#include #include #include #include #include #include #include #include #include #include #include #include #include "files.h" #include "file-ids.h" #include "files-reg.h" #include "image.h" #include "list.h" #include "util.h" #include "util-pie.h" #include "lock.h" #include "sockets.h" #include "pstree.h" #include "tty.h" #include "pipes.h" #include "fifo.h" #include "eventfd.h" #include "eventpoll.h" #include "fsnotify.h" #include "signalfd.h" #include "namespaces.h" #include "tun.h" #include "parasite.h" #include "parasite-syscall.h" #include "protobuf.h" #include "protobuf/fs.pb-c.h" #define FDESC_HASH_SIZE 64 static struct hlist_head file_desc_hash[FDESC_HASH_SIZE]; int prepare_shared_fdinfo(void) { int i; for (i = 0; i < FDESC_HASH_SIZE; i++) INIT_HLIST_HEAD(&file_desc_hash[i]); return 0; } int file_desc_add(struct file_desc *d, u32 id, struct file_desc_ops *ops) { d->id = id; d->ops = ops; INIT_LIST_HEAD(&d->fd_info_head); hlist_add_head(&d->hash, &file_desc_hash[id % FDESC_HASH_SIZE]); return 0; /* this is to make tail-calls in collect_one_foo look nice */ } struct file_desc *find_file_desc_raw(int type, u32 id) { struct file_desc *d; struct hlist_head *chain; chain = &file_desc_hash[id % FDESC_HASH_SIZE]; hlist_for_each_entry(d, chain, hash) if (d->ops->type == type && d->id == id) return d; return NULL; } static inline struct file_desc *find_file_desc(FdinfoEntry *fe) { return find_file_desc_raw(fe->type, fe->id); } /* * A file may be shared between several file descriptors. E.g * when doing a fork() every fd of a forker and respective fds * of the child have such. Another way of getting shared files * is by dup()-ing them or sending them via unix sockets in * SCM_RIGHTS message. * * We restore this type of things in 3 steps (states[] below) * * 1. Prepare step. * Select which task will create the file (open() one, or * call any other syscall for than (socket, pipe, etc.). All * the others, that share one, create unix sockets under the * respective file descriptor (transport socket). * 2. Open step. * The one who creates the file (the 'master') creates one, * then creates one more unix socket (transport) and sends the * created file over this socket to the other recepients. * 3. Receive step. * Those, who wait for the file to appear, receive one via * the transport socket, then close the socket and dup() the * received file descriptor into its place. * * There's the 4th step in the states[] array -- the post_open * one. This one is not about file-sharing resolving, but about * doing something with a file using it's 'desired' fd. The * thing is that while going the 3-step process above, the file * may appear in variuos places in the task's fd table, and if * we want to do something with it's _final_ descriptor value, * we should wait for it to appear there. So the post_open is * called when the file is finally set into its place. */ struct fdinfo_list_entry *file_master(struct file_desc *d) { if (list_empty(&d->fd_info_head)) { pr_err("Empty list on file desc id %#x\n", d->id); BUG(); } return list_first_entry(&d->fd_info_head, struct fdinfo_list_entry, desc_list); } void show_saved_files(void) { int i; struct file_desc *fd; pr_info("File descs:\n"); for (i = 0; i < FDESC_HASH_SIZE; i++) hlist_for_each_entry(fd, &file_desc_hash[i], hash) { struct fdinfo_list_entry *le; pr_info(" `- type %d ID %#x\n", fd->ops->type, fd->id); list_for_each_entry(le, &fd->fd_info_head, desc_list) pr_info(" `- FD %d pid %d\n", le->fe->fd, le->pid); } } /* * The