* (c) 2005 Martin Mares <mj@ucw.cz>
*/
-#include "sherlock/sherlock.h"
+#undef LOCAL_DEBUG
-#include <sys/mman.h>
+#include "lib/lib.h"
+#include "lib/bitops.h"
+#include "lib/fastbuf.h"
+#include "lib/qache.h"
-/* FIXME: do we really need to msync() the regions on Linux? */
+#include <unistd.h>
+#include <fcntl.h>
+#include <sys/mman.h>
+#include <sys/user.h>
/*
- * On-disk format:
+ * The cache lives in a mmapped file of the following format:
* qache_header
* qache_entry[max_entries] table of entries and their keys
* u32 qache_hash[hash_size] hash table pointing to keys
+ * u32 block_next[num_blocks] next block pointers
* padding to a multiple of block size
- * blocks[] data blocks, each block starts with u32 next_ptr
+ * blocks[] data blocks
*/
struct qache_header {
u32 magic; /* QCACHE_MAGIC */
u32 block_size; /* Parameters as in qache_params */
+ u32 block_shift; /* block_size = 1 << block_shift */
u32 num_blocks;
u32 format_id;
u32 entry_table_start; /* Array of qache_entry's */
u32 max_entries;
u32 hash_table_start; /* Hash table containing all keys */
u32 hash_size;
- u32 lru_first; /* First entry in the LRU */
- u32 first_free_entry; /* Head of the list of free entries */
- u32 first_free_block; /* Head of the list of free blocks */
+ u32 next_table_start; /* Array of next pointers */
+ u32 first_data_block;
};
#define QACHE_MAGIC 0xb79f6d12
struct qache_entry {
- u32 lru_prev, lru_next;
- u32 data_len; /* ~0 if a free entry */
- u32 first_data_block; /* next free if a free entry */
+ u32 lru_prev, lru_next; /* Entry #0: head of the cyclic LRU list */
+ u32 data_len; /* Entry #0: number of free blocks, Free entries: ~0U */
+ u32 first_data_block; /* Entry #0: first free block */
qache_key_t key;
- u32 hash_next;
+ u32 hash_next; /* Entry #0: first free entry, Free entries: next free */
};
struct qache {
struct qache_header *hdr;
+ struct qache_entry *entry_table;
+ u32 *hash_table;
+ u32 *next_table;
int fd;
byte *mmap_data;
uns file_size;
+ byte *file_name;
+ uns locked;
+};
+
+#define first_free_entry entry_table[0].hash_next
+#define first_free_block entry_table[0].first_data_block
+#define num_free_blocks entry_table[0].data_len
+
+static inline byte *
+format_key(qache_key_t *key)
+{
+ static byte keybuf[2*sizeof(qache_key_t)+1];
+ for (uns i=0; i<sizeof(qache_key_t); i++)
+ sprintf(keybuf+2*i, "%02x", (*key)[i]);
+ return keybuf;
+}
+
+static void
+qache_msync(struct qache *q UNUSED, uns start UNUSED, uns len UNUSED)
+{
+#ifndef CONFIG_LINUX
+ /* We don't need msyncing on Linux, since the mappings are guaranteed to be coherent */
+ len += (start % PAGE_SIZE);
+ start -= start % PAGE_SIZE;
+ len = ALIGN(len, PAGE_SIZE);
+ if (msync(q->mmap_data + start, len, MS_ASYNC | MS_INVALIDATE) < 0)
+ log(L_ERROR, "Cache %s: msync failed: %m", q->file_name);
+#endif
+}
+
+static void
+qache_msync_block(struct qache *q, uns blk)
+{
+ DBG("\tSyncing block %d", blk);
+ qache_msync(q, blk << q->hdr->block_shift, q->hdr->block_size);
+}
+
+static void
