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/* SPDX-License-Identifier: LGPL-2.1-or-later */
#pragma once
#include <inttypes.h>
#include <linux/netlink.h>
#include <linux/if_ether.h>
#include <linux/if_infiniband.h>
#include <linux/if_packet.h>
#include <netinet/in.h>
#include <stdbool.h>
#include <stddef.h>
#include <string.h>
#include <sys/socket.h>
#include <sys/types.h>
#include <sys/un.h>
#include "errno-util.h"
#include "in-addr-util.h"
#include "macro.h"
#include "missing_network.h"
#include "missing_socket.h"
#include "sparse-endian.h"
union sockaddr_union {
/* The minimal, abstract version */
struct sockaddr sa;
/* The libc provided version that allocates "enough room" for every protocol */
struct sockaddr_storage storage;
/* Protoctol-specific implementations */
struct sockaddr_in in;
struct sockaddr_in6 in6;
struct sockaddr_un un;
struct sockaddr_nl nl;
struct sockaddr_ll ll;
struct sockaddr_vm vm;
/* Ensure there is enough space to store Infiniband addresses */
uint8_t ll_buffer[offsetof(struct sockaddr_ll, sll_addr) + CONST_MAX(ETH_ALEN, INFINIBAND_ALEN)];
/* Ensure there is enough space after the AF_UNIX sun_path for one more NUL byte, just to be sure that the path
* component is always followed by at least one NUL byte. */
uint8_t un_buffer[sizeof(struct sockaddr_un) + 1];
};
#define SUN_PATH_LEN (sizeof(((struct sockaddr_un){}).sun_path))
typedef struct SocketAddress {
union sockaddr_union sockaddr;
/* We store the size here explicitly due to the weird
* sockaddr_un semantics for abstract sockets */
socklen_t size;
/* Socket type, i.e. SOCK_STREAM, SOCK_DGRAM, ... */
int type;
/* Socket protocol, IPPROTO_xxx, usually 0, except for netlink */
int protocol;
} SocketAddress;
typedef enum SocketAddressBindIPv6Only {
SOCKET_ADDRESS_DEFAULT,
SOCKET_ADDRESS_BOTH,
SOCKET_ADDRESS_IPV6_ONLY,
_SOCKET_ADDRESS_BIND_IPV6_ONLY_MAX,
_SOCKET_ADDRESS_BIND_IPV6_ONLY_INVALID = -EINVAL,
} SocketAddressBindIPv6Only;
#define socket_address_family(a) ((a)->sockaddr.sa.sa_family)
const char* socket_address_type_to_string(int t) _const_;
int socket_address_type_from_string(const char *s) _pure_;
int sockaddr_un_unlink(const struct sockaddr_un *sa);
static inline int socket_address_unlink(const SocketAddress *a) {
return socket_address_family(a) == AF_UNIX ? sockaddr_un_unlink(&a->sockaddr.un) : 0;
}
bool socket_address_can_accept(const SocketAddress *a) _pure_;
int socket_address_listen(
const SocketAddress *a,
int flags,
int backlog,
SocketAddressBindIPv6Only only,
const char *bind_to_device,
bool reuse_port,
bool free_bind,
bool transparent,
mode_t directory_mode,
mode_t socket_mode,
const char *label);
int socket_address_verify(const SocketAddress *a, bool strict) _pure_;
int socket_address_print(const SocketAddress *a, char **p);
bool socket_address_matches_fd(const SocketAddress *a, int fd);
bool socket_address_equal(const SocketAddress *a, const SocketAddress *b) _pure_;
const char* socket_address_get_path(const SocketAddress *a);
bool socket_ipv6_is_supported(void);
bool socket_ipv6_is_enabled(void);
int sockaddr_port(const struct sockaddr *_sa, unsigned *port);
const union in_addr_union *sockaddr_in_addr(const struct sockaddr *sa);
int sockaddr_set_in_addr(union sockaddr_union *u, int family, const union in_addr_union *a, uint16_t port);
int sockaddr_pretty(const struct sockaddr *_sa, socklen_t salen, bool translate_ipv6, bool include_port, char **ret);
int getpeername_pretty(int fd, bool include_port, char **ret);
int getsockname_pretty(int fd, char **ret);
int socknameinfo_pretty(const struct sockaddr *sa, socklen_t salen, char **_ret);
const char* socket_address_bind_ipv6_only_to_string(SocketAddressBindIPv6Only b) _const_;
