man3/cmsg.3 - pub/scm/docs/man-pages/man-pages - Git at Google

 .\" This man page is Copyright (C) 1999 Andi Kleen <ak@muc.de>.
 .\"
 .\" %%%LICENSE_START(VERBATIM_ONE_PARA)
 .\" Permission is granted to distribute possibly modified copies
 .\" of this page provided the header is included verbatim,
 .\" and in case of nontrivial modification author and date
 .\" of the modification is added to the header.
 .\" %%%LICENSE_END
 .\"
 .\" $Id: cmsg.3,v 1.8 2000/12/20 18:10:31 ak Exp $
 .TH CMSG 3 2020-02-09 "Linux" "Linux Programmer's Manual"
 .SH NAME
 CMSG_ALIGN, CMSG_SPACE, CMSG_NXTHDR, CMSG_FIRSTHDR \- access ancillary data
 .SH SYNOPSIS
 .nf
 .B #include <sys/socket.h>
 .BI "struct cmsghdr *CMSG_FIRSTHDR(struct msghdr *" msgh );
 .BI "struct cmsghdr *CMSG_NXTHDR(struct msghdr *" msgh " ,
 .BR "                            struct cmsghdr *" cmsg );
 .BI "size_t CMSG_ALIGN(size_t " length );
 .BI "size_t CMSG_SPACE(size_t " length );
 .BI "size_t CMSG_LEN(size_t " length );
 .BI "unsigned char *CMSG_DATA(struct cmsghdr *" cmsg );
 .fi
 .SH DESCRIPTION
 These macros are used to create and access control messages (also called
 ancillary data) that are not a part of the socket payload.
 This control information may
 include the interface the packet was received on, various rarely used header
 fields, an extended error description, a set of file descriptors, or UNIX
 credentials.
 For instance, control messages can be used to send
 additional header fields such as IP options.
 Ancillary data is sent by calling
 .BR sendmsg (2)
 and received by calling
 .BR recvmsg (2).
 See their manual pages for more information.
 .PP
 Ancillary data is a sequence of
 .I cmsghdr
 structures with appended data.
 See the specific protocol man pages for the available control message types.
 The maximum ancillary buffer size allowed per socket can be set using
 .IR /proc/sys/net/core/optmem_max ;
 see
 .BR socket (7).
 .PP
 The
 .I cmsghdr
 structure is defined as follows:
 .PP
 .in +4n
 .EX
 struct cmsghdr {
     size_t cmsg_len;    /* Data byte count, including header
                            (type is socklen_t in POSIX) */
     int    cmsg_level;  /* Originating protocol */
     int    cmsg_type;   /* Protocol-specific type */
 /* followed by
    unsigned char cmsg_data[]; */
 };
 .EE
 .in
 .PP
 The sequence of
 .I cmsghdr
 structures should never be accessed directly.
 Instead, use only the following macros:
 .IP * 3
 .BR CMSG_FIRSTHDR ()
 returns a pointer to the first
 .I cmsghdr
 in the ancillary
 data buffer associated with the passed
 .IR msghdr .
 It returns NULL if there isn't enough space for a
 .I cmsghdr
 in the buffer.
 .IP *
 .BR CMSG_NXTHDR ()
 returns the next valid
 .I cmsghdr
 after the passed
 .IR cmsghdr .
 It returns NULL when there isn't enough space left in the buffer.
 .IP
 When initializing a buffer that will contain a series of
 .I cmsghdr
 structures (e.g., to be sent with
 .BR sendmsg (2)),
 that buffer should first be zero-initialized
 to ensure the correct operation of
 .BR CMSG_NXTHDR ().
 .IP *
 .BR CMSG_ALIGN (),
 given a length, returns it including the required alignment.
 This is a
 constant expression.
 .IP *
 .BR CMSG_SPACE ()
 returns the number of bytes an ancillary element with payload of the
 passed data length occupies.
 This is a constant expression.
 .IP *
 .BR CMSG_DATA ()
 returns a pointer to the data portion of a
 .IR cmsghdr .
 The pointer returned cannot be assumed to be suitably aligned for
 accessing arbitrary payload data types.
 Applications should not cast it to a pointer type matching the payload,
 but should instead use
 .BR memcpy (3)
 to copy data to or from a suitably declared object.
 .IP *
 .BR CMSG_LEN ()
 returns the value to store in the
 .I cmsg_len
 member of the
 .I cmsghdr
 structure, taking into account any necessary
 alignment.
 It takes the data length as an argument.
 This is a constant
 expression.
 .PP
 To create ancillary data, first initialize the
 .I msg_controllen
 member of the
 .I msghdr
 with the length of the control message buffer.
 Use
 .BR CMSG_FIRSTHDR ()
 on the
 .I msghdr
 to get the first control message and
 .BR CMSG_NXTHDR ()
 to get all subsequent ones.
 In each control message, initialize
 .I cmsg_len
 (with
 .BR CMSG_LEN ()),
 the other
 .I cmsghdr
 header fields, and the data portion using
 .BR CMSG_DATA ().
 Finally, the
 .I msg_controllen
 field of the
 .I msghdr
 should be set to the sum of the
 .BR CMSG_SPACE ()
 of the length of
 all control messages in the buffer.
 For more information on the
 .IR msghdr ,
 see
 .BR recvmsg (2).
 .SH CONFORMING TO
 This ancillary data model conforms to the POSIX.1g draft, 4.4BSD-Lite,
 the IPv6 advanced API described in RFC\ 2292 and SUSv2.
 .BR CMSG_ALIGN ()
 is a Linux extension.
 .SH NOTES
 For portability, ancillary data should be accessed using only the macros
 described here.
 .BR CMSG_ALIGN ()
 is a Linux extension and should not be used in portable programs.
 .PP
 In Linux,
 .BR CMSG_LEN (),
 .BR CMSG_DATA (),
 and
 .BR CMSG_ALIGN ()
 are constant expressions (assuming their argument is constant),
 meaning that these values can be used to declare the size of global variables.
 This may not be portable, however.
 .SH EXAMPLE
 This code looks for the
 .B IP_TTL
 option in a received ancillary buffer:
 .PP
 .in +4n
 .EX
 struct msghdr msgh;
 struct cmsghdr *cmsg;
 int received_ttl;

