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|
/* ifconfig.c - Configure network interface.
*
* Copyright 2012 Ranjan Kumar <ranjankumar.bth@gmail.com>
* Copyright 2012 Kyungwan Han <asura321@gamil.com>
* Reviewed by Kyungsu Kim <kaspyx@gmail.com>
*
* Not in SUSv4.
*
* Obsolete fields included for historical purposes:
* irq|io_addr|mem_start ADDR - micromanage obsolete hardware
* outfill|keepalive INTEGER - SLIP analog dialup line quality monitoring
* metric INTEGER - added to Linux 0.9.10 with comment "never used", still true
USE_IFCONFIG(NEWTOY(ifconfig, "^?aS", TOYFLAG_SBIN))
config IFCONFIG
bool "ifconfig"
default y
help
usage: ifconfig [-aS] [INTERFACE [ACTION...]]
Display or configure network interface.
With no arguments, display active interfaces. First argument is interface
to operate on, one argument by itself displays that interface.
-a All interfaces displayed, not just active ones
-S Short view, one line per interface
Standard ACTIONs to perform on an INTERFACE:
ADDR[/MASK] - set IPv4 address (1.2.3.4/5) and activate interface
add|del ADDR[/LEN] - add/remove IPv6 address (1111::8888/128)
up|down - activate or deactivate interface
Advanced ACTIONs (default values usually suffice):
default - remove IPv4 address
netmask ADDR - set IPv4 netmask via 255.255.255.0 instead of /24
txqueuelen LEN - number of buffered packets before output blocks
mtu LEN - size of outgoing packets (Maximum Transmission Unit)
broadcast ADDR - Set broadcast address
pointopoint ADDR - PPP and PPPOE use this instead of "route add default gw"
hw TYPE ADDR - set hardware (mac) address (type = ether|infiniband)
Flags you can set on an interface (or -remove by prefixing with -):
arp - don't use Address Resolution Protocol to map LAN routes
promisc - don't discard packets that aren't to this LAN hardware address
multicast - force interface into multicast mode if the driver doesn't
allmulti - promisc for multicast packets
*/
#define FOR_ifconfig
#include "toys.h"
#include <net/if_arp.h>
#include <net/ethernet.h>
GLOBALS(
int sockfd;
)
// Convert hostname to binary address for AF_INET or AF_INET6
// return /prefix (or range max if none)
static int get_addrinfo(char *host, sa_family_t af, void *addr)
{
struct addrinfo hints, *result, *rp = 0;
int status, len;
char *from, *slash;
memset(&hints, 0 , sizeof(struct addrinfo));
hints.ai_family = af;
hints.ai_socktype = SOCK_STREAM;
slash = strchr(host, '/');
if (slash) *slash = 0;
status = getaddrinfo(host, NULL, &hints, &result);
if (!status)
for (rp = result; rp; rp = rp->ai_next)
if (rp->ai_family == af) break;
if (!rp) error_exit("bad address '%s' : %s", host, gai_strerror(status));
// ai_addr isn't struct in_addr or in6_addr, it's struct sockaddr. Of course.
// You'd think ipv4 and ipv6 would have some basic compatibility, but no.
