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/** @file
* Definitions for structures storing addresses, and for the type of
* variables holding port-type values
*
* Wireshark - Network traffic analyzer
* By Gerald Combs <gerald@wireshark.org>
* Copyright 1998 Gerald Combs
*
* SPDX-License-Identifier: GPL-2.0-or-later
*/
#ifndef __ADDRESS_H__
#define __ADDRESS_H__
#include <string.h> /* for memcmp */
#include "tvbuff.h"
#include <epan/wmem_scopes.h>
#include <wsutil/ws_assert.h>
#include <wsutil/inet_cidr.h>
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
/* Types of "global" addresses Wireshark knows about. */
/* Address types can be added here if there are many dissectors that use them or just
* within a specific dissector.
* If an address type is added here, it must be "registered" within address_types.c
* For dissector address types, just use the address_type_dissector_register function
* from address_types.h
*
* AT_NUMERIC - a numeric address type can consist of a uint8_t, uint16_t, uint32_t or uint64_t
* value. If no correct length is provided, to avoid data bleed, a uint8_t is
* assumed. Only representation (aka conversion of value to string) is implemented for this type.
*/
typedef enum {
AT_NONE, /* no link-layer address */
AT_ETHER, /* MAC (Ethernet, 802.x, FDDI) address */
AT_IPv4, /* IPv4 */
AT_IPv6, /* IPv6 */
AT_IPX, /* IPX */
AT_FC, /* Fibre Channel */
AT_FCWWN, /* Fibre Channel WWN */
AT_STRINGZ, /* null-terminated string */
AT_EUI64, /* IEEE EUI-64 */
AT_IB, /* Infiniband GID/LID */
AT_AX25, /* AX.25 */
AT_VINES, /* Banyan Vines address */
AT_NUMERIC, /* Numeric address type. */
AT_MCTP, /* MCTP */
AT_END_OF_LIST /* Must be last in list */
} address_type;
typedef struct _address {
int type; /* type of address */
int len; /* length of address, in bytes */
const void *data; /* pointer to address data */
/* private */
void *priv;
} address;
#define ADDRESS_INIT(type, len, data) {type, len, data, NULL}
#define ADDRESS_INIT_NONE ADDRESS_INIT(AT_NONE, 0, NULL)
static inline void
clear_address(address *addr)
{
addr->type = AT_NONE;
addr->len = 0;
addr->data = NULL;
addr->priv = NULL;
}
/** Initialize an address with the given values.
*
* @param addr [in,out] The address to initialize.
* @param addr_type [in] Address type.
* @param addr_len [in] The length in bytes of the address data. For example, 4 for
* AT_IPv4 or sizeof(ws_in6_addr) for AT_IPv6.
* @param addr_data [in] Pointer to the address data.
*/
static inline void
set_address(address *addr, int addr_type, int addr_len, const void *addr_data) {
if (addr_len == 0) {
/* Zero length must mean no data */
ws_assert(addr_data == NULL);
} else {
/* Must not be AT_NONE - AT_NONE must have no data */
ws_assert(addr_type != AT_NONE);
/* Make sure we *do* have data */
ws_assert(addr_data != NULL);
}
addr->type = addr_type;
addr->len = addr_len;
addr->data = addr_data;
addr->priv = NULL;
}
static inline void
set_address_ipv4(address *addr, const ipv4_addr_and_mask *ipv4) {
addr->type = AT_IPv4;
addr->len = 4;
uint32_t val = g_htonl(ipv4->addr);
addr->priv = g_memdup2(&val, sizeof(val));
addr->data = addr->priv;
}
static inline void
set_address_ipv6(address *addr, const ipv6_addr_and_prefix *ipv6) {
set_address(addr, AT_IPv6, sizeof(ws_in6_addr), &ipv6->addr);
}
/** Initialize an address from TVB data.
*
* Same as set_address but it takes a TVB and an offset. This is preferred
* over passing the return value of tvb_get_ptr() to set_address().
*
* This calls tvb_get_ptr() (including throwing any exceptions) before
* modifying the address.
*
* @param addr [in,out] The address to initialize.
* @param addr_type [in] Address type.
* @param tvb [in] Pointer to the TVB.
* @param offset [in] Offset within the TVB.
* @param addr_len [in] The length in bytes of the address data. For example, 4 for
* AT_IPv4 or sizeof(ws_in6_addr) for AT_IPv6.
