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/* NTDB tools to create various canned database layouts. */
#include "layout.h"
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <ccan/err/err.h>
#include "logging.h"
struct ntdb_layout *new_ntdb_layout(void)
{
struct ntdb_layout *layout = malloc(sizeof(*layout));
layout->num_elems = 0;
layout->elem = NULL;
return layout;
}
static void add(struct ntdb_layout *layout, union ntdb_layout_elem elem)
{
layout->elem = realloc(layout->elem,
sizeof(layout->elem[0])
* (layout->num_elems+1));
layout->elem[layout->num_elems++] = elem;
}
void ntdb_layout_add_freetable(struct ntdb_layout *layout)
{
union ntdb_layout_elem elem;
elem.base.type = FREETABLE;
add(layout, elem);
}
void ntdb_layout_add_free(struct ntdb_layout *layout, ntdb_len_t len,
unsigned ftable)
{
union ntdb_layout_elem elem;
elem.base.type = FREE;
elem.free.len = len;
elem.free.ftable_num = ftable;
add(layout, elem);
}
void ntdb_layout_add_capability(struct ntdb_layout *layout,
uint64_t type,
bool write_breaks,
bool check_breaks,
bool open_breaks,
ntdb_len_t extra)
{
union ntdb_layout_elem elem;
elem.base.type = CAPABILITY;
elem.capability.type = type;
if (write_breaks)
elem.capability.type |= NTDB_CAP_NOWRITE;
if (open_breaks)
elem.capability.type |= NTDB_CAP_NOOPEN;
if (check_breaks)
elem.capability.type |= NTDB_CAP_NOCHECK;
elem.capability.extra = extra;
add(layout, elem);
}
static NTDB_DATA dup_key(NTDB_DATA key)
{
NTDB_DATA ret;
ret.dsize = key.dsize;
ret.dptr = malloc(ret.dsize);
memcpy(ret.dptr, key.dptr, ret.dsize);
return ret;
}
void ntdb_layout_add_used(struct ntdb_layout *layout,
NTDB_DATA key, NTDB_DATA data,
ntdb_len_t extra)
{
union ntdb_layout_elem elem;
elem.base.type = DATA;
elem.used.key = dup_key(key);
elem.used.data = dup_key(data);
elem.used.extra = extra;
add(layout, elem);
}
static ntdb_len_t free_record_len(ntdb_len_t len)
{
return sizeof(struct ntdb_used_record) + len;
}
static ntdb_len_t data_record_len(struct tle_used *used)
{
ntdb_len_t len;
len = sizeof(struct ntdb_used_record)
+ used->key.dsize + used->data.dsize + used->extra;
assert(len >= sizeof(struct ntdb_free_record));
return len;
}
static ntdb_len_t hashtable_len(struct tle_hashtable *htable)
{
return sizeof(struct ntdb_used_record)
+ (sizeof(ntdb_off_t) << NTDB_SUBLEVEL_HASH_BITS)
+ htable->extra;
}
static ntdb_len_t capability_len(struct tle_capability *cap)
{
return sizeof(struct ntdb_capability) + cap->extra;
}
static ntdb_len_t freetable_len(struct tle_freetable *ftable)
{
return sizeof(struct ntdb_freetable);
}
static void set_free_record(void *mem, ntdb_len_t len)
{
/* We do all the work in add_to_freetable */
}
static void add_zero_pad(struct ntdb_used_record *u, size_t len, size_t extra)
{
if (extra)
((char *)(u + 1))[len] = '\0';
}
static void set_data_record(void *mem, struct ntdb_context *ntdb,
struct tle_used *used)
{
struct ntdb_used_record *u = mem;
set_header(ntdb, u, NTDB_USED_MAGIC, used->key.dsize, used->data.dsize,
used->key.dsize + used->data.dsize + used->extra,
ntdb_hash(ntdb, used->key.dptr, used->key.dsize));
memcpy(u + 1, used->key.dptr, used->key.dsize);
memcpy((char *)(u + 1) + used->key.dsize,
used->data.dptr, used->data.dsize);
add_zero_pad(u, used->key.dsize + used->data.dsize, used->extra);
}
