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authorNot Zed <NotZed@HelixCode.com>2000-09-19 20:22:00 +0800
committerMichael Zucci <zucchi@src.gnome.org>2000-09-19 20:22:00 +0800
commit288e7bb1fbbbf90a8c80aac2ef9f3aaa729affad (patch)
tree0e7ad838873096f58ce12c1418bbd8cd11d56f46 /libibex/disktail.c
parent122b2426dbf33e3c418f774af1ecb07e3369d794 (diff)
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** Merged from IBEX_DISK branch to head.
2000-09-19 Not Zed <NotZed@HelixCode.com> ** Merged from IBEX_DISK branch to head. svn path=/trunk/; revision=5500
Diffstat (limited to 'libibex/disktail.c')
-rw-r--r--libibex/disktail.c807
1 files changed, 807 insertions, 0 deletions
diff --git a/libibex/disktail.c b/libibex/disktail.c
new file mode 100644
index 0000000000..90562889de
--- /dev/null
+++ b/libibex/disktail.c
@@ -0,0 +1,807 @@
+/* -*- Mode: C; tab-width: 8; indent-tabs-mode: t; c-basic-offset: 8 -*-
+ *
+ * Copyright (C) 2000 Helix Code, Inc.
+ *
+ * Authors: Michael Zucchi <notzed@helixcode.com>
+ *
+ * This program is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU Library General Public License
+ * as published by the Free Software Foundation; either version 2 of
+ * the License, or (at your option) any later version.
+ *
+ * This library is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ * Library General Public License for more details.
+ *
+ * You should have received a copy of the GNU Library General Public
+ * License along with the Gnome Library; see the file COPYING.LIB. If not,
+ * write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
+ * Boston, MA 02111-1307, USA.
+ */
+
+/* a disk based array storage class that stores the tails of data lists
+ in common blocks */
+
+
+#include <sys/types.h>
+#include <sys/stat.h>
+#include <fcntl.h>
+#include <unistd.h>
+
+#include <glib.h>
+#include <string.h>
+
+#include <stdio.h>
+
+#include "block.h"
+#include "index.h"
+
+#define d(x)
+/*#define DEBUG*/
+
+/* marker to define which root keys indicate a single length key */
+#define BLOCK_ONE (1<<BLOCK_BITS)
+
+/* tail blocks only contain tail data ... */
+/* and we pack it in, similar to the key data, only more compact */
+struct _tailblock {
+ unsigned int next:32-BLOCK_BITS; /* only needs to point to block numbers */
+ unsigned int used:BLOCK_BITS; /* how many entries are used */
+ union {
+ unsigned char offset[BLOCK_SIZE-4]; /* works upto blocksize of 1024 bytes */
+ nameid_t data[(BLOCK_SIZE-4)/4];
+ } tailblock_u;
+};
+#define tb_offset tailblock_u.offset
+#define tb_data tailblock_u.data
+
+/* map a tail index to a block index */
+#define TAIL_INDEX(b) ((b) & (BLOCK_SIZE-1))
+/* map a tail index to a block number */
+#define TAIL_BLOCK(b) ((b) & ~(BLOCK_SIZE-1))
+/* map a block + index to a tailid */
+#define TAIL_KEY(b, i) (((b) & ~(BLOCK_SIZE-1)) | ((i) & (BLOCK_SIZE-1)))
+
+#define TAIL_THRESHOLD ((BLOCK_SIZE-8)/6)
+
