part
	39	* of the set of linked elements.
	40	* Note (2) Do NOT change the fields order in this struct.
	41	**************************************************************************/
	42
	43	typedef struct xlist_entry_s
	44	{
	45	xptr_t next; // extended pointer on next xlist_entry_t
	46	xptr_t pred; // extended pointer on previous xlist_entry_t
	47	}
	48	xlist_entry_t;
	49
	50	/***************************************************************************
	51	* This macro returns the offset (in bytes) of a field in a structure.
	52	* @ type : structure type
	53	* @ member : name of the field
	54	**************************************************************************/
	55
	56	#ifndef OFFSETOF
[24]	57	#define OFFSETOF( type , member ) ((intptr_t) & ((type *)0)->member)
[1]	58	#endif
	59
	60	/***************************************************************************
	61	* This macro returns an extended pointer on the structure containing an
	62	* embedded xlist_entry_t field.
	63	* @ xlist_xp : extended pointer on the xlist_entry_t field
	64	* @ type : type of the structure containing the xlist_entry_t
	65	* @ member : name of the xlist_entry_t field
	66	**************************************************************************/
	67
	68	#define XLIST_ELEMENT( xlist_xp , type , member ) \
	69	(xlist_xp - OFFSETOF( type , member ))
	70
	71	/***************************************************************************
	72	* This macro returns an extended pointer on the first element of an
	73	* extended double linked list, identified by the extended pointer on
	74	* the root xlist_entry_t.
[435]	75	* WARNING : check list non empty before using this macro.
[1]	76	* @ root_xp : extended pointer on the root xlist_entry_t
	77	* @ type : type of the linked elements
	78	* @ member : name of the xlist_entry_t field
	79	**************************************************************************/
	80
[603]	81	#define XLIST_FIRST( root_xp , type , member ) \
	82	({ xptr_t __first = hal_remote_l64( root_xp ); \
[1]	83	XLIST_ELEMENT( __first , type , member ); })
	84
	85	/***************************************************************************
	86	* This macro returns an extended pointer on the last element of an
	87	* extended double linked list, identified by the extended pointer on
	88	* the root xlist_entry_t.
[435]	89	* WARNING : check list non empty before using this macro.
[1]	90	* @ root_xp : extended pointer on the root xlist_entry_t
	91	* @ type : type of the linked elements
	92	* @ member : name of the xlist_entry_t field
	93	**************************************************************************/
	94
[603]	95	#define XLIST_LAST( root_xp , type , member ) \
	96	({ xptr_t __last = hal_remote_l64( root_xp + sizeof(xptr_t) ); \
[1]	97	XLIST_ELEMENT( __last , type , member ); })
	98
	99	/***************************************************************************
	100	* This macro traverses an extended double linked list in forward order.
[563]	101	* WARNING : the iter variable should NOT be deleted during traversal.
[1]	102	* @ root_xp : extended pointer on the root xlist_entry_t
	103	* @ iter_xp : current extended pointer on a xlist_entry_t
	104	**************************************************************************/
	105
	106	#define XLIST_FOREACH( root_xp , iter_xp ) \
[563]	107	for( (iter_xp) = hal_remote_l64( root_xp ) ; \
[1]	108	(iter_xp) != (root_xp) ; \
[563]	109	(iter_xp) = hal_remote_l64( iter_xp ) )
[1]	110
	111	/***************************************************************************
	112	* This macro traverses an extended double linked list in backward order.
[563]	113	* WARNING : the iter variable should NOT be deleted during traversal.
[1]	114	* @ root_xp : extended pointer on the root xlist_entry_t
	115	* @ iter_xp : current extended pointer on a xlist_entry_t
	116	**************************************************************************/
	117
[603]	118	#define XLIST_FOREACH_BACKWARD( root_xp , iter_xp ) \
	119	for( (iter_xp) = hal_remote_l64( (root_xp) + sizeof(xptr_t) ) ; \
	120	(iter_xp) != (root_xp) ; \
	121	(iter_xp) = hal_remote_l64( (iter_xp) + sizeof(xptr_t) ) )
[1]	122
	123	/***************************************************************************
	124	* This function returns an extended pointer on the next xlist_entry_t,
	125	* from an extended pointer on a reference xlist_entry_t.
	126	* @ root : extended pointer on the root xlist_entry_t
	127	* @ ref : extended pointer on the reference xlist_entry_t
	128	**************************************************************************/
	129	static inline xptr_t xlist_next( xptr_t root,
	130	xptr_t ref )
	131	{
	132	// get root->next
[563]	133	xptr_t root_next = (xptr_t)hal_remote_l64( root );
[1]	134
	135	// get ref->next
[563]	136	xptr_t ref_next = (xptr_t)hal_remote_l64( ref );
[1]	137
	138	// test if list is empty or ref is the last element
	139	if( (root_next == root) \|\| (ref_next == root) ) return XPTR_NULL;
	140
	141	return ref_next;
	142	}
	143
	144	/***************************************************************************
	145	* This function returns an extended pointer on the previous xlist_entry_t.