*/
static inline void
set_address_tvb(address *addr, int addr_type, int addr_len, tvbuff_t *tvb, int offset) {
const void *p;
if (addr_len != 0) {
/* Must not be AT_NONE - AT_NONE must have no data */
ws_assert(addr_type != AT_NONE);
p = tvb_get_ptr(tvb, offset, addr_len);
} else
p = NULL;
set_address(addr, addr_type, addr_len, p);
}
/** Initialize an address with the given values, allocating a new buffer
* for the address data using wmem-scoped memory.
*
* @param scope [in] The lifetime of the allocated memory, e.g., pinfo->pool
* @param addr [in,out] The address to initialize.
* @param addr_type [in] Address type.
* @param addr_len [in] The length in bytes of the address data. For example, 4 for
* AT_IPv4 or sizeof(ws_in6_addr) for AT_IPv6.
* @param addr_data [in] Pointer to the address data.
*/
static inline void
alloc_address_wmem(wmem_allocator_t *scope, address *addr,
int addr_type, int addr_len, const void *addr_data) {
ws_assert(addr);
clear_address(addr);
addr->type = addr_type;
if (addr_len == 0) {
/* Zero length must mean no data */
ws_assert(addr_data == NULL);
/* Nothing to copy */
return;
}
/* Must not be AT_NONE - AT_NONE must have no data */
ws_assert(addr_type != AT_NONE);
/* Make sure we *do* have data to copy */
ws_assert(addr_data != NULL);
addr->data = addr->priv = wmem_memdup(scope, addr_data, addr_len);
addr->len = addr_len;
}
/** Allocate an address from TVB data.
*
* Same as alloc_address_wmem but it takes a TVB and an offset.
*
* @param scope [in] The lifetime of the allocated memory, e.g., pinfo->pool
* @param addr [in,out] The address to initialize.
* @param addr_type [in] Address type.
* @param addr_len [in] The length in bytes of the address data. For example, 4 for
* AT_IPv4 or sizeof(ws_in6_addr) for AT_IPv6.
* @param tvb [in] Pointer to the TVB.
* @param offset [in] Offset within the TVB.
*/
static inline void
alloc_address_tvb(wmem_allocator_t *scope, address *addr,
int addr_type, int addr_len, tvbuff_t *tvb, int offset) {
const void *p;
p = tvb_get_ptr(tvb, offset, addr_len);
alloc_address_wmem(scope, addr, addr_type, addr_len, p);
}
/** Compare two addresses.
*
* @param addr1 [in] The first address to compare.
* @param addr2 [in] The second address to compare.
* @return 0 if the addresses are equal,
* A positive number if addr1 > addr2 in some nondefined metric,
* A negative number if addr1 < addr2 in some nondefined metric.
*/
static inline int
cmp_address(const address *addr1, const address *addr2) {
if (addr1->type > addr2->type) return 1;
if (addr1->type < addr2->type) return -1;
if (addr1->len > addr2->len) return 1;
if (addr1->len < addr2->len) return -1;
if (addr1->len == 0) {
/*
* memcmp(NULL, NULL, 0) is *not* guaranteed to work, so
* if both addresses are zero-length, don't compare them
* (there's nothing to compare, so they're equal).
*/
return 0;
}
return memcmp(addr1->data, addr2->data, addr1->len);
}
/** Check two addresses for equality.
*
* Given two addresses, return "true" if they're equal, "false" otherwise.
* Addresses are equal only if they have the same type and length; if the
* length is zero, they are then equal, otherwise the data must be the
* same.
*
* @param addr1 [in] The first address to compare.
* @param addr2 [in] The second address to compare.
* @return true if the addresses are equal, false otherwise.
*/
static inline bool
addresses_equal(const address *addr1, const address *addr2) {
/*
* memcmp(NULL, NULL, 0) is *not* guaranteed to work, so
* if both addresses are zero-length, don't compare them
* (there's nothing to compare, so they're equal).
*/
if (addr1->type == addr2->type &&
addr1->len == addr2->len &&
(addr1->len == 0 ||
memcmp(addr1->data, addr2->data, addr1->len) == 0))
return true;
return false;
}
/** Check the data of two addresses for equality.
*
* Given two addresses, return "true" if they have the same length and,
* their data is equal, "false" otherwise.
* The address types are ignored. This can be used to compare custom
* address types defined with address_type_dissector_register.
*
* @param addr1 [in] The first address to compare.
* @param addr2 [in] The second address to compare.