static void set_hashtable(void *mem, struct ntdb_context *ntdb,
struct tle_hashtable *htable)
{
struct ntdb_used_record *u = mem;
ntdb_len_t len = sizeof(ntdb_off_t) << NTDB_SUBLEVEL_HASH_BITS;
set_header(ntdb, u, NTDB_HTABLE_MAGIC, 0, len, len + htable->extra, 0);
memset(u + 1, 0, len);
add_zero_pad(u, len, htable->extra);
}
static void set_capability(void *mem, struct ntdb_context *ntdb,
struct tle_capability *cap, struct ntdb_header *hdr,
ntdb_off_t last_cap)
{
struct ntdb_capability *c = mem;
ntdb_len_t len = sizeof(*c) - sizeof(struct ntdb_used_record) + cap->extra;
c->type = cap->type;
c->next = 0;
set_header(ntdb, &c->hdr, NTDB_CAP_MAGIC, 0, len, len, 0);
/* Append to capability list. */
if (!last_cap) {
hdr->capabilities = cap->base.off;
} else {
c = (struct ntdb_capability *)((char *)hdr + last_cap);
c->next = cap->base.off;
}
}
static void set_freetable(void *mem, struct ntdb_context *ntdb,
struct tle_freetable *freetable, struct ntdb_header *hdr,
ntdb_off_t last_ftable)
{
struct ntdb_freetable *ftable = mem;
memset(ftable, 0, sizeof(*ftable));
set_header(ntdb, &ftable->hdr, NTDB_FTABLE_MAGIC, 0,
sizeof(*ftable) - sizeof(ftable->hdr),
sizeof(*ftable) - sizeof(ftable->hdr), 0);
if (last_ftable) {
ftable = (struct ntdb_freetable *)((char *)hdr + last_ftable);
ftable->next = freetable->base.off;
} else {
hdr->free_table = freetable->base.off;
}
}
static void add_to_freetable(struct ntdb_context *ntdb,
ntdb_off_t eoff,
ntdb_off_t elen,
unsigned ftable,
struct tle_freetable *freetable)
{
ntdb->ftable_off = freetable->base.off;
ntdb->ftable = ftable;
add_free_record(ntdb, eoff, sizeof(struct ntdb_used_record) + elen,
NTDB_LOCK_WAIT, false);
}
static ntdb_off_t hbucket_off(ntdb_off_t group_start, unsigned ingroup)
{
return group_start
+ (ingroup % (1 << NTDB_HASH_GROUP_BITS)) * sizeof(ntdb_off_t);
}
/* Get bits from a value. */
static uint32_t bits(uint64_t val, unsigned start, unsigned num)
{
assert(num <= 32);
return (val >> start) & ((1U << num) - 1);
}
/* We take bits from the top: that way we can lock whole sections of the hash
* by using lock ranges. */
static uint32_t use_bits(uint64_t h, unsigned num, unsigned *used)
{
*used += num;
return bits(h, 64 - *used, num);
}
static ntdb_off_t encode_offset(ntdb_off_t new_off, unsigned bucket,
uint64_t h)
{
return bucket
| new_off
| ((uint64_t)bits(h, 64 - NTDB_OFF_UPPER_STEAL_EXTRA,
NTDB_OFF_UPPER_STEAL_EXTRA)
<< NTDB_OFF_HASH_EXTRA_BIT);
}
/* FIXME: Our hash table handling here is primitive: we don't expand! */
static void add_to_hashtable(struct ntdb_context *ntdb,
ntdb_off_t eoff,
NTDB_DATA key)
{
uint64_t h = ntdb_hash(ntdb, key.dptr, key.dsize);
ntdb_off_t b_off, group_start;
unsigned i, group, in_group;
unsigned used = 0;
group = use_bits(h, NTDB_TOPLEVEL_HASH_BITS-NTDB_HASH_GROUP_BITS, &used);
in_group = use_bits(h, NTDB_HASH_GROUP_BITS, &used);
group_start = offsetof(struct ntdb_header, hashtable)
+ group * (sizeof(ntdb_off_t) << NTDB_HASH_GROUP_BITS);
for (i = 0; i < (1 << NTDB_HASH_GROUP_BITS); i++) {
unsigned bucket = (in_group + i) % (1 << NTDB_HASH_GROUP_BITS);
b_off = hbucket_off(group_start, bucket);
if (ntdb_read_off(ntdb, b_off) == 0) {
ntdb_write_off(ntdb, b_off,
encode_offset(eoff, in_group, h));
return;
}
}
abort();
}
static struct tle_freetable *find_ftable(struct ntdb_layout *layout, unsigned num)
