NAME
BIO_s_datagram
,
BIO_new_dgram
,
BIO_dgram_set_peer
,
BIO_ctrl_dgram_connect
,
BIO_dgram_get_peer
,
BIO_ctrl_set_connected
,
BIO_dgram_recv_timedout
,
BIO_dgram_send_timedout
,
BIO_dgram_non_fatal_error
—
datagram socket BIO
SYNOPSIS
#include
<openssl/bio.h>
const BIO_METHOD *
BIO_s_datagram
(void);
BIO *
BIO_new_dgram
(int fd,
int close_flag);
int
BIO_dgram_set_peer
(BIO *b,
struct sockaddr *sa);
int
BIO_ctrl_dgram_connect
(BIO *b,
struct sockaddr *sa);
int
BIO_dgram_get_peer
(BIO *b,
struct sockaddr *sa);
int
BIO_ctrl_set_connected
(BIO *b,
long argl, struct sockaddr
*sa);
int
BIO_dgram_recv_timedout
(BIO
*b);
int
BIO_dgram_send_timedout
(BIO
*b);
int
BIO_dgram_non_fatal_error
(int
errnum);
DESCRIPTION
BIO_s_datagram
()
returns the datagram socket BIO method. The usual application is to transmit
data using the IPv4 or IPv6 udp(4) protocol.
When called on a datagram socket BIO object,
BIO_method_type(3) returns the constant
BIO_TYPE_DGRAM
and
BIO_method_name(3) returns a pointer to the static string
"datagram socket".
Constructors and destructors
BIO_new(3) allocates a new datagram socket BIO object and initializes all its data to zero, including the datagram socket file descriptor, the peer address, the init flag that can be retrieved with BIO_get_init(3), the connected flag, the MTU, and all timeout and error information. The reference count and the close flag are set to 1.
BIO_new_dgram
()
allocates and initializes a new datagram socket BIO object with
BIO_new(3), sets the datagram socket file descriptor and the close
flag according to its arguments, and sets the init flag to 1.
If the reference count reaches 0 in BIO_free(3) and the close and init flags are set, shutdown(2) and close(2) are called on the datagram socket file descriptor before freeing the storage used by the BIO object.
When a chain containing a datagram socket BIO is copied with BIO_dup_chain(3), the datagram socket file descriptor, the init flag, the close flag, the flags accessible with BIO_test_flags(3), and any data that was set with BIO_set_ex_data(3) are automatically copied from the original BIO object to the new one, but the peer address, the connected flag, the MTU and all timeout and error information are not copied but instead initialized to zero.
Initialization and configuration
If the close flag is set in b, BIO_set_fd(3) clears all flags that are set in b and if the init flag was set, it calls shutdown(2) and close(2) on the previously assigned file descriptor. In any case, BIO_set_fd(3) then sets the new file descriptor and the new close flag according to its arguments and sets the init flag to 1.
If the init flag is set in b,
BIO_get_fd(3) returns its datagram socket file descriptor, and unless
the c argument is a NULL
pointer, it also stores the file descriptor in *c. If
the init flag is not set,
BIO_get_fd(3) fails and returns -1.
BIO_set_close(3) sets the close flag in b to the flag argument. BIO_get_close(3) returns the value of the close flag from b.
For datagram socket BIO objects, the shutdown flag is the same flag as the close flag. Consequently, BIO_set_shutdown(3) has the same effect as BIO_set_close(3) and BIO_get_shutdown(3) has the same effect as BIO_get_close(3).
BIO_dgram_set_peer
()
copies sa as the peer address into
b.
BIO_ctrl_dgram_connect
()
does exactly the same as BIO_dgram_set_peer
(). Its
name is even more misleading than the name of
BIO_ctrl_set_connected
(). In addition to what is
said there, BIO_ctrl_dgram_connect
() does not even
set the connected flag in b.
BIO_dgram_get_peer
()
copies the peer address from b to
*sa. Before calling this function, the caller has to
make sure that the peer address is indeed set in b and
that sufficient memory is available starting at sa to
copy a complete struct sockaddr,
struct sockaddr_in, or struct
sockaddr_in6 to that place, depending on which address family
b is currently used for.
Unless sa is
NULL
,
BIO_ctrl_set_connected
()
sets the connected flag in b and copies
sa as the peer address into b.