+static struct _IBEXStore *disk_create(struct _memcache *bc);
+static int disk_sync(struct _IBEXStore *store);
+static int disk_close(struct _IBEXStore *store);
+
+static blockid_t disk_add(struct _IBEXStore *store, blockid_t *head, blockid_t *tail, nameid_t data);
+static blockid_t disk_add_list(struct _IBEXStore *store, blockid_t *head, blockid_t *tail, GArray *data);
+static blockid_t disk_remove(struct _IBEXStore *store, blockid_t *head, blockid_t *tail, nameid_t data);
+static void disk_free(struct _IBEXStore *store, blockid_t head, blockid_t tail);
+
+static gboolean disk_find(struct _IBEXStore *store, blockid_t head, blockid_t tail, nameid_t data);
+static GArray *disk_get(struct _IBEXStore *store, blockid_t head, blockid_t tail);
+
+struct _IBEXStoreClass ibex_diskarray_class = {
+ disk_create, disk_sync, disk_close,
+ disk_add, disk_add_list,
+ disk_remove, disk_free,
+ disk_find, disk_get
+};
+
+
+static int
+tail_info(struct _tailblock *bucket, nameid_t tailid, blockid_t **startptr)
+{
+ blockid_t *start, *end;
+ int index;
+
+ /* get start/end of area to zap */
+ index = TAIL_INDEX(tailid);
+ start = &bucket->tb_data[bucket->tb_offset[index]];
+ if (index == 0) {
+ end = &bucket->tb_data[sizeof(bucket->tb_data)/sizeof(bucket->tb_data[0])];
+ } else {
+ end = &bucket->tb_data[bucket->tb_offset[index-1]];
+ }
+ if (startptr)
+ *startptr = start;
+ return end-start;
+}
+
+/* compresses (or expand) the bucket entry, to the new size */
+static void
+tail_compress(struct _tailblock *bucket, int index, int newsize)
+{
+ int i;
+ blockid_t *start, *end, *newstart;
+
+ /* get start/end of area to zap */
+ start = &bucket->tb_data[bucket->tb_offset[index]];
+ if (index == 0) {
+ end = &bucket->tb_data[sizeof(bucket->tb_data)/sizeof(bucket->tb_data[0])];
+ } else {
+ end = &bucket->tb_data[bucket->tb_offset[index-1]];
+ }
+
+ if (end-start == newsize)
+ return;
+
+ /*
+ XXXXXXXXXXXXXXXXXXXXXXXXXXXXXyyyyy
+ 0 20 25
+
+ newsize = 0
+ end = 25
+ newstart = 0
+ start = 20
+
+ newstart+(end-start)-newsize = 5
+ i = start-newstart
+
+ XXXXXXXXXXXXXXXXXXXXXXXXXXXXXyyyyy
+ 0 20 25
+
+ newsize = 2
+ end = 25
+ newstart = 0
+ start = 20
+
+ newstart+(end-start)-newsize = 3
+ i = start-newstart + MIN(end-start, newsize)) = 22
+
+ XXXXXXXXXXXXXXXXXXXXXXXXXXXXX
+ 5 25
+ newsize = 5
+ end = 25
+ start = 25
+ newstart = 5
+
+ newstart+(end-start)-newsize = 0
+ i = start-newstart = 20
+
+ XXXXXXXXXXXXXXXXXXXXXXXXXXXXXyy
+ 3 23 25
+ newsize = 5
+ end = 25
+ start = 23
+ newstart = 3
+
+ newstart+(end-start)-newsize = 0
+ i = start-newstart + MIN(end-start, newsize) = 22
+
+ */
+
+
+ /* fixup data */
+ newstart = &bucket->tb_data[bucket->tb_offset[bucket->used-1]];
+
+ g_assert(newstart+(end-start)-newsize <= &bucket->tb_data[sizeof(bucket->tb_data)/sizeof(bucket->tb_data[0])]);
+ g_assert(newstart + (start-newstart) + MIN(end-start, newsize) <= &bucket->tb_data[sizeof(bucket->tb_data)/sizeof(bucket->tb_data[0])]);