from = ((char *)rp->ai_addr) + 4;
if (af == AF_INET6) {
len = 16;
from += 4; // skip "flowinfo" field ipv6 puts before address
} else len = 4;
memcpy(addr, from, len);
freeaddrinfo(result);
len = -1;
if (slash) len = atolx_range(slash+1, 0, (af == AF_INET) ? 32 : 128);
return len;
}
static void display_ifconfig(char *name, int always, unsigned long long val[])
{
struct ifreq ifre;
struct sockaddr_in *si = (void *)&ifre.ifr_addr;
struct {
int type;
char *title;
} types[] = {
{ARPHRD_LOOPBACK, "Local Loopback"}, {ARPHRD_ETHER, "Ethernet"},
{ARPHRD_PPP, "Point-to-Point Protocol"}, {ARPHRD_INFINIBAND, "InfiniBand"},
{ARPHRD_SIT, "IPv6-in-IPv4"}, {-1, "UNSPEC"}
};
int i;
char *pp;
FILE *fp;
short flags;
xstrncpy(ifre.ifr_name, name, IFNAMSIZ);
if (ioctl(TT.sockfd, SIOCGIFFLAGS, &ifre)<0) perror_exit_raw(name);
flags = ifre.ifr_flags;
if (!always && !(flags & IFF_UP)) return;
if (toys.optflags&FLAG_S) {
unsigned uu = 0;
int len;
ioctl(TT.sockfd, SIOCGIFADDR, &ifre);
len = printf("%*s %s", -9, name, inet_ntoa(si->sin_addr));
if (!ioctl(TT.sockfd, SIOCGIFNETMASK, &ifre))
uu = htonl(*(unsigned *)&(si->sin_addr));
for (i = 0; uu; i++) uu <<= 1;
len += printf("/%d", i);
printf("%*c", 26-len, ' ');
}
// query hardware type and hardware address
xioctl(TT.sockfd, SIOCGIFHWADDR, &ifre);
if (toys.optflags&FLAG_S)
for (i=0; i<6; i++) printf(":%02x"+!i, ifre.ifr_hwaddr.sa_data[i]);
else {
for (i=0; i < ARRAY_LEN(types)-1; i++)
if (ifre.ifr_hwaddr.sa_family == types[i].type) break;
xprintf("%-9s Link encap:%s ", name, types[i].title);
if(ifre.ifr_hwaddr.sa_family == ARPHRD_ETHER) {
xprintf("HWaddr ");
for (i=0; i<6; i++) xprintf(":%02x"+!i, ifre.ifr_hwaddr.sa_data[i]);
}
sprintf(toybuf, "/sys/class/net/%.15s/device/driver", name);
if (readlink0(toybuf, toybuf, sizeof(toybuf))>0)
if ((pp = strrchr(toybuf, '/'))) xprintf(" Driver %s", pp+1);
xputc('\n');
}
// If an address is assigned record that.
ifre.ifr_addr.sa_family = AF_INET;
memset(&ifre.ifr_addr, 0, sizeof(ifre.ifr_addr));
ioctl(TT.sockfd, SIOCGIFADDR, &ifre);
pp = (char *)&ifre.ifr_addr;
for (i = 0; i<sizeof(ifre.ifr_addr); i++) if (pp[i]) break;
if (!(toys.optflags&FLAG_S) && i != sizeof(ifre.ifr_addr)) {
struct sockaddr_in *si = (struct sockaddr_in *)&ifre.ifr_addr;
struct {
char *name;
int flag, ioctl;
} addr[] = {
{"addr", 0, 0},
{"P-t-P", IFF_POINTOPOINT, SIOCGIFDSTADDR},
{"Bcast", IFF_BROADCAST, SIOCGIFBRDADDR},
{"Mask", 0, SIOCGIFNETMASK}
};
// TODO: can this be ipv6? Why are we checking here when ipv6 source later?
xprintf("%10c%s", ' ', (si->sin_family == AF_INET) ? "inet" :
(si->sin_family == AF_INET6) ? "inet6" : "unspec");
for (i=0; i<ARRAY_LEN(addr); i++) {
if (!addr[i].flag || (flags & addr[i].flag)) {
if (addr[i].ioctl && ioctl(TT.sockfd, addr[i].ioctl, &ifre))
si->sin_family = 0;
xprintf(" %s:%s ", addr[i].name,
(si->sin_family == 0xFFFF || !si->sin_family)
? "[NOT SET]" : inet_ntoa(si->sin_addr));
}
}
xputc('\n');
}
fp = fopen(pp = "/proc/net/if_inet6", "r");
if (fp) {
char iface_name[IFNAMSIZ];
int plen, iscope;
while (fgets(toybuf, sizeof(toybuf), fp)) {
int nitems;
char ipv6_addr[40];
nitems = sscanf(toybuf, "%32s %*08x %02x %02x %*02x %15s\n",
ipv6_addr, &plen, &iscope, iface_name);
if (nitems<0 && feof(fp)) break;
if (nitems != 4) perror_exit("bad %s", pp);
if (!strcmp(name, iface_name)) {
struct sockaddr_in6 s6;
char *ptr = ipv6_addr+sizeof(ipv6_addr)-1;
// convert giant hex string into colon-spearated ipv6 address by
// inserting ':' every 4 characters.
