/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2007-2011 Robert N. M. Watson * Copyright (c) 2015 Allan Jude * 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. * * 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. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "procstat.h" static const char * protocol_to_string(int domain, int type, int protocol) { switch (domain) { case AF_INET: case AF_INET6: switch (protocol) { case IPPROTO_TCP: return ("TCP"); case IPPROTO_UDP: return ("UDP"); case IPPROTO_ICMP: return ("ICM"); case IPPROTO_RAW: return ("RAW"); case IPPROTO_SCTP: return ("SCT"); default: return ("IP?"); } case AF_LOCAL: switch (type) { case SOCK_STREAM: return ("UDS"); case SOCK_DGRAM: return ("UDD"); default: return ("UD?"); } case AF_DIVERT: return ("IPD"); break; default: return ("?"); } } static void addr_to_string(struct sockaddr_storage *ss, char *buffer, int buflen) { char buffer2[INET6_ADDRSTRLEN]; struct sockaddr_in6 *sin6; struct sockaddr_in *sin; struct sockaddr_un *sun; switch (ss->ss_family) { case AF_LOCAL: sun = (struct sockaddr_un *)ss; if (strlen(sun->sun_path) == 0) strlcpy(buffer, "-", buflen); else strlcpy(buffer, sun->sun_path, buflen); break; case AF_INET: sin = (struct sockaddr_in *)ss; if (sin->sin_addr.s_addr == INADDR_ANY) snprintf(buffer, buflen, "%s:%d", "*", ntohs(sin->sin_port)); else if (inet_ntop(AF_INET, &sin->sin_addr, buffer2, sizeof(buffer2)) != NULL) snprintf(buffer, buflen, "%s:%d", buffer2, ntohs(sin->sin_port)); break; case AF_INET6: sin6 = (struct sockaddr_in6 *)ss; if (inet_ntop(AF_INET6, &sin6->sin6_addr, buffer2, sizeof(buffer2)) != NULL) snprintf(buffer, buflen, "%s.%d", buffer2, ntohs(sin6->sin6_port)); else strlcpy(buffer, "-", buflen); break; default: strlcpy(buffer, "", buflen); break; } } static struct cap_desc { uint64_t cd_right; const char *cd_desc; } cap_desc[] = { /* General file I/O. */ { CAP_READ, "rd" }, { CAP_WRITE, "wr" }, { CAP_SEEK, "se" }, { CAP_MMAP, "mm" }, { CAP_CREATE, "cr" }, { CAP_FEXECVE, "fe" }, { CAP_FSYNC, "fy" }, { CAP_FTRUNCATE, "ft" }, /* VFS methods. */ { CAP_FCHDIR, "cd" }, { CAP_FCHFLAGS, "cf" }, { CAP_FCHMOD, "cm" }, { CAP_FCHOWN, "cn" }, { CAP_FCNTL, "fc" }, { CAP_FLOCK, "fl" }, { CAP_FPATHCONF, "fp" }, { CAP_FSCK, "fk" }, { CAP_FSTAT, "fs" }, { CAP_FSTATFS, "sf" }, { CAP_FUTIMES, "fu" }, { CAP_LINKAT_SOURCE, "ls" }, { CAP_LINKAT_TARGET, "lt" }, { CAP_MKDIRAT, "md" }, { CAP_MKFIFOAT, "mf" }, { CAP_MKNODAT, "mn" }, { CAP_RENAMEAT_SOURCE, "rs" }, { CAP_RENAMEAT_TARGET, "rt" }, { CAP_SYMLINKAT, "sl" }, { CAP_UNLINKAT, "un" }, /* Lookups - used to constrain *at() calls. */ { CAP_LOOKUP, "lo" }, /* Extended attributes. */ { CAP_EXTATTR_GET, "eg" }, { CAP_EXTATTR_SET, "es" }, { CAP_EXTATTR_DELETE, "ed" }, { CAP_EXTATTR_LIST, "el" }, /* Access Control Lists. */ { CAP_ACL_GET, "ag" }, { CAP_ACL_SET, "as" }, { CAP_ACL_DELETE, "ad" }, { CAP_ACL_CHECK, "ac" }, /* Socket operations. */ { CAP_ACCEPT, "at" }, { CAP_BIND, "bd" }, { CAP_CONNECT, "co" }, { CAP_GETPEERNAME, "pn" }, { CAP_GETSOCKNAME, "sn" }, { CAP_GETSOCKOPT, "gs" }, { CAP_LISTEN, "ln" }, { CAP_PEELOFF, "pf" }, { CAP_SETSOCKOPT, "ss" }, { CAP_SHUTDOWN, "sh" }, /* Mandatory Access Control. */ { CAP_MAC_GET, "mg" }, { CAP_MAC_SET, "ms" }, /* Methods on semaphores. */ { CAP_SEM_GETVALUE, "sg" }, { CAP_SEM_POST, "sp" }, { CAP_SEM_WAIT, "sw" }, /* Event monitoring and posting. */ { CAP_EVENT, "ev" }, { CAP_KQUEUE_EVENT, "ke" }, { CAP_KQUEUE_CHANGE, "kc" }, /* Strange and powerful rights that should not be given lightly. */ { CAP_IOCTL, "io" }, { CAP_TTYHOOK, "ty" }, /* Process management via process descriptors. */ { CAP_PDGETPID, "pg" }, { CAP_PDWAIT, "pw" }, { CAP_PDKILL, "pk" }, /* * Rights that allow to use bindat(2) and connectat(2) syscalls on a * directory descriptor. */ { CAP_BINDAT, "ba" }, { CAP_CONNECTAT, "ca" }, /* Aliases and defines that combine multiple rights. */ { CAP_PREAD, "prd" }, { CAP_PWRITE, "pwr" }, { CAP_MMAP_R, "mmr" }, { CAP_MMAP_W, "mmw" }, { CAP_MMAP_X, "mmx" }, { CAP_MMAP_RW, "mrw" }, { CAP_MMAP_RX, "mrx" }, { CAP_MMAP_WX, "mwx" }, { CAP_MMAP_RWX, "mma" }, { CAP_RECV, "re" }, { CAP_SEND, "sd" }, { CAP_SOCK_CLIENT, "scl" }, { CAP_SOCK_SERVER, "ssr" }, }; static const u_int cap_desc_count = nitems(cap_desc); static u_int width_capability(cap_rights_t *rightsp) { u_int count, i, width; count = 0; width = 0; for (i = 0; i < cap_desc_count; i++) { if (cap_rights_is_set(rightsp, cap_desc[i].cd_right)) { width += strlen(cap_desc[i].cd_desc); if (count) width++; count++; } } return (width); } static void print_capability(cap_rights_t *rightsp, u_int capwidth) { u_int count, i; count = 0; for (i = width_capability(rightsp); i < capwidth; i++) { if (i != 0) xo_emit(" "); else xo_emit("-"); } xo_open_list("capabilities"); for (i = 0; i < cap_desc_count; i++) { if (cap_rights_is_set(rightsp, cap_desc[i].cd_right)) { xo_emit("{D:/%s}{l:capabilities/%s}", count ? "," : "", cap_desc[i].cd_desc); count++; } } xo_close_list("capabilities"); } void procstat_files(struct procstat *procstat, struct kinfo_proc *kipp) { struct sockstat sock; struct filestat_list *head; struct filestat *fst; const char *str; struct vnstat vn; u_int capwidth, width; int error; char src_addr[PATH_MAX]; char dst_addr[PATH_MAX]; /* * To print the header in capability mode, we need to know the width * of the widest capability string. Even if we get no processes * back, we will print the header, so we defer aborting due to a lack * of processes until after the header logic. */ capwidth = 0; head = procstat_getfiles(procstat, kipp, 0); if (head != NULL && (procstat_opts & PS_OPT_CAPABILITIES) != 0) { STAILQ_FOREACH(fst, head, next) { width = width_capability(&fst->fs_cap_rights); if (width > capwidth) capwidth = width; } if (capwidth < strlen("CAPABILITIES")) capwidth = strlen("CAPABILITIES"); } if ((procstat_opts & PS_OPT_NOHEADER) == 0) { if ((procstat_opts & PS_OPT_CAPABILITIES) != 0) xo_emit("{T:/%5s %-16s %5s %1s %-8s %-*s " "%-3s %-12s}\n", "PID", "COMM", "FD", "T", "FLAGS", capwidth, "CAPABILITIES", "PRO", "NAME"); else