+ g_assert(newstart+(end-start)-newsize >= &bucket->tb_offset[bucket->used]);
+ g_assert(newstart + (start-newstart) + MIN(end-start, newsize) >= &bucket->tb_offset[bucket->used]);
+
+ memmove(newstart+(end-start)-newsize, newstart, ((start-newstart)+MIN(end-start, newsize)) * sizeof(blockid_t));
+
+ /* fixup key pointers */
+ for (i=index;i<bucket->used;i++) {
+ bucket->tb_offset[i] += (end-start)-newsize;
+ }
+ ibex_block_dirty((struct _block *)bucket);
+}
+
+/*
+ returns the number of blockid's free
+*/
+static int
+tail_space(struct _tailblock *tail)
+{
+ if (tail->used == 0)
+ return sizeof(tail->tb_data)/sizeof(tail->tb_data[0])-1;
+
+ return &tail->tb_data[tail->tb_offset[tail->used-1]]
+ - (blockid_t *)&tail->tb_offset[tail->used];
+}
+
+static void
+tail_dump(struct _memcache *blocks, blockid_t tailid)
+{
+ int i;
+ struct _tailblock *tail = (struct _tailblock *)ibex_block_read(blocks, TAIL_BLOCK(tailid));
+
+ printf("Block %d, used %d\n", tailid, tail->used);
+ for (i=0;i<sizeof(struct _tailblock)/sizeof(unsigned int);i++) {
+ printf(" %08x", ((unsigned int *)tail)[i]);
+ }
+ printf("\n");
+}
+
+static blockid_t
+tail_get(struct _memcache *blocks, int size)
+{
+ struct _root *root = (struct _root *)ibex_block_read(blocks, 0);
+ blockid_t tailid;
+ struct _tailblock *tail;
+ int freeindex;
+ blockid_t *end;
+ int i, count = 0;
+
+ d(printf("looking for a tail node with %d items in it\n", size));
+
+ /* look for a node with enough space, if we dont find it fairly
+ quickly, just quit. needs a better free algorithm i think ... */
+ tailid = root->tail;
+ while (tailid && count<5) {
+ int space;
+
+ d(printf(" checking tail node %d\n", tailid));
+
+ tail = (struct _tailblock *)ibex_block_read(blocks, tailid);
+ if (tail->used == 0) {
+ /* assume its big enough ... */
+ tail->used = 1;
+ tail->tb_offset[0] = sizeof(tail->tb_data)/sizeof(tail->tb_data[0]) - size;
+ d(printf("allocated %d (%d), used %d\n", tailid, tailid, tail->used));
+ ibex_block_dirty((struct _block *)tail);
+ return tailid;
+ }
+
+ /* see if we have a free slot first */
+ freeindex = -1;
+ end = &tail->tb_data[sizeof(tail->tb_data)/sizeof(tail->tb_data[0])];
+ for (i=0;i<tail->used;i++) {
+ if (end == &tail->tb_data[tail->tb_offset[i]]) {
+ freeindex = i;
+ break;
+ }
+ end = &tail->tb_data[tail->tb_offset[i]];
+ }
+
+ /* determine how much space we have available - incl any extra header we might need */
+ space = ((char *)&tail->tb_data[tail->tb_offset[tail->used-1]])
+ - ((char *)&tail->tb_offset[tail->used])
+ /* FIXMEL work out why this is out a little bit */
+ - 8;
+ if (freeindex == -1)
+ space -= sizeof(tail->tb_offset[0]);
+
+ /* if we have enough, set it up, creating a new entry if necessary */
+ /* for some really odd reason the compiler promotes this expression to unsigned, hence
+ the requirement for the space>0 check ... */
