renesas/drm.git - libdrm, cloned from git://anongit.freedesktop.org/mesa/drm

Age	Commit message (Expand)	Author
2005-10-23	we don't use this stuff anymore .. remove 1k buffer from driver ..	Dave Airlie
2005-10-06	remove version not used anymore	Dave Airlie
2005-09-25	use linux kernel macros don't make our own	Dave Airlie
2005-09-11	Add GART in FB support for ati pcigart, and PCIE support for r300	Dave Airlie
2005-09-03	convert ioctl flags to use flags instead of separate ints	Dave Airlie
2005-08-22	remove i915_pm code as it causes too many issues with current software	Alan Hourihane
2005-08-16	add Egberts 32/64 bit patch (its in kernel already...)	Dave Airlie
2005-08-12	Reverting the previous via security-fix commit, since the assumption of	Thomas Hellstrom
2005-08-10	Security fix on via: Checking that the specified context belongs to the	Thomas Hellstrom
2005-08-05	Rename the driver hooks in the DRM to something a little more	Eric Anholt
2005-08-04	Split the control of master vs root priv. Everything is still marked as	Jon Smirl
2005-07-20	Add latest r300 support from r300.sf.net CVS. Patch submitted by volodya,	Eric Anholt
2005-07-03	Simplify the sysfs code	Jon Smirl
2005-07-03	Add sysfs attribute dri_library_name on Linux. code in share-core/via_drv.c	Jon Smirl
2005-06-28	- Remove drm_initmap and replace its usage with drm_addmap. This reduces	Eric Anholt
2005-06-28	add compat code from Paul Mackerras	Dave Airlie
2005-06-28	Given that BenH says using the sysdev approach for DRM is bogus, I'll yank	Alan Hourihane
2005-06-26	removed dev->sysdev_registered	Jon Smirl
2005-06-22	Get the power management hooks into the right place so that everything gets	Jon Smirl
2005-06-17	fix up drm_alloc_agp to take a dev arg and not pass crappy agpgart around	Dave Airlie
2005-06-14	Adds support for PCI cards to MGA DRM	Ian Romanick
2005-06-04	misc cleanup patch from Adrian Bunk	Dave Airlie
2005-05-28	Bugzilla #3217: Create a new __drm_pci_free which is used internally in	Eric Anholt
2005-05-28	Re-implement the power management.	Alan Hourihane
2005-05-27	Modify drm_driver::device_is_agp to return a tri-state value to indicate	Ian Romanick
2005-05-16	Added device_is_agp callback to drm_driver. This function is called by the	Ian Romanick
2005-04-26	Convert BSD code to mostly use bus_dma, the dma abstraction for dealing	Eric Anholt
2005-03-25	fix up AGP multi-head support for kernel 2.6.12	Dave Airlie
2005-02-07	fix agp detection on linux	Dave Airlie
2005-02-05	- Implement drm_initmap, and extend it with the resource number to help	Eric Anholt
2005-01-16	The patch makes drmAddBufs/drmMapBufs can handle buffers in video memory	Dave Airlie
2004-10-31	Allow drivers to override reclaim_buffers in an OS-independent way by	Felix Kuehling
2004-10-23	Round 2 of getting rid of inter_module_get()	Jon Smirl
2004-10-15	Move drm_cpu_valid out of drm_init. drm_init is empty now.	Jon Smirl
2004-10-15	Switch linux-core over to 2.6 parameter model to enable debug use	Jon Smirl
2004-10-13	Add a poll function that alternates between zero and normal poll return to	Jon Smirl
2004-10-12	Breakout heads into their own data structures.	Jon Smirl
2004-10-10	Rename fn_tbl to driver. Core driver now uses pci_driver name which	Jon Smirl
2004-10-09	remove unused dma remnants that were gamma only - these could cause an oops	Dave Airlie
2004-10-06	Revert back to drm_order() instead of using kernel get_order(). The	Jon Smirl
2004-09-30	Make the debug memory functions compile for the core model.	Jon Smirl
2004-09-30	Lindent of core build. Drivers checked for no binary diffs. A few files	Jon Smirl
2004-09-30	Move things around to reduce public symbols and even out files. Switch to	Jon Smirl