If sa is NULL
,
BIO_ctrl_set_connected
() clears the connected flag
and the peer address in b. Considering that
communication using a datagram protocol is connectionless, the name of this
function is misleading. It is neither establishing or terminating a
connection nor changing anything with respect to the state of the datagram
socket, but merely modifying some purely informational data in the wrapping
BIO object. The additional argl argument is passed
through to the callbacks documented in
BIO_set_callback(3) if any such callbacks are installed, but
it is otherwise ignored.
BIO_ctrl(3) with a cmd of
BIO_CTRL_DGRAM_SET_NEXT_TIMEOUT
interprets the
parg argument as a pointer to a struct
timeval and sets the read timeout to the specified absolute UTC
time.
BIO_ctrl(3) with a cmd of
BIO_CTRL_DGRAM_SET_RECV_TIMEOUT
,
BIO_CTRL_DGRAM_GET_RECV_TIMEOUT
,
BIO_CTRL_DGRAM_SET_SEND_TIMEOUT
, or
BIO_CTRL_DGRAM_GET_SEND_TIMEOUT
interprets the
parg argument as a pointer to a struct
timeval and calls
setsockopt(2) or
getsockopt(2) on the datagram socket file descriptor of
b with an argument of
SO_RCVTIMEO
or SO_SNDTIMEO
,
respectively. BIO_CTRL_DGRAM_SET_RECV_TIMEOUT
and
BIO_CTRL_DGRAM_SET_SEND_TIMEOUT
return 1 on success,
BIO_CTRL_DGRAM_GET_RECV_TIMEOUT
and
BIO_CTRL_DGRAM_GET_SEND_TIMEOUT
the number of bytes
written to *parg. All four return -1 on failure.
Remember that BIO_read(3) may actually use a shorter timeout when
BIO_CTRL_DGRAM_SET_NEXT_TIMEOUT
is in effect.
BIO_ctrl(3) with a cmd of
BIO_CTRL_DGRAM_GET_FALLBACK_MTU
returns 1232 if the
peer address is an IPv6 address that is not IPv4 mapped or 548 otherwise.
Making sure that a peer address is set before issuing this command is the
responsibility of the caller.
BIO_ctrl(3) with a cmd of
BIO_CTRL_DGRAM_SET_MTU
sets the MTU attribute of
b to the value of the larg
argument and also returns that argument.
BIO_ctrl(3) with a cmd of
BIO_CTRL_DGRAM_GET_MTU
returns the MTU attribute of
b or 0 if it was not set.
BIO_ctrl(3) with a cmd of
BIO_CTRL_DGRAM_MTU_EXCEEDED
returns 1 if the most
recent non-fatal failure of
BIO_read(3) or
BIO_write(3) was caused by EMSGSIZE
or 0
otherwise. This command also clears the
errno(2)
value that was saved internally for this particular purpose, so that issuing
the same command again will return 0 until the next
EMSGSIZE
failure occurs.
BIO_dgram_recv_timedout
()
and
BIO_dgram_send_timedout
()
check whether the most recent non-fatal failure of
BIO_read(3) or
BIO_write(3) was caused by EAGAIN
. Despite
having different names, both functions do exactly the same, and both inspect
the most recent non-fatal I/O failure, no matter whether it occurred during
a receive or send operation. Both functions also clear the
errno(2)
value that was saved internally for this particular purpose, so that calling
these functions again will return 0 until the next
EAGAIN
failure occurs.
Datagram socket BIOs do not support BIO_eof(3), BIO_get_mem_data(3), BIO_pending(3), BIO_reset(3), BIO_seek(3), BIO_tell(3), and BIO_wpending(3), and attempting any such operation results in failure and returns a value of 0.