SocketAddressBindIPv6Only socket_address_bind_ipv6_only_from_string(const char *s) _pure_;
SocketAddressBindIPv6Only socket_address_bind_ipv6_only_or_bool_from_string(const char *s);
int netlink_family_to_string_alloc(int b, char **s);
int netlink_family_from_string(const char *s) _pure_;
bool sockaddr_equal(const union sockaddr_union *a, const union sockaddr_union *b);
int fd_set_sndbuf(int fd, size_t n, bool increase);
static inline int fd_inc_sndbuf(int fd, size_t n) {
return fd_set_sndbuf(fd, n, true);
}
int fd_set_rcvbuf(int fd, size_t n, bool increase);
static inline int fd_increase_rxbuf(int fd, size_t n) {
return fd_set_rcvbuf(fd, n, true);
}
int ip_tos_to_string_alloc(int i, char **s);
int ip_tos_from_string(const char *s);
typedef enum {
IFNAME_VALID_ALTERNATIVE = 1 << 0, /* Allow "altnames" too */
IFNAME_VALID_NUMERIC = 1 << 1, /* Allow decimal formatted ifindexes too */
IFNAME_VALID_SPECIAL = 1 << 2, /* Allow the special names "all" and "default" */
_IFNAME_VALID_ALL = IFNAME_VALID_ALTERNATIVE | IFNAME_VALID_NUMERIC | IFNAME_VALID_SPECIAL,
} IfnameValidFlags;
bool ifname_valid_char(char a);
bool ifname_valid_full(const char *p, IfnameValidFlags flags);
static inline bool ifname_valid(const char *p) {
return ifname_valid_full(p, 0);
}
bool address_label_valid(const char *p);
int getpeercred(int fd, struct ucred *ucred);
int getpeersec(int fd, char **ret);
int getpeergroups(int fd, gid_t **ret);
int getpeerpidfd(int fd);
ssize_t send_many_fds_iov_sa(
int transport_fd,
int *fds_array, size_t n_fds_array,
const struct iovec *iov, size_t iovlen,
const struct sockaddr *sa, socklen_t len,
int flags);
static inline ssize_t send_many_fds_iov(
int transport_fd,
int *fds_array, size_t n_fds_array,
const struct iovec *iov, size_t iovlen,
int flags) {
return send_many_fds_iov_sa(transport_fd, fds_array, n_fds_array, iov, iovlen, NULL, 0, flags);
}
static inline int send_many_fds(
int transport_fd,
int *fds_array,
size_t n_fds_array,
int flags) {
return send_many_fds_iov_sa(transport_fd, fds_array, n_fds_array, NULL, 0, NULL, 0, flags);
}
ssize_t send_one_fd_iov_sa(
int transport_fd,
int fd,
const struct iovec *iov, size_t iovlen,
const struct sockaddr *sa, socklen_t len,
int flags);
int send_one_fd_sa(int transport_fd,
int fd,
const struct sockaddr *sa, socklen_t len,
int flags);
#define send_one_fd_iov(transport_fd, fd, iov, iovlen, flags) send_one_fd_iov_sa(transport_fd, fd, iov, iovlen, NULL, 0, flags)
#define send_one_fd(transport_fd, fd, flags) send_one_fd_iov_sa(transport_fd, fd, NULL, 0, NULL, 0, flags)
ssize_t receive_one_fd_iov(int transport_fd, struct iovec *iov, size_t iovlen, int flags, int *ret_fd);
int receive_one_fd(int transport_fd, int flags);
ssize_t receive_many_fds_iov(int transport_fd, struct iovec *iov, size_t iovlen, int **ret_fds_array, size_t *ret_n_fds_array, int flags);
int receive_many_fds(int transport_fd, int **ret_fds_array, size_t *ret_n_fds_array, int flags);
ssize_t next_datagram_size_fd(int fd);
int flush_accept(int fd);
#define CMSG_FOREACH(cmsg, mh) \
for ((cmsg) = CMSG_FIRSTHDR(mh); (cmsg); (cmsg) = CMSG_NXTHDR((mh), (cmsg)))
/* Returns the cmsghdr's data pointer, but safely cast to the specified type. Does two alignment checks: one
* at compile time, that the requested type has a smaller or same alignment as 'struct cmsghdr', and one
* during runtime, that the actual pointer matches the alignment too. This is supposed to catch cases such as
* 'struct timeval' is embedded into 'struct cmsghdr' on architectures where the alignment of the former is 8
* bytes (because of a 64-bit time_t), but of the latter is 4 bytes (because size_t is 32 bits), such as