for (i = 32; i; i--)
if ((*(ptr--) = ipv6_addr[i])) if (!(i&3)) *(ptr--) = ':';
// Convert to binary and back to get abbreviated :: version
if (inet_pton(AF_INET6, ipv6_addr, (void *)&s6.sin6_addr) > 0) {
if (inet_ntop(AF_INET6, &s6.sin6_addr, toybuf, sizeof(toybuf))) {
char *scopes[] = {"Global","Host","Link","Site","Compat"},
*scope = "Unknown";
for (i=0; i<ARRAY_LEN(scopes); i++)
if (iscope == (!!i)<<(i+3)) scope = scopes[i];
if (toys.optflags&FLAG_S) xprintf(" %s/%d@%c", toybuf, plen,*scope);
else xprintf("%10cinet6 addr: %s/%d Scope: %s\n",
' ', toybuf, plen, scope);
}
}
}
}
fclose(fp);
}
if (toys.optflags&FLAG_S) {
xputc('\n');
return;
}
xprintf("%10c", ' ');
if (flags) {
unsigned short mask = 1;
char **s, *str[] = {
"UP", "BROADCAST", "DEBUG", "LOOPBACK", "POINTOPOINT", "NOTRAILERS",
"RUNNING", "NOARP", "PROMISC", "ALLMULTI", "MASTER", "SLAVE", "MULTICAST",
"PORTSEL", "AUTOMEDIA", "DYNAMIC", NULL
};
for (s = str; *s; s++) {
if (flags & mask) xprintf("%s ", *s);
mask = mask << 1;
}
} else xprintf("[NO FLAGS] ");
if (ioctl(TT.sockfd, SIOCGIFMTU, &ifre) < 0) ifre.ifr_mtu = 0;
xprintf(" MTU:%d", ifre.ifr_mtu);
if (ioctl(TT.sockfd, SIOCGIFMETRIC, &ifre) < 0) ifre.ifr_metric = 0;
if (!ifre.ifr_metric) ifre.ifr_metric = 1;
xprintf(" Metric:%d", ifre.ifr_metric);
// non-virtual interface
if (val) {
char *label[] = {"RX bytes", "RX packets", "errors", "dropped", "overruns",
"frame", 0, 0, "TX bytes", "TX packets", "errors", "dropped", "overruns",
"collisions", "carrier", 0, "txqueuelen"};
signed char order[] = {-1, 1, 2, 3, 4, 5, -1, 9, 10, 11, 12, 14, -1,
13, 16, -1, 0, 8};
int i;
// Query txqueuelen
if (ioctl(TT.sockfd, SIOCGIFTXQLEN, &ifre) >= 0) val[16] = ifre.ifr_qlen;
else val[16] = -1;
for (i = 0; i<sizeof(order); i++) {
int j = order[i];
if (j < 0) xprintf("\n%10c", ' ');
else xprintf("%s:%llu ", label[j], val[j]);
}
}
xputc('\n');
if(!ioctl(TT.sockfd, SIOCGIFMAP, &ifre) && (ifre.ifr_map.irq ||
ifre.ifr_map.mem_start || ifre.ifr_map.dma || ifre.ifr_map.base_addr))
{
xprintf("%10c", ' ');
if(ifre.ifr_map.irq) xprintf("Interrupt:%d ", ifre.ifr_map.irq);
if(ifre.ifr_map.base_addr >= 0x100) // IO_MAP_INDEX
xprintf("Base address:0x%x ", ifre.ifr_map.base_addr);
if(ifre.ifr_map.mem_start)
xprintf("Memory:%lx-%lx ", ifre.ifr_map.mem_start, ifre.ifr_map.mem_end);
if(ifre.ifr_map.dma) xprintf("DMA chan:%x ", ifre.ifr_map.dma);
xputc('\n');
}
xputc('\n');
}
static void show_iface(char *iface_name)
{
char *name;
struct string_list *ifaces = 0, *sl;
int i, j;
FILE *fp;
fp = xfopen("/proc/net/dev", "r");
for (i=0; fgets(toybuf, sizeof(toybuf), fp); i++) {
char *buf = toybuf;
unsigned long long val[17];
if (i<2) continue;
while (isspace(*buf)) buf++;
name = strsep(&buf, ":");
if(!buf) error_exit("bad name %s", name);
errno = 0;
for (j=0; j<16 && !errno; j++) val[j] = strtoll(buf, &buf, 0);
if (errno) perror_exit("bad %s at %s", name, buf);
if (iface_name) {
if (!strcmp(iface_name, name)) {