Control commands correspond to accessor functions as follows:
BIO_C_GET_FD
- BIO_get_fd(3)
BIO_C_SET_FD
- BIO_set_fd(3)
BIO_CTRL_DGRAM_CONNECT
BIO_ctrl_dgram_connect
() (deprecated)BIO_CTRL_DGRAM_GET_PEER
BIO_dgram_get_peer
()- BIO_CTRL_DGRAM_GET_RECV_TIMER_EXP
BIO_dgram_recv_timedout
()- BIO_CTRL_DGRAM_GET_SEND_TIMER_EXP
BIO_dgram_send_timedout
()BIO_CTRL_DGRAM_SET_CONNECTED
BIO_ctrl_set_connected
()BIO_CTRL_DGRAM_SET_PEER
BIO_dgram_set_peer
()BIO_CTRL_GET_CLOSE
- BIO_get_close(3)
BIO_CTRL_SET_CLOSE
- BIO_set_close(3)
Input and output operations
BIO_read(3) attempts to read up to len bytes
into buf from the datagram socket file descriptor
using recvfrom(2). If a read timeout is set,
setsockopt(2) is used with an argument of
SO_RCVTIMEO
to temporarily shorten the timeout on
the datagram socket during the
recvfrom(2) call such that it returns before the read timeout
expires.
If recvfrom(2) succeeds and the connected flag is not yet set, BIO_read(3) also copies the peer address received from recvfrom(2) into b.
If recvfrom(2) is attempted,
BIO_read(3) clears the flags BIO_FLAGS_WRITE
and BIO_FLAGS_IO_SPECIAL
in b
and clears or sets the flags BIO_FLAGS_READ
and
BIO_FLAGS_SHOULD_RETRY
as appropriate.
If the connected flag is set in b, BIO_write(3) attempts to write(2) len bytes from buf to the datagram socket file descriptor. If the connected flag is not set, it attempts to transmit len bytes from buf to the peer using sendto(2).
If write(2) or sendto(2) is attempted,
BIO_write(3) clears the flags BIO_FLAGS_READ
and BIO_FLAGS_IO_SPECIAL
in b
and clears or sets the flags BIO_FLAGS_WRITE
and
BIO_FLAGS_SHOULD_RETRY
as appropriate.
The effect of
BIO_puts(3) is similar to the effect of
BIO_write(3) with a len argument of
strlen
(string).
Datagram socket BIOs do not support BIO_gets(3). Calling this function fails and returns -2.
BIO_flush(3) has no effect on a datagram socket BIO. It always succeeds and returns 1.
RETURN VALUES
BIO_s_datagram
() returns the datagram
socket BIO method.
BIO_new_dgram
() returns a newly allocated
datagram socket BIO object or NULL
on failure.
BIO_dgram_set_peer
(),
BIO_ctrl_dgram_connect
(), and
BIO_ctrl_set_connected
() return 1 on success or a
value less than or equal to zero on failure. They can only fail if
b is not a datagram socket BIO object.
BIO_dgram_get_peer
() returns the number of
bytes copied to sa or a value less than or equal to
zero on failure. It can only fail if b is not a
datagram socket BIO object.
BIO_dgram_recv_timedout
() and
BIO_dgram_send_timedout
() return 1 if the most
recent non-fatal I/O error was caused by EAGAIN
or 0
otherwise.
BIO_dgram_non_fatal_error
() returns 1 if
errnum is EAGAIN
,
EALREADY
, EINPROGRESS
, or
EINTR
or 0 otherwise, even if
errnum is 0.
SEE ALSO
close(2), getsockopt(2), recvfrom(2), sendto(2), shutdown(2), BIO_ctrl(3), BIO_get_init(3), BIO_new(3), BIO_read(3), BIO_s_connect(3), BIO_set_fd(3), BIO_should_retry(3), udp(4)
HISTORY
BIO_s_datagram
(),
BIO_new_dgram
(),
BIO_dgram_set_peer
(),
BIO_ctrl_dgram_connect
(),
BIO_ctrl_set_connected
(),
BIO_dgram_recv_timedout
(),
BIO_dgram_send_timedout
(), and
BIO_dgram_non_fatal_error
() first appeared in
OpenSSL 0.9.8 and have been available since OpenBSD
4.5.
BIO_dgram_get_peer
() first appeared in
OpenSSL 0.9.8m and has been available since OpenBSD
4.9.
BUGS
If getsockopt(2) or setsockopt(2) fails during BIO_read(3), the library prints an error message to standard error output but otherwise ignores the problem, thus possibly using unintended timeout values.
BIO_read(3) and BIO_write(3) may clear the global variable errno(2) before attempting the recvfrom(2) or sendto(2) system call but may not clear it if they fail before reaching this point.