	146	* @ root : extended pointer on the root xlist_entry_t
	147	* @ ref : extended pointer on the reference xlist_entry_t
	148	**************************************************************************/
	149	static inline xptr_t xlist_pred( xptr_t root,
	150	xptr_t ref )
	151	{
	152	// get root->next
[563]	153	xptr_t root_next = (xptr_t)hal_remote_l64( root );
[1]	154
	155	// get ref->pred
[603]	156	xptr_t ref_pred = (xptr_t)hal_remote_l64( ref + sizeof(xptr_t) );
[1]	157
	158	// test if list is empty or ref is the first element
	159	if( (root_next == root) \|\| (ref_pred == root) ) return XPTR_NULL;
	160
	161	return ref_pred;
	162	}
	163
	164	/***************************************************************************
	165	* This function initialises the root of an extended double linked list.
	166	* The root can be located in any cluster.
	167	* @ root_xp : extended pointer on the root xlist_entry_t
[563]	168	xixi **************************************************************************/
[1]	169	static inline void xlist_root_init( xptr_t root_xp )
	170	{
[603]	171	hal_remote_s64( root_xp , root_xp );
	172	hal_remote_s64( root_xp + sizeof(xptr_t) , root_xp );
[1]	173	}
	174
	175	/***************************************************************************
	176	* This function initialises an entry of an extended double linked list.
	177	* The entry can be located in any cluster.
	178	* @ entry_xp : extended pointer on the xlist_entry_t
	179	**************************************************************************/
	180	static inline void xlist_entry_init( xptr_t entry_xp )
	181	{
[603]	182	hal_remote_s64( entry_xp , 0 );
	183	hal_remote_s64( entry_xp + sizeof(xptr_t) , 0 );
[1]	184	}
	185
	186	/***************************************************************************
	187	* This function inserts a new entry in the first place of an extended
	188	* double linked list. Four extended pointers must be modified.
	189	* The lock protecting the list should have been previously taken.
[610]	190	* @ root_xp : extended pointer on the root xlist_entry_t
	191	* @ entry_xp : extended pointer on the xlist_entry_t to be inserted
[1]	192	**************************************************************************/
[610]	193	static inline void xlist_add_first( xptr_t root_xp,
	194	xptr_t entry_xp )
[1]	195	{
	196	// get the extended pointer on the first element in list
[610]	197	xptr_t first_xp = hal_remote_l64( root_xp );
[1]	198
[610]	199	// update root_xp->next <= entry_xp
	200	hal_remote_s64( root_xp , entry_xp );
[1]	201
[610]	202	// update entry_xp->next <= first_xp
	203	hal_remote_s64( entry_xp , first_xp );
[1]	204
[610]	205	// update entry_xp->pred <= root_xp
	206	hal_remote_s64( entry_xp + sizeof(xptr_t) , root_xp );
[1]	207
[610]	208	// update first_xp->pred <= entry_xp
	209	hal_remote_s64( first_xp + sizeof(xptr_t) , entry_xp );
[1]	210	}
	211
	212	/***************************************************************************
	213	* This function inserts a new entry in the last place of an extended
	214	* double linked list. Four extended pointers must be modified.
	215	* The lock protecting the list should have been previously taken.
[610]	216	* @ root_xp : extended pointer on the root xlist_entry_t
	217	* @ entry_xp : extended pointer on the xlist_entry_t to be inserted
[1]	218	**************************************************************************/
[610]	219	static inline void xlist_add_last( xptr_t root_xp,
	220	xptr_t entry_xp )
[1]	221	{
	222	// get the extended pointer on the last element in list
[610]	223	xptr_t last_xp = hal_remote_l64( root_xp + sizeof(xptr_t) );
[1]	224
[610]	225	// update root_xp->pred <= entry_xp
	226	hal_remote_s64( root_xp + sizeof(xptr_t) , entry_xp );
[1]	227
[610]	228	// update entry_xp->pred <= last_xp
	229	hal_remote_s64( entry_xp + sizeof(xptr_t) , last_xp );
[1]	230
[610]	231	// update entry_xp->next <= root_xp
	232	hal_remote_s64( entry_xp , root_xp );
[1]	233
[610]	234	// update last_xp->next <= entry_xp
	235	hal_remote_s64( last_xp , entry_xp );
[1]	236	}
	237
	238
	239	/***************************************************************************
	240	* This function returns true if the list is empty.
[610]	241	* @ root_xp : extended pointer on the root xlist_entry_t.
[1]	242	**************************************************************************/
[610]	243	static inline bool_t xlist_is_empty( xptr_t root_xp )
[1]	244	{
	245	// get the extended pointer root.next value
[610]	246	xptr_t next = (xptr_t)hal_remote_l64( root_xp );
[1]	247
[610]	248	return ( root_xp == next );
[1]	249	}
	250
	251	/***************************************************************************
	252	* This function removes an entry from an extended double linked list.
	253	* Two extended pointers must be modified.
	254	* The memory allocated to the removed entry is not released.
	255	* @ xp : extended pointer on the xlist_entry_t to be removed.