display_ifconfig(iface_name, 1, val);
return;
}
} else {
sl = xmalloc(sizeof(*sl)+strlen(name)+1);
strcpy(sl->str, name);
sl->next = ifaces;
ifaces = sl;
display_ifconfig(sl->str, toys.optflags & FLAG_a, val);
}
}
fclose(fp);
if (iface_name) display_ifconfig(iface_name, 1, 0);
else {
struct ifconf ifcon;
struct ifreq *ifre;
int num;
// Loop until buffer's big enough
ifcon.ifc_buf = NULL;
for (num = 30;;num += 10) {
ifcon.ifc_len = sizeof(struct ifreq)*num;
ifcon.ifc_buf = xrealloc(ifcon.ifc_buf, ifcon.ifc_len);
xioctl(TT.sockfd, SIOCGIFCONF, &ifcon);
if (ifcon.ifc_len != sizeof(struct ifreq)*num) break;
}
ifre = ifcon.ifc_req;
for(num = 0; num < ifcon.ifc_len && ifre; num += sizeof(struct ifreq), ifre++)
{
// Skip duplicates
for(sl = ifaces; sl; sl = sl->next)
if(!strcmp(sl->str, ifre->ifr_name)) break;
if(!sl) display_ifconfig(ifre->ifr_name, toys.optflags & FLAG_a, 0);
}
free(ifcon.ifc_buf);
}
llist_traverse(ifaces, free);
}
// Encode offset and size of field into an int, and make result negative
#define IFREQ_OFFSZ(x) -(int)((offsetof(struct ifreq, x)<<16) + sizeof(ifre.x))
void ifconfig_main(void)
{
char **argv = toys.optargs;
struct ifreq ifre;
int i;
TT.sockfd = xsocket(AF_INET, SOCK_DGRAM, 0);
if(toys.optc < 2) {
show_iface(*argv);
return;
}
// Open interface
memset(&ifre, 0, sizeof(struct ifreq));
xstrncpy(ifre.ifr_name, *argv, IFNAMSIZ);
// Perform operations on interface
while(*++argv) {
// Table of known operations
struct argh {
char *name;
int on, off; // set, clear
} try[] = {
{0, IFF_UP|IFF_RUNNING, SIOCSIFADDR},
{"up", IFF_UP|IFF_RUNNING, 0},
{"down", 0, IFF_UP},
{"arp", 0, IFF_NOARP},
{"promisc", IFF_PROMISC, 0},
{"allmulti", IFF_ALLMULTI, 0},
{"multicast", IFF_MULTICAST, 0},
{"pointopoint", IFF_POINTOPOINT, SIOCSIFDSTADDR},
{"broadcast", IFF_BROADCAST, SIOCSIFBRDADDR},
{"netmask", 0, SIOCSIFNETMASK},
{"dstaddr", 0, SIOCSIFDSTADDR},
{"mtu", IFREQ_OFFSZ(ifr_mtu), SIOCSIFMTU},
{"keepalive", IFREQ_OFFSZ(ifr_data), SIOCDEVPRIVATE}, // SIOCSKEEPALIVE
{"outfill", IFREQ_OFFSZ(ifr_data), SIOCDEVPRIVATE+2}, // SIOCSOUTFILL
{"metric", IFREQ_OFFSZ(ifr_metric), SIOCSIFMETRIC},
{"txqueuelen", IFREQ_OFFSZ(ifr_qlen), SIOCSIFTXQLEN},
{"mem_start", IFREQ_OFFSZ(ifr_map.mem_start), SIOCSIFMAP},
{"io_addr", IFREQ_OFFSZ(ifr_map.base_addr), SIOCSIFMAP},
{"irq", IFREQ_OFFSZ(ifr_map.irq), SIOCSIFMAP},
{"inet", 0, 0},
{"inet6", 0, 0}
};
char *s = *argv;
int rev = (*s == '-');
s += rev;
// "set hardware address" is oddball enough to special case
if (!strcmp(*argv, "hw")) {
char *hw_addr, *ptr, *p;
struct sockaddr *sock = &ifre.ifr_hwaddr;
int count = 6;
ptr = p = (char *)sock->sa_data;
memset(sock, 0, sizeof(struct sockaddr));
if (argv[1]) {
if (!strcmp("ether", *++argv)) sock->sa_family = ARPHRD_ETHER;
else if (!strcmp("infiniband", *argv)) {
sock->sa_family = ARPHRD_INFINIBAND;
count = 20;
p = ptr = toybuf;
}
}
if (!sock->sa_family || !argv[1]) help_exit("bad hw '%s'", *argv);
hw_addr = *++argv;
// Parse and verify address.