2004-09-30	Make fops per driver instead of global, remove default flush, poll, read	Jon Smirl
2004-09-28	Getting the AGP module is a global resource. Make sure a dual PCI/AGP	Jon Smirl
2004-09-27	First check in for DRM that splits core from personality modules	Jon Smirl
2004-09-23	Remove 2.6 code that allow DRM major device number to be shared. We can add	Jon Smirl
2004-09-23	1) switches from class_sysfs to drm sysfs implementation to allow	Jon Smirl
2004-09-22	Remove hotplug reset support from DRM driver. This will be handled by the	Jon Smirl
2004-09-16	Let's try adding the dyn-minor patch again. This patch will reuse minor	Jon Smirl

/* xf86drmHash.c -- Small hash table support for integer -> integer mapping * Created: Sun Apr 18 09:35:45 1999 by faith@precisioninsight.com * * Copyright 1999 Precision Insight, Inc., Cedar Park, Texas. * All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * PRECISION INSIGHT AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. * * Authors: Rickard E. (Rik) Faith <faith@valinux.com> * * $XFree86: xc/programs/Xserver/hw/xfree86/os-support/linux/drm/xf86drmHash.c,v 1.4 2001/03/21 18:08:54 dawes Exp $ * * DESCRIPTION * * This file contains a straightforward implementation of a fixed-sized * hash table using self-organizing linked lists [Knuth73, pp. 398-399] for * collision resolution. There are two potentially interesting things * about this implementation: * * 1) The table is power-of-two sized. Prime sized tables are more * traditional, but do not have a significant advantage over power-of-two * sized table, especially when double hashing is not used for collision * resolution. * * 2) The hash computation uses a table of random integers [Hanson97, * pp. 39-41]. * * FUTURE ENHANCEMENTS * * With a table size of 512, the current implementation is sufficient for a * few hundred keys. Since this is well above the expected size of the * tables for which this implementation was designed, the implementation of * dynamic hash tables was postponed until the need arises. A common (and * naive) approach to dynamic hash table implementation simply creates a * new hash table when necessary, rehashes all the data into the new table, * and destroys the old table. The approach in [Larson88] is superior in * two ways: 1) only a portion of the table is expanded when needed, * distributing the expansion cost over several insertions, and 2) portions * of the table can be locked, enabling a scalable thread-safe * implementation. * * REFERENCES * * [Hanson97] David R. Hanson. C Interfaces and Implementations: * Techniques for Creating Reusable Software. Reading, Massachusetts: * Addison-Wesley, 1997. * * [Knuth73] Donald E. Knuth. The Art of Computer Programming. Volume 3: * Sorting and Searching. Reading, Massachusetts: Addison-Wesley, 1973. * * [Larson88] Per-Ake Larson. "Dynamic Hash Tables". CACM 31(4), April * 1988, pp. 446-457. * */ #ifdef HAVE_XORG_CONFIG_H #include <xorg-config.h> #endif #define HASH_MAIN 0 #if HASH_MAIN # include <stdio.h> # include <stdlib.h> #else # include "drm.h" # include "xf86drm.h" # ifdef XFree86LOADER # include "xf86.h" # include "xf86_ansic.h" # else # include <stdio.h> # include <stdlib.h> # endif #endif #define HASH_MAGIC 0xdeadbeef #define HASH_DEBUG 0 #define HASH_SIZE 512 /* Good for about 100 entries */ /* If you change this value, you probably have to change the HashHash hashing function! */ #if HASH_MAIN #define HASH_ALLOC malloc #define HASH_FREE free #define HASH_RANDOM_DECL #define HASH_RANDOM_INIT(seed) srandom(seed) #define HASH_RANDOM random() #define HASH_RANDOM_DESTROY #else #define HASH_ALLOC drmMalloc #define HASH_FREE drmFree #define HASH_RANDOM_DECL void *state #define HASH_RANDOM_INIT(seed) state = drmRandomCreate(seed) #define HASH_RANDOM drmRandom(state) #define HASH_RANDOM_DESTROY drmRandomDestroy(state) #endif typedef struct HashBucket { unsigned long key; void *value; struct HashBucket *next; } HashBucket, *HashBucketPtr; typedef struct HashTable { unsigned long magic; unsigned long entries; unsigned long hits; /* At top of linked list */ unsigned long partials; /* Not at top of linked list */ unsigned long misses; /* Not in table */ HashBucketPtr buckets[HASH_SIZE]; int p0; HashBucketPtr p1; } HashTable, *HashTablePtr; #if HASH_MAIN extern void *drmHashCreate(void); extern int drmHashDestroy(void *t); extern int drmHashLookup(void *t, unsigned long key, unsigned long *value); extern int drmHashInsert(void *t, unsigned long key, unsigned long value); extern int drmHashDelete(void *t, unsigned long key); #endif static unsigned long HashHash(unsigned long key) { unsigned long hash = 0; unsigned long tmp = key; static int init = 0; static unsigned long scatter[256]; int i; if (!init) { HASH_RANDOM_DECL; HASH_RANDOM_INIT(37); for (i = 0; i < 256; i++) scatter[i] = HASH_RANDOM; HASH_RANDOM_DESTROY; ++init; } while (tmp) { hash = (hash << 1) + scatter[tmp & 0xff]; tmp >>= 8; } hash %= HASH_SIZE; #if HASH_DEBUG printf( "Hash(%d) = %d\n", key, hash); #endif return hash; } void *drmHashCreate(void) { HashTablePtr table; int i; table = HASH_ALLOC(sizeof(*table)); if (!table) return NULL; table->magic = HASH_MAGIC; table->entries = 0; table->hits = 0; table->partials = 0; table->misses = 0; for (i = 0; i < HASH_SIZE; i++) table->buckets[i] = NULL; return table; } int drmHashDestroy(void *t) { HashTablePtr table = (HashTablePtr)t; HashBucketPtr bucket; HashBucketPtr next; int i; if (table->magic != HASH_MAGIC) return -1; /* Bad magic */ for (i = 0; i < HASH_SIZE; i++) { for (bucket = table->buckets[i]; bucket;) { next = bucket->next; HASH_FREE(bucket); bucket = next; } } HASH_FREE(table); return 0; } /* Find the bucket and organize the list so that this bucket is at the top. */ static HashBucketPtr HashFind(HashTablePtr table, unsigned long key, unsigned long *h) { unsigned long hash = HashHash(key); HashBucketPtr prev = NULL; HashBucketPtr bucket; if (h) *h = hash; for (bucket = table->buckets[hash]; bucket; bucket = bucket->next) { if (bucket->key == key) { if (prev) { /* Organize */ prev->next = bucket->next; bucket->next = table->buckets[hash]; table->buckets[hash] = bucket; ++table->partials; } else { ++table->hits; } return bucket; } prev = bucket; } ++table->misses; return NULL; } int drmHashLookup(void *t, unsigned long key, void **value) { HashTablePtr table = (HashTablePtr)t; HashBucketPtr bucket; if (!table || table->magic != HASH_MAGIC) return -1; /* Bad magic */ bucket = HashFind(table, key, NULL); if (!bucket) return 1; /* Not found */ *value = bucket->value; return 0; /* Found */ } int drmHashInsert(void *t, unsigned long key, void *value) { HashTablePtr table = (HashTablePtr)t; HashBucketPtr bucket; unsigned long hash; if (table->magic != HASH_MAGIC) return -1; /* Bad magic */ if (HashFind(table, key, &hash)) return 1; /* Already in table */ bucket = HASH_ALLOC(sizeof(*bucket)); if (!bucket) return -1; /* Error */ bucket->key = key; bucket->value = value; bucket->next = table->buckets[hash]; table->buckets[hash] = bucket; #if HASH_DEBUG printf("Inserted %d at %d/%p\n", key, hash, bucket); #endif return 0; /* Added to table */ } int drmHashDelete(void *t, unsigned long key) { HashTablePtr table = (HashTablePtr)t; unsigned long hash; HashBucketPtr bucket; if (table->magic != HASH_MAGIC) return -1; /* Bad magic */ bucket = HashFind(table, key, &hash); if (!bucket) return 1; /* Not found */ table->buckets[hash] = bucket->next; HASH_FREE(bucket); return 