/* console.c -- A console server. Copyright (C) 1997, 1999, 2002, 2003, 2007 Free Software Foundation, Inc. Written by Miles Bader and Marcus Brinkmann. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* We include console.h for the color numbers. */ #include #include "display.h" #include "input.h" #include "fs_notify_U.h" const char *argp_program_version = STANDARD_HURD_VERSION (console); char *netfs_server_name = "console"; char *netfs_server_version = HURD_VERSION; int netfs_maxsymlinks = 16; /* Arbitrary. */ /* Handy source of time. */ volatile struct mapped_time_value *console_maptime; #define DEFAULT_ENCODING "ISO-8859-1" #define DEFAULT_INTENSITY CONS_ATTR_INTENSITY_NORMAL #define DEFAULT_UNDERLINED 0 #define DEFAULT_BLINKING 0 #define DEFAULT_REVERSED 0 #define DEFAULT_CONCEALED 0 #define DEFAULT_WIDTH 80 #define DEFAULT_HEIGHT 25 #define DEFAULT_LINES 50 /* Stringification of a macro. */ #define STRX(s) #s #define STR(s) STRX(s) /* For the help output. */ #define DEFAULT_ATTRIBUTE_NAME "normal" #define DEFAULT_FOREGROUND CONS_COLOR_WHITE /* For the help output. */ #define DEFAULT_FOREGROUND_NAME "white" #define DEFAULT_BACKGROUND CONS_COLOR_BLACK /* For the help output. */ #define DEFAULT_BACKGROUND_NAME "black" /* A handle for a console device. */ typedef struct cons *cons_t; /* A handle for a virtual console device. */ typedef struct vcons *vcons_t; struct vcons { /* Protected by cons->lock. */ vcons_t next; vcons_t prev; /* We acquire one reference per netnode. */ int refcnt; /* The following members remain constant over the lifetime of the object and accesses don't need to be locked. */ int id; char *name; cons_t cons; display_t display; input_t input; struct mutex lock; /* Nodes in the filesystem referring to this virtual console. */ struct node *dir_node; struct node *cons_node; struct node *disp_node; struct node *inpt_node; }; /* Pending directory modification requests. */ struct modreq { mach_port_t port; struct modreq *next; }; struct cons { /* The lock protects the console, all virtual consoles contained in it and the reference counters. It also locks the configuration parameters. */ struct mutex lock; vcons_t vcons_list; /* The encoding. */ char *encoding; /* Default attributes. */ conchar_attr_t attribute; /* Requester of directory modification notifications. */ struct modreq *dirmod_reqs; unsigned int dirmod_tick; struct node *node; mach_port_t underlying; /* A template for the stat information of all nodes. */ struct stat stat_template; /* The amount of lines, width and height. */ unsigned int lines; unsigned int width; unsigned int height; }; /* Requires CONS to be locked. */ static void cons_notice_dirchange (cons_t cons, dir_changed_type_t type, char *name) { error_t err; struct modreq **preq = &cons->dirmod_reqs; cons->dirmod_tick++; while (*preq) { struct modreq *req = *preq; err = dir_changed (req->port, cons->dirmod_tick, type, name); if (err && err != MACH_SEND_TIMEOUT) { /* Remove notify port. */ *preq = req->next; mach_port_deallocate (mach_task_self (), req->port); free (req); } else preq = &req->next; } } /* Lookup the virtual console with number ID in the console CONS, acquire a reference for it, and return it in R_VCONS. If CREATE is true, the virtual console will be created if it doesn't exist yet. If CREATE is true, and ID 0, the first free virtual console id is used. */ error_t vcons_lookup (cons_t cons, int id, int create, vcons_t *r_vcons) { error_t err; vcons_t previous_vcons = 0; vcons_t vcons; if (!id && !create) return EINVAL; mutex_lock (&cons->lock); if (id) { if (cons->vcons_list && cons->vcons_list->id <= id) { previous_vcons = cons->vcons_list; while (previous_vcons->next && previous_vcons->next->id <= id) previous_vcons = previous_vcons->next; if (previous_vcons->id == id) { previous_vcons->refcnt++; mutex_unlock (&cons->lock); *r_vcons = previous_vcons; return 0; } } else if (!create) { mutex_unlock (&cons->lock); return ESRCH; } } else { id = 1; if (cons->vcons_list && cons->vcons_list->id == 1) { previous_vcons = cons->vcons_list; while (previous_vcons && previous_vcons->id == id) { id++; previous_vcons = previous_vcons->next; } } } vcons = calloc (1, sizeof (struct vcons)); if (!vcons) { mutex_unlock (&vcons->cons->lock); return ENOMEM; } vcons->cons = cons; vcons->refcnt = 1; vcons->id = id; asprintf (&vcons->name, "%i", id); /* XXX Error checking. */ mutex_init (&vcons->lock); err = display_create (&vcons->display, cons->encoding ?: DEFAULT_ENCODING, cons->attribute, cons->lines, cons->width, cons->height); if (err) { free (vcons->name); free (vcons); mutex_unlock (&vcons->cons->lock); return err; } err = input_create (&vcons->input, cons->encoding ?: DEFAULT_ENCODING); if (err) { display_destroy (vcons->display); free (vcons->name); free (vcons); mutex_unlock (&vcons->cons->lock); return err; } /* Insert the virtual console into the doubly linked list. */ if (previous_vcons) { vcons->prev = previous_vcons; if (previous_vcons->next) { previous_vcons->next->prev = vcons; vcons->next = previous_vcons->next; } previous_vcons->next = vcons; } else { if (cons->vcons_list) { cons->vcons_list->prev = vcons; vcons->next = cons->vcons_list; } cons->vcons_list = vcons; } cons_notice_dirchange (cons, DIR_CHANGED_NEW, vcons->name); mutex_unlock (&cons->lock); *r_vcons = vcons; return 0; } /* Acquire an additional reference to the virtual console VCONS. */ void vcons_ref (vcons_t vcons) { cons_t cons = vcons->cons; mutex_lock (&cons->lock); vcons->refcnt++; mutex_unlock (&cons->lock); } /* Release a reference to the virtual console VCONS. If this was the last reference the virtual console is destroyed. */ void vcons_release (vcons_t vcons) { cons_t cons = vcons->cons; mutex_lock (&cons->lock); if (!--vcons->refcnt) { /* As we keep a reference for all input focus groups pointing to the virtual console, and a reference for the active console, we know that without references, this virtual console is neither active nor used by any input group. */ if (vcons->prev) vcons->prev->next = vcons->next; else cons->vcons_list = vcons->next; if (vcons->next) vcons->next->prev = vcons->prev; cons_notice_dirchange (cons, DIR_CHANGED_UNLINK, vcons->name); /* XXX Destroy the state. */ display_destroy (vcons->display); input_destroy (vcons->input); free (vcons->name); free (vcons); } mutex_unlock (&cons->lock); } struct netnode { /* The root node points to the console object. */ cons_t cons; /* All other nodes point to the virtual console object. */ vcons_t vcons; }; typedef enum { VCONS_NODE_DIR = 0, VCONS_NODE_CONSOLE, VCONS_NODE_DISPLAY, VCONS_NODE_INPUT } vcons_node_type; /* Make a new virtual node. Always consumes the ports. */ static error_t new_node (struct node **np, vcons_t vcons, vcons_node_type type) { struct netnode *nn = calloc (1, sizeof *nn); if (nn == 0) return ENOMEM; nn->vcons = vcons; *np = netfs_make_node (nn); if (*np == 0) { free (nn); return ENOMEM; } (*np)->nn_stat = vcons->cons->stat_template; (*np)->nn_translated = 0; switch (type) { case VCONS_NODE_DIR: (*np)->nn_stat.st_ino = vcons->id << 2; (*np)->nn_stat.st_mode |= S_IFDIR; (*np)->nn_stat.st_size = 0; break; case VCONS_NODE_CONSOLE: (*np)->nn_stat.st_ino = (vcons->id << 2) + 1; (*np)->nn_stat.st_mode |= S_IFCHR; /* Don't set nn_translated! */ (*np)->nn_stat.st_mode &= ~(S_IXUSR | S_IXGRP | S_IXOTH); (*np)->nn_stat.st_size = 0; break; case VCONS_NODE_DISPLAY: (*np)->nn_stat.st_ino = (vcons->id << 2) + 2; (*np)->nn_stat.st_mode |= S_IFREG; (*np)->nn_stat.st_mode &= ~(S_IXUSR | S_IXGRP | S_IXOTH); (*np)->nn_stat.st_size = display_get_size (vcons->display); break; case VCONS_NODE_INPUT: (*np)->nn_stat.st_ino = (vcons->id << 2) + 3; (*np)->nn_stat.st_mode |= S_IFIFO; (*np)->nn_stat.st_mode &= ~(S_IXUSR | S_IXGRP | S_IXOTH); (*np)->nn_stat.st_size = 0; break; } /* If the underlying node isn't a directory, propagate read permission to execute permission since we need that for lookups. */ if (! S_ISDIR (vcons->cons->stat_template.st_mode) && S_ISDIR ((*np)->nn_stat.st_mode)) { if (vcons->cons->stat_template.st_mode & S_IRUSR) (*np)->nn_stat.st_mode |= S_IXUSR; if (vcons->cons->stat_template.st_mode & S_IRGRP) (*np)->nn_stat.st_mode |= S_IXGRP; if (vcons->cons->stat_template.st_mode & S_IROTH) (*np)->nn_stat.st_mode |= S_IXOTH; } fshelp_touch (&(*np)->nn_stat, TOUCH_ATIME|TOUCH_MTIME|TOUCH_CTIME, console_maptime); return 0; } /* Node management. */ /* Node NP has no more references; free all its associated