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cosmopolitan/libc/calls/ioctl.c
Justine Tunney 7e0a09feec
Mint APE Loader v1.5 
This change ports APE Loader to Linux AARCH64, so that Raspberry Pi
users can run programs like redbean, without the executable needing
to modify itself. Progress has also slipped into this change on the
issue of making progress better conforming to user expectations and
industry standards regarding which symbols we're allowed to declare
2023-07-26 13:54:49 -07:00

661 lines
22 KiB
C
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/*-*- mode:c;indent-tabs-mode:nil;c-basic-offset:2;tab-width:8;coding:utf-8 -*-│
│vi: set net ft=c ts=2 sts=2 sw=2 fenc=utf-8 :vi│
╞══════════════════════════════════════════════════════════════════════════════╡
│ Copyright 2020 Justine Alexandra Roberts Tunney │
│ │
│ Permission to use, copy, modify, and/or distribute this software for │
│ any purpose with or without fee is hereby granted, provided that the │
│ above copyright notice and this permission notice appear in all copies. │
│ │
│ THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL │
│ WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED │
│ WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE │
│ AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL │
│ DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR │
│ PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER │
│ TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR │
│ PERFORMANCE OF THIS SOFTWARE. │
╚─────────────────────────────────────────────────────────────────────────────*/
#include "libc/assert.h"
#include "libc/calls/internal.h"
#include "libc/calls/syscall-sysv.internal.h"
#include "libc/calls/termios.h"
#include "libc/dce.h"
#include "libc/errno.h"
#include "libc/intrin/bits.h"
#include "libc/intrin/cmpxchg.h"
#include "libc/intrin/strace.internal.h"
#include "libc/intrin/weaken.h"
#include "libc/macros.internal.h"
#include "libc/mem/alloca.h"
#include "libc/mem/mem.h"
#include "libc/nt/errors.h"
#include "libc/nt/iphlpapi.h"
#include "libc/nt/runtime.h"
#include "libc/nt/struct/ipadapteraddresses.h"
#include "libc/nt/winsock.h"
#include "libc/runtime/runtime.h"
#include "libc/sock/internal.h"
#include "libc/sock/struct/ifconf.h"
#include "libc/sock/struct/ifreq.h"
#include "libc/sock/struct/sockaddr.h"
#include "libc/str/str.h"
#include "libc/sysv/consts/af.h"
#include "libc/sysv/consts/fio.h"
#include "libc/sysv/consts/iff.h"
#include "libc/sysv/consts/o.h"
#include "libc/sysv/consts/sio.h"
#include "libc/sysv/consts/termios.h"
#include "libc/sysv/errfuns.h"
/* Maximum number of unicast addresses handled for each interface */
#define MAX_UNICAST_ADDR 32
#define MAX_NAME_CLASH ((int)('z' - 'a')) /* Allow a..z */
static struct HostAdapterInfoNode {
struct HostAdapterInfoNode *next;
char name[IFNAMSIZ]; /* Obtained from FriendlyName */
struct sockaddr unicast;
struct sockaddr netmask;
struct sockaddr broadcast;
short flags;
} * __hostInfo;
static int ioctl_default(int fd, unsigned long request, ...) {
int rc;
void *arg;
va_list va;
int64_t handle;
va_start(va, request);
arg = va_arg(va, void *);
va_end(va);
if (!IsWindows()) {
return sys_ioctl(fd, request, arg);
} else if (__isfdopen(fd)) {
if (g_fds.p[fd].kind == kFdSocket) {
handle = __getfdhandleactual(fd);
if ((rc = _weaken(__sys_ioctlsocket_nt)(handle, request, arg)) != -1) {
return rc;
} else {
return _weaken(__winsockerr)();
}
} else {
return eopnotsupp();
}
} else {
return ebadf();
}
}
/* Frees all the nodes of the _hostInfo */
static textwindows void freeHostInfo(void) {
struct HostAdapterInfoNode *next, *node = __hostInfo;
if (_weaken(free)) {
while (node) {
next = node->next;
_weaken(free)(node);
node = next;
}
}
__hostInfo = NULL;
}
/* Given a short adapter name, look into __hostInfo to see if there is
* an adapter with the same name. Returns the pointer to the HostAdapterInfoNode
* if found, or NULL if not found
*/
static textwindows struct HostAdapterInfoNode *findAdapterByName(
const char *name) {
struct HostAdapterInfoNode *node = __hostInfo;
while (node) {
if (!strncmp(name, node->name, IFNAMSIZ)) {
return node;
}
node = node->next;
}
return NULL;
}
/* Creates a new HostAdapterInfoNode object, initializes it from
* the given adapter, unicast address and address prefixes
* and insert it in the __hostInfo.
