/* * Copyright (c) 1993, 1994, 1995, 1996 Rick Sladkey * Copyright (c) 1996-2018 The strace developers. * 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. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 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. */ #include "defs.h" #include "print_fields.h" #include #include #include #if defined ALPHA || defined SH || defined SH64 # include #endif #include #include #include #include #include #include #include #include DEF_MPERS_TYPE(struct_ifconf) #include DEF_MPERS_TYPE(struct_ifreq) typedef struct ifconf struct_ifconf; typedef struct ifreq struct_ifreq; #include MPERS_DEFS #include "xlat/iffflags.h" #include "xlat/inet6_route_metrics.h" #include "xlat/inet6_router_pref.h" #include "xlat/netrom_route_types.h" #include "xlat/route_flags.h" #include "xlat/route_flags_inet6.h" #define XLAT_MACROS_ONLY # include "xlat/arp_hardware_types.h" # include "xlat/route_nexthop_flags.h" # include "xlat/routing_types.h" #undef XLAT_MACROS_ONLY static void print_ifname(const char *ifname) { print_quoted_string(ifname, IFNAMSIZ + 1, QUOTE_0_TERMINATED); } static void print_ifreq(struct tcb *const tcp, const unsigned int code, const kernel_ulong_t arg, const struct_ifreq *const ifr) { switch (code) { case SIOCSIFADDR: case SIOCGIFADDR: PRINT_FIELD_SOCKADDR("", *ifr, ifr_addr); break; case SIOCSIFDSTADDR: case SIOCGIFDSTADDR: PRINT_FIELD_SOCKADDR("", *ifr, ifr_dstaddr); break; case SIOCSIFBRDADDR: case SIOCGIFBRDADDR: PRINT_FIELD_SOCKADDR("", *ifr, ifr_broadaddr); break; case SIOCSIFNETMASK: case SIOCGIFNETMASK: PRINT_FIELD_SOCKADDR("", *ifr, ifr_netmask); break; case SIOCSIFHWADDR: case SIOCGIFHWADDR: { PRINT_FIELD_XVAL("ifr_hwaddr={", ifr->ifr_hwaddr, sa_family, arp_hardware_types, "ARPHRD_???"); PRINT_FIELD_HWADDR_SZ(", ", ifr->ifr_hwaddr, sa_data, sizeof(ifr->ifr_hwaddr.sa_data), ifr->ifr_hwaddr.sa_family); tprints("}"); break; } case SIOCSIFFLAGS: case SIOCGIFFLAGS: tprints("ifr_flags="); printflags(iffflags, (unsigned short) ifr->ifr_flags, "IFF_???"); break; case SIOCSIFMETRIC: case SIOCGIFMETRIC: tprintf("ifr_metric=%d", ifr->ifr_metric); break; case SIOCSIFMTU: case SIOCGIFMTU: tprintf("ifr_mtu=%d", ifr->ifr_mtu); break; case SIOCSIFSLAVE: case SIOCGIFSLAVE: tprints("ifr_slave="); print_ifname(ifr->ifr_slave); break; case SIOCSIFTXQLEN: case SIOCGIFTXQLEN: tprintf("ifr_qlen=%d", ifr->ifr_qlen); break; case SIOCSIFMAP: case SIOCGIFMAP: tprintf("ifr_map={mem_start=%#" PRI_klx ", " "mem_end=%#" PRI_klx ", base_addr=%#x, " "irq=%u, dma=%u, port=%u}", (kernel_ulong_t) ifr->ifr_map.mem_start, (kernel_ulong_t) ifr->ifr_map.mem_end, (unsigned) ifr->ifr_map.base_addr, (unsigned) ifr->ifr_map.irq, (unsigned) ifr->ifr_map.dma, (unsigned) ifr->ifr_map.port); break; } } static unsigned int print_ifc_len(int len) { const unsigned int n = (unsigned int) len / sizeof(struct_ifreq); if (len < 0 || n * sizeof(struct_ifreq) != (unsigned int) len) tprintf("%d", len); else tprintf("%u * sizeof(struct ifreq)", n); return n; } static bool print_ifconf_ifreq(struct tcb *tcp, void *elem_buf, size_t elem_size, void *dummy) { struct_ifreq *ifr = elem_buf; tprints("{ifr_name="); print_ifname(ifr->ifr_name); PRINT_FIELD_SOCKADDR(", ", *ifr, ifr_addr); tprints("}"); return true; } /* * There are two different modes of operation: * * - Get buffer size. In this case, the callee sets ifc_buf to NULL, * and the kernel returns the buffer size in ifc_len. * - Get actual data. In this case, the callee specifies the buffer address * in ifc_buf and its size in ifc_len. The kernel fills the buffer with * the data, and its amount is returned in ifc_len. * * Note that, technically, the whole struct ifconf is overwritten, * so ifc_buf could be different on exit, but current ioctl handler * implementation does not touch it. */ static int decode_ifconf(struct tcb *const tcp, const kernel_ulong_t addr) { struct_ifconf *entering_ifc = NULL; struct_ifconf *ifc = entering(tcp) ? malloc(sizeof(*ifc)) : alloca(sizeof(*ifc)); if (exiting(tcp)) { entering_ifc = get_tcb_priv_data(tcp); if (!entering_ifc) { error_func_msg("where is my ifconf?"); return 0; } } if (!ifc || umove(tcp, addr, ifc) < 0) { if (entering(tcp)) { free(ifc); tprints(", "); printaddr(addr); } else { /* * We failed to fetch the structure on exiting syscall, * print whatever was fetched on entering syscall. */ if (!entering_ifc->ifc_buf) print_ifc_len(entering_ifc->ifc_len); tprints(", ifc_buf="); printaddr(ptr_to_kulong(entering_ifc->ifc_buf)); tprints("}"); } return RVAL_IOCTL_DECODED; } if (entering(tcp)) { tprints(", {ifc_len="); if (ifc->ifc_buf) print_ifc_len(ifc->ifc_len); set_tcb_priv_data(tcp, ifc, free); return 0; } /* exiting */ if (entering_ifc->ifc_buf && (entering_ifc->ifc_len != ifc->ifc_len)) tprints(" => "); if (!entering_ifc->ifc_buf || (entering_ifc->ifc_len != ifc->ifc_len)) print_ifc_len(ifc->ifc_len); tprints(", ifc_buf="); if (!entering_ifc->ifc_buf || syserror(tcp)) { printaddr(ptr_to_kulong(entering_ifc->ifc_buf)); if (entering_ifc->ifc_buf != ifc->ifc_buf) { tprints(" => "); printaddr(ptr_to_kulong(ifc->ifc_buf)); } } else { struct_ifreq ifr; print_array(tcp, ptr_to_kulong(ifc->ifc_buf), ifc->ifc_len / sizeof(struct_ifreq), &ifr, sizeof(ifr), tfetch_mem, print_ifconf_ifreq, NULL); } tprints("}"); return RVAL_IOCTL_DECODED; } static void decode_rtentry(struct tcb *tcp, kernel_ulong_t arg) { struct rtentry e; if (umove_or_printaddr(tcp, arg, &e)) return; tprints("{"); if (e.rt_pad1) { PRINT_FIELD_X("", e, rt_pad1); tprints(", "); } PRINT_FIELD_SOCKADDR("", e, rt_dst); PRINT_FIELD_SOCKADDR(", ", e, rt_gateway); PRINT_FIELD_SOCKADDR(", ", e, rt_genmask); PRINT_FIELD_FLAGS(", ", e, rt_flags, route_flags, "RTF_???"); if (e.rt_pad2) PRINT_FIELD_X(", ", e, rt_pad2); if (e.rt_pad3) PRINT_FIELD_X(", ", e, rt_pad3); if (e.rt_pad4) { tprintf(", rt_pad4="); printaddr((uintptr_t) e.rt_pad4); } PRINT_FIELD_U(", ", e, rt_metric); tprints(", rt_dev="); printstr_ex(tcp, (uintptr_t) e.rt_dev, IFNAMSIZ, QUOTE_0_TERMINATED); PRINT_FIELD_U(", ", e, rt_mtu); PRINT_FIELD_U(", ", e, rt_window); PRINT_FIELD_U(", ", e, rt_irtt); tprints("}"); } static