storage. */ void netfs_node_norefs (struct node *np) { vcons_t vcons = np->nn->vcons; /* The root node does never go away. */ assert (!np->nn->cons && np->nn->vcons); /* Avoid deadlock. */ spin_unlock (&netfs_node_refcnt_lock); /* Find the back reference to ourself in the virtual console structure, and delete it. */ mutex_lock (&vcons->lock); spin_lock (&netfs_node_refcnt_lock); if (np->references) { /* Someone else got a reference while we were attempting to go away. This can happen in netfs_attempt_lookup. In this case, just unlock the node and do nothing else. */ mutex_unlock (&vcons->lock); mutex_unlock (&np->lock); return; } if (np == vcons->dir_node) vcons->dir_node = 0; else if (np == vcons->cons_node) vcons->cons_node = 0; else if (np == vcons->disp_node) vcons->disp_node = 0; else { assert (np == vcons->inpt_node); vcons->inpt_node = 0; } mutex_unlock (&vcons->lock); /* Release our reference. */ vcons_release (vcons); free (np->nn); free (np); } /* Attempt to create a file named NAME in DIR for USER with MODE. Set *NODE to the new node upon return. On any error, clear *NODE. *NODE should be locked on success; no matter what, unlock DIR before returning. */ error_t netfs_attempt_create_file (struct iouser *user, struct node *dir, char *name, mode_t mode, struct node **np) { /* We create virtual consoles dynamically on the fly, so there is no need for an explicit create operation. */ *np = 0; mutex_unlock (&dir->lock); return EOPNOTSUPP; } /* Node NODE is being opened by USER, with FLAGS. NEWNODE is nonzero if we just created this node. Return an error if we should not permit the open to complete because of a permission restriction. */ error_t netfs_check_open_permissions (struct iouser *user, struct node *node, int flags, int newnode) { error_t err = 0; if (flags & O_READ) err = fshelp_access (&node->nn_stat, S_IREAD, user); if (!err && (flags & O_WRITE)) err = fshelp_access (&node->nn_stat, S_IWRITE, user); if (!err && (flags & O_EXEC)) err = fshelp_access (&node->nn_stat, S_IEXEC, user); return err; } /* This should attempt a utimes call for the user specified by CRED on node NODE, to change the atime to ATIME and the mtime to MTIME. */ error_t netfs_attempt_utimes (struct iouser *cred, struct node *node, struct timespec *atime, struct timespec *mtime) { error_t err = fshelp_isowner (&node->nn_stat, cred); int flags = TOUCH_CTIME; if (! err) { if (mtime) node->nn_stat.st_mtim = *mtime; else flags |= TOUCH_MTIME; if (atime) node->nn_stat.st_atim = *atime; else flags |= TOUCH_ATIME; fshelp_touch (&node->nn_stat, flags, console_maptime); } return err; } /* Return the valid access types (bitwise OR of O_READ, O_WRITE, and O_EXEC) in *TYPES for file NODE and user CRED. */ error_t netfs_report_access (struct iouser *cred, struct node *node, int *types) { *types = 0; if (fshelp_access (&node->nn_stat, S_IREAD, cred) == 0) *types |= O_READ; if (fshelp_access (&node->nn_stat, S_IWRITE, cred) == 0) *types |= O_WRITE; if (fshelp_access (&node->nn_stat, S_IEXEC, cred) == 0) *types |= O_EXEC; return 0; } /* Make sure that NP->nn_stat is filled with the most current information. CRED identifies the user responsible for the operation. NP is locked. */ error_t netfs_validate_stat (struct node *np, struct iouser *cred) { /* We are always uptodate. */ return 0; } /* This should sync the file NODE completely to disk, for the user CRED. If WAIT is set, return only after sync is completely finished. */ error_t netfs_attempt_sync (struct iouser *cred, struct node *np, int wait) { return 0; } /* Directory management. */ /* Lookup NAME in DIR for USER; set *NODE to the found name upon return. If the name was not found, then return ENOENT. On any error, clear *NODE. (*NODE, if found, should be locked, this call should unlock DIR no matter what.) */ error_t netfs_attempt_lookup (struct iouser *user, struct node *dir, char *name, struct node **node) { error_t err; *node = 0; err = fshelp_access (&dir->nn_stat, S_IEXEC, user); if (err) goto out; if (strcmp (name, ".") == 0) { /* Current directory -- just add an additional reference to DIR and return it. */ netfs_nref (dir); *node = dir; goto out; } if (strcmp (name, "..") == 0) { /* Parent directory -- if this is the root