* riscv32. */
#define CMSG_TYPED_DATA(cmsg, type) \
({ \
struct cmsghdr *_cmsg = (cmsg); \
assert_cc(alignof(type) <= alignof(struct cmsghdr)); \
_cmsg ? CAST_ALIGN_PTR(type, CMSG_DATA(_cmsg)) : (type*) NULL; \
})
struct cmsghdr* cmsg_find(struct msghdr *mh, int level, int type, socklen_t length);
void* cmsg_find_and_copy_data(struct msghdr *mh, int level, int type, void *buf, size_t buf_len);
/* Type-safe, dereferencing version of cmsg_find() */
#define CMSG_FIND_DATA(mh, level, type, ctype) \
CMSG_TYPED_DATA(cmsg_find(mh, level, type, CMSG_LEN(sizeof(ctype))), ctype)
/* Type-safe version of cmsg_find_and_copy_data() */
#define CMSG_FIND_AND_COPY_DATA(mh, level, type, ctype) \
(ctype*) cmsg_find_and_copy_data(mh, level, type, &(ctype){}, sizeof(ctype))
/* Resolves to a type that can carry cmsghdr structures. Make sure things are properly aligned, i.e. the type
* itself is placed properly in memory and the size is also aligned to what's appropriate for "cmsghdr"
* structures. */
#define CMSG_BUFFER_TYPE(size) \
union { \
struct cmsghdr cmsghdr; \
uint8_t buf[size]; \
uint8_t align_check[(size) >= CMSG_SPACE(0) && \
(size) == CMSG_ALIGN(size) ? 1 : -1]; \
}
/*
* Certain hardware address types (e.g Infiniband) do not fit into sll_addr
* (8 bytes) and run over the structure. This macro returns the correct size that
* must be passed to kernel.
*/
#define SOCKADDR_LL_LEN(sa) \
({ \
const struct sockaddr_ll *_sa = &(sa); \
size_t _mac_len = sizeof(_sa->sll_addr); \
assert(_sa->sll_family == AF_PACKET); \
if (be16toh(_sa->sll_hatype) == ARPHRD_ETHER) \
_mac_len = MAX(_mac_len, (size_t) ETH_ALEN); \
if (be16toh(_sa->sll_hatype) == ARPHRD_INFINIBAND) \
_mac_len = MAX(_mac_len, (size_t) INFINIBAND_ALEN); \
offsetof(struct sockaddr_ll, sll_addr) + _mac_len; \
})
/* Covers only file system and abstract AF_UNIX socket addresses, but not unnamed socket addresses. */
#define SOCKADDR_UN_LEN(sa) \
({ \
const struct sockaddr_un *_sa = &(sa); \
assert(_sa->sun_family == AF_UNIX); \
offsetof(struct sockaddr_un, sun_path) + \
(_sa->sun_path[0] == 0 ? \
1 + strnlen(_sa->sun_path+1, sizeof(_sa->sun_path)-1) : \
strnlen(_sa->sun_path, sizeof(_sa->sun_path))+1); \
})
#define SOCKADDR_LEN(saddr) \
({ \
const union sockaddr_union *__sa = &(saddr); \
size_t _len; \
switch (__sa->sa.sa_family) { \
case AF_INET: \
_len = sizeof(struct sockaddr_in); \
break; \
case AF_INET6: \
_len = sizeof(struct sockaddr_in6); \
break; \
case AF_UNIX: \
_len = SOCKADDR_UN_LEN(__sa->un); \
break; \
case AF_PACKET: \
_len = SOCKADDR_LL_LEN(__sa->ll); \
break; \
case AF_NETLINK: \
_len = sizeof(struct sockaddr_nl); \
break; \
case AF_VSOCK: \
_len = sizeof(struct sockaddr_vm); \
break; \
default: \
assert_not_reached(); \
} \
_len; \
})
int socket_ioctl_fd(void);
int sockaddr_un_set_path(struct sockaddr_un *ret, const char *path);
static inline int setsockopt_int(int fd, int level, int optname, int value) {
if (setsockopt(fd, level, optname, &value, sizeof(value)) < 0)
return -errno;
return 0;
}
static inline int getsockopt_int(int fd, int level, int optname, int *ret) {
int v;
socklen_t sl = sizeof(v);
if (getsockopt(fd, level, optname, &v, &sl) < 0)
return negative_errno();
if (sl != sizeof(v))
return -EIO;
*ret = v;
return 0;
}
int socket_bind_to_ifname(int fd, const char *ifname);
int socket_bind_to_ifindex(int fd, int ifindex);
/* Define a 64-bit version of timeval/timespec in any case, even on 32-bit userspace. */
struct timeval_large {
uint64_t tvl_sec, tvl_usec;
};
struct timespec_large {
uint64_t tvl_sec, tvl_nsec;
};
/* glibc duplicates timespec/timeval on certain 32-bit arches, once in 32-bit and once in 64-bit.