+ if (space>0 && space > size*sizeof(blockid_t)) {
+ d(printf("space = %d, size = %d size*sizeof() = %d truth = %d\n", space, size, size*sizeof(blockid_t), space>size*sizeof(blockid_t)));
+ if (freeindex == -1) {
+ freeindex = tail->used;
+ tail->tb_offset[tail->used] = tail->tb_offset[tail->used-1];
+ tail->used++;
+ }
+ tail_compress(tail, freeindex, size);
+ ibex_block_dirty((struct _block *)tail);
+ d(printf("allocated %d (%d), used %d\n", tailid, TAIL_KEY(tailid, freeindex), tail->used));
+ return TAIL_KEY(tailid, freeindex);
+ }
+ count++;
+ tailid = block_location(tail->next);
+ }
+
+ d(printf("allocating new data node for tail data\n"));
+ /* didn't find one, setup a new one */
+ root = (struct _root *)ibex_block_read(blocks, 0);
+ tailid = ibex_block_get(blocks);
+ tail = (struct _tailblock *)ibex_block_read(blocks, tailid);
+ tail->next = block_number(root->tail);
+ root->tail = tailid;
+ tail->used = 1;
+ tail->tb_offset[0] = sizeof(tail->tb_data)/sizeof(tail->tb_data[0]) - size;
+ ibex_block_dirty((struct _block *)tail);
+ d(printf("allocated %d (%d), used %d\n", tailid, TAIL_KEY(tailid, 0), tail->used));
+ return TAIL_KEY(tailid, 0);
+}
+
+static void
+tail_free(struct _memcache *blocks, blockid_t tailid)
+{
+ struct _tailblock *tail;
+
+ d(printf("freeing tail id %d\n", tailid));
+
+ if (tailid == 0)
+ return;
+
+ tail = (struct _tailblock *)ibex_block_read(blocks, TAIL_BLOCK(tailid));
+ d(printf(" tail %d used %d\n", tailid, tail->used));
+ g_assert(tail->used);
+ if (TAIL_INDEX(tailid) == tail->used - 1) {
+ tail->used --;
+ } else {
+ tail_compress(tail, TAIL_INDEX(tailid), 0);
+ }
+ ibex_block_dirty((struct _block *)tail);
+}
+
+static struct _IBEXStore *disk_create(struct _memcache *bc)
+{
+ struct _IBEXStore *store;
+
+ store = g_malloc0(sizeof(*store));
+ store->klass = &ibex_diskarray_class;
+ store->blocks = bc;
+
+ return store;
+}
+
+static int disk_sync(struct _IBEXStore *store)
+{
+ /* no cache, nop */
+ return 0;
+}
+
+static int disk_close(struct _IBEXStore *store)
+{
+ g_free(store);
+ return 0;
+}
+
+static blockid_t
+disk_add(struct _IBEXStore *store, blockid_t *headptr, blockid_t *tailptr, nameid_t data)
+{
+ struct _block *block;
+ struct _block *newblock;
+ blockid_t new, head = *headptr /*, tail = *tailptr*/;
+
+ g_error("Inbimplemented");
+
+ if (head == 0) {
+ head = ibex_block_get(store->blocks);
+ }
+ block = ibex_block_read(store->blocks, head);
+
+ d(printf("adding record %d to block %d (next = %d)\n", data, head, block->next));
+
+ if (block->used < sizeof(block->bl_data)/sizeof(block->bl_data[0])) {
+ (printf("adding record into block %d %d\n", head, data));
+ block->bl_data[block->used] = data;
+ block->used++;
+ ibex_block_dirty(block);
+ return head;
+ } else {
+ new = ibex_block_get(store->blocks);
+ newblock = ibex_block_read(store->blocks, new);
+ newblock->next = block_number(head);
+ newblock->bl_data[0] = data;