* @return true if the addresses are equal, false otherwise.
*/
static inline bool
addresses_data_equal(const address *addr1, const address *addr2) {
if ( addr1->len == addr2->len
&& memcmp(addr1->data, addr2->data, addr1->len) == 0
) return true;
return false;
}
/** Perform a shallow copy of the address (both addresses point to the same
* memory location).
*
* @param to [in,out] The destination address.
* @param from [in] The source address.
*
* \warning Make sure 'from' memory stays valid for the lifetime of this object.
* Also it's strongly recommended to use this function instead of copy-assign.
*/
static inline void
copy_address_shallow(address *to, const address *from) {
set_address(to, from->type, from->len, from->data);
}
/** Copy an address, allocating a new buffer for the address data
* using wmem-scoped memory.
*
* @param scope [in] The lifetime of the allocated memory, e.g., pinfo->pool
* @param to [in,out] The destination address.
* @param from [in] The source address.
*/
static inline void
copy_address_wmem(wmem_allocator_t *scope, address *to, const address *from) {
alloc_address_wmem(scope, to, from->type, from->len, from->data);
}
/** Copy an address, allocating a new buffer for the address data.
*
* @param to [in,out] The destination address.
* @param from [in] The source address.
*/
static inline void
copy_address(address *to, const address *from) {
copy_address_wmem(NULL, to, from);
}
/** Free an address allocated with wmem-scoped memory.
*
* @param scope [in] The lifetime of the allocated memory, e.g., pinfo->pool
* @param addr [in,out] The address whose data to free.
*/
static inline void
free_address_wmem(wmem_allocator_t *scope, address *addr) {
/* Because many dissectors set 'type = AT_NONE' to mean clear we check for that */
if (addr->type != AT_NONE && addr->len > 0 && addr->priv != NULL) {
/* Make sure API use is correct */
/* if priv is not null then data == priv */
ws_assert(addr->data == addr->priv);
wmem_free(scope, addr->priv);
}
clear_address(addr);
}
/** Free an address.
*
* @param addr [in,out] The address whose data to free.
*/
static inline void
free_address(address *addr) {
free_address_wmem(NULL, addr);
}
/** Hash an address into a hash value (which must already have been set).
*
* @param hash_val The existing hash value.
* @param addr The address to add.
* @return The new hash value.
*/
static inline unsigned
add_address_to_hash(unsigned hash_val, const address *addr) {
const uint8_t *hash_data = (const uint8_t *)(addr)->data;
int idx;
for (idx = 0; idx < (addr)->len; idx++) {
hash_val += hash_data[idx];
hash_val += ( hash_val << 10 );
hash_val ^= ( hash_val >> 6 );
}
return hash_val;
}
/** Hash an address into a hash value (which must already have been set).
* 64-bit version of add_address_to_hash().
*
* @param hash_val The existing hash value.
* @param addr The address to add.
* @return The new hash value.
*/
static inline uint64_t
add_address_to_hash64(uint64_t hash_val, const address *addr) {
const uint8_t *hash_data = (const uint8_t *)(addr)->data;
int idx;
for (idx = 0; idx < (addr)->len; idx++) {
hash_val += hash_data[idx];
hash_val += ( hash_val << 10 );
hash_val ^= ( hash_val >> 6 );
}
return hash_val;
}
WS_DLL_PUBLIC unsigned address_to_bytes(const address *addr, uint8_t *buf, unsigned buf_len);
/* Types of port numbers Wireshark knows about. */
typedef enum {
PT_NONE, /* no port number */
PT_SCTP, /* SCTP */
PT_TCP, /* TCP */
PT_UDP, /* UDP */
PT_DCCP, /* DCCP */
PT_IPX, /* IPX sockets */
PT_DDP, /* DDP AppleTalk connection */
PT_IDP, /* XNS IDP sockets */
PT_USB, /* USB endpoint 0xffff means the host */
PT_I2C,
PT_IBQP, /* Infiniband QP number */
PT_BLUETOOTH,
PT_IWARP_MPA, /* iWarp MPA */
PT_MCTP
} port_type;
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* __ADDRESS_H__ */
/*
* Editor modelines - https://www.wireshark.org/tools/modelines.html
*
* Local variables:
* c-basic-offset: 4
* tab-width: 8
* indent-tabs-mode: nil
* End:
*
* vi: set shiftwidth=4 tabstop=8 expandtab:
* :indentSize=4:tabSize=8:noTabs=true:
*/
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