 /* Receive auxiliary data in msgh */

 for (cmsg = CMSG_FIRSTHDR(&msgh); cmsg != NULL;
         cmsg = CMSG_NXTHDR(&msgh, cmsg)) {
     if (cmsg\->cmsg_level == IPPROTO_IP
             && cmsg\->cmsg_type == IP_TTL) {
         memcpy(&receive_ttl, CMSG_DATA(cmsg), sizeof(int));
         break;
     }
 }

 if (cmsg == NULL) {
     /* Error: IP_TTL not enabled or small buffer or I/O error */
 }
 .EE
 .in
 .PP
 The code below passes an array of file descriptors over a
 UNIX domain socket using
 .BR SCM_RIGHTS :
 .PP
 .in +4n
 .EX
 struct msghdr msg = { 0 };
 struct cmsghdr *cmsg;
 int myfds[NUM_FD];  /* Contains the file descriptors to pass */
 char iobuf[1];
 struct iovec io = {
     .iov_base = iobuf,
     .iov_len = sizeof(iobuf)
 };
 union {         /* Ancillary data buffer, wrapped in a union
                    in order to ensure it is suitably aligned */
     char buf[CMSG_SPACE(sizeof(myfds))];
     struct cmsghdr align;
 } u;

 msg.msg_iov = &io;
 msg.msg_iovlen = 1;
 msg.msg_control = u.buf;
 msg.msg_controllen = sizeof(u.buf);
 cmsg = CMSG_FIRSTHDR(&msg);
 cmsg\->cmsg_level = SOL_SOCKET;
 cmsg\->cmsg_type = SCM_RIGHTS;
 cmsg\->cmsg_len = CMSG_LEN(sizeof(int) * NUM_FD);
 memcpy(CMSG_DATA(cmsg), myfds, NUM_FD * sizeof(int));
 .EE
 .in
 .SH SEE ALSO
 .BR recvmsg (2),
 .BR sendmsg (2)
 .PP
 RFC\ 2292
	.\" This man page is Copyright (C) 1999 Andi Kleen <ak@muc.de>.
	.\"
	.\" %%%LICENSE_START(VERBATIM_ONE_PARA)
	.\" Permission is granted to distribute possibly modified copies
	.\" of this page provided the header is included verbatim,
	.\" and in case of nontrivial modification author and date
	.\" of the modification is added to the header.
	.\" %%%LICENSE_END
	.\"
	.\" $Id: cmsg.3,v 1.8 2000/12/20 18:10:31 ak Exp $
	.TH CMSG 3 2020-02-09 "Linux" "Linux Programmer's Manual"
	.SH NAME
	CMSG_ALIGN, CMSG_SPACE, CMSG_NXTHDR, CMSG_FIRSTHDR \- access ancillary data
	.SH SYNOPSIS
	.nf
	.B #include <sys/socket.h>
	.BI "struct cmsghdr CMSG_FIRSTHDR(struct msghdr " msgh );
	.BI "struct cmsghdr CMSG_NXTHDR(struct msghdr " msgh " ,
	.BR " struct cmsghdr *" cmsg );
	.BI "size_t CMSG_ALIGN(size_t " length );
	.BI "size_t CMSG_SPACE(size_t " length );
	.BI "size_t CMSG_LEN(size_t " length );
	.BI "unsigned char CMSG_DATA(struct cmsghdr " cmsg );
	.fi
	.SH DESCRIPTION
	These macros are used to create and access control messages (also called
	ancillary data) that are not a part of the socket payload.
	This control information may
	include the interface the packet was received on, various rarely used header
	fields, an extended error description, a set of file descriptors, or UNIX
	credentials.
	For instance, control messages can be used to send
	additional header fields such as IP options.
	Ancillary data is sent by calling
	.BR sendmsg (2)
	and received by calling
	.BR recvmsg (2).
	See their manual pages for more information.
	.PP
	Ancillary data is a sequence of
	.I cmsghdr
	structures with appended data.
	See the specific protocol man pages for the available control message types.
	The maximum ancillary buffer size allowed per socket can be set using
	.IR /proc/sys/net/core/optmem_max ;
	see
	.BR socket (7).
	.PP
	The
	.I cmsghdr
	structure is defined as follows:
	.PP
	.in +4n
	.EX
	struct cmsghdr {
	size_t cmsg_len; /* Data byte count, including header