* Increments the pointers to the unicast addresses and
* the address prefixes
* Returns NULL if an error occurred or the newly created
* HostAdapterInfoNode object (last in the list)
*/
static textwindows struct HostAdapterInfoNode *appendHostInfo(
struct HostAdapterInfoNode *parentInfoNode,
const char *baseName, /* Max length = IFNAMSIZ-1 */
const struct NtIpAdapterAddresses
*aa, /* Top level adapter object being processed */
struct NtIpAdapterUnicastAddress *
*ptrUA, /* Ptr to ptr to unicast address list node */
struct NtIpAdapterPrefix *
*ptrAP, /* Ptr to ptr to Adapter prefix list node */
int count) { /* count is used to create a unique name in case of alias */
struct HostAdapterInfoNode *temp;
struct HostAdapterInfoNode *node;
uint32_t ip, netmask, broadcast;
struct sockaddr_in *a;
int attemptNum;
if (!_weaken(calloc) || !(node = _weaken(calloc)(1, sizeof(*node)))) {
errno = ENOMEM;
return NULL;
}
memcpy(node->name, baseName, IFNAMSIZ);
/* Are there more than a single unicast address ? */
if (count > 0 || ((*ptrUA)->Next != NULL)) {
/* Yes, compose it using <baseName>:<count> */
size_t nameLen = strlen(node->name);
if (nameLen + 2 > IFNAMSIZ - 2) {
/* Appending the ":x" will exceed the size, need to chop the end */
nameLen -= 2;
}
node->name[nameLen - 2] = ':';
node->name[nameLen - 1] = '0' + count;
node->name[nameLen] = '\0';
}
/* Is there a name clash with other interfaces? */
for (attemptNum = 0; attemptNum < MAX_NAME_CLASH; ++attemptNum) {
temp = findAdapterByName(node->name);
if (!temp) {
break;
} else {
/* Yes, this name has been already used, append an extra
* character to resolve conflict. Note since the max length
* of the string now is IFNAMSIZ-2, we have just enough space for this.
* E.g. 'Ethernet_1' -> 'Ethernet_1a'
*/
size_t pos = strlen(node->name);
node->name[pos] = 'a' + attemptNum;
node->name[pos + 1] = '\0';
/* Try again */
}
}
if (attemptNum == MAX_NAME_CLASH) {
/* Cannot resolve the conflict */
if (_weaken(free)) {
_weaken(free)(node);
}
errno = EEXIST;
return NULL;
}
/* Finally we got a unique short and friendly name */
node->unicast = *((*ptrUA)->Address.lpSockaddr);
if (*ptrUA == aa->FirstUnicastAddress) {
short flags;
/* This is the first unicast address of this interface
* calculate the flags for this adapter. Flags to consider:
* IFF_UP
* IFF_BROADCAST ** TODO: We need to validate
* IFF_LOOPBACK
* IFF_POINTOPOINT
* IFF_MULTICAST
* IFF_RUNNING ** Same as IFF_UP for now
* IFF_PROMISC ** NOT SUPPORTED, unknown how to retrieve it
*/
flags = 0;
if (aa->OperStatus == kNtIfOperStatusUp) flags |= IFF_UP | IFF_RUNNING;
if (aa->IfType == kNtIfTypePpp) flags |= IFF_POINTOPOINT;
if (!(aa->Flags & kNtIpAdapterNoMulticast)) flags |= IFF_MULTICAST;
if (aa->IfType == kNtIfTypeSoftwareLoopback) flags |= IFF_LOOPBACK;
if (aa->FirstPrefix) flags |= IFF_BROADCAST;
node->flags = flags;
} else {
/* Copy from previous node */
node->flags = parentInfoNode->flags;
}
ip = ntohl(
((struct sockaddr_in *)(*ptrUA)->Address.lpSockaddr)->sin_addr.s_addr);
netmask = (uint32_t)-1 << (32 - (*ptrUA)->OnLinkPrefixLength);
broadcast = (ip & netmask) | (~netmask & -1);
a = (struct sockaddr_in *)&node->netmask;
a->sin_family = AF_INET;
a->sin_addr.s_addr = htonl(netmask);
a = (struct sockaddr_in *)&node->broadcast;
a->sin_family = AF_INET;
a->sin_addr.s_addr = htonl(broadcast);
/* Process the prefix and extract the netmask and broadcast */
/* According to the doc:
*
* On Windows Vista and later, the linked IP_ADAPTER_PREFIX
* structures pointed to by the FirstPrefix member include three
* IP adapter prefixes for each IP address assigned to the
* adapter. These include the host IP address prefix, the subnet
* IP address prefix, and the subnet broadcast IP address prefix.