	256	**************************************************************************/
	257	static inline void xlist_unlink( xptr_t xp )
	258	{
	259	// get a local copy of the xlist_entry_t to be removed
	260	xlist_entry_t entry;
	261	hal_remote_memcpy( XPTR( local_cxy , &entry ) ,
[603]	262	xp ,
	263	sizeof(xlist_entry_t) );
[1]	264
	265	xptr_t next = entry.next;
	266	xptr_t pred = entry.pred;
	267
	268	// update pred.next <= next
[563]	269	hal_remote_s64( pred , (uint64_t)next );
[1]	270
	271	// update next.pred <= pred
[603]	272	hal_remote_s64( next + sizeof(xptr_t) , (uint64_t)pred );
[1]	273	}
	274
	275	/***************************************************************************
	276	* This function replaces an entry in an extended double linked list.
	277	* Four extended pointers must be modified.
	278	* The memory allocated to the removed entry is not released.
[610]	279	* @ old : extended pointer on the xlist_entry_t to be removed.
	280	* @ new : extended pointer on the xlist_entry_t to be inserted.
[1]	281	**************************************************************************/
	282	static inline void xlist_replace( xptr_t old,
	283	xptr_t new )
	284	{
	285	// get a local copy of the xlist_entry_t to be removed
	286	xlist_entry_t entry;
	287	hal_remote_memcpy( XPTR( local_cxy , &entry ) ,
	288	old ,
	289	sizeof(xlist_entry_t) );
	290
	291	xptr_t next = entry.next;
	292	xptr_t pred = entry.pred;
	293
	294	// update new.next <= next
[563]	295	hal_remote_s64( new , (uint64_t)next );
[1]	296
	297	// update new.pred <= pred
[603]	298	hal_remote_s64( new + sizeof(xptr_t) , (uint64_t)pred );
[1]	299
	300	// update pred.next <= new
[563]	301	hal_remote_s64( pred , (uint64_t)new );
[1]	302
	303	// update next.pred <= new
[603]	304	hal_remote_s64( next + sizeof(xptr_t) , (uint64_t)new );
[1]	305	}
	306
[610]	307	/***************************************************************************
	308	* This debug function displays all entries of an xlist.
	309	* @ root_xp : extended pointer on the root xlist_entry_t.
	310	* @ string : list identifier displayed in header.
	311	* @ max : max number of éléments to display.
	312	**************************************************************************/
	313	static inline void xlist_display( xptr_t root_xp,
	314	char * string,
	315	uint32_t max )
	316	{
	317	cxy_t root_cxy;
	318	xlist_entry_t * root_ptr;
	319
	320	xptr_t iter_xp;
	321	cxy_t iter_cxy;
	322	xlist_entry_t * iter_ptr;
	323
	324	xptr_t next_xp;
	325	cxy_t next_cxy;
	326	xlist_entry_t * next_ptr;
	327
	328	xptr_t pred_xp;
	329	cxy_t pred_cxy;
	330	xlist_entry_t * pred_ptr;
	331
	332	uint32_t index;
	333
	334	root_cxy = GET_CXY( root_xp );
	335	root_ptr = GET_PTR( root_xp );
	336
	337	next_xp = hal_remote_l64( XPTR( root_cxy , &root_ptr->next ) );
	338	next_cxy = GET_CXY( next_xp );
	339	next_ptr = GET_PTR( next_xp );
	340
	341	pred_xp = hal_remote_l64( XPTR( root_cxy , &root_ptr->pred ) );
	342	pred_cxy = GET_CXY( pred_xp );
	343	pred_ptr = GET_PTR( pred_xp );
	344
	345	printk("\n*** root (%x,%x) / next (%x,%x) / pred (%x,%x) / %s ***\n",
	346	root_cxy, root_ptr, next_cxy, next_ptr, pred_cxy, pred_ptr, string );
	347
	348	if( xlist_is_empty( root_xp ) == false )
	349	{
	350	for( iter_xp = hal_remote_l64( XPTR( root_cxy , &root_ptr->next) ) , index = 0 ;
	351	(iter_xp != root_xp) && (index < max) ;
	352	iter_xp = next_xp , index++ )
	353	{
	354	iter_cxy = GET_CXY( iter_xp );
	355	iter_ptr = GET_PTR( iter_xp );
	356
	357	next_xp = hal_remote_l64( XPTR( iter_cxy , &iter_ptr->next ) );
	358	next_cxy = GET_CXY( next_xp );
	359	next_ptr = GET_PTR( next_xp );
	360
	361	pred_xp = hal_remote_l64( XPTR( iter_cxy , &iter_ptr->pred ) );
	362	pred_cxy = GET_CXY( pred_xp );
	363	pred_ptr = GET_PTR( pred_xp );
	364
	365	printk(" - %d : iter (%x,%x) / next (%x,%x) / pred (%x,%x)\n",
	366	index, iter_cxy, iter_ptr, next_cxy, next_ptr, pred_cxy, pred_ptr );
	367	}
	368	}
	369	} // end xlist_display()
	370
[603]	371	#endif /* _XLIST_H_ */

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