/* * Copyright (C) Jelmer Vernooij 2005 * Copyright (C) Stefan Metzmacher 2006 * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * 3. Neither the name of the author nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * */ /* Socket wrapper library. Passes all socket communication over unix domain sockets if the environment variable SOCKET_WRAPPER_DIR is set. */ #ifdef _SAMBA_BUILD_ #define SOCKET_WRAPPER_NOT_REPLACE #include "includes.h" #include "system/network.h" #include "system/filesys.h" #ifdef malloc #undef malloc #endif #ifdef calloc #undef calloc #endif #ifdef strdup #undef strdup #endif #else /* _SAMBA_BUILD_ */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define _PUBLIC_ #endif #define SWRAP_DLIST_ADD(list,item) do { \ if (!(list)) { \ (item)->prev = NULL; \ (item)->next = NULL; \ (list) = (item); \ } else { \ (item)->prev = NULL; \ (item)->next = (list); \ (list)->prev = (item); \ (list) = (item); \ } \ } while (0) #define SWRAP_DLIST_REMOVE(list,item) do { \ if ((list) == (item)) { \ (list) = (item)->next; \ if (list) { \ (list)->prev = NULL; \ } \ } else { \ if ((item)->prev) { \ (item)->prev->next = (item)->next; \ } \ if ((item)->next) { \ (item)->next->prev = (item)->prev; \ } \ } \ (item)->prev = NULL; \ (item)->next = NULL; \ } while (0) /* LD_PRELOAD doesn't work yet, so REWRITE_CALLS is all we support * for now */ #define REWRITE_CALLS #ifdef REWRITE_CALLS #define real_accept accept #define real_connect connect #define real_bind bind #define real_listen listen #define real_getpeername getpeername #define real_getsockname getsockname #define real_getsockopt getsockopt #define real_setsockopt setsockopt #define real_recvfrom recvfrom #define real_sendto sendto #define real_ioctl ioctl #define real_recv recv #define real_send send #define real_socket socket #define real_close close #endif #ifdef HAVE_GETTIMEOFDAY_TZ #define swrapGetTimeOfDay(tval) gettimeofday(tval,NULL) #else #define swrapGetTimeOfDay(tval) gettimeofday(tval) #endif /* we need to use a very terse format here as IRIX 6.4 silently truncates names to 16 chars, so if we use a longer name then we can't tell which port a packet came from with recvfrom() with this format we have 8 chars left for the directory name */ #define SOCKET_FORMAT "%c%02X%04X" #define SOCKET_TYPE_CHAR_TCP 'T' #define SOCKET_TYPE_CHAR_UDP 'U' #define SOCKET_TYPE_CHAR_TCP_V6 'X' #define SOCKET_TYPE_CHAR_UDP_V6 'Y' #define MAX_WRAPPED_INTERFACES 16 #define SW_IPV6_ADDRESS 1 static struct sockaddr *sockaddr_dup(const void *data, socklen_t len) { struct sockaddr *ret = (struct sockaddr *)malloc(len); memcpy(ret, data, len); return ret; } static void set_port(int family, int prt, struct sockaddr *addr) { switch (family) { case AF_INET: ((struct sockaddr_in *)addr)->sin_port = htons(prt); break; #ifdef HAVE_IPV6 case AF_INET6: ((struct sockaddr_in6 *)addr)->sin6_port = htons(prt); break; #endif } } static size_t socket_length(int family) { switch (family) { case AF_INET: return sizeof(struct sockaddr_in); #ifdef HAVE_IPV6 case AF_INET6: return sizeof(struct sockaddr_in6); #endif } return 0; } struct socket_info { int fd; int family; int type; int protocol; int bound; int bcast; int is_server; char *path; char *tmp_path; struct sockaddr *myname; socklen_t myname_len; struct sockaddr *peername; socklen_t peername_len; struct { unsigned long pck_snd; unsigned long pck_rcv; } io; struct socket_info *prev, *next; }; static struct socket_info *sockets; const char *socket_wrapper_dir(void) { const char *s = getenv("SOCKET_WRAPPER_DIR"); if (s == NULL) { return NULL; } if (strncmp(s, "./", 2) == 0) { s += 2; } return s; } unsigned int socket_wrapper_default_iface(void) { const char *s = getenv("SOCKET_WRAPPER_DEFAULT_IFACE"); if (s) { unsigned int iface; if (sscanf(s, "%u", &iface) == 1) { if (iface >= 1 && iface <= MAX_WRAPPED_INTERFACES) { return iface; } } } return 1;/* 127.0.0.1 */ } static int convert_un_in(const struct sockaddr_un *un, struct sockaddr *in, socklen_t *len) { unsigned int iface; unsigned int prt; const char *p; char type; p = strrchr(un->sun_path, '/'); if (p) p++; else p = un->sun_path; if (sscanf(p, SOCKET_FORMAT, &type, &iface, &prt) != 3) { errno = EINVAL; return -1; } if (iface == 0 || iface > MAX_WRAPPED_INTERFACES) { errno = EINVAL; return -1; } if (prt > 0xFFFF) { errno = EINVAL; return -1; } switch(type) { case SOCKET_TYPE_CHAR_TCP: case SOCKET_TYPE_CHAR_UDP: { struct sockaddr_in *in2 = (struct sockaddr_in *)in; if ((*len) < sizeof(*in2)) { errno = EINVAL; return -1; } memset(in2, 0, sizeof(*in2)); in2->sin_family = AF_INET; in2->sin_addr.s_addr = htonl((127<<24) | iface); in2->sin_port = htons(prt); *len = sizeof(*in2); break; } #ifdef HAVE_IPV6 case SOCKET_TYPE_CHAR_TCP_V6: case SOCKET_TYPE_CHAR_UDP_V6: { struct sockaddr_in6 *in2 = (struct sockaddr_in6 *)in; if ((*len) < sizeof(*in2)) { errno = EINVAL; return -1; } memset(in2, 0, sizeof(*in2)); in2->sin6_family = AF_INET6; in2->sin6_addr.s6_addr[0] = SW_IPV6_ADDRESS; in2->sin6_port = htons(prt); *len = sizeof(*in2); break; } #endif default: errno = EINVAL; return -1; } return 0; } static int convert_in_un_remote(struct socket_info *si, const struct sockaddr *inaddr, struct sockaddr_un *un, int *bcast) { char type = '\0'; unsigned int prt; unsigned int iface; int is_bcast = 0; if (bcast) *bcast = 0; switch (si->family) { case AF_INET: { const struct sockaddr_in *in = (const struct sockaddr_in *)inaddr; unsigned int addr = ntohl(in->sin_addr.s_addr); char u_type = '\0'; char b_type = '\0'; char a_type = '\0'; switch (si->type) { case SOCK_STREAM: u_type = SOCKET_TYPE_CHAR_TCP; break; case SOCK_DGRAM: u_type = SOCKET_TYPE_CHAR_UDP; a_type = SOCKET_TYPE_CHAR_UDP; b_type = SOCKET_TYPE_CHAR_UDP; break; } prt = ntohs(in->sin_port); if (a_type && addr == 0xFFFFFFFF) { /* 255.255.255.255 only udp */ is_bcast = 2; type = a_type; iface = socket_wrapper_default_iface(); } else if (b_type && addr == 0x7FFFFFFF) { /* 127.255.255.255 only udp */ is_bcast = 1; type = b_type; iface = socket_wrapper_default_iface(); } else if ((addr & 0xFFFFFF00) == 0x7F000000) { /* 127.0.0.X */ is_bcast = 0; type = u_type; iface = (addr & 0x000000FF); } else { errno = ENETUNREACH; return -1; } if (bcast) *bcast = is_bcast; break; } #ifdef HAVE_IPV6 case AF_INET6: { const struct sockaddr_in6 *in = (const struct sockaddr_in6 *)inaddr; switch (si->type) { case SOCK_STREAM: type = SOCKET_TYPE_CHAR_TCP_V6; break; case SOCK_DGRAM: type = SOCKET_TYPE_CHAR_UDP_V6; break; } /* XXX no multicast/broadcast */ prt = ntohs(in->sin6_port); iface = SW_IPV6_ADDRESS; break; } #endif default: errno = ENETUNREACH; return -1; } if (prt == 0) { errno = EINVAL; return -1; } if (is_bcast) { snprintf(un->sun_path, sizeof(un->sun_path), "%s/EINVAL", socket_wrapper_dir()); /* the caller need to do more processing */ return 0; } snprintf(un->sun_path, sizeof(un->sun_path), "%s/"SOCKET_FORMAT, socket_wrapper_dir(), type, iface, prt); return 0; } static int convert_in_un_alloc(struct socket_info *si, const struct sockaddr *inaddr, struct sockaddr_un *un, int *bcast) { char type = '\0'; unsigned int prt; unsigned int iface; struct stat st; int is_bcast = 0; if (bcast) *bcast = 0; switch (si->family) { case AF_INET: { const struct sockaddr_in *in = (const struct sockaddr_in *)inaddr; unsigned int addr = ntohl(in->sin_addr.s_addr); char u_type = '\0'; char d_type = '\0'; char b_type = '\0'; char a_type = '\0'; prt = ntohs(in->sin_port); switch (si->type) { case SOCK_STREAM: u_type = SOCKET_TYPE_CHAR_TCP; d_type = SOCKET_TYPE_CHAR_TCP; break; case SOCK_DGRAM: u_type = SOCKET_TYPE_CHAR_UDP; d_type = SOCKET_TYPE_CHAR_UDP; a_type = SOCKET_TYPE_CHAR_UDP; b_type = SOCKET_TYPE_CHAR_UDP; break; } if (addr == 0) { /* 0.0.0.0 */ is_bcast = 0; type = d_type; iface = socket_wrapper_default_iface(); } else if (a_type && addr == 0xFFFFFFFF) { /* 255.255.255.255 only udp */ is_bcast = 2; type = a_type; iface = socket_wrapper_default_iface(); } else if (b_type && addr == 0x7FFFFFFF) { /* 127.255.255.255 only udp */ is_bcast = 1; type = b_type; iface = socket_wrapper_default_iface(); } else if ((addr & 0xFFFFFF00) == 0x7F000000) { /* 127.0.0.X */ is_bcast = 0; type = u_type; iface = (addr & 0x000000FF); } else { errno = EADDRNOTAVAIL; return -1; } break; } #ifdef HAVE_IPV6 case AF_INET6: { const struct sockaddr_in6 *in = (const struct sockaddr_in6 *)inaddr; switch (si->type) { case SOCK_STREAM: type = SOCKET_TYPE_CHAR_TCP_V6; break; case SOCK_DGRAM: type = SOCKET_TYPE_CHAR_UDP_V6; break; } /* XXX no multicast/broadcast */ prt = ntohs(in->sin6_port); iface = SW_IPV6_ADDRESS; break; } #endif default: errno = ENETUNREACH; return -1; } if (bcast) *bcast = is_bcast; if (prt == 0) { /* handle auto-allocation of ephemeral ports */ for (prt = 5001; prt < 10000; prt++) { snprintf(un->sun_path, sizeof(un->sun_path), "%s/"SOCKET_FORMAT, socket_wrapper_dir(), type, iface, prt); if (stat(un->sun_path, &st) == 0) continue; set_port(si->family, prt, si->myname); break; } if (prt == 10000) { errno = ENFILE; return -1; } } snprintf(un->sun_path, sizeof(un->sun_path), "%s/"SOCKET_FORMAT, socket_wrapper_dir(), type, iface, prt); return 0; } static struct socket_info *find_socket_info(int fd) { struct socket_info *i; for (i = sockets; i; i = i->next) { if (i->fd == fd) return i; } return NULL; } static int sockaddr_convert_to_un(struct socket_info *si, const struct sockaddr *in_addr, socklen_t in_len, struct sockaddr_un *out_addr, int alloc_sock, int *bcast) { if (!out_addr) return 0; out_addr->sun_family = AF_UNIX; switch (in_addr->sa_family) { case AF_INET: #ifdef HAVE_IPV6 case AF_INET6: #endif switch (si->type) { case SOCK_STREAM: case SOCK_DGRAM: break; default: errno = ESOCKTNOSUPPORT; return -1; } if (alloc_sock) { return convert_in_un_alloc(si, in_addr, out_addr, bcast); } else { return convert_in_un_remote(si, in_addr, out_addr, bcast); } default: break; } errno = EAFNOSUPPORT; return -1; } static int sockaddr_convert_from_un(const struct socket_info *si, const struct sockaddr_un *in_addr, socklen_t un_addrlen, int family, struct sockaddr *out_addr, socklen_t *out_addrlen) { if (out_addr == NULL || out_addrlen == NULL) return 0; if (un_addrlen == 0) { *out_addrlen = 0; return 0; } switch (family) { case AF_INET: #ifdef HAVE_IPV6 case AF_INET6: #endif switch (si->type) { case SOCK_STREAM: case SOCK_DGRAM: break; default: errno = ESOCKTNOSUPPORT; return -1; } return convert_un_in(in_addr, out_addr, out_addrlen); default: break; } errno = EAFNOSUPPORT; return -1; } enum swrap_packet_type { SWRAP_CONNECT_SEND, SWRAP_CONNECT_UNREACH, SWRAP_CONNECT_RECV, SWRAP_CONNECT_ACK, SWRAP_ACCEPT_SEND, SWRAP_ACCEPT_RECV, SWRAP_ACCEPT_ACK, SWRAP_RECVFROM, SWRAP_SENDTO, SWRAP_SENDTO_UNREACH, SWRAP_PENDING_RST, SWRAP_RECV, SWRAP_RECV_RST, SWRAP_SEND, SWRAP_SEND_RST, SWRAP_CLOSE_SEND, SWRAP_CLOSE_RECV, SWRAP_CLOSE_ACK }; struct swrap_file_hdr { unsigned long magic; unsigned short version_major; unsigned short version_minor; long timezone; unsigned long sigfigs; unsigned long frame_max_len; #define SWRAP_FRAME_LENGTH_MAX 0xFFFF unsigned long link_type; }; #define SWRAP_FILE_HDR_SIZE 24 struct swrap_packet { struct { unsigned long seconds; unsigned long micro_seconds; unsigned long recorded_length; unsigned long full_length; } frame; #define SWRAP_PACKET__FRAME_SIZE 16 struct { struct { unsigned char ver_hdrlen; unsigned char tos; unsigned short packet_length; unsigned short identification; unsigned char flags; unsigned char fragment; unsigned char ttl; unsigned char protocol; unsigned short hdr_checksum; unsigned long src_addr; unsigned long dest_addr; } hdr; #define SWRAP_PACKET__IP_HDR_SIZE 20 union { struct { unsigned short source_port; unsigned short dest_port; unsigned long seq_num; unsigned long ack_num; unsigned char hdr_length; unsigned char control; unsigned short window; unsigned short checksum; unsigned short urg; } tcp; #define SWRAP_PACKET__IP_P_TCP_SIZE 20 struct { unsigned short source_port; unsigned short dest_port; unsigned short length; unsigned short checksum; } udp; #define SWRAP_PACKET__IP_P_UDP_SIZE 8 struct { unsigned char type; unsigned char code; unsigned short checksum; unsigned long unused; } icmp; #define SWRAP_PACKET__IP_P_ICMP_SIZE 8 } p; } ip; }; #define SWRAP_PACKET_SIZE 56 static const char *socket_wrapper_pcap_file(void) { static int initialized = 0; static const char *s = NULL; static const struct swrap_file_hdr h; static const struct swrap_packet p; if (initialized == 1) { return s; } initialized = 1; /* * TODO: don't use the structs use plain buffer offsets * and PUSH_U8(), PUSH_U16() and PUSH_U32() * * for now make sure we disable PCAP support * if the struct has alignment! */ if (sizeof(h) != SWRAP_FILE_HDR_SIZE) { return NULL; } if (sizeof(p) != SWRAP_PACKET_SIZE) { return NULL; } if (sizeof(p.frame) != SWRAP_PACKET__FRAME_SIZE) { return NULL; } if (sizeof(p.ip.hdr) != SWRAP_PACKET__IP_HDR_SIZE) { return NULL; } if (sizeof(p.ip.p.tcp) != SWRAP_PACKET__IP_P_TCP_SIZE) { return NULL; } if (sizeof(p.ip.p.udp) != SWRAP_PACKET__IP_P_UDP_SIZE) { return NULL; } if (sizeof(p.ip.p.icmp) != SWRAP_PACKET__IP_P_ICMP_SIZE) { return NULL; } s = getenv("SOCKET_WRAPPER_PCAP_FILE"); if (s == NULL) { return NULL; } if (strncmp(s, "./", 2) == 0) { s += 2; } return s; } static struct swrap_packet *swrap_packet_init(struct timeval *tval, const struct sockaddr_in *src_addr, const struct sockaddr_in *dest_addr, int socket_type, const unsigned