{
unsigned i;
for (i = 0; i < layout->num_elems; i++) {
if (layout->elem[i].base.type != FREETABLE)
continue;
if (num == 0)
return &layout->elem[i].ftable;
num--;
}
abort();
}
/* FIXME: Support NTDB_CONVERT */
struct ntdb_context *ntdb_layout_get(struct ntdb_layout *layout,
void (*freefn)(void *),
union ntdb_attribute *attr)
{
unsigned int i;
ntdb_off_t off, len, last_ftable, last_cap;
char *mem;
struct ntdb_context *ntdb;
off = sizeof(struct ntdb_header);
/* First pass of layout: calc lengths */
for (i = 0; i < layout->num_elems; i++) {
union ntdb_layout_elem *e = &layout->elem[i];
e->base.off = off;
switch (e->base.type) {
case FREETABLE:
len = freetable_len(&e->ftable);
break;
case FREE:
len = free_record_len(e->free.len);
break;
case DATA:
len = data_record_len(&e->used);
break;
case HASHTABLE:
len = hashtable_len(&e->hashtable);
break;
case CAPABILITY:
len = capability_len(&e->capability);
break;
default:
abort();
}
off += len;
}
mem = malloc(off);
/* Fill with some weird pattern. */
memset(mem, 0x99, off);
/* Now populate our header, cribbing from a real NTDB header. */
ntdb = ntdb_open(NULL, NTDB_INTERNAL, O_RDWR, 0, attr);
memcpy(mem, ntdb->file->map_ptr, sizeof(struct ntdb_header));
/* Mug the ntdb we have to make it use this. */
freefn(ntdb->file->map_ptr);
ntdb->file->map_ptr = mem;
ntdb->file->map_size = off;
last_ftable = 0;
last_cap = 0;
for (i = 0; i < layout->num_elems; i++) {
union ntdb_layout_elem *e = &layout->elem[i];
switch (e->base.type) {
case FREETABLE:
set_freetable(mem + e->base.off, ntdb, &e->ftable,
(struct ntdb_header *)mem, last_ftable);
last_ftable = e->base.off;
break;
case FREE:
set_free_record(mem + e->base.off, e->free.len);
break;
case DATA:
set_data_record(mem + e->base.off, ntdb, &e->used);
break;
case HASHTABLE:
set_hashtable(mem + e->base.off, ntdb, &e->hashtable);
break;
case CAPABILITY:
set_capability(mem + e->base.off, ntdb, &e->capability,
(struct ntdb_header *)mem, last_cap);
last_cap = e->base.off;
break;
}
}
/* Must have a free table! */
assert(last_ftable);
/* Now fill the free and hash tables. */
for (i = 0; i < layout->num_elems; i++) {
union ntdb_layout_elem *e = &layout->elem[i];
switch (e->base.type) {
case FREE:
add_to_freetable(ntdb, e->base.off, e->free.len,
e->free.ftable_num,
find_ftable(layout, e->free.ftable_num));
break;
case DATA:
add_to_hashtable(ntdb, e->base.off, e->used.key);
break;
default:
break;
}
}
ntdb->ftable_off = find_ftable(layout, 0)->base.off;
return ntdb;
}
void ntdb_layout_write(struct ntdb_layout *layout, void (*freefn)(void *),
union ntdb_attribute *attr, const char *filename)
{
struct ntdb_context *ntdb = ntdb_layout_get(layout, freefn, attr);
int fd;
fd = open(filename, O_WRONLY|O_TRUNC|O_CREAT, 0600);
if (fd < 0)
err(1, "opening %s for writing", filename);
if (write(fd, ntdb->file->map_ptr, ntdb->file->map_size)
!= ntdb->file->map_size)
err(1, "writing %s", filename);
close(fd);
ntdb_close(ntdb);
}
void ntdb_layout_free(struct ntdb_layout *layout)
{
unsigned int i;
for (i = 0; i < layout->num_elems; i++) {
if (layout->elem[i].base.type == DATA) {
free(layout->elem[i].used.key.dptr);
free(layout->elem[i].used.data.dptr);
}
}
free(layout->elem);
free(layout);
}
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