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#include "stellar/kv.h"
#include "uthash/uthash.h"
#include <stdlib.h>
#include <string.h>
struct kv *kv_new_with_interger(const char *key, size_t key_sz, long long value)
{
struct kv *kv = malloc(sizeof(struct kv));
kv->key = malloc(key_sz);
memcpy(kv->key, key, key_sz);
kv->key_sz = key_sz;
kv->vtype = KV_VALUE_TYPE_INTEGER;
kv->value_longlong = value;
return kv;
}
struct kv *kv_new_with_double(const char *key, size_t key_sz, double value)
{
struct kv *kv = malloc(sizeof(struct kv));
kv->key = malloc(key_sz);
memcpy(kv->key, key, key_sz);
kv->key_sz = key_sz;
kv->vtype = KV_VALUE_TYPE_DOUBLE;
kv->value_double = value;
return kv;
}
struct kv *kv_new_with_string(const char *key, size_t key_sz, const char *value, size_t value_sz)
{
struct kv *kv = malloc(sizeof(struct kv));
kv->key = malloc(key_sz);
memcpy(kv->key, key, key_sz);
kv->key_sz = key_sz;
kv->vtype = KV_VALUE_TYPE_STRING;
kv->value_str.str = malloc(value_sz);
memcpy(kv->value_str.str, value, value_sz);
kv->value_str.sz = value_sz;
return kv;
}
struct kv *kv_new_with_uuid(const char *key, size_t key_sz, const uuid_t value)
{
struct kv *kv = malloc(sizeof(struct kv));
kv->key = malloc(key_sz);
memcpy(kv->key, key, key_sz);
kv->key_sz = key_sz;
kv->vtype = KV_VALUE_TYPE_UUID;
memcpy(kv->value_uuid, value, sizeof(uuid_t));
return kv;
}
struct kv *kv_new_with_interger_array(const char *key, size_t key_sz, long long value[], size_t n_value)
{
struct kv *kv = malloc(sizeof(struct kv));
kv->key = malloc(key_sz);
memcpy(kv->key, key, key_sz);
kv->key_sz = key_sz;
kv->vtype = KV_VALUE_TYPE_INTERGE_ARRAY;
kv->value_interger_array.elems = malloc(sizeof(long long) * n_value);
memcpy(kv->value_interger_array.elems, value, sizeof(long long) * n_value);
kv->value_interger_array.n_elems = n_value;
return kv;
}
struct kv *kv_new_with_double_array(const char *key, size_t key_sz, double value[], size_t n_value)
{
struct kv *kv = malloc(sizeof(struct kv));
kv->key = malloc(key_sz);
memcpy(kv->key, key, key_sz);
kv->key_sz = key_sz;
kv->vtype = KV_VALUE_TYPE_DOUBLE_ARRAY;
kv->value_double_array.elems = malloc(sizeof(double) * n_value);
memcpy(kv->value_double_array.elems, value, sizeof(double) * n_value);
kv->value_double_array.n_elems = n_value;
return kv;
}
struct kv *kv_new_with_string_array(const char *key, size_t key_sz, const char* value[], size_t value_sz[], size_t n_value)
{
struct kv *kv = malloc(sizeof(struct kv));
kv->key = malloc(key_sz);
memcpy(kv->key, key, key_sz);
kv->key_sz = key_sz;
kv->vtype = KV_VALUE_TYPE_STRING_ARRAY;
kv->value_str_array.elems = malloc(sizeof(char*) * n_value);
kv->value_str_array.sz = malloc(sizeof(size_t) * n_value);
for (size_t i = 0; i < n_value; i++)
{
kv->value_str_array.elems[i] = malloc(value_sz[i]);
memcpy(kv->value_str_array.elems[i], value[i], value_sz[i]);
kv->value_str_array.sz[i] = value_sz[i];
}
kv->value_str_array.n_elems = n_value;
return kv;
}
struct kv *kv_new_with_uuid_array(const char *key, size_t key_sz, const uuid_t value[], size_t n_value)
{
struct kv *kv = malloc(sizeof(struct kv));
kv->key = malloc(key_sz);
memcpy(kv->key, key, key_sz);
kv->key_sz = key_sz;
kv->vtype = KV_VALUE_TYPE_UUID_ARRAY;
kv->value_uuid_array.elems = malloc(sizeof(uuid_t) * n_value);
memcpy(kv->value_uuid_array.elems, value, sizeof(uuid_t) * n_value);
kv->value_uuid_array.n_elems = n_value;
return kv;
}
struct kv *kv_duplicate(const struct kv *kv)
{
if(kv == NULL)return NULL;
struct kv *new_kv = malloc(sizeof(struct kv));
new_kv->key = malloc(kv->key_sz);
memcpy(new_kv->key, kv->key, kv->key_sz);
new_kv->key_sz = kv->key_sz;
new_kv->vtype = kv->vtype;
switch (kv->vtype)
{
case KV_VALUE_TYPE_STRING:
new_kv->value_str.str = malloc(kv->value_str.sz);
memcpy(new_kv->value_str.str, kv->value_str.str, kv->value_str.sz);
new_kv->value_str.sz = kv->value_str.sz;
break;
case KV_VALUE_TYPE_INTERGE_ARRAY:
new_kv->value_interger_array.elems = malloc(sizeof(long long) * kv->value_interger_array.n_elems);
memcpy(new_kv->value_interger_array.elems, kv->value_interger_array.elems, sizeof(long long) * kv->value_interger_array.n_elems);
new_kv->value_interger_array.n_elems = kv->value_interger_array.n_elems;
break;
case KV_VALUE_TYPE_DOUBLE_ARRAY:
new_kv->value_double_array.elems = malloc(sizeof(double) * kv->value_double_array.n_elems);
memcpy(new_kv->value_double_array.elems, kv->value_double_array.elems, sizeof(double) * kv->value_double_array.n_elems);
new_kv->value_double_array.n_elems = kv->value_double_array.n_elems;
break;
case KV_VALUE_TYPE_STRING_ARRAY:
new_kv->value_str_array.elems = malloc(sizeof(char*) * kv->value_str_array.n_elems);
new_kv->value_str_array.sz = malloc(sizeof(size_t) * kv->value_str_array.n_elems);
for (size_t i = 0; i < kv->value_str_array.n_elems; i++)
{
new_kv->value_str_array.elems[i] = malloc(kv->value_str_array.sz[i]);
memcpy(new_kv->value_str_array.elems[i], kv->value_str_array.elems[i], kv->value_str_array.sz[i]);
new_kv->value_str_array.sz[i] = kv->value_str_array.sz[i];
}
new_kv->value_str_array.n_elems = kv->value_str_array.n_elems;
break;
case KV_VALUE_TYPE_UUID_ARRAY:
new_kv->value_uuid_array.elems = malloc(sizeof(uuid_t) * kv->value_uuid_array.n_elems);
memcpy(new_kv->value_uuid_array.elems, kv->value_uuid_array.elems, sizeof(uuid_t) * kv->value_uuid_array.n_elems);
new_kv->value_uuid_array.n_elems = kv->value_uuid_array.n_elems;
break;
default:
break;
}
return new_kv;
}
void kv_free(struct kv *kv)
{
if(kv == NULL)return;
if(kv->key)free(kv->key);
switch (kv->vtype)
{
case KV_VALUE_TYPE_STRING:
if(kv->value_str.str)free(kv->value_str.str);
break;
case KV_VALUE_TYPE_INTERGE_ARRAY:
if(kv->value_interger_array.elems)free(kv->value_interger_array.elems);
break;
case KV_VALUE_TYPE_DOUBLE_ARRAY:
if(kv->value_double_array.elems)free(kv->value_double_array.elems);
break;
case KV_VALUE_TYPE_STRING_ARRAY:
for (size_t i = 0; i < kv->value_str_array.n_elems; i++)
{
if(kv->value_str_array.elems[i])free(kv->value_str_array.elems[i]);
}
if(kv->value_str_array.elems)free(kv->value_str_array.elems);
if(kv->value_str_array.sz)free(kv->value_str_array.sz);
break;
case KV_VALUE_TYPE_UUID_ARRAY:
if(kv->value_uuid_array.elems)free(kv->value_uuid_array.elems);
break;
default:
break;
}
free(kv);
}
struct kv_table_elem
{
struct kv *kv;
kv_ref_cleanup_cb *ref_cleanup_cb;
void *cleanup_cb_arg;
UT_hash_handle hh;
};
struct kv_table
{
struct kv_table_elem *elems;
struct kv_table_elem *iter;
};
struct kv_table *kv_table_new(size_t n_reserved __attribute__((unused)))
{
struct kv_table *table = malloc(sizeof(struct kv_table));
table->elems = NULL;
table->iter = NULL;
return table;
}
void kv_table_free(struct kv_table *table)
{
if(table == NULL)return;
struct kv_table_elem *elem, *tmp;
HASH_ITER(hh, table->elems, elem, tmp)
{
HASH_DEL(table->elems, elem);
if(elem->ref_cleanup_cb)elem->ref_cleanup_cb(elem->kv, elem->cleanup_cb_arg);
free(elem);
}
free(table);
}
int kv_table_add(struct kv_table *table, const struct kv *kv)
{
if(table == NULL || kv == NULL)return -1;
struct kv_table_elem *elem = malloc(sizeof(struct kv_table_elem));
elem->kv = kv_duplicate(kv);
elem->ref_cleanup_cb = NULL;
elem->cleanup_cb_arg = NULL;
HASH_ADD_KEYPTR(hh, table->elems, kv->key, kv->key_sz, elem);
return 0;
}
int kv_table_del(struct kv_table *table, const char *key, size_t key_sz);
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