char *payload, size_t payload_len, unsigned long tcp_seq, unsigned long tcp_ack, unsigned char tcp_ctl, int unreachable, size_t *_packet_len) { struct swrap_packet *ret; struct swrap_packet *packet; size_t packet_len; size_t alloc_len; size_t nonwire_len = sizeof(packet->frame); size_t wire_hdr_len = 0; size_t wire_len = 0; size_t icmp_hdr_len = 0; size_t icmp_truncate_len = 0; unsigned char protocol = 0, icmp_protocol = 0; unsigned short src_port = src_addr->sin_port; unsigned short dest_port = dest_addr->sin_port; switch (socket_type) { case SOCK_STREAM: protocol = 0x06; /* TCP */ wire_hdr_len = sizeof(packet->ip.hdr) + sizeof(packet->ip.p.tcp); wire_len = wire_hdr_len + payload_len; break; case SOCK_DGRAM: protocol = 0x11; /* UDP */ wire_hdr_len = sizeof(packet->ip.hdr) + sizeof(packet->ip.p.udp); wire_len = wire_hdr_len + payload_len; break; default: return NULL; } if (unreachable) { icmp_protocol = protocol; protocol = 0x01; /* ICMP */ if (wire_len > 64 ) { icmp_truncate_len = wire_len - 64; } icmp_hdr_len = sizeof(packet->ip.hdr) + sizeof(packet->ip.p.icmp); wire_hdr_len += icmp_hdr_len; wire_len += icmp_hdr_len; } packet_len = nonwire_len + wire_len; alloc_len = packet_len; if (alloc_len < sizeof(struct swrap_packet)) { alloc_len = sizeof(struct swrap_packet); } ret = (struct swrap_packet *)malloc(alloc_len); if (!ret) return NULL; packet = ret; packet->frame.seconds = tval->tv_sec; packet->frame.micro_seconds = tval->tv_usec; packet->frame.recorded_length = wire_len - icmp_truncate_len; packet->frame.full_length = wire_len - icmp_truncate_len; packet->ip.hdr.ver_hdrlen = 0x45; /* version 4 and 5 * 32 bit words */ packet->ip.hdr.tos = 0x00; packet->ip.hdr.packet_length = htons(wire_len - icmp_truncate_len); packet->ip.hdr.identification = htons(0xFFFF); packet->ip.hdr.flags = 0x40; /* BIT 1 set - means don't fraqment */ packet->ip.hdr.fragment = htons(0x0000); packet->ip.hdr.ttl = 0xFF; packet->ip.hdr.protocol = protocol; packet->ip.hdr.hdr_checksum = htons(0x0000); packet->ip.hdr.src_addr = src_addr->sin_addr.s_addr; packet->ip.hdr.dest_addr = dest_addr->sin_addr.s_addr; if (unreachable) { packet->ip.p.icmp.type = 0x03; /* destination unreachable */ packet->ip.p.icmp.code = 0x01; /* host unreachable */ packet->ip.p.icmp.checksum = htons(0x0000); packet->ip.p.icmp.unused = htonl(0x00000000); /* set the ip header in the ICMP payload */ packet = (struct swrap_packet *)(((unsigned char *)ret) + icmp_hdr_len); packet->ip.hdr.ver_hdrlen = 0x45; /* version 4 and 5 * 32 bit words */ packet->ip.hdr.tos = 0x00; packet->ip.hdr.packet_length = htons(wire_len - icmp_hdr_len); packet->ip.hdr.identification = htons(0xFFFF); packet->ip.hdr.flags = 0x40; /* BIT 1 set - means don't fraqment */ packet->ip.hdr.fragment = htons(0x0000); packet->ip.hdr.ttl = 0xFF; packet->ip.hdr.protocol = icmp_protocol; packet->ip.hdr.hdr_checksum = htons(0x0000); packet->ip.hdr.src_addr = dest_addr->sin_addr.s_addr; packet->ip.hdr.dest_addr = src_addr->sin_addr.s_addr; src_port = dest_addr->sin_port; dest_port = src_addr->sin_port; } switch (socket_type) { case SOCK_STREAM: packet->ip.p.tcp.source_port = src_port; packet->ip.p.tcp.dest_port = dest_port; packet->ip.p.tcp.seq_num = htonl(tcp_seq); packet->ip.p.tcp.ack_num = htonl(tcp_ack); packet->ip.p.tcp.hdr_length = 0x50; /* 5 * 32 bit words */ packet->ip.p.tcp.control = tcp_ctl; packet->ip.p.tcp.window = htons(0x7FFF); packet->ip.p.tcp.checksum = htons(0x0000); packet->ip.p.tcp.urg = htons(0x0000); break; case SOCK_DGRAM: packet->ip.p.udp.source_port = src_addr->sin_port; packet->ip.p.udp.dest_port = dest_addr->sin_port; packet->ip.p.udp.length = htons(8 + payload_len); packet->ip.p.udp.checksum = htons(0x0000); break; } if (payload && payload_len > 0) { unsigned char *p = (unsigned char *)ret; p += nonwire_len; p += wire_hdr_len; memcpy(p, payload, payload_len); } *_packet_len = packet_len - icmp_truncate_len; return ret; } static int swrap_get_pcap_fd(const char *fname) { static int fd = -1; if (fd != -1) return fd; fd = open(fname, O_WRONLY|O_CREAT|O_EXCL|O_APPEND, 0644); if (fd != -1) { struct swrap_file_hdr file_hdr; file_hdr.magic = 0xA1B2C3D4; file_hdr.version_major = 0x0002; file_hdr.version_minor = 0x0004; file_hdr.timezone = 0x00000000; file_hdr.sigfigs = 0x00000000; file_hdr.frame_max_len = SWRAP_FRAME_LENGTH_MAX; file_hdr.link_type = 0x0065; /* 101 RAW IP */ write(fd, &file_hdr, sizeof(file_hdr)); return fd; } fd = open(fname, O_WRONLY|O_APPEND, 0644); return