+qache_lock(struct qache *q)
+{
+ /* We cannot use flock() since it happily permits locking a shared fd (e.g., after fork()) multiple times */
+ ASSERT(!q->locked);
+ struct flock fl = { .l_type = F_WRLCK, .l_whence = SEEK_SET, .l_start = 0, .l_len = sizeof(struct qache_header) };
+ if (fcntl(q->fd, F_SETLKW, &fl) < 0)
+ die("fcntl lock on %s: %m", q->file_name);
+ q->locked = 1;
+ DBG("Locked cache %s", q->file_name);
+}
+
+static void
+qache_unlock(struct qache *q, uns dirty)
+{
+ ASSERT(q->locked);
+ if (dirty) /* Sync header, entry table and hash table */
+ qache_msync(q, 0, q->hdr->first_data_block << q->hdr->block_shift);
+ struct flock fl = { .l_type = F_UNLCK, .l_whence = SEEK_SET, .l_start = 0, .l_len = sizeof(struct qache_header) };
+ if (fcntl(q->fd, F_SETLKW, &fl) < 0)
+ die("fcntl unlock on %s: %m", q->file_name);
+ q->locked = 0;
+ DBG("Unlocked cache %s (dirty=%d)", q->file_name, dirty);
+}
+
+enum entry_audit_flags {
+ ET_FREE_LIST = 1,
+ ET_LRU = 2,
+ ET_HASH = 4
+};
+
+static byte *
+audit_entries(struct qache *q, byte *entrymap)
+{
+ uns i, j;
+
+ DBG("Auditing entries");
+
+ /* Check the free list */
+ i = q->first_free_entry;
+ while (i)
+ {
+ if (i >= q->hdr->max_entries || (entrymap[i] & ET_FREE_LIST) || q->entry_table[i].data_len != ~0U)
+ return "inconsistent free entry list";
+ entrymap[i] |= ET_FREE_LIST;
+ i = q->entry_table[i].hash_next;
+ }
+
+ /* Check the hash table */
+ for (i=0; i<q->hdr->hash_size; i++)
+ {
+ j = q->hash_table[i];
+ while (j)
+ {
+ if (j >= q->hdr->max_entries || (entrymap[j] & (ET_HASH | ET_FREE_LIST)))
+ return "inconsistent hash chains";
+ entrymap[j] |= ET_HASH;
+ j = q->entry_table[j].hash_next;
+ }
+ }
+
+ /* Check the LRU */
+ i = 0;
+ do
+ {
+ j = q->entry_table[i].lru_next;
+ if ((entrymap[i] & (ET_LRU | ET_FREE_LIST)) || j >= q->hdr->max_entries || q->entry_table[j].lru_prev != i)
+ return "inconsistent LRU list";
+ entrymap[i] |= ET_LRU;
+ i = j;
+ }
+ while (i);
+
+ /* Check if all non-free items are in all lists */
+ for (i=1; i<q->hdr->max_entries; i++)
+ {
+ if (entrymap[i] != ((q->entry_table[i].data_len == ~0U) ? ET_FREE_LIST : (ET_LRU | ET_HASH)))
+ return "inconsistent lists";
+ }
+ return NULL;
+}
+
+enum block_audit_flags {
+ BT_FREE_LIST = 1,
+ BT_ALLOC = 2
};
+
+static byte *
+audit_blocks(struct qache *q, byte *entrymap, byte *blockmap)
+{
+ uns i, j;
+
+ DBG("Auditing blocks");
+
+ /* Check the free list */
+ for (i=q->first_free_block; i; i=q->next_table[i])
+ {
+ if (i < q->hdr->first_data_block || i >= q->hdr->num_blocks || (blockmap[i] & BT_FREE_LIST))
+ return "inconsistent free block list";
+ blockmap[i] |= BT_FREE_LIST;
+ }
+
+ /* Check allocation lists of entries */
+ for (i=1; i<q->hdr->max_entries; i++)
+ if (!(entrymap[i] & ET_FREE_LIST))
+ {
+ uns blocks = 0;
+ for (j=q->entry_table[i].first_data_block; j; j=q->next_table[j])
+ {
+ if (blockmap[j])
+ return "inconsistent entry block list";
+ blockmap[j] |= BT_ALLOC;
+ blocks++;
+ }
