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/*
* Copyright 2024-2025 The OpenSSL Project Authors. All Rights Reserved.
*
* Licensed under the Apache License 2.0 (the "License"). You may not use
* this file except in compliance with the License. You can obtain a copy
* in the file LICENSE in the source distribution or at
* https://www.openssl.org/source/license.html
*/
#ifndef OPENSSL_HASHTABLE_H
# define OPENSSL_HASHTABLE_H
# pragma once
#include <stddef.h>
#include <stdint.h>
#include <openssl/e_os2.h>
#include <internal/rcu.h>
#include "crypto/context.h"
typedef struct ht_internal_st HT;
/*
* Represents a key to a hashtable
*/
typedef struct ht_key_header_st {
size_t keysize;
uint8_t *keybuf;
} HT_KEY;
/*
* Represents a value in the hash table
*/
typedef struct ht_value_st {
void *value;
uintptr_t *type_id;
HT_KEY key;
} HT_VALUE;
/*
* Represents a list of values filtered from a hash table
*/
typedef struct ht_value_list_st {
size_t list_len;
HT_VALUE **list;
} HT_VALUE_LIST;
/*
* Hashtable configuration
*/
typedef struct ht_config_st {
OSSL_LIB_CTX *ctx;
void (*ht_free_fn)(HT_VALUE *obj);
uint64_t (*ht_hash_fn)(uint8_t *key, size_t keylen);
size_t init_neighborhoods;
uint32_t collision_check;
uint32_t lockless_reads;
} HT_CONFIG;
/*
* Hashtable key rules
* Any struct can be used to formulate a hash table key, as long as the
* following rules
* 1) The first element of the struct defining the key must be an HT_KEY
* 2) All struct elements must have a compile time defined length
* 3) Pointers can be used, but the value of the pointer, rather than
* the contents of the address it points to will be used to compute
* the hash
* The key definition macros will assist with enforcing these rules
*/
/*
* Starts the definition of a hash table key
*/
#define HT_START_KEY_DEFN(keyname) \
typedef struct keyname##_st { \
HT_KEY key_header; \
struct {
/*
* Ends a hash table key definitions
*/
#define HT_END_KEY_DEFN(keyname) \
} keyfields; \
} keyname;
/*
* Defines a field in a hash table key
*/
#define HT_DEF_KEY_FIELD(name, type) type name;
/*
* convenience macro to define a static char
* array field in a hash table key
*/
#define HT_DEF_KEY_FIELD_CHAR_ARRAY(name, size) \
HT_DEF_KEY_FIELD(name[size], char)
/*
* Defines a uint8_t (blob) field in a hash table key
*/
#define HT_DEF_KEY_FIELD_UINT8T_ARRAY(name, size) \
HT_DEF_KEY_FIELD(name[size], uint8_t)
/*
* Initializes a key
*/
#define HT_INIT_KEY(key) do { \
memset((key), 0, sizeof(*(key))); \
(key)->key_header.keysize = (sizeof(*(key)) - sizeof(HT_KEY)); \
(key)->key_header.keybuf = (((uint8_t *)key) + sizeof(HT_KEY)); \
} while(0)
/*
* Resets a hash table key to a known state
*/
#define HT_KEY_RESET(key) memset((key)->key_header.keybuf, 0, (key)->key_header.keysize)
/*
* Sets a scalar field in a hash table key
*/
#define HT_SET_KEY_FIELD(key, member, value) (key)->keyfields.member = value;
/*
* Sets a string field in a hash table key, preserving
* null terminator
*/
#define HT_SET_KEY_STRING(key, member, value) do { \
if ((value) != NULL) \
strncpy((key)->keyfields.member, value, sizeof((key)->keyfields.member) - 1); \
} while(0)
/*
* This is the same as HT_SET_KEY_STRING, except that it uses
* ossl_ht_strcase to make the value being passed case insensitive
* This is useful for instances in which we want upper and lower case
* key value to hash to the same entry
*/
#define HT_SET_KEY_STRING_CASE(key, member, value) do { \
ossl_ht_strcase((key)->keyfields.member, value, sizeof((key)->keyfields.member) -1); \
} while(0)
/*
* Same as HT_SET_KEY_STRING but also takes length of the string.