fd; } static void swrap_dump_packet(struct socket_info *si, const struct sockaddr *addr, enum swrap_packet_type type, const void *buf, size_t len) { const struct sockaddr_in *src_addr; const struct sockaddr_in *dest_addr; const char *file_name; unsigned long tcp_seq = 0; unsigned long tcp_ack = 0; unsigned char tcp_ctl = 0; int unreachable = 0; struct timeval tv; struct swrap_packet *packet; size_t packet_len = 0; int fd; file_name = socket_wrapper_pcap_file(); if (!file_name) { return; } switch (si->family) { case AF_INET: #ifdef HAVE_IPV6 case AF_INET6: #endif break; default: return; } switch (type) { case SWRAP_CONNECT_SEND: if (si->type != SOCK_STREAM) return; src_addr = (const struct sockaddr_in *)si->myname; dest_addr = (const struct sockaddr_in *)addr; tcp_seq = si->io.pck_snd; tcp_ack = si->io.pck_rcv; tcp_ctl = 0x02; /* SYN */ si->io.pck_snd += 1; break; case SWRAP_CONNECT_RECV: if (si->type != SOCK_STREAM) return; dest_addr = (const struct sockaddr_in *)si->myname; src_addr = (const struct sockaddr_in *)addr; tcp_seq = si->io.pck_rcv; tcp_ack = si->io.pck_snd; tcp_ctl = 0x12; /** SYN,ACK */ si->io.pck_rcv += 1; break; case SWRAP_CONNECT_UNREACH: if (si->type != SOCK_STREAM) return; dest_addr = (const struct sockaddr_in *)si->myname; src_addr = (const struct sockaddr_in *)addr; /* Unreachable: resend the data of SWRAP_CONNECT_SEND */ tcp_seq = si->io.pck_snd - 1; tcp_ack = si->io.pck_rcv; tcp_ctl = 0x02; /* SYN */ unreachable = 1; break; case SWRAP_CONNECT_ACK: if (si->type != SOCK_STREAM) return; src_addr = (const struct sockaddr_in *)si->myname; dest_addr = (const struct sockaddr_in *)addr; tcp_seq = si->io.pck_snd; tcp_ack = si->io.pck_rcv; tcp_ctl = 0x10; /* ACK */ break; case SWRAP_ACCEPT_SEND: if (si->type != SOCK_STREAM) return; dest_addr = (const struct sockaddr_in *)si->myname; src_addr = (const struct sockaddr_in *)addr; tcp_seq = si->io.pck_rcv; tcp_ack = si->io.pck_snd; tcp_ctl = 0x02; /* SYN */ si->io.pck_rcv += 1; break; case SWRAP_ACCEPT_RECV: if (si->type != SOCK_STREAM) return; src_addr = (const struct sockaddr_in *)si->myname; dest_addr = (const struct sockaddr_in *)addr; tcp_seq = si->io.pck_snd; tcp_ack = si->io.pck_rcv; tcp_ctl = 0x12; /* SYN,ACK */ si->io.pck_snd += 1; break; case SWRAP_ACCEPT_ACK: if (si->type != SOCK_STREAM) return; dest_addr = (const struct sockaddr_in *)si->myname; src_addr = (const struct sockaddr_in *)addr; tcp_seq = si->io.pck_rcv; tcp_ack = si->io.pck_snd; tcp_ctl = 0x10; /* ACK */ break; case SWRAP_SEND: src_addr = (const struct sockaddr_in *)si->myname; dest_addr = (const struct sockaddr_in *)si->peername; tcp_seq = si->io.pck_snd; tcp_ack = si->io.pck_rcv; tcp_ctl = 0x18; /* PSH,ACK */ si->io.pck_snd += len; break; case SWRAP_SEND_RST: dest_addr = (const struct sockaddr_in *)si->myname; src_addr = (const struct sockaddr_in *)si->peername; if (si->type == SOCK_DGRAM) { swrap_dump_packet(si, si->peername, SWRAP_SENDTO_UNREACH, buf, len); return; } tcp_seq = si->io.pck_rcv; tcp_ack = si->io.pck_snd; tcp_ctl = 0x14; /** RST,ACK */ break; case SWRAP_PENDING_RST: dest_addr = (const struct sockaddr_in *)si->myname; src_addr = (const struct sockaddr_in *)si->peername; if (si->type == SOCK_DGRAM) { return; } tcp_seq = si->io.pck_rcv; tcp_ack = si->io.pck_snd; tcp_ctl = 0x14; /* RST,ACK */ break; case SWRAP_RECV: dest_addr = (const struct sockaddr_in *)si->myname; src_addr = (const struct sockaddr_in *)si->peername; tcp_seq = si->io.pck_rcv; tcp_ack = si->io.pck_snd; tcp_ctl = 0x18; /* PSH,ACK */ si->io.pck_rcv += len; break; case SWRAP_RECV_RST: dest_addr = (const struct sockaddr_in *)si->myname; src_addr = (const struct sockaddr_in *)si->peername; if (si->type == SOCK_DGRAM) { return; } tcp_seq = si->io.pck_rcv; tcp_ack = si->io.pck_snd; tcp_ctl = 0x14; /* RST,ACK */ break; case SWRAP_SENDTO: src_addr = (const struct sockaddr_in *)si->myname; dest_addr = (const struct sockaddr_in *)addr; si->io.pck_snd += len; break; case SWRAP_SENDTO_UNREACH: dest_addr = (const struct sockaddr_in *)si->myname; src_addr = (const struct sockaddr_in *)addr; unreachable = 1; break; case SWRAP_RECVFROM: dest_addr = (const struct sockaddr_in *)si->myname; src_addr = (const struct sockaddr_in *)addr; si->io.pck_rcv += len; break; case SWRAP_CLOSE_SEND: if (si->type != SOCK_STREAM) return; src_addr = (const struct sockaddr_in *)si->myname; dest_addr = (const struct sockaddr_in *)si->peername; tcp_seq = si->io.pck_snd; tcp_ack = si->io.pck_rcv; tcp_ctl = 0x11; /* FIN, ACK */ si->io.pck_snd += 1; break; case SWRAP_CLOSE_RECV: if (si->type != SOCK_STREAM) return; dest_addr = (const struct sockaddr_in *)si->myname; src_addr = (const struct sockaddr_in *)si->peername; tcp_seq = si->io.pck_rcv; tcp_ack = si->io.pck_snd; tcp_ctl = 0x11; /* FIN,ACK */ si->io.pck_rcv += 1; break; case SWRAP_CLOSE_ACK: if (si->type != SOCK_STREAM) return; src_addr = (const struct sockaddr_in *)si->myname; dest_addr = (const struct sockaddr_in *)si->peername; tcp_seq = si->io.pck_snd; tcp_ack = si->io.pck_rcv; tcp_ctl = 0x10; /* ACK */ break; default: return; } swrapGetTimeOfDay(&tv); packet = swrap_packet_init(&tv, src_addr, dest_addr, si->type, (const unsigned char *)buf, len, tcp_seq, tcp_ack, tcp_ctl, unreachable, &packet_len); if (!packet) { return; } fd = swrap_get_pcap_fd(file_name); if (fd != -1) { write(fd, packet, packet_len); } free(packet); } _PUBLIC_ int swrap_socket(int family, int type, int protocol) { struct socket_info *si; int fd; if (!socket_wrapper_dir()) { return real_socket(family, type, protocol); } switch (family) { case AF_INET: #ifdef HAVE_IPV6 case AF_INET6: #endif break; case AF_UNIX: return real_socket(family, type, protocol); default: errno = EAFNOSUPPORT; return -1; } switch (type) { case SOCK_STREAM: break; case SOCK_DGRAM: break; default: errno = EPROTONOSUPPORT; return -1; } switch (protocol) { case 0: break; case 6: if (type == SOCK_STREAM) { break; } /*fall through*/ case 17: if (type == SOCK_DGRAM) { break; } /*fall through*/ default: errno = EPROTONOSUPPORT; return -1; } fd = real_socket(AF_UNIX, type, 0); if (fd == -1) return -1; si = (struct socket_info *)calloc(1, sizeof(struct socket_info)); si->family = family; si->type = type; si->protocol = protocol; si->fd = fd; SWRAP_DLIST_ADD(sockets, si); return si->fd; } _PUBLIC_ int swrap_accept(int s, struct sockaddr *addr, socklen_t *addrlen) { struct socket_info *parent_si, *child_si; int fd; struct sockaddr_un un_addr; socklen_t un_addrlen = sizeof(un_addr); struct sockaddr_un un_my_addr; socklen_t un_my_addrlen = sizeof(un_my_addr); struct sockaddr *my_addr; socklen_t my_addrlen, len; int ret; parent_si = find_socket_info(s); if (!parent_si) { return real_accept(s, addr, addrlen); } /* * assume out sockaddr have the same size as the in parent * socket family */ my_addrlen = socket_length(parent_si->family); if (my_addrlen <= 0) { errno = EINVAL; return -1; } my_addr = malloc(my_addrlen); if (my_addr == NULL) { return -1; } memset(&un_addr, 0, sizeof(un_addr)); memset(&un_my_addr, 0, sizeof(un_my_addr)); ret = real_accept(s, (struct sockaddr *)&un_addr, &un_addrlen); if (ret == -1) { free(my_addr); return ret; } fd = ret; len = my_addrlen; ret = sockaddr_convert_from_un(parent_si, &un_addr, un_addrlen, parent_si->family, my_addr, &len); if (ret == -1) { free(my_addr); close(fd); return ret; } child_si = (struct socket_info *)malloc(sizeof(struct socket_info)); memset(child_si, 0, sizeof(*child_si)); child_si->fd = fd; child_si->family = parent_si->family; child_si->type = parent_si->type; child_si->protocol = parent_si->protocol; child_si->bound = 1; child_si->is_server = 1; child_si->peername_len = len; child_si->peername = sockaddr_dup(my_addr, len); if (addr != NULL && addrlen != NULL) { *addrlen = len; if (*addrlen >= len) memcpy(addr, my_addr, len); *addrlen = 0; } ret = real_getsockname(fd, (struct sockaddr *)&un_my_addr, &un_my_addrlen); if (ret == -1) { free(child_si); close(fd); return ret; } len = my_addrlen; ret = sockaddr_convert_from_un(child_si, &un_my_addr, un_my_addrlen, child_si->family, my_addr, &len); if (ret == -1) { free(child_si); free(my_addr); close(fd); return ret; } child_si->myname_len = len; child_si->myname = sockaddr_dup(my_addr, len); free(my_addr); SWRAP_DLIST_ADD(sockets, child_si); swrap_dump_packet(child_si, addr, SWRAP_ACCEPT_SEND, NULL, 0); swrap_dump_packet(child_si, addr, SWRAP_ACCEPT_RECV, NULL, 0); swrap_dump_packet(child_si, addr, SWRAP_ACCEPT_ACK, NULL, 0); return fd; } static int autobind_start_init; static int autobind_start; /* using sendto() or connect() on an unbound socket would give the recipient no way to reply, as unlike UDP and TCP, a unix domain socket can't auto-assign emphemeral port numbers, so we need to assign it here */ static int swrap_auto_bind(struct socket_info *si) { struct sockaddr_un un_addr; int i; char type; int ret; int port; struct stat st; if (autobind_start_init != 1) { autobind_start_init = 1; autobind_start = getpid(); autobind_start %= 50000; autobind_start += 10000; } un_addr.sun_family = AF_UNIX; switch (si->family) { case AF_INET: { struct sockaddr_in in; switch (si->type) { case SOCK_STREAM: type = SOCKET_TYPE_CHAR_TCP; break; case SOCK_DGRAM: type = SOCKET_TYPE_CHAR_UDP; break; default: errno = ESOCKTNOSUPPORT; return -1; } memset(&in, 0, sizeof(in)); in.sin_family = AF_INET; in.sin_addr.s_addr = htonl(127<<24 | socket_wrapper_default_iface()); si->myname_len = sizeof(in); si->myname = sockaddr_dup(&in, si->myname_len); break; } #ifdef HAVE_IPV6 case AF_INET6: { struct sockaddr_in6 in6; switch (si->type) { case SOCK_STREAM: type = SOCKET_TYPE_CHAR_TCP_V6; break; case SOCK_DGRAM: type = SOCKET_TYPE_CHAR_UDP_V6; break; default: errno = ESOCKTNOSUPPORT; return -1; } memset(&in6, 0, sizeof(in6)); in6.sin6_family = AF_INET6; in6.sin6_addr.s6_addr[0] = SW_IPV6_ADDRESS; si->myname_len = sizeof(in6); si->myname = sockaddr_dup(&in6, si->myname_len); break; } #endif default: errno = ESOCKTNOSUPPORT; return -1; } if (autobind_start > 60000) { autobind_start = 10000; } for (i=0;i<1000;i++) { port = autobind_start + i; snprintf(un_addr.sun_path, sizeof(un_addr.sun_path), "%s/"SOCKET_FORMAT, socket_wrapper_dir(), type, socket_wrapper_default_iface(), port); if (stat(un_addr.sun_path, &st) == 0) continue; ret = real_bind(si->fd, (struct sockaddr *)&un_addr, sizeof(un_addr)); if (ret == -1) return ret; si->tmp_path = strdup(un_addr.sun_path); si->bound = 1; autobind_start = port + 1; break; } if (i == 1000) { errno = ENFILE; return -1; } set_port(si->family, port, si->myname); return 0; } _PUBLIC_ int swrap_connect(int s, const struct sockaddr *serv_addr, socklen_t addrlen) { int ret; struct sockaddr_un un_addr; struct socket_info *si = find_socket_info(s); if (!si) { return real_connect(s, serv_addr, addrlen); } if (si->bound == 0) { ret = swrap_auto_bind(si); if (ret == -1) return -1; } if (si->family != serv_addr->sa_family) { errno = EINVAL; return -1; } ret = sockaddr_convert_to_un(si, (const struct sockaddr *)serv_addr, addrlen, &un_addr, 0, NULL); if (ret == -1) return -1; swrap_dump_packet(si, serv_addr, SWRAP_CONNECT_SEND, NULL, 0); ret = real_connect(s, (struct sockaddr *)&un_addr, sizeof(struct sockaddr_un)); /* to give better errors */ if (ret == -1 && errno == ENOENT) { errno = EHOSTUNREACH; } if (ret == 0) { si->peername_len = addrlen; si->peername = sockaddr_dup(serv_addr, addrlen); swrap_dump_packet(si, serv_addr, SWRAP_CONNECT_RECV, NULL, 0); swrap_dump_packet(si, serv_addr, SWRAP_CONNECT_ACK, NULL, 0); } else { swrap_dump_packet(si, serv_addr, SWRAP_CONNECT_UNREACH, NULL, 0); } return ret; } _PUBLIC_ int swrap_bind(int s, const struct sockaddr *myaddr, socklen_t addrlen) { int ret; struct sockaddr_un un_addr; struct socket_info *si = find_socket_info(s); if (!si) { return real_bind(s, myaddr, addrlen); } si->myname_len = addrlen; si->myname = sockaddr_dup(myaddr, addrlen); ret = sockaddr_convert_to_un(si, (const struct sockaddr *)myaddr, addrlen, &un_addr, 1, &si->bcast); if (ret == -1) return -1; unlink(un_addr.sun_path); ret = real_bind(s, (struct sockaddr *)&un_addr, sizeof(struct sockaddr_un)); if (ret == 0) { si->bound = 1; } return ret; } _PUBLIC_ int swrap_listen(int s, int backlog) { int ret; struct socket_info *si = find_socket_info(s); if (!si) { return real_listen(s, backlog); } ret = real_listen(s, backlog); return ret; } _PUBLIC_ int swrap_getpeername(int s, struct sockaddr *name, socklen_t *addrlen) { struct socket_info *si = find_socket_info(s); if (!si) { return real_getpeername(s, name, addrlen); } if (!si->peername) { errno = ENOTCONN; return -1; } memcpy(name, si->peername, si->peername_len); *addrlen = si->peername_len; return 0; } _PUBLIC_ int swrap_getsockname(int s, struct sockaddr *name, socklen_t *addrlen) { struct socket_info *si = find_socket_info(s); if (!si) { return real_getsockname(s, name, addrlen); } memcpy(name, si->myname, si->myname_len); *addrlen = si->myname_len; return 0; } _PUBLIC_ int swrap_getsockopt(int s, int level, int optname, void *optval, socklen_t *optlen) { struct socket_info *si = find_socket_info(s); if (!si) { return real_getsockopt(s, level, optname, optval, optlen); } if (level == SOL_SOCKET) { return real_getsockopt(s, level, optname, optval, optlen); } errno = ENOPROTOOPT; return -1; } _PUBLIC_ int swrap_setsockopt(int s, int level, int optname, const void *optval, socklen_t optlen) { struct socket_info *si = find_socket_info(s); if (!si) { return