* In addition, for each adapter there is a multicast address
* prefix and a broadcast address prefix.
* -Source: MSDN on IP_ADAPTER_ADDRESSES_LH
*
* For example, interface "Ethernet", with 2 unicast addresses:
*
* - 192.168.1.84
* - 192.168.5.99
*
* The Prefix list has 8 elements:
*
* #1: 192.168.1.0/24 <- Network, use the PrefixLength for netmask
* #2: 192.168.1.84/32 <- Host IP
* #3: 192.168.1.255/32 <- Subnet broadcast
*
* #4: 192.168.5.0/24 <- Network
* #5: 192.168.5.99/32 <- Host IP
* #6: 192.168.5.255/32 <- Subnet broadcast
*
* #7: 224.0.0.0/4 <- Multicast
* #8: 255.255.255.255/32 <- Broadcast
*/
if (ptrAP && *ptrAP) {
*ptrAP = (*ptrAP)->Next; /* skip net ip */
if (*ptrAP) {
*ptrAP = (*ptrAP)->Next; /* skip host ip */
if (*ptrAP) {
node->broadcast = *((*ptrAP)->Address.lpSockaddr);
}
}
}
*ptrUA = (*ptrUA)->Next;
/* Append this node to the last node (if any) */
if (parentInfoNode) {
parentInfoNode->next = node;
}
/* Success */
return node;
}
/* Returns -1 in case of failure */
static textwindows int createHostInfo(
struct NtIpAdapterAddresses *firstAdapter) {
static bool once;
struct NtIpAdapterAddresses *aa;
struct NtIpAdapterUnicastAddress *ua;
struct NtIpAdapterPrefix *ap;
struct HostAdapterInfoNode *node = NULL;
char baseName[IFNAMSIZ];
char name[IFNAMSIZ];
int count, i;
/* __hostInfo must be empty */
unassert(__hostInfo == NULL);
for (aa = firstAdapter; aa; aa = aa->Next) {
/* Skip all the interfaces with no address and the ones that are not AF_INET
*/
if (!aa->FirstUnicastAddress ||
aa->FirstUnicastAddress->Address.lpSockaddr->sa_family != AF_INET) {
continue;
}
/* Use max IFNAMSIZ-1 chars, leave the last char for eventual conflicts */
tprecode16to8(baseName, IFNAMSIZ - 1, aa->FriendlyName);
baseName[IFNAMSIZ - 2] = '\0';
/* Replace any space with a '_' */
for (i = 0; i < IFNAMSIZ - 2; ++i) {
if (baseName[i] == ' ') baseName[i] = '_';
if (!baseName[i]) break;
}
for (count = 0, ua = aa->FirstUnicastAddress, ap = aa->FirstPrefix;
(ua != NULL) && (count < MAX_UNICAST_ADDR); ++count) {
node = appendHostInfo(node, baseName, aa, &ua, &ap, count);
if (!node) goto err;
if (!__hostInfo) {
__hostInfo = node;
if (_cmpxchg(&once, false, true)) {
atexit(freeHostInfo);
}
}
}
/* Note: do we need to process the remaining adapter prefix?