+ newblock->used = 1;
+ d(printf("adding record into new %d %d, next =%d\n", new, data, newblock->next));
+ ibex_block_dirty(newblock);
+ return new;
+ }
+}
+
+static blockid_t
+disk_add_blocks_internal(struct _IBEXStore *store, blockid_t *headptr, blockid_t *tailptr, GArray *data)
+{
+ blockid_t head = *headptr, tail = *tailptr, new;
+ int tocopy;
+ struct _tailblock *tailblock;
+ struct _block *block, *newblock;
+ int space, copied = 0, left;
+
+ /* assumes this funciton is in control of any tail creation */
+ g_assert(tail == 0);
+
+ d(printf("Adding %d items to block list\n", data->len));
+
+ if (head == 0) {
+ head = ibex_block_get(store->blocks);
+ d(printf("allocating new head %d\n", head));
+ }
+ block = ibex_block_read(store->blocks, head);
+
+ /* ensure the first block is full before proceeding */
+ space = sizeof(block->bl_data)/sizeof(block->bl_data[0]) - block->used;
+ if (space) {
+ tocopy = MIN(data->len, space);
+ memcpy(block->bl_data+block->used, &g_array_index(data, blockid_t, copied), tocopy*sizeof(blockid_t));
+ block->used += tocopy;
+ ibex_block_dirty(block);
+ copied = tocopy;
+ d(printf("copied %d items to left over last node\n", tocopy));
+ }
+
+ while (copied < data->len) {
+ left = data->len - copied;
+ /* do we drop the rest in a tail? */
+ if (left < TAIL_THRESHOLD) {
+ d(printf("Storing remaining %d items in tail\n", left));
+ tocopy = left;
+ new = tail_get(store->blocks, tocopy);
+ tailblock = (struct _tailblock *)ibex_block_read(store->blocks, TAIL_BLOCK(new));
+ memcpy(&tailblock->tb_data[tailblock->tb_offset[TAIL_INDEX(new)]],
+ &g_array_index(data, blockid_t, copied), tocopy*sizeof(blockid_t));
+ *tailptr = new;
+ } else {
+ new = ibex_block_get(store->blocks);
+ newblock = (struct _block *)ibex_block_read(store->blocks, new);
+ newblock->next = block_number(head);
+ tocopy = MIN(left, sizeof(block->bl_data)/sizeof(block->bl_data[0]));
+ d(printf("storing %d items in own block\n", tocopy));
+ memcpy(newblock->bl_data, &g_array_index(data, blockid_t, copied), tocopy*sizeof(blockid_t));
+ newblock->used = tocopy;
+ block = newblock;
+ head = new;
+ ibex_block_dirty(newblock);
+ }
+ copied += tocopy;
+ }
+
+ *headptr = head;
+ return head;
+}
+/*
+ case 1:
+ no head, no tail, adding a lot of data
+ add blocks until the last, which goes in a tail node
+ case 2:
+ no head, no tail, adding a little data
+ just add a tail node
+ case 3:
+ no head, tail, total exceeds a block
+ merge as much as possible into new full blocks, then the remainder in the tail
+ case 4:
+ no head, tail, room in existing tail for data
+ add new data to tail node
+ case 5:
+ no head, tail, no room in existing tail for data
+ add a new tail node, copy data across, free old tail node
+*/
+
+static blockid_t
+disk_add_list(struct _IBEXStore *store, blockid_t *headptr, blockid_t *tailptr, GArray *data)
+{
+ blockid_t new, head = *headptr, tail = *tailptr, *start;