real_setsockopt(s, level, optname, optval, optlen); } if (level == SOL_SOCKET) { return real_setsockopt(s, level, optname, optval, optlen); } switch (si->family) { case AF_INET: return 0; default: errno = ENOPROTOOPT; return -1; } } _PUBLIC_ ssize_t swrap_recvfrom(int s, void *buf, size_t len, int flags, struct sockaddr *from, socklen_t *fromlen) { struct sockaddr_un un_addr; socklen_t un_addrlen = sizeof(un_addr); int ret; struct socket_info *si = find_socket_info(s); if (!si) { return real_recvfrom(s, buf, len, flags, from, fromlen); } /* irix 6.4 forgets to null terminate the sun_path string :-( */ memset(&un_addr, 0, sizeof(un_addr)); ret = real_recvfrom(s, buf, len, flags, (struct sockaddr *)&un_addr, &un_addrlen); if (ret == -1) return ret; if (sockaddr_convert_from_un(si, &un_addr, un_addrlen, si->family, from, fromlen) == -1) { return -1; } swrap_dump_packet(si, from, SWRAP_RECVFROM, buf, ret); return ret; } _PUBLIC_ ssize_t swrap_sendto(int s, const void *buf, size_t len, int flags, const struct sockaddr *to, socklen_t tolen) { struct sockaddr_un un_addr; int ret; struct socket_info *si = find_socket_info(s); int bcast = 0; if (!si) { return real_sendto(s, buf, len, flags, to, tolen); } switch (si->type) { case SOCK_STREAM: ret = real_send(s, buf, len, flags); break; case SOCK_DGRAM: if (si->bound == 0) { ret = swrap_auto_bind(si); if (ret == -1) return -1; } ret = sockaddr_convert_to_un(si, to, tolen, &un_addr, 0, &bcast); if (ret == -1) return -1; if (bcast) { struct stat st; unsigned int iface; unsigned int prt = ntohs(((const struct sockaddr_in *)to)->sin_port); char type; type = SOCKET_TYPE_CHAR_UDP; for(iface=0; iface <= MAX_WRAPPED_INTERFACES; iface++) { snprintf(un_addr.sun_path, sizeof(un_addr.sun_path), "%s/"SOCKET_FORMAT, socket_wrapper_dir(), type, iface, prt); if (stat(un_addr.sun_path, &st) != 0) continue; /* ignore the any errors in broadcast sends */ real_sendto(s, buf, len, flags, (struct sockaddr *)&un_addr, sizeof(un_addr)); } swrap_dump_packet(si, to, SWRAP_SENDTO, buf, len); return len; } ret = real_sendto(s, buf, len, flags, (struct sockaddr *)&un_addr, sizeof(un_addr)); break; default: ret = -1; errno = EHOSTUNREACH; break; } /* to give better errors */ if (ret == -1 && errno == ENOENT) { errno = EHOSTUNREACH; } if (ret == -1) { swrap_dump_packet(si, to, SWRAP_SENDTO, buf, len); swrap_dump_packet(si, to, SWRAP_SENDTO_UNREACH, buf, len); } else { swrap_dump_packet(si, to, SWRAP_SENDTO, buf, ret); } return ret; } _PUBLIC_ int swrap_ioctl(int s, int r, void *p) { int ret; struct socket_info *si = find_socket_info(s); int value; if (!si) { return real_ioctl(s, r, p); } ret = real_ioctl(s, r, p); switch (r) { case FIONREAD: value = *((int *)p); if (ret == -1 && errno != EAGAIN && errno != ENOBUFS) { swrap_dump_packet(si, NULL, SWRAP_PENDING_RST, NULL, 0); } else if (value == 0) { /* END OF FILE */ swrap_dump_packet(si, NULL, SWRAP_PENDING_RST, NULL, 0); } break; } return ret; } _PUBLIC_ ssize_t swrap_recv(int s, void *buf, size_t len, int flags) { int ret; struct socket_info *si = find_socket_info(s); if (!si) { return real_recv(s, buf, len, flags); } ret = real_recv(s, buf, len, flags); if (ret == -1 && errno != EAGAIN && errno != ENOBUFS) { swrap_dump_packet(si, NULL, SWRAP_RECV_RST, NULL, 0); } else if (ret == 0) { /* END OF FILE */ swrap_dump_packet(si, NULL, SWRAP_RECV_RST, NULL, 0); } else { swrap_dump_packet(si, NULL, SWRAP_RECV, buf, ret); } return ret; } _PUBLIC_ ssize_t swrap_send(int s, const void *buf, size_t len, int flags) { int ret; struct socket_info *si = find_socket_info(s); if (!si) { return real_send(s, buf, len, flags); } ret = real_send(s, buf, len, flags); if (ret == -1) { swrap_dump_packet(si, NULL, SWRAP_SEND, buf, len); swrap_dump_packet(si, NULL, SWRAP_SEND_RST, NULL, 0); } else { swrap_dump_packet(si, NULL, SWRAP_SEND, buf, ret); } return ret; } _PUBLIC_ int swrap_close(int fd) { struct socket_info *si = find_socket_info(fd); int ret; if (!si) { return real_close(fd); } SWRAP_DLIST_REMOVE(sockets, si); if (si->myname && si->peername) { swrap_dump_packet(si, NULL, SWRAP_CLOSE_SEND, NULL, 0); } ret = real_close(fd); if (si->myname && si->peername) { swrap_dump_packet(si, NULL, SWRAP_CLOSE_RECV, NULL, 0); swrap_dump_packet(si, NULL, SWRAP_CLOSE_ACK, NULL, 0); } if (si->path) free(si->path); if (si->myname) free(si->myname); if (si->peername) free(si->peername); if (si->tmp_path) { unlink(si->tmp_path); free(si->tmp_path); } free(si); return ret; }