radare2/libr/db/db.c
pancake 1fa134ca4f * Clean many warnings
* Reasign TODO points
2010-08-16 17:48:47 +02:00

274 lines
5.9 KiB
C

/* radare - LGPL - Copyright 2009-2010 pancake<nopcode.org> */
#include "r_db.h"
#if 0
Configurable options:
- allow dupped nodes? (two times the same pointer?)
#endif
R_API RDatabase *r_db_new() {
RDatabase *db = R_NEW (RDatabase);
if (db) {
memset(&db->blocks, '\0', sizeof(db->blocks));
db->id_min = -1;
db->id_max = -1;
}
return db;
}
R_API RDatabaseBlock *r_db_block_new() {
RDatabaseBlock *ptr = R_NEW (RDatabaseBlock);
ptr->data = NULL;
memset(&ptr->childs, '\0', sizeof(ptr->childs));
return ptr;
}
R_API int r_db_add_id(struct r_db_t *db, int key, int size) {
key &= 0xff;
if (db->blocks[key])
return R_FALSE;
if (db->id_min==-1) {
db->id_min = key;
db->id_max = key;
} else if (db->id_max < key)
db->id_max = key;
if (key < db->id_min)
db->id_min = key;
db->blocks[key] = r_db_block_new();
db->blocks_sz[key] = size;
return R_TRUE;
}
static int _r_db_add_internal(struct r_db_t *db, int key, void *b) {
int i, idx, len, size;
struct r_db_block_t *block;
if (key<0 || key>255)
return R_FALSE;
size = db->blocks_sz[key];
block = db->blocks[key];
if (block == NULL) {
block = r_db_block_new();
db->blocks[key] = block;
}
for (i=0;i<size;i++) {
idx = (((ut8 *)b)[key+i]) & 0xff;
if (block->childs[idx] == NULL)
block->childs[idx] = r_db_block_new();
block = block->childs[idx];
}
if (block) {
if (block->data == NULL) {
block->data = malloc(sizeof(void *)*2);
block->data[0] = b;
block->data[1] = NULL;
} else {
for(len=0;block->data[len];len++);
block->data = realloc(block->data, sizeof(void *)*(len+1));
block->data[len] = b;
block->data[len+1] = NULL;
}
}
return (block != NULL);
}
R_API int r_db_add(struct r_db_t *db, void *b) {
int i, ret = R_FALSE;
for (i=db->id_min;i<=db->id_max;i++)
if (db->blocks[i])
ret += _r_db_add_internal (db, i, b);
return ret;
}
R_API int r_db_add_unique(struct r_db_t *db, void *b) {
int i, ret = R_TRUE;
for(i=db->id_min;i<=db->id_max;i++) {
if (db->blocks[i] && r_db_get (db, i, b) != NULL) {
ret = R_FALSE;
break;
}
}
if (ret) ret = r_db_add (db, b);
return ret;
}
R_API void **r_db_get(struct r_db_t *db, int key, const ut8 *b) {
RDatabaseBlock *block;
int i, size;
if (key == -1) {
key = db->id_min;
#if 0
UNNECESSARY LOOPZ
for (i=0;i<R_DB_KEYS;i++) {
if (db->blocks[i]) {
key = i;
break;
}
}
if (key == -1)
return NULL;
#endif
}
size = db->blocks_sz[key];
block = db->blocks[key];
for (i=0;block&&i<size;i++)
block = block->childs[b[key+i]];
if (block)
return block->data;
return NULL;
}
/* TODO: MOVE AS DEFINE IN r_db.h */
R_API void **r_db_get_next(void **ptr) {
return ptr+1;
}
/* TODO: MOVE AS DEFINE IN r_db.h */
R_API void **r_db_get_cur(void **ptr) {
return ptr[0];
}
static int _r_db_delete_internal(struct r_db_t *db, int key, const ut8 *b) {
RDatabaseBlock *block;
int i, j, size = db->blocks_sz[key];
block = db->blocks[key];
for (i=0;block&&i<size;i++)
block = block->childs[b[key+i]];
if (block && block->data) {
for(i=0;block->data[i]; i++) {
if (block->data[i] == b)
for(j=i;block->data[j]; j++)
block->data[j] = block->data[j+1];
}
if (block->data[0] == NULL) {
free(block->data);
block->data = NULL;
}
return R_TRUE;
}
return R_FALSE;
}
R_API int r_db_delete(struct r_db_t *db, const void *ptr) {
int i;
for(i=db->id_min;i<=db->id_max;i++)
if (db->blocks[i])
if (!_r_db_delete_internal(db, i, ptr))
eprintf ("failed to delete internal pointer\n");
/* TODO */
if (db->cb_free && ptr)
return db->cb_free(db, ptr, db->cb_user);
return (ptr != NULL);
}
static int r_db_iter_find_next(RDatabaseIter *it) {
return R_FALSE;
}
R_API RDatabaseIter *r_db_iter_new(RDatabase *db, int key) {
RDatabaseIter *iter = R_NEW (RDatabaseIter);
/* TODO: detect when keys are not valid and return NULL */
iter->db = db;
iter->key = key;
iter->size = db->blocks_sz[key];
memset(&iter->path, 0, sizeof(iter->path));
/* TODO: detect when no keys are found and return NULL */
iter->ptr = 0;
iter->cur = NULL;
r_db_iter_find_next (iter);
/* TODO: first iteration must be done here */
return iter;
}
R_API void *r_db_iter_cur(struct r_db_iter_t *iter) {
return iter->cur;
#if 0
void *cur = NULL;
int i, depth = 0;
struct r_db_t *db = iter->db;
struct r_db_block_t *b = db->blocks[iter->key];
if (iter->ptr == 0) {
/* first iteration */
} else {
for(i=0;i<iter->size;i++) {
b = &b[iter->path[i]];
if (b == NULL) {
fprintf(stderr, "r_db: Internal data corruption\n");
return NULL;
}
}
/* TODO: check if null to find next node */
return b->data[iter->ptr];
}
for(i=0;i<255;i++) {
if (b->childs[i]) {
/* walk childs until reaching the leafs */
b = b->childs[i];
i=0;
depth++;
if (depth == iter->size) {
break;
}
continue;
}
}
//iter->db
return cur;
#endif
}
// NOTE: required for vala/swig
R_API void *r_db_iterator(RDatabase *db) {
return r_db_iter_new (db, db->id_min);
}
/* returns 1 if there is a next element */
R_API int r_db_iter_next(RDatabaseIter *iter) {
//RDatabaseBlock *b, *block;
int i;//, j;
// TODO: must be implemented for Vala/Swig
// if (something) return 1;
// depth = iter->size
//
for (i=iter->ptr;i<iter->size;i++) {
//block = block->childs[b[key+i]];
}
iter->ptr = i; // update pointer
iter->cur = NULL;
return 0;
}
/* return current iter data and go to next iterable element */
R_API void *r_db_iter_get(RDatabaseIter *iter) {
void *data = iter->cur;
// TODO: must be implemented for Vala/Swig
return data;
}
R_API void *r_db_iter_prev(struct r_db_iter_t *iter) {
/* TODO */
return NULL;
}
R_API struct r_db_iter_t *r_db_iter_free(struct r_db_iter_t *iter) {
free(iter);
return NULL;
}
R_API int r_db_free(struct r_db_t *db) {
/* TODO : using the iterator logic */
// TODO: use r_pool_mem here!
#if 0
r_db_iter_t *iter = r_db_iter(db, -1);
if (db->cb_free) {
r_db_delete(db); // XXX
}
#endif
return 0;
}