+ struct _tailblock *tailblock, *tailnew;
+ int len;
+ GArray *tmpdata = NULL;
+
+ d(printf("adding %d items head=%d tail=%d\n", data->len, head, tail));
+ if (data->len == 0)
+ return head;
+
+ /* store length=1 data in the tail pointer */
+ if (head == 0 && tail == 0 && data->len == 1) {
+ *headptr = BLOCK_ONE;
+ *tailptr = g_array_index(data, blockid_t, 0);
+ return BLOCK_ONE;
+ }
+ /* if we got length=1 data to append to, upgrade it to a real block list */
+ if (head == BLOCK_ONE) {
+ tmpdata = g_array_new(0, 0, sizeof(blockid_t));
+ g_array_append_vals(tmpdata, data->data, data->len);
+ g_array_append_val(tmpdata, tail);
+ head = *headptr = 0;
+ tail = *tailptr = 0;
+ }
+
+ /* if we have no head, then check the tail */
+ if (head == 0) {
+ if (tail == 0) {
+ if (data->len >= TAIL_THRESHOLD) {
+ /* add normally */
+ head = disk_add_blocks_internal(store, headptr, tailptr, data);
+ } else {
+ /* else add to a tail block */
+ new = tail_get(store->blocks, data->len);
+ d(printf("adding %d items to a tail block %d\n", data->len, new));
+ tailnew = (struct _tailblock *)ibex_block_read(store->blocks, TAIL_BLOCK(new));
+ memcpy(&tailnew->tb_data[tailnew->tb_offset[TAIL_INDEX(new)]],
+ data->data, data->len*sizeof(blockid_t));
+ *tailptr = new;
+ ibex_block_dirty((struct _block *)tailnew);
+ }
+ } else {
+ tailblock = (struct _tailblock *)ibex_block_read(store->blocks, TAIL_BLOCK(tail));
+ len = tail_info(tailblock, tail, &start);
+ /* case 3 */
+ if (len + data->len >= TAIL_THRESHOLD) {
+ /* this is suboptimal, but should work - merge the tail data with
+ our new data, and write it out */
+ if (tmpdata == NULL) {
+ tmpdata = g_array_new(0, 0, sizeof(blockid_t));
+ g_array_append_vals(tmpdata, data->data, data->len);
+ }
+ g_array_append_vals(tmpdata, start, len);
+ *tailptr = 0;
+ tail_free(store->blocks, tail);
+ head = disk_add_blocks_internal(store, headptr, tailptr, tmpdata);
+ } else if (tail_space(tailblock) >= data->len) {
+ /* can we just expand this in our node, or do we need a new one? */
+ tail_compress(tailblock, TAIL_INDEX(tail), data->len + len);
+ memcpy(&tailblock->tb_data[tailblock->tb_offset[TAIL_INDEX(tail)] + len],
+ data->data, data->len * sizeof(blockid_t));
+ ibex_block_dirty((struct _block *)tailblock);
+ } else {
+ /* we need to allocate a new tail node */
+ new = tail_get(store->blocks, data->len + len);
+ /* and copy the data across */
+ tailnew = (struct _tailblock *)ibex_block_read(store->blocks, TAIL_BLOCK(new));
+ memcpy(&tailnew->tb_data[tailnew->tb_offset[TAIL_INDEX(new)]],
+ start, len*sizeof(blockid_t));
+ memcpy(&tailnew->tb_data[tailnew->tb_offset[TAIL_INDEX(new)]+len],
+ data->data, data->len*sizeof(blockid_t));
+ tail_free(store->blocks, tail);
+ ibex_block_dirty((struct _block *)tailnew);
+ *tailptr = new;
+ }
+ }
+ } else {
+ if (tail) {
+ /* read/merge the tail with the new data, rewrite out.