* ap - points to broadcast addr
* ap->Next - points to interface multicast addr
* Ignoring them for now
*/
}
return 0;
err:
freeHostInfo();
return -1;
}
static textwindows int readAdapterAddresses(void) {
uint32_t size, rc;
struct NtIpAdapterAddresses *aa = NULL;
/*
* Calculate the required data size
* Note: alternatively you can use AF_UNSPEC to also return IPv6 interfaces
*/
rc = GetAdaptersAddresses(AF_INET,
kNtGaaFlagSkipAnycast | kNtGaaFlagSkipMulticast |
kNtGaaFlagSkipDnsServer |
kNtGaaFlagIncludePrefix,
NULL, /* Reserved */
NULL, /* Ptr */
&size);
if (rc != kNtErrorBufferOverflow) {
ebadf();
goto err;
}
if (!_weaken(malloc) ||
!(aa = (struct NtIpAdapterAddresses *)_weaken(malloc)(size))) {
enomem();
goto err;
}
/* Re-run GetAdaptersAddresses this time with a valid buffer */
rc = GetAdaptersAddresses(AF_INET,
kNtGaaFlagSkipAnycast | kNtGaaFlagSkipMulticast |
kNtGaaFlagSkipDnsServer |
kNtGaaFlagIncludePrefix,
// kNtGaaFlagIncludePrefix,
NULL, aa, &size);
if (rc != kNtErrorSuccess) {
errno = GetLastError();
goto err;
}
if (createHostInfo(aa) == -1) {
goto err;
}
if (_weaken(free)) {
_weaken(free)(aa);
}
return 0;
err:
if (_weaken(free)) {
_weaken(free)(aa);
}
freeHostInfo();
return -1;
}
static textwindows int ioctl_siocgifconf_nt(int fd, struct ifconf *ifc) {
struct ifreq *ptr;
struct NtIpAdapterAddresses *aa;
struct HostAdapterInfoNode *node;
if (__hostInfo) {
freeHostInfo();
}
if (readAdapterAddresses() == -1) {
return -1;
}
for (ptr = ifc->ifc_req, node = __hostInfo;
(((char *)(ptr + 1) - ifc->ifc_buf) < ifc->ifc_len) && node;
ptr++, node = node->next) {
memcpy(ptr->ifr_name, node->name, IFNAMSIZ);
memcpy(&ptr->ifr_addr, &node->unicast, sizeof(struct sockaddr));
}
ifc->ifc_len = (char *)ptr - ifc->ifc_buf;
return 0;
}
/**
* Returns unicast addresses.
*/
static textwindows int ioctl_siocgifaddr_nt(int fd, struct ifreq *ifr) {
struct HostAdapterInfoNode *node;
node = findAdapterByName(ifr->ifr_name);
if (!node) return ebadf();
memcpy(&ifr->ifr_addr, &node->unicast, sizeof(struct sockaddr));
return 0;
}
/* Performs the SIOCGIFFLAGS operation */
static textwindows int ioctl_siocgifflags_nt(int fd, struct ifreq *ifr) {
struct HostAdapterInfoNode *node;
node = findAdapterByName(ifr->ifr_name);
if (!node) return ebadf();
ifr->ifr_flags = node->flags;
return 0;
}
/* Performs the SIOCGIFNETMASK operation */
static textwindows int ioctl_siocgifnetmask_nt(int fd, struct ifreq *ifr) {
struct HostAdapterInfoNode *node;
node = findAdapterByName(ifr->ifr_name);
if (!node) return ebadf();
memcpy(&ifr->ifr_netmask, &node->netmask, sizeof(struct sockaddr));
return 0;
}
/**
* Returns broadcast address.
*/
static textwindows int ioctl_siocgifbrdaddr_nt(int fd, struct ifreq *ifr) {
struct HostAdapterInfoNode *node;
node = findAdapterByName(ifr->ifr_name);
if (!node) return ebadf();
memcpy(&ifr->ifr_broadaddr, &node->broadcast, sizeof(struct sockaddr));
return 0;
}
static int ioctl_siocgifconf_sysv(int fd, struct ifconf *ifc) {
/*
* We're 100% compatible with Linux.
* BSD ABIs mainly differ by having sockaddr::sa_len
* XNU uses a 32-bit length in a struct that's packed!