gen_id thing is used to optimize the comparison of shared files. * If two files have different gen_ids, then they are different for sure. * If it matches, we don't know it and have to call sys_kcmp(). * * The kcmp-ids.c engine does this trick, see comments in it for more info. */ static u32 make_gen_id(const struct fd_parms *p) { return ((u32)p->stat.st_dev) ^ ((u32)p->stat.st_ino) ^ ((u32)p->pos); } int do_dump_gen_file(struct fd_parms *p, int lfd, const struct fdtype_ops *ops, const int fdinfo) { FdinfoEntry e = FDINFO_ENTRY__INIT; int ret = -1; e.type = ops->type; e.id = make_gen_id(p); e.fd = p->fd; e.flags = p->fd_flags; ret = fd_id_generate(p->pid, &e); if (ret == 1) /* new ID generated */ ret = ops->dump(lfd, e.id, p); if (ret < 0) return -1; pr_info("fdinfo: type: 0x%2x flags: %#o/%#o pos: 0x%8"PRIx64" fd: %d\n", ops->type, p->flags, (int)p->fd_flags, p->pos, p->fd); return pb_write_one(fdinfo, &e, PB_FDINFO); } int fill_fdlink(int lfd, const struct fd_parms *p, struct fd_link *link) { int len; link->name[0] = '.'; len = read_fd_link(lfd, &link->name[1], sizeof(link->name) - 1); if (len < 0) { pr_err("Can't read link for pid %d fd %d\n", p->pid, p->fd); return -1; } link->len = len + 1; return 0; } static int fill_fd_params(struct parasite_ctl *ctl, int fd, int lfd, struct fd_opts *opts, struct fd_parms *p) { int ret; if (fstat(lfd, &p->stat) < 0) { pr_perror("Can't stat fd %d", lfd); return -1; } p->ctl = ctl; p->fd = fd; p->pos = lseek(lfd, 0, SEEK_CUR); ret = fcntl(lfd, F_GETFL); if (ret == -1) { pr_perror("Unable to get fd %d flags", lfd); return -1; } p->flags = ret; p->pid = ctl->pid.real; p->fd_flags = opts->flags; fown_entry__init(&p->fown); pr_info("%d fdinfo %d: pos: 0x%16"PRIx64" flags: %16o/%#x\n", ctl->pid.real, fd, p->pos, p->flags, (int)p->fd_flags); ret = fcntl(lfd, F_GETSIG, 0); if (ret < 0) { pr_perror("Can't get owner signum on %d", lfd); return -1; } p->fown.signum = ret; if (opts->fown.pid == 0) return 0; p->fown.pid = opts->fown.pid; p->fown.pid_type = opts->fown.pid_type; p->fown.uid = opts->fown.uid; p->fown.euid = opts->fown.euid; return 0; } static int dump_unsupp_fd(const struct fd_parms *p) { pr_err("Can't dump file %d of that type [%o]\n", p->fd, p->stat.st_mode); return -1; } static const struct fdtype_ops *get_misc_dev_ops(int minor) { switch (minor) { case TUN_MINOR: return &tunfile_dump_ops; }; return NULL; } static int dump_chrdev(struct fd_parms *p, int lfd, const int fdinfo) { int maj = major(p->stat.st_rdev); const struct fdtype_ops *ops; switch (maj) { case MEM_MAJOR: ops = ®file_dump_ops; break; case TTYAUX_MAJOR: case UNIX98_PTY_MASTER_MAJOR ... (UNIX98_PTY_MASTER_MAJOR + UNIX98_PTY_MAJOR_COUNT - 1): case UNIX98_PTY_SLAVE_MAJOR: ops = &tty_dump_ops; break; case MISC_MAJOR: ops = get_misc_dev_ops(minor(p->stat.st_rdev)); if (ops) break; /* fallthrough */ default: return dump_unsupp_fd(p); } return do_dump_gen_file(p, lfd, ops, fdinfo); } #ifndef PIPEFS_MAGIC #define PIPEFS_MAGIC 0x50495045 #endif static int dump_one_file(struct parasite_ctl *ctl, int fd, int lfd, struct fd_opts *opts, const int fdinfo) { struct fd_parms p = FD_PARMS_INIT; struct statfs statfs; const struct fdtype_ops *ops; if (fill_fd_params(ctl, fd, lfd, opts, &p) < 0) { pr_perror("Can't get stat on %d", fd); return -1; } if (S_ISSOCK(p.stat.st_mode)) return dump_socket(&p, lfd, fdinfo); if (S_ISCHR(p.stat.st_mode)) return dump_chrdev(&p, lfd, fdinfo); if (fstatfs(lfd, &statfs)) { pr_perror("Can't obtain statfs on fd %d", fd); return -1; } if (is_anon_inode(&statfs)) { if (is_eventfd_link(lfd)) ops = &eventfd_dump_ops; else if (is_eventpoll_link(lfd)) ops = &eventpoll_dump_ops; else if (is_inotify_link(lfd)) ops = &inotify_dump_ops; else if (is_fanotify_link(lfd)) ops = &fanotify_dump_ops; else if (is_signalfd_link(lfd)) ops = &signalfd_dump_ops; else return dump_unsupp_fd(&p); return do_dump_gen_file(&p, lfd, ops, fdinfo); } if (S_ISREG(p.stat.st_mode) || S_ISDIR(p.stat.st_mode)) { struct fd_link link; if (fill_fdlink(lfd, &p, &link)) return -1; p.link = &link; if (link.name[1] == '/') return do_dump_gen_file(&p, lfd, ®file_dump_ops, fdinfo); if (check_ns_proc(&link)) return do_dump_gen_file(&p, lfd, &nsfile_dump_ops, fdinfo); return dump_unsupp_fd(&p); } if (S_ISFIFO(p.stat.st_mode)) { if (statfs.f_type == PIPEFS_MAGIC) ops = &pipe_dump_ops; else ops = &fifo_dump_ops; return do_dump_gen_file(&p, lfd, ops, fdinfo); } return dump_unsupp_fd(&p); } int dump_task_files_seized(struct parasite_ctl *ctl, struct pstree_item *item, struct parasite_drain_fd *dfds) { int *lfds, fdinfo; struct fd_opts *opts; int i, ret = -1; pr_info("\n"); pr_info("Dumping opened files (pid: %d)\n", ctl->pid.real); pr_info("----------------------------------------\n"); lfds = xmalloc(dfds->nr_fds * sizeof(int)); if (!lfds) goto err; opts = xmalloc(dfds->nr_fds * sizeof(struct fd_opts)); if (!opts) goto err1; ret = parasite_drain_fds_seized(ctl, dfds, lfds, opts); if (ret) goto err2; fdinfo = open_image(CR_FD_FDINFO, O_DUMP, item->ids->files_id); if (fdinfo < 0) goto err2; for (i = 0; i < dfds->nr_fds; i++) { ret = dump_one_file(ctl, dfds->fds[i], lfds[i], opts + i, fdinfo); close(lfds[i]); if (ret) break; } close(fdinfo); pr_info("----------------------------------------\n"); err2: xfree(opts); err1: xfree(lfds); err: return ret; } int restore_fown(int fd, FownEntry *fown) { struct f_owner_ex owner; uid_t uids[3]; pid_t pid = getpid(); if (fown->signum) { if (fcntl(fd, F_SETSIG, fown->signum)) { pr_perror("%d: Can't set signal", pid); return -1; } } /* May be untouched */ if (!fown->pid) return 0; if (getresuid(&uids[0], &uids[1], &uids[2])) { pr_perror("%d: Can't get current UIDs", pid); return -1; } if (setresuid(fown->uid, fown->euid, uids[2])) { pr_perror("%d: Can't set UIDs", pid); return -1; } owner.type = fown->pid_type; owner.pid = fown->pid; if (fcntl(fd, F_SETOWN_EX, &owner)) { pr_perror("%d: Can't setup %d file owner pid", pid, fd); return -1; } if (setresuid(uids[0], uids[1], uids[2])) { pr_perror("%d: Can't revert UIDs back", pid); return -1; } return 0; } int rst_file_params(int fd, FownEntry *fown, int flags) { if (set_fd_flags(fd, flags) < 0) return -1; if (restore_fown(fd, fown) < 0) return -1; return 0; } static struct list_head *select_ps_list(struct file_desc *desc, struct rst_info *ri) { if (desc->ops->select_ps_list) return desc->ops->select_ps_list(desc, ri); else return &ri->fds; } static int collect_fd(int pid, FdinfoEntry *e, struct rst_info *rst_info) { struct fdinfo_list_entry *le, *new_le; struct file_desc *fdesc; pr_info("Collect fdinfo pid=%d fd=%d id=%#x\n", pid, e->fd, e->id); new_le = shmalloc(sizeof(*new_le)); if (!new_le) return -1; futex_init(&new_le->real_pid); new_le->pid = pid; new_le->fe = e; fdesc = find_file_desc(e); if (fdesc == NULL) { pr_err("No file for fd %d id %#x\n", e->fd, e->id); return -1; } list_for_each_entry(le, &fdesc->fd_info_head, desc_list) if (pid_rst_prio(new_le->pid, le->pid)) break; list_add_tail(&new_le->desc_list, &le->desc_list); new_le->desc = fdesc; list_add_tail(&new_le->ps_list, select_ps_list(fdesc, rst_info)); return 0; } int prepare_ctl_tty(int pid, struct rst_info *rst_info, u32 ctl_tty_id) { FdinfoEntry *e; if (!ctl_tty_id) return 0; pr_info("Requesting for ctl tty %#x into service fd\n", ctl_tty_id); e = xmalloc(sizeof(*e)); if (!e) return -1; fdinfo_entry__init(e); e->id = ctl_tty_id; e->fd = reserve_service_fd(CTL_TTY_OFF); e->type = FD_TYPES__TTY; if (collect_fd(pid, e, rst_info)) { xfree(e); return -1; } return 0; } int prepare_fd_pid(struct pstree_item *item) { int fdinfo_fd, ret = 0; pid_t pid = item->pid.virt; struct rst_info *rst_info = item->rst; INIT_LIST_HEAD(&rst_info->fds); INIT_LIST_HEAD(&rst_info->eventpoll); INIT_LIST_HEAD(&rst_info->tty_slaves); if (!fdinfo_per_id) { fdinfo_fd = open_image(CR_FD_FDINFO, O_RSTR, pid); if (fdinfo_fd < 0) { if (errno == ENOENT) return 0; return -1; } } else { if (item->ids == NULL) /* zombie */ return 0; if (item->rst->fdt && item->rst->fdt->pid != item->pid.virt) return 0; fdinfo_fd = open_image(CR_FD_FDINFO, O_RSTR, item->ids->files_id); if (fdinfo_fd < 0) return -1; } while (1) { FdinfoEntry *e; ret = pb_read_one_eof(fdinfo_fd, &e, PB_FDINFO); if (ret <= 0) break; ret = collect_fd(pid, e, rst_info); if (ret < 0) { fdinfo_entry__free_unpacked(e, NULL); break; } } close(fdinfo_fd); return ret; } #define SETFL_MASK (O_APPEND | O_ASYNC | O_NONBLOCK | O_NDELAY | O_DIRECT | O_NOATIME) int set_fd_flags(int fd, int flags) { int ret; ret = fcntl(fd, F_GETFL, 0); if (ret < 0) goto err; flags = (SETFL_MASK & flags) | (ret & ~SETFL_MASK); ret = fcntl(fd, F_SETFL, flags); if (ret < 0) goto err; return 0; err: pr_perror("fcntl call on fd %d (flags %x) failed", fd, flags); return -1; } struct fd_open_state { char *name; int (*cb)(int, struct fdinfo_list_entry *); /* * Two last stages -- receive fds and post-open them -- are * not required always. E.g. if no fd sharing takes place * or task doens't have any files that need to be post-opened. * * Thus, in order not to scan through fdinfo-s lists in vain * and speed things up a little bit, we may want to skeep these. */ bool required; }; static int open_transport_fd(int pid, struct fdinfo_list_entry *fle); static int open_fd(int pid, struct fdinfo_list_entry *fle); static int receive_fd(int pid, struct fdinfo_list_entry *fle); static int post_open_fd(int pid, struct fdinfo_list_entry *fle); static struct fd_open_state states[] = { { "prepare", open_transport_fd, true,}, { "create", open_fd, true,}, { "receive", receive_fd, false,}, { "post_create", post_open_fd, false,}, }; #define want_recv_stage() do { states[2].required = true; } while (0) #define want_post_open_stage() do { states[3].required = true; } while (0) static void transport_name_gen(struct sockaddr_un *addr, int *len, int pid, int fd) { addr->sun_family = AF_UNIX; snprintf(addr->sun_path, UNIX_PATH_MAX, "x/crtools-fd-%d-%d", pid, fd); *len = SUN_LEN(addr); *addr->sun_path = '\0'; } static int should_open_transport(FdinfoEntry *fe, struct file_desc *fd) { if (fd->ops->want_transport) return fd->ops->want_transport(fe, fd); else return 0; } static int open_transport_fd(int pid, struct fdinfo_list_entry *fle) { struct fdinfo_list_entry *flem; struct sockaddr_un saddr; int sock; int ret, sun_len; flem = file_master(fle->desc); if (flem->pid == pid) { if (flem->fe->fd != fle->fe->fd) /* dup-ed file. Will be opened in the open_fd */ return 0; if (!should_open_transport(fle->fe, fle->desc)) /* pure master file */ return 0; /* * some master file, that wants a transport, e.g. * a pipe or unix socket pair 'slave' end */ } transport_name_gen(&saddr, &sun_len, getpid(), fle->fe->fd); pr_info("\t\tCreate transport fd %s\n", saddr.sun_path + 1); sock = socket(PF_UNIX, SOCK_DGRAM, 0); if (sock < 0) { pr_perror("Can't create socket"); return -1; } ret = bind(sock, &saddr, sun_len); if (ret < 0) { pr_perror("Can't bind unix socket %s", saddr.sun_path + 1); return -1; } ret = reopen_fd_as(fle->fe->fd, sock); if (ret < 0) return -1; pr_info("\t\tWake up fdinfo pid=%d fd=%d\n", fle->pid, fle->fe->fd); futex_set_and_wake(&fle->real_pid, getpid()); want_recv_stage(); return 0; } int send_fd_to_peer(int fd, struct fdinfo_list_entry *fle, int sock) { struct sockaddr_un saddr; int len; pr_info("\t\tWait fdinfo pid=%d fd=%d\n", fle->pid, fle->fe->fd); futex_wait_while(&fle->real_pid, 0); transport_name_gen(&saddr, &len, futex_get(&fle->real_pid), fle->fe->fd); pr_info("\t\tSend fd %d to %s\n", fd, saddr.sun_path + 1); return send_fd(sock, &saddr, len, fd); } static int send_fd_to_self(int fd, struct fdinfo_list_entry *fle, int *sock) { int dfd = fle->fe->fd; if (fd == dfd) return 0; pr_info("\t\t\tGoing to dup %d into %d\n", fd, dfd); if (move_img_fd(sock, dfd)) return -1; if (dup2(fd, dfd) != dfd) { pr_perror("Can't dup local fd %d -> %d", fd, dfd); return -1; } if (fcntl(dfd, F_SETFD, fle->fe->flags) == -1) { pr_perror("Unable to set file descriptor flags"); return -1; } return 0; } static int post_open_fd(int pid, struct fdinfo_list_entry *fle) { struct file_desc *d = fle->desc; if (!d->ops->post_open) return 0; if (is_service_fd(fle->fe->fd, CTL_TTY_OFF)) return d->ops->post_open(d, fle->fe->fd); if (fle != file_master(d)) return 0; return d->ops->post_open(d, fle->fe->fd); } static int serve_out_fd(int pid, int fd, struct file_desc *d) { int sock, ret; struct fdinfo_list_entry *fle; sock = socket(PF_UNIX, SOCK_DGRAM, 0); if (sock < 0) { pr_perror("Can't create socket"); return -1; } pr_info("\t\tCreate fd for %d\n", fd); list_for_each_entry(fle, &d->fd_info_head, desc_list) { if (pid == fle->pid) ret = send_fd_to_self(fd, fle, &sock); else ret = send_fd_to_peer(fd, fle, sock); if (ret) { pr_err("Can't sent fd %d to %d\n", fd, fle->pid); return -1; } } close(sock); return 0; } static int open_fd(int pid, struct fdinfo_list_entry *fle) { struct file_desc *d = fle->desc; int new_fd; if (d->ops->post_open) want_post_open_stage(); if (fle != file_master(d)) return 0; new_fd = d->ops->open(d); if (new_fd < 0) return -1; if (reopen_fd_as(fle->fe->fd, new_fd)) return -1; if (fcntl(fle->fe->fd, F_SETFD, fle->fe->flags) == -1) { pr_perror("Unable to set file descriptor flags"); return -1; } return serve_out_fd(pid, fle->fe->fd, d); } static int receive_fd(int pid, struct fdinfo_list_entry *fle) { int tmp; struct fdinfo_list_entry *flem; flem = file_master(fle->desc); if (flem->pid == pid) return 0; pr_info("\tReceive fd for %d\n", fle->fe->fd); tmp = recv_fd(fle->fe->fd); if (tmp < 0) { pr_err("Can't get fd %d\n", tmp); return -1; } close(fle->fe->fd); if (reopen_fd_as(fle->fe->fd, tmp) < 0) return -1; if (fcntl(fle->fe->fd, F_SETFD, fle->fe->flags) == -1) { pr_perror("Unable to set file descriptor flags"); return -1; } return 0; } static int open_fdinfo(int pid, struct fdinfo_list_entry *fle, int state) { pr_info("\tRestoring fd %d (state -> %s)\n", fle->fe->fd, states[state].name); return states[state].cb(pid, fle); } static int open_fdinfos(int pid, struct list_head *list, int state) { int ret = 0; struct fdinfo_list_entry *fle; list_for_each_entry(fle, list, ps_list) { ret = open_fdinfo(pid, fle, state); if (ret) break; } return ret; } int close_old_fds(struct pstree_item *me) { DIR *dir; struct dirent *de; int fd, ret; dir = opendir_proc(getpid(), "fd"); if (dir == NULL) return -1; while ((de = readdir(dir))) { if (dir_dots(de)) continue; ret = sscanf(de->d_name, "%d", &fd); if (ret != 1) { pr_err("Can't parse %s\n", de->d_name); return -1; } if ((!is_any_service_fd(fd)) && (dirfd(dir) != fd)) close_safe(&fd); } closedir(dir); close_pid_proc(); return 0; } int prepare_fds(struct pstree_item *me) { u32 ret = 0; int state; pr_info("Opening fdinfo-s\n"); if (me->rst->fdt) { struct fdt *fdt = me->rst->fdt; /* * Wait all tasks, who share a current fd table. * We should be sure, that nobody use any file * descriptor while fdtable is being restored. */ futex_inc_and_wake(&fdt->fdt_lock); futex_wait_while_lt(&fdt->fdt_lock, fdt->nr); if (fdt->pid != me->pid.virt) { pr_info("File descriptor table is shared with %d\n", fdt->pid); futex_wait_until(&fdt->fdt_lock, fdt->nr + 1); goto out; } } for (state = 0; state < ARRAY_SIZE(states); state++) { if (!states[state].required) { pr_debug("Skipping %s fd stage\n", states[state].name); continue; } ret = open_fdinfos(me->pid.virt, &me->rst->fds, state); if (ret) break; /* * Now handle TTYs. Slaves are delayed to be sure masters * are already opened. */ ret = open_fdinfos(me->pid.virt, &me->rst->tty_slaves, state); if (ret) break; /* * The eventpoll descriptors require all the other ones * to be already restored, thus we store them in a separate * list and restore at the very end. */ ret = open_fdinfos(me->pid.virt, &me->rst->eventpoll, state); if (ret) break; } if (me->rst->fdt) futex_inc_and_wake(&me->rst->fdt->fdt_lock); out: close_service_fd(CR_PROC_FD_OFF); tty_fini_fds(); return ret; } static int fchroot(int fd) { char fd_path[PSFDS]; /* * There's no such thing in syscalls. We can emulate * it using the /proc/self/fd/ :) */ sprintf(fd_path, "/proc/self/fd/%d", fd); pr_debug("Going to chroot into %s\n", fd_path); return chroot(fd_path); } int prepare_fs(int pid) { int ifd, dd, ret = -1; FsEntry *fe; ifd = open_image(CR_FD_FS, O_RSTR, pid); if (ifd < 0) goto out; if (pb_read_one(ifd, &fe, PB_FS) < 0) goto out_i; /* * Restore CWD */ dd = open_reg_by_id(fe->cwd_id); if (dd < 0) { pr_err("Can't open cwd %#x\n", fe->cwd_id); goto err; } ret = fchdir(dd); close(dd); if (ret < 0) { pr_perror("Can't change cwd"); goto err; } /* * Restore root */ dd = open_reg_by_id(fe->root_id); if (dd < 0) { pr_err("Can't open root %#x\n", fe->root_id); goto err; } ret = fchroot(dd); close(dd); if (ret < 0) { pr_perror("Can't change root"); goto err; } if (fe->has_umask) { pr_info("Restoring umask to %o\n", fe->umask); umask(fe->umask); } ret = 0; err: fs_entry__free_unpacked(fe, NULL); out_i: close_safe(&ifd); out: return ret; } int get_filemap_fd(int pid, VmaEntry *vma_entry) { return open_reg_by_id(vma_entry->shmid); } int shared_fdt_prepare(struct pstree_item *item) { struct pstree_item *parent = item->parent; struct fdt *fdt; if (!parent->rst->fdt) { fdt = shmalloc(sizeof(*item->rst->fdt)); if (fdt == NULL) return -1; parent->rst->fdt = fdt; futex_init(&fdt->fdt_lock); fdt->nr = 1; fdt->pid = parent->pid.virt; } else fdt = parent->rst->fdt; item->rst->fdt = fdt; item->rst->service_fd_id = fdt->nr; fdt->nr++; if (pid_rst_prio(item->pid.virt, fdt->pid)) fdt->pid = item->pid.virt; return 0; }