	(type is socklen_t in POSIX) */
	int cmsg_level; /* Originating protocol */
	int cmsg_type; /* Protocol-specific type */
	/* followed by
	unsigned char cmsg_data[]; */
	};
	.EE
	.in
	.PP
	The sequence of
	.I cmsghdr
	structures should never be accessed directly.
	Instead, use only the following macros:
	.IP * 3
	.BR CMSG_FIRSTHDR ()
	returns a pointer to the first
	.I cmsghdr
	in the ancillary
	data buffer associated with the passed
	.IR msghdr .
	It returns NULL if there isn't enough space for a
	.I cmsghdr
	in the buffer.
	.IP *
	.BR CMSG_NXTHDR ()
	returns the next valid
	.I cmsghdr
	after the passed
	.IR cmsghdr .
	It returns NULL when there isn't enough space left in the buffer.
	.IP
	When initializing a buffer that will contain a series of
	.I cmsghdr
	structures (e.g., to be sent with
	.BR sendmsg (2)),
	that buffer should first be zero-initialized
	to ensure the correct operation of
	.BR CMSG_NXTHDR ().
	.IP *
	.BR CMSG_ALIGN (),
	given a length, returns it including the required alignment.
	This is a
	constant expression.
	.IP *
	.BR CMSG_SPACE ()
	returns the number of bytes an ancillary element with payload of the
	passed data length occupies.
	This is a constant expression.
	.IP *
	.BR CMSG_DATA ()
	returns a pointer to the data portion of a
	.IR cmsghdr .
	The pointer returned cannot be assumed to be suitably aligned for
	accessing arbitrary payload data types.
	Applications should not cast it to a pointer type matching the payload,
	but should instead use
	.BR memcpy (3)
	to copy data to or from a suitably declared object.
	.IP *
	.BR CMSG_LEN ()
	returns the value to store in the
	.I cmsg_len
	member of the
	.I cmsghdr
	structure, taking into account any necessary
	alignment.
	It takes the data length as an argument.
	This is a constant
	expression.
	.PP
	To create ancillary data, first initialize the
	.I msg_controllen
	member of the
	.I msghdr
	with the length of the control message buffer.
	Use
	.BR CMSG_FIRSTHDR ()
	on the
	.I msghdr
	to get the first control message and
	.BR CMSG_NXTHDR ()
	to get all subsequent ones.
	In each control message, initialize
	.I cmsg_len
	(with
	.BR CMSG_LEN ()),
	the other
	.I cmsghdr
	header fields, and the data portion using
	.BR CMSG_DATA ().
	Finally, the
	.I msg_controllen
	field of the
	.I msghdr
	should be set to the sum of the
	.BR CMSG_SPACE ()
	of the length of
	all control messages in the buffer.
	For more information on the
	.IR msghdr ,
	see
	.BR recvmsg (2).
	.SH CONFORMING TO
	This ancillary data model conforms to the POSIX.1g draft, 4.4BSD-Lite,
	the IPv6 advanced API described in RFC\ 2292 and SUSv2.
	.BR CMSG_ALIGN ()
	is a Linux extension.
	.SH NOTES
	For portability, ancillary data should be accessed using only the macros
	described here.
	.BR CMSG_ALIGN ()
	is a Linux extension and should not be used in portable programs.
	.PP
	In Linux,
	.BR CMSG_LEN (),
	.BR CMSG_DATA (),
	and
	.BR CMSG_ALIGN ()
	are constant expressions (assuming their argument is constant),
	meaning that these values can be used to declare the size of global variables.
	This may not be portable, however.
	.SH EXAMPLE
	This code looks for the
	.B IP_TTL
	option in a received ancillary buffer:
	.PP
	.in +4n
	.EX
	struct msghdr msgh;
	struct cmsghdr *cmsg;
	int received_ttl;

