netdevice - low-level access to Linux network devices
#include <sys/ioctl.h>
#include <net/if.h>
This man page describes the sockets interface which is used to configure network devices.
Linux supports some standard ioctls to configure network devices. They can be used on any socket's file descriptor regardless of the family or type. Most of them pass an ifreq structure:
struct ifreq {
char ifr_name[IFNAMSIZ]; /* Interface name */
union {
struct sockaddr ifr_addr;
struct sockaddr ifr_dstaddr;
struct sockaddr ifr_broadaddr;
struct sockaddr ifr_netmask;
struct sockaddr ifr_hwaddr;
short ifr_flags;
int ifr_ifindex;
int ifr_metric;
int ifr_mtu;
struct ifmap ifr_map;
char ifr_slave[IFNAMSIZ];
char ifr_newname[IFNAMSIZ];
char *ifr_data;
};
};
Normally, the user specifies which device to affect by setting ifr_name to the name of the interface. All other members of the structure may share memory.
If an ioctl is marked as privileged, then using it requires an effective user ID of 0 or the CAP_NET_ADMIN capability. If this is not the case, EPERM will be returned.
Given the ifr_ifindex, return the name of the interface in ifr_name. This is the only ioctl which returns its result in ifr_name.
Retrieve the interface index of the interface into ifr_ifindex.
Get or set the active flag word of the device. ifr_flags contains a bit mask of the following values:
TABLE
Setting the active flag word is a privileged operation, but any process may read it.
Get or set extended (private) flags for the device. ifr_flags contains a bit mask of the following values:
TABLE
Setting the extended (private) interface flags is a privileged operation.
Get or set the address of the device using ifr_addr. Setting the interface address is a privileged operation. For compatibility, only AF_INET addresses are accepted or returned.
Get or set the destination address of a point-to-point device using ifr_dstaddr. For compatibility, only AF_INET addresses are accepted or returned. Setting the destination address is a privileged operation.
Get or set the broadcast address for a device using ifr_brdaddr. For compatibility, only AF_INET addresses are accepted or returned. Setting the broadcast address is a privileged operation.
Get or set the network mask for a device using ifr_netmask. For compatibility, only AF_INET addresses are accepted or returned. Setting the network mask is a privileged operation.
Get or set the metric of the device using ifr_metric. This is currently not implemented; it sets ifr_metric to 0 if you attempt to read it and returns EOPNOTSUPP if you attempt to set it.
Get or set the MTU (Maximum Transfer Unit) of a device using ifr_mtu. Setting the MTU is a privileged operation. Setting the MTU to too small values may cause kernel crashes.
Get or set the hardware address of a device using ifr_hwaddr. The hardware address is specified in a struct sockaddr. sa_family contains the ARPHRD_* device type, sa_data the L2 hardware address starting from byte 0. Setting the hardware address is a privileged operation.
Set the hardware broadcast address of a device from ifr_hwaddr. This is a privileged operation.
Get or set the interface's hardware parameters using ifr_map. Setting the parameters is a privileged operation.
struct ifmap {
unsigned long mem_start;
unsigned long mem_end;
unsigned short base_addr;
unsigned char irq;
unsigned char dma;
unsigned char port;
};
The interpretation of the ifmap structure depends on the device driver and the architecture.
Add an address to or delete an address from the device's link layer multicast filters using ifr_hwaddr. These are privileged operations. See also packet(7) for an alternative.
Get or set the transmit queue length of a device using ifr_qlen. Setting the transmit queue length is a privileged operation.
Changes the name of the interface specified in ifr_name to ifr_newname. This is a privileged operation. It is allowed only when the interface is not up.
Return a list of interface (network layer) addresses. This currently means only addresses of the AF_INET (IPv4) family for compatibility. Unlike the others, this ioctl passes an ifconf structure:
struct ifconf {
int ifc_len; /* size of buffer */
union {
char *ifc_buf; /* buffer address */
struct ifreq *ifc_req; /* array of structures */
};
};
If ifc_req is NULL, SIOCGIFCONF returns the necessary buffer size in bytes for receiving all available addresses in ifc_len. Otherwise, ifc_req contains a pointer to an array of ifreq structures to be filled with all currently active L3 interface addresses. ifc_len contains the size of the array in bytes. Within each ifreq structure, ifr_name will receive the interface name, and ifr_addr the address. The actual number of bytes transferred is returned in ifc_len.
If the size specified by ifc_len is insufficient to store all the addresses, the kernel will skip the exceeding ones and return success. There is no reliable way of detecting this condition once it has occurred. It is therefore recommended to either determine the necessary buffer size beforehand by calling SIOCGIFCONF with ifc_req set to NULL, or to retry the call with a bigger buffer whenever ifc_len upon return differs by less than sizeof(struct ifreq) from its original value.
If an error occurs accessing the ifconf or ifreq structures, EFAULT will be returned.
Most protocols support their own ioctls to configure protocol-specific interface options. See the protocol man pages for a description. For configuring IP addresses, see ip(7).
In addition, some devices support private ioctls. These are not described here.
SIOCGIFCONF and the other ioctls that accept or return only AF_INET socket addresses are IP-specific and perhaps should rather be documented in ip(7).
The names of interfaces with no addresses or that don't have the IFF_RUNNING flag set can be found via /proc/net/dev.
Local IPv6 IP addresses can be found via /proc/net or via rtnetlink(7).
glibc 2.1 is missing the ifr_newname macro in <net/if.h>. Add the following to your program as a workaround:
#ifndef ifr_newname
#define ifr_newname ifr_ifru.ifru_slave
#endif
proc(5), capabilities(7), ip(7), rtnetlink(7)
This page is part of release 5.10 of the Linux man-pages project. A description of the project, information about reporting bugs, and the latest version of this page, can be found at https://www.kernel.org/doc/man-pages/.