+ if (((q->entry_table[i].data_len + q->hdr->block_size - 1) >> q->hdr->block_shift) != blocks)
+ return "inconsistent entry data length";
+ }
+
+ /* Check if all blocks belong somewhere */
+ for (i=q->hdr->first_data_block; i < q->hdr->num_blocks; i++)
+ if (!blockmap[i])
+ {
+ DBG("Block %d unreferenced", i);
+ return "unreferenced blocks found";
+ }
+
+ return NULL;
+}
+
+static byte *
+do_audit(struct qache *q)
+{
+ byte *entry_map = xmalloc_zero(q->hdr->max_entries);
+ byte *block_map = xmalloc_zero(q->hdr->num_blocks);
+ byte *err = audit_entries(q, entry_map);
+ if (!err)
+ err = audit_blocks(q, entry_map, block_map);
+ xfree(block_map);
+ xfree(entry_map);
+ return err;
+}
+
+static void
+qache_setup_pointers(struct qache *q)
+{
+ q->hdr = (struct qache_header *) q->mmap_data;
+ q->entry_table = (struct qache_entry *) (q->mmap_data + q->hdr->entry_table_start);
+ q->hash_table = (u32 *) (q->mmap_data + q->hdr->hash_table_start);
+ q->next_table = (u32 *) (q->mmap_data + q->hdr->next_table_start);
+}
+
+static int
+qache_open_existing(struct qache *q, struct qache_params *par)
+{
+ if ((q->fd = open(q->file_name, O_RDWR, 0)) < 0)
+ return 0;
+
+ struct stat st;
+ byte *err = "stat failed";
+ if (fstat(q->fd, &st) < 0)
+ goto close_and_fail;
+
+ err = "invalid file size";
+ if (st.st_size < (int)sizeof(struct qache_header) || (st.st_size % par->block_size))
+ goto close_and_fail;
+ q->file_size = st.st_size;
+
+ err = "requested size change";
+ if (q->file_size != par->cache_size)
+ goto close_and_fail;
+
+ err = "cannot mmap";
+ if ((q->mmap_data = mmap(NULL, q->file_size, PROT_READ | PROT_WRITE, MAP_SHARED, q->fd, 0)) == MAP_FAILED)
+ goto close_and_fail;
+ struct qache_header *h = (struct qache_header *) q->mmap_data;
+
+ qache_setup_pointers(q);
+ qache_lock(q);
+
+ err = "incompatible format";
+ if (h->magic != QACHE_MAGIC ||
+ h->block_size != par->block_size ||
+ h->max_entries != par->max_entries ||
+ h->format_id != par->format_id)
+ goto unlock_and_fail;
+
+ err = "incomplete file";
+ if (h->num_blocks*h->block_size != q->file_size)
+ goto unlock_and_fail;
+
+ if (err = do_audit(q))
+ goto unlock_and_fail;
+
+ qache_unlock(q, 0);
+ log(L_INFO, "Cache %s: using existing data", q->file_name);
+ return 1;
+
+ unlock_and_fail:
+ qache_unlock(q, 0);
+ munmap(q->mmap_data, q->file_size);
+ close_and_fail:
+ log(L_INFO, "Cache %s: ignoring old contents (%s)", q->file_name, err);
+ close(q->fd);
+ return 0;
+}
+
+static void
+qache_create(struct qache *q, struct qache_params *par)
+{
+ q->fd = open(q->file_name, O_RDWR | O_CREAT | O_TRUNC, 0666);
+ if (q->fd < 0)
+ die("Cache %s: unable to create (%m)", q->file_name);
+ struct fastbuf *fb = bfdopen_shared(q->fd, 16384);
+
+ struct qache_header h;
+ bzero(&h, sizeof(h));
+ h.magic = QACHE_MAGIC;
+ h.block_size = par->block_size;
+ h.block_shift = bit_fls(h.block_size);
+ h.num_blocks = par->cache_size >> h.block_shift;
+ h.format_id = par->format_id;
+ h.entry_table_start = sizeof(h);
+ h.max_entries = par->max_entries;