void print_digipeaters(uint32_t val, const char *dps_name, ax25_address *dps, size_t dps_sz) { if (!val) return; size_t cnt = MIN(val, dps_sz); tprintf("%s=[", dps_name); for (size_t i = 0; i < cnt; i++) { if (i) tprints(", "); print_ax25_addr(dps + i); } tprints("]"); } static void decode_ax25_routes_struct(struct tcb *tcp, kernel_ulong_t arg) { struct ax25_routes_struct e; if (umove_or_printaddr(tcp, arg, &e)) return; PRINT_FIELD_AX25_ADDR("{", e, port_addr); PRINT_FIELD_AX25_ADDR(", ", e, dest_addr); PRINT_FIELD_U(", ", e, digi_count); print_digipeaters(e.digi_count, "digi_addr", ARRSZ_PAIR(e.digi_addr)); tprints("}"); } static void decode_nr_route_struct(struct tcb *tcp, kernel_ulong_t arg) { struct nr_route_struct e; if (umove_or_printaddr(tcp, arg, &e)) return; PRINT_FIELD_XVAL("{", e, type, netrom_route_types, "NETROM_???"); PRINT_FIELD_AX25_ADDR(", ", e, callsign); PRINT_FIELD_CSTRING(", ", e, device); PRINT_FIELD_U(", ", e, quality); PRINT_FIELD_CSTRING(", ", e, mnemonic); PRINT_FIELD_AX25_ADDR(", ", e, neighbour); PRINT_FIELD_U(", ", e, obs_count); PRINT_FIELD_U(", ", e, ndigis); print_digipeaters(e.ndigis, "digipeaters", ARRSZ_PAIR(e.digipeaters)); tprints("}"); } static void decode_x25_route_struct(struct tcb *tcp, kernel_ulong_t arg) { struct x25_route_struct e; if (umove_or_printaddr(tcp, arg, &e)) return; PRINT_FIELD_X25_ADDR("{", e, address); PRINT_FIELD_U(", ", e, sigdigits); PRINT_FIELD_CSTRING(", ", e, device); tprints("}"); } static void print_inet6_route_pref(uint8_t pref) { if (xlat_verbose(xlat_verbosity) != XLAT_STYLE_ABBREV) tprintf("%#x", pref << 27); if (xlat_verbose(xlat_verbosity) == XLAT_STYLE_RAW) return; if (xlat_verbose(xlat_verbosity) == XLAT_STYLE_VERBOSE) tprints(" /* "); tprints("RTF_PREF("); printxval(inet6_router_pref, pref, "ICMPV6_ROUTER_PREF_???"); tprints(")"); if (xlat_verbose(xlat_verbosity) == XLAT_STYLE_VERBOSE) tprints(" */"); } static void decode_in6_rtmsg(struct tcb *tcp, kernel_ulong_t arg) { struct in6_rtmsg e; if (umove_or_printaddr(tcp, arg, &e)) return; PRINT_FIELD_INET6_ADDR("{", e, rtmsg_dst); PRINT_FIELD_INET6_ADDR(", ", e, rtmsg_src); PRINT_FIELD_INET6_ADDR(", ", e, rtmsg_gateway); PRINT_FIELD_XVAL(", ", e, rtmsg_type, routing_types, "RTN_???"); PRINT_FIELD_U(", ", e, rtmsg_dst_len); PRINT_FIELD_U(", ", e, rtmsg_src_len); PRINT_FIELD_XVAL(", ", e, rtmsg_metric, inet6_route_metrics, "IP6_RT_PRIO_???"); PRINT_FIELD_U(", ", e, rtmsg_info); uint32_t pref = (e.rtmsg_flags >> 27) & 0x3; uint32_t flags = e.rtmsg_flags & ~(0x3 << 27); tprints(", rtmsg_flags="); print_inet6_route_pref(pref); if (flags) { tprints("|"); printflags_ex(flags, "RTF_???", XLAT_STYLE_DEFAULT, route_nexthop_flags, route_flags_inet6, NULL); } PRINT_FIELD_IFINDEX(", ", e, rtmsg_ifindex); tprints("}"); } static void decode_rose_route_struct(struct tcb *tcp, kernel_ulong_t arg) { struct rose_route_struct e; if (umove_or_printaddr(tcp, arg, &e)) return; PRINT_FIELD_ROSE_ADDR("{", e, address); PRINT_FIELD_U(", ", e, mask); PRINT_FIELD_AX25_ADDR("{", e, neighbour); PRINT_FIELD_CSTRING(", ", e, device); PRINT_FIELD_U(", ", e, ndigis); print_digipeaters(e.ndigis, "digipeaters", ARRSZ_PAIR(e.digipeaters)); tprints("}"); } MPERS_PRINTER_DECL(int, sock_ioctl, struct tcb *tcp, const unsigned int code, const kernel_ulong_t arg) { struct_ifreq ifr; switch (code) { case SIOCGIFCONF: return decode_ifconf(tcp, arg); #ifdef SIOCBRADDBR case SIOCBRADDBR: case SIOCBRDELBR: tprints(", "); printstr(tcp, arg); break; #endif #ifdef FIOSETOWN case FIOSETOWN: #endif #ifdef SIOCSPGRP case SIOCSPGRP: #endif tprints(", "); printnum_int(tcp, arg, "%d"); break; #ifdef FIOGETOWN case FIOGETOWN: #endif #ifdef SIOCGPGRP case SIOCGPGRP: #endif #ifdef SIOCATMARK case SIOCATMARK: #endif if (entering(tcp)) return 0; tprints(", "); printnum_int(tcp, arg, "%d"); break; #ifdef SIOCBRADDIF case SIOCBRADDIF: #endif #ifdef SIOCBRDELIF case SIOCBRDELIF: #endif /* no arguments */ break; case SIOCSIFNAME: case SIOCSIFADDR: case SIOCSIFDSTADDR: case SIOCSIFBRDADDR: case SIOCSIFNETMASK: case SIOCSIFFLAGS: case SIOCSIFMETRIC: case SIOCSIFMTU: case SIOCSIFSLAVE: case SIOCSIFHWADDR: case SIOCSIFTXQLEN: case SIOCSIFMAP: tprints(", "); if (umove_or_printaddr(tcp, arg, &ifr)) break; tprints("{ifr_name="); print_ifname(ifr.ifr_name); tprints(", "); if (code == SIOCSIFNAME) { tprints("ifr_newname="); print_ifname(ifr.ifr_newname); } else { print_ifreq(tcp, code, arg, &ifr); } tprints("}"); break; case SIOCGIFNAME: case SIOCGIFINDEX: case SIOCGIFADDR: case SIOCGIFDSTADDR: case SIOCGIFBRDADDR: case SIOCGIFNETMASK: case SIOCGIFFLAGS: case SIOCGIFMETRIC: case SIOCGIFMTU: case SIOCGIFSLAVE: case SIOCGIFHWADDR: case SIOCGIFTXQLEN: case SIOCGIFMAP: if (entering(tcp)) { tprints(", "); if (umove_or_printaddr(tcp, arg, &ifr)) break; if (SIOCGIFNAME == code) { tprintf("{ifr_index=%d", ifr.ifr_ifindex); } else { tprints("{ifr_name="); print_ifname(ifr.ifr_name); } return 0; } else { if (syserror(tcp)) { tprints("}"); break; } tprints(", "); if (umove(tcp, arg, &ifr) < 0) { tprints("???}"); break; } if (SIOCGIFNAME == code) { tprints("ifr_name="); print_ifname(ifr.ifr_name); } else { print_ifreq(tcp, code, arg, &ifr); } tprints("}"); break; } /* * These two depend on the network protocol of the fd they're called. * Unfortunately, we can't get it right away, so we should derive from * the socket protocol. */ case SIOCADDRT: case SIOCDELRT: { typedef void (* handler)(struct tcb *tcp, kernel_ulong_t addr); static const handler handlers[] = { [AF_INET] = decode_rtentry, [AF_AX25] = decode_ax25_routes_struct, /* packet_ioctl explicitly calls inet_dgram_ops.ioctl */ [AF_APPLETALK] = decode_rtentry, [AF_NETROM] = decode_nr_route_struct, [AF_X25] = decode_x25_route_struct, [AF_INET6] = decode_in6_rtmsg, [AF_ROSE] = decode_rose_route_struct, [AF_PACKET] = decode_rtentry, }; enum sock_proto proto = getfdproto(tcp, tcp->u_arg[0]); uint32_t family = MAX(get_family_by_proto(proto), 0); if (family < ARRAY_SIZE(handlers) && handlers[family]) { handlers[family](tcp, arg); break; } return RVAL_DECODED; } default: return RVAL_DECODED; } return RVAL_IOCTL_DECODED; }