xo_emit("{T:/%5s %-16s %5s %1s %1s %-8s " "%3s %7s %-3s %-12s}\n", "PID", "COMM", "FD", "T", "V", "FLAGS", "REF", "OFFSET", "PRO", "NAME"); } if (head == NULL) return; xo_emit("{ek:process_id/%5d/%d}", kipp->ki_pid); xo_emit("{e:command/%-16s/%s}", kipp->ki_comm); xo_open_list("files"); STAILQ_FOREACH(fst, head, next) { xo_open_instance("files"); xo_emit("{dk:process_id/%5d/%d} ", kipp->ki_pid); xo_emit("{d:command/%-16s/%s} ", kipp->ki_comm); if (fst->fs_uflags & PS_FST_UFLAG_CTTY) xo_emit("{P: }{:fd/%s} ", "ctty"); else if (fst->fs_uflags & PS_FST_UFLAG_CDIR) xo_emit("{P: }{:fd/%s} ", "cwd"); else if (fst->fs_uflags & PS_FST_UFLAG_JAIL) xo_emit("{P: }{:fd/%s} ", "jail"); else if (fst->fs_uflags & PS_FST_UFLAG_RDIR) xo_emit("{P: }{:fd/%s} ", "root"); else if (fst->fs_uflags & PS_FST_UFLAG_TEXT) xo_emit("{P: }{:fd/%s} ", "text"); else if (fst->fs_uflags & PS_FST_UFLAG_TRACE) xo_emit("{:fd/%s} ", "trace"); else xo_emit("{:fd/%5d} ", fst->fs_fd); switch (fst->fs_type) { case PS_FST_TYPE_VNODE: str = "v"; xo_emit("{eq:fd_type/vnode}"); break; case PS_FST_TYPE_SOCKET: str = "s"; xo_emit("{eq:fd_type/socket}"); break; case PS_FST_TYPE_PIPE: str = "p"; xo_emit("{eq:fd_type/pipe}"); break; case PS_FST_TYPE_FIFO: str = "f"; xo_emit("{eq:fd_type/fifo}"); break; case PS_FST_TYPE_KQUEUE: str = "k"; xo_emit("{eq:fd_type/kqueue}"); break; case PS_FST_TYPE_MQUEUE: str = "m"; xo_emit("{eq:fd_type/mqueue}"); break; case PS_FST_TYPE_SHM: str = "h"; xo_emit("{eq:fd_type/shm}"); break; case PS_FST_TYPE_PTS: str = "t"; xo_emit("{eq:fd_type/pts}"); break; case PS_FST_TYPE_SEM: str = "e"; xo_emit("{eq:fd_type/sem}"); break; case PS_FST_TYPE_PROCDESC: str = "P"; xo_emit("{eq:fd_type/procdesc}"); break; case PS_FST_TYPE_DEV: str = "D"; xo_emit("{eq:fd_type/dev}"); break; case PS_FST_TYPE_EVENTFD: str = "E"; xo_emit("{eq:fd_type/eventfd}"); break; case PS_FST_TYPE_NONE: str = "?"; xo_emit("{eq:fd_type/none}"); break; case PS_FST_TYPE_UNKNOWN: default: str = "?"; xo_emit("{eq:fd_type/unknown}"); break; } xo_emit("{d:fd_type/%1s/%s} ", str); if ((procstat_opts & PS_OPT_CAPABILITIES) == 0) { str = "-"; if (fst->fs_type == PS_FST_TYPE_VNODE) { error = procstat_get_vnode_info(procstat, fst, &vn, NULL); switch (vn.vn_type) { case PS_FST_VTYPE_VREG: str = "r"; xo_emit("{eq:vode_type/regular}"); break; case PS_FST_VTYPE_VDIR: str = "d"; xo_emit("{eq:vode_type/directory}"); break; case PS_FST_VTYPE_VBLK: str = "b"; xo_emit("{eq:vode_type/block}"); break; case PS_FST_VTYPE_VCHR: str = "c"; xo_emit("{eq:vode_type/character}"); break; case PS_FST_VTYPE_VLNK: str = "l"; xo_emit("{eq:vode_type/link}"); break; case PS_FST_VTYPE_VSOCK: str = "s"; xo_emit("{eq:vode_type/socket}"); break; case PS_FST_VTYPE_VFIFO: str = "f"; xo_emit("{eq:vode_type/fifo}"); break; case PS_FST_VTYPE_VBAD: str = "x"; xo_emit("{eq:vode_type/revoked_device}"); break; case PS_FST_VTYPE_VNON: str = "?"; xo_emit("{eq:vode_type/non}"); break; case PS_FST_VTYPE_UNKNOWN: default: str = "?"; xo_emit("{eq:vode_type/unknown}"); break; } } xo_emit("{d:vnode_type/%1s/%s} ", str); } xo_emit("{d:/%s}", fst->fs_fflags & PS_FST_FFLAG_READ ? "r" : "-"); xo_emit("{d:/%s}", fst->fs_fflags & PS_FST_FFLAG_WRITE ? "w" : "-"); xo_emit("{d:/%s}", fst->fs_fflags & PS_FST_FFLAG_APPEND ? "a" : "-"); xo_emit("{d:/%s}", fst->fs_fflags & PS_FST_FFLAG_ASYNC ? "s" : "-"); xo_emit("{d:/%s}", fst->fs_fflags & PS_FST_FFLAG_SYNC ? "f" : "-"); xo_emit("{d:/%s}", fst->fs_fflags & PS_FST_FFLAG_NONBLOCK ? "n" : "-"); xo_emit("{d:/%s}", fst->fs_fflags & PS_FST_FFLAG_DIRECT ? "d" : "-"); xo_emit("{d:/%s}", fst->fs_fflags & PS_FST_FFLAG_HASLOCK ? "l" : "-"); xo_emit(" "); xo_open_list("fd_flags"); if (fst->fs_fflags & PS_FST_FFLAG_READ) xo_emit("{elq:fd_flags/read}"); if (fst->fs_fflags & PS_FST_FFLAG_WRITE) xo_emit("{elq:fd_flags/write}"); if (fst->fs_fflags & PS_FST_FFLAG_APPEND) xo_emit("{elq:fd_flags/append}"); if (fst->fs_fflags & PS_FST_FFLAG_ASYNC) xo_emit("{elq:fd_flags/async}"); if (fst->fs_fflags & PS_FST_FFLAG_SYNC) xo_emit("{elq:fd_flags/fsync}"); if (fst->fs_fflags & PS_FST_FFLAG_NONBLOCK) xo_emit("{elq:fd_flags/nonblocking}"); if (fst->fs_fflags & PS_FST_FFLAG_DIRECT) xo_emit("{elq:fd_flags/direct_io}"); if (fst->fs_fflags & PS_FST_FFLAG_HASLOCK) xo_emit("{elq:fd_flags/lock_held}"); xo_close_list("fd_flags"); if ((procstat_opts & PS_OPT_CAPABILITIES) == 0) { if (fst->fs_ref_count > -1) xo_emit("{:ref_count/%3d/%d} ", fst->fs_ref_count); else xo_emit("{q:ref_count/%3c/%c} ", '-'); if (fst->fs_offset > -1) xo_emit("{:offset/%7jd/%jd} ", (intmax_t)fst->fs_offset); else xo_emit("{q:offset/%7c/%c} ", '-'); } if ((procstat_opts & PS_OPT_CAPABILITIES) != 0) { print_capability(&fst->fs_cap_rights, capwidth); xo_emit(" "); } switch (fst->fs_type) { case PS_FST_TYPE_SOCKET: error = procstat_get_socket_info(procstat, fst, &sock, NULL); if (error != 0) break; xo_emit("{:protocol/%-3s/%s} ", protocol_to_string(sock.dom_family, sock.type, sock.proto)); if (sock.proto == IPPROTO_TCP || sock.proto == IPPROTO_SCTP || sock.type == SOCK_STREAM) { xo_emit("{:sendq/%u} ", sock.sendq); xo_emit("{:recvq/%u} ", sock.recvq); } /* * While generally we like to print two addresses, * local and peer, for sockets, it turns out to be * more useful to print the first non-nul address for * local sockets, as typically they aren't bound and * connected, and the path strings can get long. */ if (sock.dom_family == AF_LOCAL) { struct sockaddr_un *sun = (struct sockaddr_un *)&sock.sa_local; if (sun->sun_path[0] != 0) addr_to_string(&sock.sa_local, src_addr, sizeof(src_addr)); else addr_to_string(&sock.sa_peer, src_addr, sizeof(src_addr)); xo_emit("{:path/%s}", src_addr); } else { addr_to_string(&sock.sa_local, src_addr, sizeof(src_addr)); addr_to_string(&sock.sa_peer, dst_addr, sizeof(dst_addr)); xo_emit("{:path/%s %s}", src_addr, dst_addr); } break; default: xo_emit("{:protocol/%-3s/%s} ", "-"); xo_emit("{:path/%-18s/%s}", fst->fs_path != NULL ? fst->fs_path : "-"); } xo_emit("\n"); xo_close_instance("files"); } xo_close_list("files"); procstat_freefiles(procstat, head); }