0; } int drmHashNext(void *t, unsigned long *key, void **value) { HashTablePtr table = (HashTablePtr)t; while (table->p0 < HASH_SIZE) { if (table->p1) { *key = table->p1->key; *value = table->p1->value; table->p1 = table->p1->next; return 1; } table->p1 = table->buckets[table->p0]; ++table->p0; } return 0; } int drmHashFirst(void *t, unsigned long *key, void **value) { HashTablePtr table = (HashTablePtr)t; if (table->magic != HASH_MAGIC) return -1; /* Bad magic */ table->p0 = 0; table->p1 = table->buckets[0]; return drmHashNext(table, key, value); } #if HASH_MAIN #define DIST_LIMIT 10 static int dist[DIST_LIMIT]; static void clear_dist(void) { int i; for (i = 0; i < DIST_LIMIT; i++) dist[i] = 0; } static int count_entries(HashBucketPtr bucket) { int count = 0; for (; bucket; bucket = bucket->next) ++count; return count; } static void update_dist(int count) { if (count >= DIST_LIMIT) ++dist[DIST_LIMIT-1]; else ++dist[count]; } static void compute_dist(HashTablePtr table) { int i; HashBucketPtr bucket; printf("Entries = %ld, hits = %ld, partials = %ld, misses = %ld\n", table->entries, table->hits, table->partials, table->misses); clear_dist(); for (i = 0; i < HASH_SIZE; i++) { bucket = table->buckets[i]; update_dist(count_entries(bucket)); } for (i = 0; i < DIST_LIMIT; i++) { if (i != DIST_LIMIT-1) printf("%5d %10d\n", i, dist[i]); else printf("other %10d\n", dist[i]); } } static void check_table(HashTablePtr table, unsigned long key, unsigned long value) { unsigned long retval = 0; int retcode = drmHashLookup(table, key, &retval); switch (retcode) { case -1: printf("Bad magic = 0x%08lx:" " key = %lu, expected = %lu, returned = %lu\n", table->magic, key, value, retval); break; case 1: printf("Not found: key = %lu, expected = %lu returned = %lu\n", key, value, retval); break; case 0: if (value != retval) printf("Bad value: key = %lu, expected = %lu, returned = %lu\n", key, value, retval); break; default: printf("Bad retcode = %d: key = %lu, expected = %lu, returned = %lu\n", retcode, key, value, retval); break; } } int main(void) { HashTablePtr table; int i; printf("\n***** 256 consecutive integers ****\n"); table = drmHashCreate(); for (i = 0; i < 256; i++) drmHashInsert(table, i, i); for (i = 0; i < 256; i++) check_table(table, i, i); for (i = 256; i >= 0; i--) check_table(table, i, i); compute_dist(table); drmHashDestroy(table); printf("\n***** 1024 consecutive integers ****\n"); table = drmHashCreate(); for (i = 0; i < 1024; i++) drmHashInsert(table, i, i); for (i = 0; i < 1024; i++) check_table(table, i, i); for (i = 1024; i >= 0; i--) check_table(table, i, i); compute_dist(table); drmHashDestroy(table); printf("\n***** 1024 consecutive page addresses (4k pages) ****\n"); table = drmHashCreate(); for (i = 0; i < 1024; i++) drmHashInsert(table, i*4096, i); for (i = 0; i < 1024; i++) check_table(table, i*4096, i); for (i = 1024; i >= 0; i--) check_table(table, i*4096, i); compute_dist(table); drmHashDestroy(table); printf("\n***** 1024 random integers ****\n"); table = drmHashCreate(); srandom(0xbeefbeef); for (i = 0; i < 1024; i++) drmHashInsert(table, random(), i); srandom(0xbeefbeef); for (i = 0; i < 1024; i++) check_table(table, random(), i); srandom(0xbeefbeef); for (i = 0; i < 1024; i++) check_table(table, random(), i); compute_dist(table); drmHashDestroy(table); printf("\n***** 5000 random integers ****\n"); table = drmHashCreate(); srandom(0xbeefbeef); for (i = 0; i < 5000; i++) drmHashInsert(table, random(), i); srandom(0xbeefbeef); for (i = 0; i < 5000; i++) check_table(table, random(), i); srandom(0xbeefbeef); for (i = 0; i < 5000; i++) check_table(table, random(), i); compute_dist(table); drmHashDestroy(table); return 0; } #endif