+ suboptimal, but it should be 'ok' ? */
+ tailblock = (struct _tailblock *)ibex_block_read(store->blocks, TAIL_BLOCK(tail));
+ len = tail_info(tailblock, tail, &start);
+ tmpdata = g_array_new(0, 0, sizeof(blockid_t));
+ g_array_append_vals(tmpdata, start, len);
+ g_array_append_vals(tmpdata, data->data, data->len);
+ *tailptr = 0;
+ tail_free(store->blocks, tail);
+ head = disk_add_blocks_internal(store, headptr, tailptr, tmpdata);
+ } else {
+ head = disk_add_blocks_internal(store, headptr, tailptr, data);
+ }
+ }
+ if (tmpdata)
+ g_array_free(tmpdata, TRUE);
+
+ return head;
+}
+
+static blockid_t
+disk_remove(struct _IBEXStore *store, blockid_t *headptr, blockid_t *tailptr, nameid_t data)
+{
+ blockid_t head = *headptr, node = *headptr, tail = *tailptr;
+ int i;
+
+ /* special case for 1-item nodes */
+ if (head == BLOCK_ONE) {
+ if (tail == data) {
+ *tailptr = 0;
+ *headptr = 0;
+ head = 0;
+ }
+ return head;
+ }
+
+ d(printf("removing %d from %d\n", data, head));
+ while (node) {
+ struct _block *block = ibex_block_read(store->blocks, node);
+
+ for (i=0;i<block->used;i++) {
+ if (block->bl_data[i] == data) {
+ struct _block *start = ibex_block_read(store->blocks, head);
+
+ d(printf("removing data from block %d\n ", head));
+
+ start->used--;
+ block->bl_data[i] = start->bl_data[start->used];
+ if (start->used == 0) {
+ struct _root *root = (struct _root *)ibex_block_read(store->blocks, 0);
+ blockid_t new;
+
+ d(printf("dropping block %d, new head = %d\n", head, start->next));
+ new = block_location(start->next);
+ start->next = block_number(root->free);
+ root->free = head;
+ head = new;
+ ibex_block_dirty((struct _block *)root);
+ }
+ ibex_block_dirty(block);
+ ibex_block_dirty(start);
+ *headptr = head;
+ return head;
+ }
+ }
+ node = block_location(block->next);
+ }
+
+ if (tail) {
+ struct _tailblock *tailblock = (struct _tailblock *)ibex_block_read(store->blocks, TAIL_BLOCK(tail));
+ int len;
+ blockid_t *start;
+
+ len = tail_info(tailblock, tail, &start);
+ for (i=0;i<len;i++) {
+ if (start[i] == data) {
+ for (;i<len-1;i++)
+ start[i] = start[i+1];
+ if (len == 1)
+ *tailptr = 0;
+ if (len == 1 && (tailblock->used-1) == TAIL_INDEX(tail)) {
+ d(printf("dropping/unlinking tailblock %d (%d) used = %d\n",
+ TAIL_BLOCK(tail), tail, tailblock->used));
+ tailblock->used--;
+ /* drop/unlink block? */
+ ibex_block_dirty((struct _block *)tailblock);
+ *tailptr = 0;
+ } else {
+ tail_compress(tailblock, TAIL_INDEX(tail), len-1);
+ ibex_block_dirty((struct _block *)tailblock);
+ }
+ }
+ }
+
+ }
+
+ return head;
+}
+
+static void disk_free(struct _IBEXStore *store, blockid_t head, blockid_t tail)
+{
+ blockid_t next;
+ struct _block *block;
+
+ if (head == BLOCK_ONE)
+ return;
+
+ while (head) {
+ d(printf("freeing block %d\n", head));
+ block = ibex_block_read(store->blocks, head);
+ next = block_location(block->next);
+ ibex_block_free(store->blocks, head);
+ head = next;
+ }
+ if (tail) {
+ struct _tailblock *tailblock = (struct _tailblock *)ibex_block_read(store->blocks, TAIL_BLOCK(tail));
+ d(printf("freeing tail block %d (%d)\n", TAIL_BLOCK(tail), tail));
+ tail_compress(tailblock, TAIL_INDEX(tail), 0);
+ ibex_block_dirty((struct _block *)tailblock);
+ }
+}
+
+static gboolean