+ h.hash_table_start = h.entry_table_start + h.max_entries * sizeof(struct qache_entry);
+ h.hash_size = 1;
+ while (h.hash_size < h.max_entries)
+ h.hash_size *= 2;
+ h.next_table_start = h.hash_table_start + h.hash_size * 4;
+ h.first_data_block = (h.next_table_start + 4*h.num_blocks + h.block_size - 1) >> h.block_shift;
+ if (h.first_data_block >= h.num_blocks)
+ die("Cache %s: Requested size is too small even to hold the maintenance structures", q->file_name);
+ bwrite(fb, &h, sizeof(h));
+
+ /* Entry #0: heads of all lists */
+ ASSERT(btell(fb) == h.entry_table_start);
+ struct qache_entry ent;
+ bzero(&ent, sizeof(ent));
+ ent.first_data_block = h.first_data_block;
+ ent.data_len = h.num_blocks - h.first_data_block;
+ ent.hash_next = 1;
+ bwrite(fb, &ent, sizeof(ent));
+
+ /* Other entries */
+ bzero(&ent, sizeof(ent));
+ ent.data_len = ~0U;
+ for (uns i=1; i<h.max_entries; i++)
+ {
+ ent.hash_next = (i == h.max_entries-1 ? 0 : i+1);
+ bwrite(fb, &ent, sizeof(ent));
+ }
+
+ /* The hash table */
+ ASSERT(btell(fb) == h.hash_table_start);
+ for (uns i=0; i<h.hash_size; i++)
+ bputl(fb, 0);
+
+ /* The next pointers */
+ ASSERT(btell(fb) == h.next_table_start);
+ for (uns i=0; i<h.num_blocks; i++)
+ bputl(fb, (i < h.first_data_block || i == h.num_blocks-1) ? 0 : i+1);
+
+ /* Padding */
+ ASSERT(btell(fb) <= h.first_data_block << h.block_shift);
+ while (btell(fb) < h.first_data_block << h.block_shift)
+ bputc(fb, 0);
+
+ /* Data blocks */
+ for (uns i=h.first_data_block; i<h.num_blocks; i++)
+ for (uns j=0; j<h.block_size; j+=4)
+ bputl(fb, 0);
+
+ ASSERT(btell(fb) == par->cache_size);
+ bclose(fb);
+ log(L_INFO, "Cache %s: created (%d bytes, %d slots, %d buckets)", q->file_name, par->cache_size, h.max_entries, h.hash_size);
+
+ if ((q->mmap_data = mmap(NULL, par->cache_size, PROT_READ | PROT_WRITE, MAP_SHARED, q->fd, 0)) == MAP_FAILED)
+ die("Cache %s: mmap failed (%m)", par->file_name);
+ q->file_size = par->cache_size;
+ qache_setup_pointers(q);
+}
+
+struct qache *
+qache_open(struct qache_params *par)
+{
+ struct qache *q = xmalloc_zero(sizeof(*q));
+ q->file_name = xstrdup(par->file_name);
+
+ ASSERT(par->block_size >= 8 && !(par->block_size & (par->block_size-1)));
+ par->cache_size = ALIGN(par->cache_size, par->block_size);
+
+ if (par->force_reset <= 0 && qache_open_existing(q, par))
+ ;
+ else if (par->force_reset < 0)
+ die("Cache %s: read-only access requested, but no data available", q->file_name);
+ else
+ qache_create(q, par);
+ return q;
+}
+
+void
+qache_close(struct qache *q, uns retain_data)
+{
+ munmap(q->mmap_data, q->file_size);
+ close(q->fd);
+ if (!retain_data && unlink(q->file_name) < 0)
+ log(L_ERROR, "Cache %s: unlink failed (%m)", q->file_name);
+ xfree(q->file_name);
+ xfree(q);
+}
+
+static uns
+qache_hash(struct qache *q, qache_key_t *key)
+{
+ uns h = ((*key)[0] << 24) | ((*key)[1] << 16) | ((*key)[2] << 8) | (*key)[3];
+ return h % q->hdr->hash_size;
+}
+
+static uns
+qache_hash_find(struct qache *q, qache_key_t *key, uns pos_hint)
+{