* See __convert_scm_timestamps() in glibc source code. Hence, we need additional buffer space for them
* to prevent from recvmsg_safe() returning -EXFULL. */
#define CMSG_SPACE_TIMEVAL \
((sizeof(struct timeval) == sizeof(struct timeval_large)) ? \
CMSG_SPACE(sizeof(struct timeval)) : \
CMSG_SPACE(sizeof(struct timeval)) + \
CMSG_SPACE(sizeof(struct timeval_large)))
#define CMSG_SPACE_TIMESPEC \
((sizeof(struct timespec) == sizeof(struct timespec_large)) ? \
CMSG_SPACE(sizeof(struct timespec)) : \
CMSG_SPACE(sizeof(struct timespec)) + \
CMSG_SPACE(sizeof(struct timespec_large)))
ssize_t recvmsg_safe(int sockfd, struct msghdr *msg, int flags);
int socket_get_family(int fd);
int socket_set_recvpktinfo(int fd, int af, bool b);
int socket_set_unicast_if(int fd, int af, int ifi);
int socket_set_option(int fd, int af, int opt_ipv4, int opt_ipv6, int val);
static inline int socket_set_recverr(int fd, int af, bool b) {
return socket_set_option(fd, af, IP_RECVERR, IPV6_RECVERR, b);
}
static inline int socket_set_recvttl(int fd, int af, bool b) {
return socket_set_option(fd, af, IP_RECVTTL, IPV6_RECVHOPLIMIT, b);
}
static inline int socket_set_ttl(int fd, int af, int ttl) {
return socket_set_option(fd, af, IP_TTL, IPV6_UNICAST_HOPS, ttl);
}
static inline int socket_set_freebind(int fd, int af, bool b) {
return socket_set_option(fd, af, IP_FREEBIND, IPV6_FREEBIND, b);
}
static inline int socket_set_transparent(int fd, int af, bool b) {
return socket_set_option(fd, af, IP_TRANSPARENT, IPV6_TRANSPARENT, b);
}
static inline int socket_set_recvfragsize(int fd, int af, bool b) {
return socket_set_option(fd, af, IP_RECVFRAGSIZE, IPV6_RECVFRAGSIZE, b);
}
int socket_get_mtu(int fd, int af, size_t *ret);
/* an initializer for struct ucred that initialized all fields to the invalid value appropriate for each */
#define UCRED_INVALID { .pid = 0, .uid = UID_INVALID, .gid = GID_INVALID }
int connect_unix_path(int fd, int dir_fd, const char *path);
static inline bool VSOCK_CID_IS_REGULAR(unsigned cid) {
/* 0, 1, 2, UINT32_MAX are special, refuse those */
return cid > 2 && cid < UINT32_MAX;
}
int vsock_parse_port(const char *s, unsigned *ret);
int vsock_parse_cid(const char *s, unsigned *ret);
/* Parses AF_UNIX and AF_VSOCK addresses. AF_INET[6] require some netlink calls, so it cannot be in
* src/basic/ and is done from 'socket_local_address from src/shared/. Return -EPROTO in case of
* protocol mismatch. */
int socket_address_parse_unix(SocketAddress *ret_address, const char *s);
int socket_address_parse_vsock(SocketAddress *ret_address, const char *s);
/* libc's SOMAXCONN is defined to 128 or 4096 (at least on glibc). But actually, the value can be much
* larger. In our codebase we want to set it to the max usually, since noawadays socket memory is properly
* tracked by memcg, and hence we don't need to enforce extra limits here. Moreover, the kernel caps it to
* /proc/sys/net/core/somaxconn anyway, thus by setting this to unbounded we just make that sysctl file
* authoritative. */
#define SOMAXCONN_DELUXE INT_MAX
int vsock_get_local_cid(unsigned *ret);
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