*/
int i, rc, fam;
char *b, *p, *e;
char ifcBsd[16];
struct ifreq *req;
uint32_t bufLen, ip;
size_t numReq, bufMax;
if (IsLinux()) {
return sys_ioctl(fd, SIOCGIFCONF, ifc);
}
bufMax = 15000; /* conservative guesstimate */
b = alloca(bufMax);
memcpy(ifcBsd, &bufMax, 8); /* ifc_len */
memcpy(ifcBsd + (IsXnu() ? 4 : 8), &b, 8); /* ifc_buf */
if ((rc = sys_ioctl(fd, SIOCGIFCONF, &ifcBsd)) != -1) {
/*
* On XNU the size of the struct ifreq is different than Linux.
* On Linux is fixed (40 bytes), but on XNU the struct sockaddr
* has variable length, making the whole struct ifreq a variable
* sized record.
*/
memcpy(&bufLen, b, 4);
req = ifc->ifc_req;
for (p = b, e = p + MIN(bufMax, READ32LE(ifcBsd)); p + 16 + 16 <= e;
p += IsBsd() ? 16 + MAX(16, p[16] & 255) : 40) {
fam = p[IsBsd() ? 17 : 16] & 255;
if (fam != AF_INET) continue;
ip = READ32BE(p + 20);
bzero(req, sizeof(*req));
memcpy(req->ifr_name, p, 16);
memcpy(&req->ifr_addr, p + 16, 16);
req->ifr_addr.sa_family = fam;
((struct sockaddr_in *)&req->ifr_addr)->sin_addr.s_addr = htonl(ip);
++req;
}
ifc->ifc_len = (char *)req - ifc->ifc_buf; /* Adjust len */
}
return rc;
}
static inline void ioctl_sockaddr2linux(void *saddr) {
char *p;
if (saddr) {
p = saddr;
p[0] = p[1];
p[1] = 0;
}
}
/*
* Used for all the ioctl that returns sockaddr structure that
* requires adjustment between Linux and XNU
*/
static int ioctl_siocgifaddr_sysv(int fd, uint64_t op, struct ifreq *ifr) {
if (sys_ioctl(fd, op, ifr) == -1) return -1;
if (IsBsd()) ioctl_sockaddr2linux(&ifr->ifr_addr);
return 0;
}
static int ioctl_siocgifconf(int fd, void *arg) {
if (!IsWindows()) {
return ioctl_siocgifconf_sysv(fd, arg);
} else {
return ioctl_siocgifconf_nt(fd, arg);
}
}
static int ioctl_siocgifaddr(int fd, void *arg) {
if (!IsWindows()) {
return ioctl_siocgifaddr_sysv(fd, SIOCGIFADDR, arg);
} else {
return ioctl_siocgifaddr_nt(fd, arg);
}
}
static int ioctl_siocgifnetmask(int fd, void *arg) {
if (!IsWindows()) {
return ioctl_siocgifaddr_sysv(fd, SIOCGIFNETMASK, arg);
} else {
return ioctl_siocgifnetmask_nt(fd, arg);
}
}
static int ioctl_siocgifbrdaddr(int fd, void *arg) {
if (!IsWindows()) {
return ioctl_siocgifaddr_sysv(fd, SIOCGIFBRDADDR, arg);
} else {
return ioctl_siocgifbrdaddr_nt(fd, arg);
}
}
static int ioctl_siocgifdstaddr(int fd, void *arg) {
if (!IsWindows()) {
return ioctl_siocgifaddr_sysv(fd, SIOCGIFDSTADDR, arg);
} else {
return enotsup();
/* Not supported - Unknown how to find out how to retrieve the destination
* address of a PPP from the interface list returned by the
* GetAdaptersAddresses function
*
return ioctl_siocgifdstaddr_nt(fd, arg);
*/
}
}
static int ioctl_siocgifflags(int fd, void *arg) {
if (!IsWindows()) {
/* Both XNU and Linux are for once compatible here... */
return ioctl_default(fd, SIOCGIFFLAGS, arg);
} else {
return ioctl_siocgifflags_nt(fd, arg);
}
}
/**
* Performs special i/o operation on file descriptor.
*
* @param request can be any of:
*
* - `FIONREAD` takes an `int *` and returns how many bytes of input
* are available on a terminal or socket, waiting to be read. On
* Windows this currently won't work for console file descriptors.
*
* - `TIOCGWINSZ` populates `struct winsize *` with the dimensions
* of your teletypewriter. It's an alias for tcgetwinsize().