+ ASSERT(q->locked);
+
+ if (pos_hint && pos_hint < q->hdr->max_entries && q->entry_table[pos_hint].data_len != ~0U && !memcmp(q->entry_table[pos_hint].key, key, sizeof(*key)))
+ return pos_hint;
+
+ uns h = qache_hash(q, key);
+ for (uns e = q->hash_table[h]; e; e=q->entry_table[e].hash_next)
+ if (!memcmp(q->entry_table[e].key, key, sizeof(*key)))
+ return e;
+ return 0;
+}
+
+static void
+qache_hash_insert(struct qache *q, uns e)
+{
+ uns h = qache_hash(q, &q->entry_table[e].key);
+ q->entry_table[e].hash_next = q->hash_table[h];
+ q->hash_table[h] = e;
+}
+
+static void
+qache_hash_remove(struct qache *q, uns e)
+{
+ struct qache_entry *entry = &q->entry_table[e];
+ uns f, *hh;
+ for (hh=&q->hash_table[qache_hash(q, &entry->key)]; f=*hh; hh=&(q->entry_table[f].hash_next))
+ if (!memcmp(q->entry_table[f].key, entry->key, sizeof(qache_key_t)))
+ {
+ *hh = entry->hash_next;
+ return;
+ }
+ ASSERT(0);
+}
+
+static uns
+qache_alloc_entry(struct qache *q)
+{
+ uns e = q->first_free_entry;
+ ASSERT(q->locked && e);
+ struct qache_entry *entry = &q->entry_table[e];
+ ASSERT(entry->data_len == ~0U);
+ q->first_free_entry = entry->hash_next;
+ entry->data_len = 0;
+ return e;
+}
+
+static void
+qache_free_entry(struct qache *q, uns e)
+{
+ struct qache_entry *entry = &q->entry_table[e];
+ ASSERT(q->locked && entry->data_len != ~0U);
+ entry->data_len = ~0U;
+ entry->hash_next = q->first_free_entry;
+ q->first_free_entry = e;
+}
+
+static inline void *
+get_block_start(struct qache *q, uns block)
+{
+ ASSERT(block && block < q->hdr->num_blocks);
+ return q->mmap_data + (block << q->hdr->block_shift);
+}
+
+static uns
+qache_alloc_block(struct qache *q)
+{
+ ASSERT(q->locked && q->num_free_blocks);
+ uns blk = q->first_free_block;
+ q->first_free_block = q->next_table[blk];
+ q->num_free_blocks--;
+ DBG("\tAllocated block %d", blk);
+ return blk;
+}
+
+static void
+qache_free_block(struct qache *q, uns blk)
+{
+ ASSERT(q->locked);
+ q->next_table[blk] = q->first_free_block;
+ q->first_free_block = blk;
+ q->num_free_blocks++;
+ DBG("\tFreed block %d", blk);
+}
+
+static void
+qache_lru_insert(struct qache *q, uns e)
+{
+ struct qache_entry *head = &q->entry_table[0];
+ struct qache_entry *entry = &q->entry_table[e];
+ ASSERT(q->locked && !entry->lru_prev && !entry->lru_next);
+ uns succe = head->lru_next;
+ struct qache_entry *succ = &q->entry_table[succe];
+ head->lru_next = e;
+ entry->lru_prev = 0;
+ entry->lru_next = succe;
+ succ->lru_prev = e;
+}
+
+static void
+qache_lru_remove(struct qache *q, uns e)
+{
+ ASSERT(q->locked);
+ struct qache_entry *entry = &q->entry_table[e];
+ q->entry_table[entry->lru_prev].lru_next = entry->lru_next;
+ q->entry_table[entry->lru_next].lru_prev = entry->lru_prev;
+ entry->lru_prev = entry->lru_next = 0;
+}
+
+static uns
+qache_lru_get(struct qache *q)
+{
+ return q->entry_table[0].lru_prev;
+}
+
+static void
+qache_ll_delete(struct qache *q, uns e)
+{
+ struct qache_entry *entry = &q->entry_table[e];
+ uns blk = entry->first_data_block;
