Previous: Host Address Functions, Up: Host Addresses
Besides the standard numbers-and-dots notation for Internet addresses, you can also refer to a host by a symbolic name. The advantage of a symbolic name is that it is usually easier to remember. For example, the machine with Internet address `158.121.106.19' is also known as `alpha.gnu.org'; and other machines in the `gnu.org' domain can refer to it simply as `alpha'.
Internally, the system uses a database to keep track of the mapping between host names and host numbers. This database is usually either the file /etc/hosts or an equivalent provided by a name server. The functions and other symbols for accessing this database are declared in netdb.h. They are BSD features, defined unconditionally if you include netdb.h.
This data type is used to represent an entry in the hosts database. It has the following members:
char *h_name
- This is the “official” name of the host.
char **h_aliases
- These are alternative names for the host, represented as a null-terminated vector of strings.
int h_addrtype
- This is the host address type; in practice, its value is always either
AF_INET
orAF_INET6
, with the latter being used for IPv6 hosts. In principle other kinds of addresses could be represented in the database as well as Internet addresses; if this were done, you might find a value in this field other thanAF_INET
orAF_INET6
. See Socket Addresses.int h_length
- This is the length, in bytes, of each address.
char **h_addr_list
- This is the vector of addresses for the host. (Recall that the host might be connected to multiple networks and have different addresses on each one.) The vector is terminated by a null pointer.
char *h_addr
- This is a synonym for
h_addr_list[0]
; in other words, it is the first host address.
As far as the host database is concerned, each address is just a block
of memory h_length
bytes long. But in other contexts there is an
implicit assumption that you can convert IPv4 addresses to a
struct in_addr
or an uint32_t
. Host addresses in
a struct hostent
structure are always given in network byte
order; see Byte Order.
You can use gethostbyname
, gethostbyname2
or
gethostbyaddr
to search the hosts database for information about
a particular host. The information is returned in a
statically-allocated structure; you must copy the information if you
need to save it across calls. You can also use getaddrinfo
and
getnameinfo
to obtain this information.
The
gethostbyname
function returns information about the host named name. If the lookup fails, it returns a null pointer.
The
gethostbyname2
function is likegethostbyname
, but allows the caller to specify the desired address family (e.g.AF_INET
orAF_INET6
) of the result.
The
gethostbyaddr
function returns information about the host with Internet address addr. The parameter addr is not really a pointer to char - it can be a pointer to an IPv4 or an IPv6 address. The length argument is the size (in bytes) of the address at addr. format specifies the address format; for an IPv4 Internet address, specify a value ofAF_INET
; for an IPv6 Internet address, useAF_INET6
.If the lookup fails,
gethostbyaddr
returns a null pointer.
If the name lookup by gethostbyname
or gethostbyaddr
fails, you can find out the reason by looking at the value of the
variable h_errno
. (It would be cleaner design for these
functions to set errno
, but use of h_errno
is compatible
with other systems.)
Here are the error codes that you may find in h_errno
:
HOST_NOT_FOUND
TRY_AGAIN
NO_RECOVERY
NO_ADDRESS
The lookup functions above all have one in common: they are not reentrant and therefore unusable in multi-threaded applications. Therefore provides the GNU C library a new set of functions which can be used in this context.
The
gethostbyname_r
function returns information about the host named name. The caller must pass a pointer to an object of typestruct hostent
in the result_buf parameter. In addition the function may need extra buffer space and the caller must pass an pointer and the size of the buffer in the buf and buflen parameters.A pointer to the buffer, in which the result is stored, is available in
*
result after the function call successfully returned. If an error occurs or if no entry is found, the pointer*
result is a null pointer. Success is signalled by a zero return value. If the function failed the return value is an error number. In addition to the errors defined forgethostbyname
it can also beERANGE
. In this case the call should be repeated with a larger buffer. Additional error information is not stored in the global variableh_errno
but instead in the object pointed to by h_errnop.Here's a small example:
struct hostent * gethostname (char *host) { struct hostent hostbuf, *hp; size_t hstbuflen; char *tmphstbuf; int res; int herr; hstbuflen = 1024; /* Allocate buffer, remember to free it to avoid memory leakage. */ tmphstbuf = malloc (hstbuflen); while ((res = gethostbyname_r (host, &hostbuf, tmphstbuf, hstbuflen, &hp, &herr)) == ERANGE) { /* Enlarge the buffer. */ hstbuflen *= 2; tmphstbuf = realloc (tmphstbuf, hstbuflen); } /* Check for errors. */ if (res || hp == NULL) return NULL; return hp; }
The
gethostbyname2_r
function is likegethostbyname_r
, but allows the caller to specify the desired address family (e.g.AF_INET
orAF_INET6
) for the result.
The
gethostbyaddr_r
function returns information about the host with Internet address addr. The parameter addr is not really a pointer to char - it can be a pointer to an IPv4 or an IPv6 address. The length argument is the size (in bytes) of the address at addr. format specifies the address format; for an IPv4 Internet address, specify a value ofAF_INET
; for an IPv6 Internet address, useAF_INET6
.Similar to the
gethostbyname_r
function, the caller must provide buffers for the result and memory used internally. In case of success the function returns zero. Otherwise the value is an error number whereERANGE
has the special meaning that the caller-provided buffer is too small.
You can also scan the entire hosts database one entry at a time using
sethostent
, gethostent
and endhostent
. Be careful
when using these functions because they are not reentrant.
This function opens the hosts database to begin scanning it. You can then call
gethostent
to read the entries.If the stayopen argument is nonzero, this sets a flag so that subsequent calls to
gethostbyname
orgethostbyaddr
will not close the database (as they usually would). This makes for more efficiency if you call those functions several times, by avoiding reopening the database for each call.