+disk_find(struct _IBEXStore *store, blockid_t head, blockid_t tail, nameid_t data)
+{
+ blockid_t node = head;
+ int i;
+
+ d(printf("finding %d from %d\n", data, head));
+
+ if (head == BLOCK_ONE)
+ return data == tail;
+
+ /* first check full blocks */
+ while (node) {
+ struct _block *block = ibex_block_read(store->blocks, node);
+
+ for (i=0;i<block->used;i++) {
+ if (block->bl_data[i] == data) {
+ return TRUE;
+ }
+ }
+ node = block_location(block->next);
+ }
+
+ /* then check tail */
+ if (tail) {
+ struct _tailblock *tailblock = (struct _tailblock *)ibex_block_read(store->blocks, TAIL_BLOCK(tail));
+ int len;
+ blockid_t *start;
+
+ len = tail_info(tailblock, tail, &start);
+ for (i=0;i<len;i++) {
+ if (start[i] == data)
+ return TRUE;
+ }
+ }
+
+ return FALSE;
+}
+
+static GArray *
+disk_get(struct _IBEXStore *store, blockid_t head, blockid_t tail)
+{
+ GArray *result = g_array_new(0, 0, sizeof(nameid_t));
+
+ if (head == BLOCK_ONE) {
+ g_array_append_val(result, tail);
+ return result;
+ }
+
+ while (head) {
+ struct _block *block = ibex_block_read(store->blocks, head);
+
+ d(printf("getting data from block %d\n", head));
+
+ g_array_append_vals(result, block->bl_data, block->used);
+ head = block_location(block->next);
+ d(printf("next = %d\n", head));
+ }
+
+ /* chuck on any tail data as well */
+ if (tail) {
+ struct _tailblock *tailblock;
+ int len;
+ blockid_t *start;
+
+ tailblock = (struct _tailblock *)ibex_block_read(store->blocks, TAIL_BLOCK(tail));
+ len = tail_info(tailblock, tail, &start);
+ g_array_append_vals(result, start, len);
+ }
+ return result;
+}
+
+void
+ibex_diskarray_dump(struct _memcache *blocks, blockid_t head, blockid_t tail)
+{
+ blockid_t node = head;
+
+ printf("dumping list %d tail %d\n", node, tail);
+ if (head == BLOCK_ONE) {
+ printf(" 1 length index: %d\n", tail);
+ return;
+ }
+
+ while (node) {
+ struct _block *block = ibex_block_read(blocks, node);
+ int i;
+
+ printf(" block %d used %d\n ", node, block->used);
+ for (i=0;i<block->used;i++) {
+ printf(" %d", block->bl_data[i]);
+ }
+ printf("\n");
+ node = block_location(block->next);
+ }
+
+ printf("tail: ");
+ if (tail) {
+ struct _tailblock *tailblock;
+ int len;
+ blockid_t *start;
+ int i;
+
+ tailblock = (struct _tailblock *)ibex_block_read(blocks, TAIL_BLOCK(tail));
+ len = tail_info(tailblock, tail, &start);
+ for (i=0;i<len;i++)
+ printf(" %d", start[i]);
+ }
+ printf("\n");
+}
+
+#if 0
+int main(int argc, char **argv)
+{
+ struct _memcache *bc;
+ struct _IBEXStore *disk;
+ int i;
+ blockid_t data[100];
+ GArray adata;
+ blockid_t head=0, tail=0;
+
+ for (i=0;i<100;i++) {
+ data[i] = i;
+ }
+
+ bc = ibex_block_cache_open("index.db", O_CREAT|O_RDWR, 0600);
+ disk = ibex_diskarray_class.create(bc);
+
+ head = 0;
+ tail = 0;
+ adata.data = data;
+ adata.len = 70;
+ for (i=0;i<100;i++) {
+ printf("Loop %d\n", i);
+ ibex_diskarray_class.add_list(disk, &head, &tail, &adata);
+ ibex_diskarray_dump(bc, head, tail);
+ }
+
+#if 0
+ for (i=1;i<100;i++) {
+ printf("inserting %d items\n", i);
+ adata.data = data;
+ adata.len = i;
+ head=0;
+ tail=0;
+ ibex_diskarray_class.add_list(disk, &head, &tail, &adata);
+ ibex_diskarray_dump(bc, head, tail);
+ }
+#endif
+ ibex_diskarray_class.close(disk);
+ ibex_block_cache_close(bc);
+ return 0;
+}
+
+#endif