+ while (entry->data_len)
+ {
+ uns next = q->next_table[blk];
+ qache_free_block(q, blk);
+ blk = next;
+ if (entry->data_len >= q->hdr->block_size)
+ entry->data_len -= q->hdr->block_size;
+ else
+ entry->data_len = 0;
+ }
+ qache_lru_remove(q, e);
+ qache_hash_remove(q, e);
+ qache_free_entry(q, e);
+}
+
+uns
+qache_insert(struct qache *q, qache_key_t *key, uns pos_hint, void *data, uns size)
+{
+ qache_lock(q);
+
+ uns e = qache_hash_find(q, key, pos_hint);
+ if (e)
+ {
+ qache_ll_delete(q ,e);
+ DBG("Insert <%s>: deleting old entry %d", format_key(key), e);
+ }
+
+ uns blocks = (size + q->hdr->block_size - 1) >> q->hdr->block_shift;
+ if (blocks > q->hdr->num_blocks - q->hdr->first_data_block)
+ {
+ qache_unlock(q, 0);
+ return 0;
+ }
+ while (q->num_free_blocks < blocks || !q->first_free_entry)
+ {
+ e = qache_lru_get(q);
+ DBG("Insert <%s>: evicting entry %d to make room for %d blocks", format_key(key), e, blocks);
+ ASSERT(e);
+ qache_ll_delete(q, e);
+ }
+ e = qache_alloc_entry(q);
+ struct qache_entry *entry = &q->entry_table[e];
+ entry->data_len = size;
+ memcpy(entry->key, key, sizeof(*key));
+ DBG("Insert <%s>: created entry %d with %d data blocks", format_key(key), e, blocks);
+
+ entry->first_data_block = 0;
+ while (size)
+ {
+ uns chunk = (size & (q->hdr->block_size-1)) ? : q->hdr->block_size;
+ uns blk = qache_alloc_block(q);
+ q->next_table[blk] = entry->first_data_block;
+ memcpy(get_block_start(q, blk), data+size-chunk, chunk);
+ qache_msync_block(q, blk);
+ entry->first_data_block = blk;
+ size -= chunk;
+ }
+
+ qache_lru_insert(q, e);
+ qache_hash_insert(q, e);
+ qache_unlock(q, 1);
+ return e;
+}
+
+static void
+copy_out(struct qache *q, struct qache_entry *entry, byte **datap, uns *sizep, uns start)
+{
+ if (sizep)
+ {
+ uns size = *sizep;
+ uns avail = (start > entry->data_len) ? 0 : entry->data_len - start;
+ uns xfer = MIN(size, avail);
+ *sizep = avail;
+ if (datap)
+ {
+ if (!*datap)
+ *datap = xmalloc(xfer);
+ uns blk = entry->first_data_block;
+ while (start >= q->hdr->block_size)
+ {
+ blk = q->next_table[blk];
+ start -= q->hdr->block_size;
+ }
+ byte *data = *datap;
+ while (xfer)
+ {
+ uns len = MIN(xfer, q->hdr->block_size - start);
+ memcpy(data, get_block_start(q, blk), len);
+ blk = q->next_table[blk];
+ data += len;
+ xfer -= len;
+ start = 0;
+ }
+ }
+ }
+ else
+ ASSERT(!datap);
+}
+
+uns
+qache_lookup(struct qache *q, qache_key_t *key, uns pos_hint, byte **datap, uns *sizep, uns start)
+{
+ qache_lock(q);
+ uns e = qache_hash_find(q, key, pos_hint);
+ if (e)
+ {
+ struct qache_entry *entry = &q->entry_table[e];
+ DBG("Lookup <%s>: found entry %d", format_key(key), e);
+ qache_lru_remove(q, e);
+ qache_lru_insert(q, e);
+ copy_out(q, entry, datap, sizep, start);
+ qache_unlock(q, 1); /* Yes, modified -- we update the LRU */
+ }
+ else
+ {
+ DBG("Lookup <%s>: not found", format_key(key));
+ qache_unlock(q, 0);
+ }
+ return e;
+}
+
+uns
+qache_probe(struct qache *q, qache_key_t *key, uns pos, byte **datap, uns *sizep, uns start)