	/* Receive auxiliary data in msgh */

	for (cmsg = CMSG_FIRSTHDR(&msgh); cmsg != NULL;
	cmsg = CMSG_NXTHDR(&msgh, cmsg)) {
	if (cmsg\->cmsg_level == IPPROTO_IP
	&& cmsg\->cmsg_type == IP_TTL) {
	memcpy(&receive_ttl, CMSG_DATA(cmsg), sizeof(int));
	break;
	}
	}

	if (cmsg == NULL) {
	/* Error: IP_TTL not enabled or small buffer or I/O error */
	}
	.EE
	.in
	.PP
	The code below passes an array of file descriptors over a
	UNIX domain socket using
	.BR SCM_RIGHTS :
	.PP
	.in +4n
	.EX
	struct msghdr msg = { 0 };
	struct cmsghdr *cmsg;
	int myfds[NUM_FD]; /* Contains the file descriptors to pass */
	char iobuf[1];
	struct iovec io = {
	.iov_base = iobuf,
	.iov_len = sizeof(iobuf)
	};
	union { /* Ancillary data buffer, wrapped in a union
	in order to ensure it is suitably aligned */
	char buf[CMSG_SPACE(sizeof(myfds))];
	struct cmsghdr align;
	} u;

	msg.msg_iov = &io;
	msg.msg_iovlen = 1;
	msg.msg_control = u.buf;
	msg.msg_controllen = sizeof(u.buf);
	cmsg = CMSG_FIRSTHDR(&msg);
	cmsg\->cmsg_level = SOL_SOCKET;
	cmsg\->cmsg_type = SCM_RIGHTS;
	cmsg\->cmsg_len = CMSG_LEN(sizeof(int) * NUM_FD);
	memcpy(CMSG_DATA(cmsg), myfds, NUM_FD * sizeof(int));
	.EE
	.in
	.SH SEE ALSO
	.BR recvmsg (2),
	.BR sendmsg (2)
	.PP
	RFC\ 2292