while (*hw_addr && (p-ptr) < count) {
int val, len = 0;
if (*hw_addr == ':') hw_addr++;
sscanf(hw_addr, "%2x%n", &val, &len);
if (!len || len > 2) break; // 1 nibble can be set e.g. C2:79:38:95:D:A
hw_addr += len;
*p++ = val;
}
if ((p-ptr) != count || *hw_addr)
error_exit("bad hw-addr '%s'", *argv);
// the linux kernel's "struct sockaddr" (include/linux/socket.h in the
// kernel source) only has 14 bytes of sa_data, and an infiniband address
// is 20. So if we go through the ioctl, the kernel will truncate
// infiniband addresses, meaning we have to go through sysfs instead.
if (sock->sa_family == ARPHRD_INFINIBAND && !strchr(ifre.ifr_name, '/')) {
int fd;
sprintf(toybuf, "/sys/class/net/%s/address", ifre.ifr_name);
fd = xopen(toybuf, O_RDWR);
xwrite(fd, *argv, strlen(*argv));
close(fd);
} else xioctl(TT.sockfd, SIOCSIFHWADDR, &ifre);
continue;
// Add/remove ipv6 address to interface
} else if (!strcmp(*argv, "add") || !strcmp(*argv, "del")) {
struct ifreq_inet6 {
struct in6_addr addr;
unsigned prefix;
int index;
} ifre6;
int plen, fd6 = xsocket(AF_INET6, SOCK_DGRAM, 0);
if (!argv[1]) help_exit("%s", *argv);
plen = get_addrinfo(argv[1], AF_INET6, &ifre6.addr);
if (plen < 0) plen = 128;
xioctl(fd6, SIOCGIFINDEX, &ifre);
ifre6.index = ifre.ifr_ifindex;
ifre6.prefix = plen;
xioctl(fd6, **(argv++)=='a' ? SIOCSIFADDR : SIOCDIFADDR, &ifre6);
close(fd6);
continue;
// Iterate through table to find/perform operation
} else for (i = 0; i<ARRAY_LEN(try); i++) {
struct argh *t = try+i;
int on = t->on, off = t->off;
if (!t->name) {
if (isdigit(**argv) || !strcmp(*argv, "default")) argv--;
else continue;
} else if (strcmp(t->name, s)) continue;
// Is this an SIOCSI entry?
if ((off|0xff) == 0x89ff) {
if (!rev) {
if (!*++argv) error_exit("%s needs argument", t->name);
// Assign value to ifre field and call ioctl? (via IFREQ_OFFSZ.)
if (on < 0) {
long l = strtoul(*argv, 0, 0);
if (off == SIOCSIFMAP) xioctl(TT.sockfd, SIOCGIFMAP, &ifre);
on = -on;
poke((on>>16) + (char *)&ifre, l, on&15);
xioctl(TT.sockfd, off, &ifre);
break;
} else {
struct sockaddr_in *si = (struct sockaddr_in *)&ifre.ifr_addr;
int mask = -1;
si->sin_family = AF_INET;
if (!strcmp(*argv, "default")) si->sin_addr.s_addr = INADDR_ANY;
else mask = get_addrinfo(*argv, AF_INET, &si->sin_addr);
xioctl(TT.sockfd, off, &ifre);
// Handle /netmask
if (mask >= 0) {
// sin_addr probably isn't unaligned, but just in case...
mask = htonl((~0)<<(32-mask));
memcpy(&si->sin_addr, &mask, 4);
xioctl(TT.sockfd, SIOCSIFNETMASK, &ifre);
}
}
}
off = 0;
}
// Set flags
if (on || off) {
xioctl(TT.sockfd, SIOCGIFFLAGS, &ifre);
ifre.ifr_flags &= ~(rev ? on : off);
ifre.ifr_flags |= (rev ? off : on);
xioctl(TT.sockfd, SIOCSIFFLAGS, &ifre);
}
break;
}
if (i == ARRAY_LEN(try)) help_exit("bad argument '%s'", *argv);
}
close(TT.sockfd);
}
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