+{
+ if (!pos || pos >= q->hdr->max_entries)
+ {
+ DBG("Probe %d: Out of range", pos);
+ return ~0U;
+ }
+
+ qache_lock(q);
+ uns ret = 0;
+ struct qache_entry *entry = &q->entry_table[pos];
+ if (entry->data_len != ~0U)
+ {
+ DBG("Probe %d: Found key <%s>", format_key(entry->key));
+ if (key)
+ memcpy(key, entry->key, sizeof(qache_key_t));
+ copy_out(q, entry, datap, sizep, start);
+ ret = pos;
+ }
+ else
+ DBG("Probe %d: Empty", pos);
+ qache_unlock(q, 0);
+ return ret;
+}
+
+uns
+qache_delete(struct qache *q, qache_key_t *key, uns pos_hint)
+{
+ qache_lock(q);
+ uns e = qache_hash_find(q, key, pos_hint);
+ if (e)
+ {
+ DBG("Delete <%s: deleting entry %d", format_key(key), e);
+ qache_ll_delete(q, e);
+ }
+ else
+ DBG("Delete <%s>: No match", format_key(key));
+ qache_unlock(q, 1);
+ return e;
+}
+
+void
+qache_debug(struct qache *q)
+{
+ log(L_DEBUG, "Cache %s: block_size=%d (%d data), num_blocks=%d (%d first data), %d slots, %d hash buckets",
+ q->file_name, q->hdr->block_size, q->hdr->block_size, q->hdr->num_blocks, q->hdr->first_data_block,
+ q->hdr->max_entries, q->hdr->hash_size);
+
+ log(L_DEBUG, "Table of cache entries:");
+ log(L_DEBUG, "\tEntry\tLruPrev\tLruNext\tDataLen\tDataBlk\tHashNxt\tKey");
+ for (uns e=0; e<q->hdr->max_entries; e++)
+ {
+ struct qache_entry *ent = &q->entry_table[e];
+ log(L_DEBUG, "\t%d\t%d\t%d\t%d\t%d\t%d\t%s", e, ent->lru_prev, ent->lru_next, ent->data_len,
+ ent->first_data_block, ent->hash_next, format_key(&ent->key));
+ }
+
+ log(L_DEBUG, "Hash table:");
+ for (uns h=0; h<q->hdr->hash_size; h++)
+ log(L_DEBUG, "\t%04x\t%d", h, q->hash_table[h]);
+
+ log(L_DEBUG, "Next pointers:");
+ for (uns blk=q->hdr->first_data_block; blk<q->hdr->num_blocks; blk++)
+ log(L_DEBUG, "\t%d\t%d", blk, q->next_table[blk]);
+}
+
+void
+qache_audit(struct qache *q)
+{
+ byte *err;
+ qache_lock(q);
+ if (err = do_audit(q))
+ die("Cache %s: %s", q->file_name, err);
+ qache_unlock(q, 0);
+}
+
+#ifdef TEST
+
+int main(int argc UNUSED, char **argv UNUSED)
+{
+ struct qache_params par = {
+ .file_name = "tmp/test",
+ .block_size = 256,
+ .cache_size = 65536,
+ .max_entries = 123,
+ .force_reset = 0,
+ .format_id = 0xfeedcafe
+ };
+ struct qache *q = qache_open(&par);
+
+ qache_key_t key = { 0x12, 0x34, 0x56, 0x78, 0x9a, 0xbc, 0xde, 0xf0, 0x01, 0x23, 0x45, 0x67, 0x89, 0xab, 0xcd, 0xef };
+#define N 100
+ uns i, j;
+ byte data[11*N];
+ for (i=0; i<N; i++)
+ {
+ key[3] = i / 16; key[15] = i % 16;
+ for (j=0; j<11*i; j++)
+ data[j] = 0x33 + i*j;
+ qache_insert(q, &key, 0, data, 11*i);
+ }
+ qache_debug(q);
+ qache_audit(q);
+
+ uns found = 0;
+ for (i=0; i<100; i++)
+ {
+ key[3] = i / 16; key[15] = i % 16;
+ byte *dptr = data;
+ uns sz = sizeof(data);
+ uns e = qache_lookup(q, &key, 0, &dptr, &sz, 0);
+ if (e)
+ {
+ ASSERT(sz == 11*i);
+ for (j=0; j<sz; j++)
+ ASSERT(data[j] == (byte)(0x33 + i*j));
+ found++;
+ }
+ }
+ log(L_INFO, "Found %d of %d entries", found, N);
+
+ qache_close(q, 1);
+ return 0;
+}
+
+#endif