*/
#define HT_SET_KEY_STRING_N(key, member, value, len) do { \
if ((value) != NULL) { \
if (len < sizeof((key)->keyfields.member)) \
strncpy((key)->keyfields.member, value, len); \
else \
strncpy((key)->keyfields.member, value, sizeof((key)->keyfields.member) - 1); \
} \
} while(0)
/* Same as HT_SET_KEY_STRING_CASE but also takes length of the string. */
#define HT_SET_KEY_STRING_CASE_N(key, member, value, len) do { \
if (len < sizeof((key)->keyfields.member)) \
ossl_ht_strcase((key)->keyfields.member, value, len); \
else \
ossl_ht_strcase((key)->keyfields.member, value, sizeof((key)->keyfields.member) - 1); \
} while(0)
/*
* Sets a uint8_t (blob) field in a hash table key
*/
#define HT_SET_KEY_BLOB(key, member, value, len) do { \
if (value != NULL) \
memcpy((key)->keyfields.member, value, len); \
} while(0)
/*
* Converts a defined key type to an HT_KEY
*/
#define TO_HT_KEY(key) &(key)->key_header
/*
* Converts an HT_KEY back to its defined
* type
*/
#define FROM_HT_KEY(key, type) (type)(key)
/*
* Implements the following type safe operations for a hash table
* ossl_ht_NAME_TYPE_insert - insert a value to a hash table of type TYPE
* ossl_ht_NAME_TYPE_get - gets a value of a specific type from the hash table
* ossl_ht_NAME_TYPE_from_value - converts an HT_VALUE to its type
* ossl_ht_NAME_TYPE_to_value - converts a TYPE to an HT_VALUE
* ossl_ht_NAME_TYPE_type - boolean to detect if a value is of TYPE
*/
#define IMPLEMENT_HT_VALUE_TYPE_FNS(vtype, name, pfx) \
static uintptr_t name##_##vtype##_id = 0; \
pfx ossl_unused int ossl_ht_##name##_##vtype##_insert(HT *h, HT_KEY *key, \
vtype *data, \
vtype **olddata) { \
HT_VALUE inval; \
HT_VALUE *oval = NULL; \
int rc; \
\
inval.value = data; \
inval.type_id = &name##_##vtype##_id; \
rc = ossl_ht_insert(h, key, &inval, olddata == NULL ? NULL : &oval); \
if (oval != NULL) \
*olddata = (vtype *)oval->value; \
return rc; \
} \
\
pfx ossl_unused vtype *ossl_ht_##name##_##vtype##_from_value(HT_VALUE *v) \
{ \
uintptr_t *expect_type = &name##_##vtype##_id; \
if (v == NULL) \
return NULL; \
if (v->type_id != expect_type) \
return NULL; \
return (vtype *)v->value; \
} \
\
pfx ossl_unused vtype *ossl_unused ossl_ht_##name##_##vtype##_get(HT *h, \
HT_KEY *key, \
HT_VALUE **v)\
{ \
HT_VALUE *vv; \
vv = ossl_ht_get(h, key); \
if (vv == NULL) \
return NULL; \
*v = ossl_rcu_deref(&vv); \
return ossl_ht_##name##_##vtype##_from_value(*v); \
} \
\
pfx ossl_unused HT_VALUE *ossl_ht_##name##_##vtype##_to_value(vtype *data, \
HT_VALUE *v) \
{ \
v->type_id = &name##_##vtype##_id; \
v->value = data; \
return v; \
} \
\
pfx ossl_unused int ossl_ht_##name##_##vtype##_type(HT_VALUE *h) \
{ \
return h->type_id == &name##_##vtype##_id; \
}
#define DECLARE_HT_VALUE_TYPE_FNS(vtype, name) \
int ossl_ht_##name##_##vtype##_insert(HT *h, HT_KEY *key, vtype *data, \
vtype **olddata); \
vtype *ossl_ht_##name##_##vtype##_from_value(HT_VALUE *v); \
vtype *ossl_unused ossl_ht_##name##_##vtype##_get(HT *h, \
HT_KEY *key, \
HT_VALUE **v); \
HT_VALUE *ossl_ht_##name##_##vtype##_to_value(vtype *data, HT_VALUE *v); \
int ossl_ht_##name##_##vtype##_type(HT_VALUE *h); \
/*
* Helper function to construct case insensitive keys
*/
static void ossl_unused ossl_ht_strcase(char *tgt, const char *src, int len)
{
int i;
#if defined(CHARSET_EBCDIC) && !defined(CHARSET_EBCDIC_TEST)
const long int case_adjust = ~0x40;
#else
const long int case_adjust = ~0x20;
#endif
if (src == NULL)
return;
for (i = 0; src[i] != '\0' && i < len; i++)
tgt[i] = case_adjust & src[i];
}
/*
* Create a new hashtable
*/
HT *ossl_ht_new(const HT_CONFIG *conf);
/*
* Frees a hash table, potentially freeing all elements
*/
void ossl_ht_free(HT *htable);
/*
* Lock the table for reading
*/
void ossl_ht_read_lock(HT *htable);
/*
* Lock the table for writing
*/
void ossl_ht_write_lock(HT *htable);
/*
* Read unlock
*/
void ossl_ht_read_unlock(HT *htable);
/*
* Write unlock
*/
void ossl_ht_write_unlock (HT *htable);
/*
* Empties a hash table, potentially freeing all elements
*/
int ossl_ht_flush(HT *htable);
/*
* Inserts an element to a hash table, optionally returning
* replaced data to caller
* Returns 1 if the insert was successful, 0 on error
*/
int ossl_ht_insert(HT *htable, HT_KEY *key, HT_VALUE *data,
HT_VALUE **olddata);
/*
* Deletes a value from a hash table, based on key
* Returns 1 if the key was removed, 0 if they key was not found
*/
int ossl_ht_delete(HT *htable, HT_KEY *key);
/*
* Returns number of elements in the hash table
*/
size_t ossl_ht_count(HT *htable);
/*
* Iterates over each element in the table.
* aborts the loop when cb returns 0
* Contents of elements in the list may be modified during
* this traversal, assuming proper thread safety is observed while doing
* so (holding the table write lock is sufficient). However, elements of the
* table may not be inserted or removed while iterating.
*/
void ossl_ht_foreach_until(HT *htable, int (*cb)(HT_VALUE *obj, void *arg),
void *arg);
/*
* Returns a list of elements in a hash table based on
* filter function return value. Returns NULL on error,
* or an HT_VALUE_LIST object on success. Note it is possible
* That a list will be returned with 0 entries, if none were found.
* The zero length list must still be freed via ossl_ht_value_list_free
*/
HT_VALUE_LIST *ossl_ht_filter(HT *htable, size_t max_len,
int (*filter)(HT_VALUE *obj, void *arg),
void *arg);
/*
* Frees the list returned from ossl_ht_filter
*/
void ossl_ht_value_list_free(HT_VALUE_LIST *list);
/*
* Fetches a value from the hash table, based
* on key. Returns NULL if the element was not found.
*/
HT_VALUE *ossl_ht_get(HT *htable, HT_KEY *key);
#endif
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