*
* - `TIOCSWINSZ` with the dimensions of your teletypewriter to
* `struct winsize *`. It's an alias for tcsetwinsize().
*
* - `TIOCOUTQ` takes an `int *` and returns the number of bytes in
* the terminal's output buffer. Only available on UNIX.
*
* - `TIOCSTI` takes a `const char *` and may be used to fake input
* to a tty. This API isn't available on OpenBSD. Only available
* on UNIX.
*
* - `TIOCNOTTY` takes an `int tty_fd` arg and makes it the
* controlling terminal of the calling process, which should have
* called setsid() beforehand.
*
* - `TIOCNOTTY` to give up the controlling terminal. Only available
* on UNIX.
*
* - `TIOCNXCL` to give up exclusive mode on terminal. Only
* available on UNIX.
*
* - `SIOCGIFCONF` takes an struct ifconf object of a given size,
* whose arg is `struct ifconf *`. It implements the Linux style
* and modifies the following:
* - ifc_len: set it to the number of valid ifreq structures
* representingthe interfaces
* - ifc_ifcu.ifcu_req: sets the name of the interface for each
* interface
* The ifc_len is an input/output parameter: set it to the total
* size of the ifcu_buf (ifcu_req) buffer on input.
*
* - `SIOCGIFNETMASK` populates a `struct ifconf *` record with the
* network interface mask. This data structure should be obtained
* by calling `SIOCGIFCONF`.
*
* - `SIOCGIFBRDADDR` populates a `struct ifconf *` record with the
* network broadcast addr. This data structure should be obtained
* by calling `SIOCGIFCONF`.
*
* - `FIONBIO` isn't polyfilled; use `fcntl(F_SETFL, O_NONBLOCK)`
* - `FIOCLEX` isn't polyfilled; use `fcntl(F_SETFD, FD_CLOEXEC)`
* - `FIONCLEX` isn't polyfilled; use `fcntl(F_SETFD, 0)`
* - `TCGETS` isn't polyfilled; use tcgetattr()
* - `TCSETS` isn't polyfilled; use tcsetattr()
* - `TCSETSW` isn't polyfilled; use tcsetattr()
* - `TCSETSF` isn't polyfilled; use tcsetattr()
* - `TCXONC` isn't polyfilled; use tcflow()
* - `TCSBRK` isn't polyfilled; use tcdrain()
* - `TCFLSH` isn't polyfilled; use tcflush()
* - `TIOCGPTN` isn't polyfilled; use ptsname()
* - `TIOCGSID` isn't polyfilled; use tcgetsid()
* - `TCSBRK` isn't polyfilled; use tcsendbreak()
* - `TCSBRK` isn't polyfilled; use tcsendbreak()
* - `TIOCSPGRP` isn't polyfilled; use tcsetpgrp()
* - `TIOCSPTLCK` isn't polyfilled; use unlockpt()
*
* @restartable
* @vforksafe
*/
int ioctl(int fd, unsigned long request, ...) {
int rc;
void *arg;
va_list va;
va_start(va, request);
arg = va_arg(va, void *);
va_end(va);
if (request == FIONBIO) {
rc = ioctl_default(fd, request, arg);
} else if (request == TIOCGWINSZ) {
rc = tcgetwinsize(fd, arg);
} else if (request == TIOCSWINSZ) {
rc = tcsetwinsize(fd, arg);
} else if (request == SIOCGIFCONF) {
rc = ioctl_siocgifconf(fd, arg);
} else if (request == SIOCGIFADDR) {
rc = ioctl_siocgifaddr(fd, arg);
} else if (request == SIOCGIFNETMASK) {
rc = ioctl_siocgifnetmask(fd, arg);
} else if (request == SIOCGIFBRDADDR) {
rc = ioctl_siocgifbrdaddr(fd, arg);
} else if (request == SIOCGIFDSTADDR) {
rc = ioctl_siocgifdstaddr(fd, arg);
} else if (request == SIOCGIFFLAGS) {
rc = ioctl_siocgifflags(fd, arg);
} else {
rc = ioctl_default(fd, request, arg);
}
STRACE("ioctl(%d, %#lx, %p) → %d% m", fd, request, arg, rc);
return rc;
}
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