directory, return EAGAIN. Otherwise return the root node, because we know that our hierarchy is only one level deep. */ if (dir->nn->cons) err = EAGAIN; else { netfs_nref (netfs_root_node); *node = netfs_root_node; } goto out; } if (dir->nn->cons) { /* This is the root directory. Look up the desired virtual console, creating it on the fly if necessary. */ vcons_t vcons; int release_vcons = 0; char *tail = NULL; int id; errno = 0; id = strtol (name, &tail, 0); if ((tail && *tail) || errno) { err = ENOENT; goto out; } err = vcons_lookup (dir->nn->cons, id, 1, &vcons); if (err == ESRCH || err == EINVAL) err = ENOENT; if (err) goto out; mutex_lock (&vcons->lock); if (vcons->dir_node) { /* We already have a directory node for this virtual console. Use that, acquire a reference for it, and drop our extra reference to the virtual console. */ *node = vcons->dir_node; netfs_nref (*node); release_vcons = 1; } else { /* Create a new directory node, connsuming the reference to the virtual console. */ err = new_node (node, vcons, VCONS_NODE_DIR); if (!err) vcons->dir_node = *node; else release_vcons = 1; } mutex_unlock (&vcons->lock); if (release_vcons) vcons_release (vcons); } else { /* This is a virtual console directory node. */ vcons_t vcons = dir->nn->vcons; int ref_vcons = 0; assert (dir == vcons->dir_node); if (!strcmp (name, "console")) { mutex_lock (&vcons->lock); if (vcons->cons_node) { *node = vcons->cons_node; netfs_nref (*node); } else { err = new_node (node, vcons, VCONS_NODE_CONSOLE); if (!err) { vcons->cons_node = *node; ref_vcons = 1; } } mutex_unlock (&vcons->lock); } else if (!strcmp (name, "display")) { mutex_lock (&vcons->lock); if (vcons->disp_node) { *node = vcons->disp_node; netfs_nref (*node); } else { err = new_node (node, vcons, VCONS_NODE_DISPLAY); if (!err) { vcons->disp_node = *node; ref_vcons = 1; } } mutex_unlock (&vcons->lock); } else if (!strcmp (name, "input")) { mutex_lock (&vcons->lock); if (vcons->inpt_node) { *node = vcons->inpt_node; netfs_nref (*node); } else { err = new_node (node, vcons, VCONS_NODE_INPUT); if (!err) { vcons->inpt_node = *node; ref_vcons = 1; } } mutex_unlock (&vcons->lock); } else err = ENOENT; if (ref_vcons) vcons_ref (vcons); } if (!err) fshelp_touch (&dir->nn_stat, TOUCH_ATIME, console_maptime); out: mutex_unlock (&dir->lock); if (err) *node = 0; else mutex_lock (&(*node)->lock); return err; } /* Returned directory entries are aligned to blocks this many bytes long. Must be a power of two. */ #define DIRENT_ALIGN 4 #define DIRENT_NAME_OFFS offsetof (struct dirent, d_name) /* Length is structure before the name + the name + '\0', all padded to a four-byte alignment. */ #define DIRENT_LEN(name_len) \ ((DIRENT_NAME_OFFS + (name_len) + 1 + (DIRENT_ALIGN - 1)) \ & ~(DIRENT_ALIGN - 1)) /* Implement the netfs_get_dirents callback as described in . */ error_t netfs_get_dirents (struct iouser *cred, struct node *dir, int first_entry, int num_entries, char **data, mach_msg_type_number_t *data_len, vm_size_t max_data_len, int *data_entries) { error_t err; int count = 0; size_t size = 0; /* Total size of our return block. */ struct vcons *first_vcons = NULL; struct vcons *vcons; /* Add the length of a directory entry for NAME to SIZE and return true, unless it would overflow MAX_DATA_LEN or NUM_ENTRIES, in which case return false. */ int bump_size (const char *name) { if (num_entries == -1 || count < num_entries) { size_t new_size = size + DIRENT_LEN (strlen (name)); if (max_data_len > 0 && new_size > max_data_len) return 0; size = new_size; count++; return 1; } else return 0; } if (!dir->nn->cons && !(dir == dir->nn->vcons->dir_node)) return ENOTDIR; if (dir->nn->cons) { mutex_lock (&dir->nn->cons->lock); /* Find the first entry. */ for (first_vcons = dir->nn->cons->vcons_list, count = 2; first_vcons && first_entry > count; first_vcons = first_vcons->next) count++; count = 0; } /* Make space for the `.' and `..' entries. */ if (first_entry == 0) bump_size ("."); if (first_entry <= 1) bump_size (".."); if (dir->nn->cons) { /* See how much space we need for the result. */ for (vcons = first_vcons; vcons; vcons = vcons->next) if (!bump_size (vcons->name)) break; } else { if (first_entry <= 2) bump_size ("console"); if (first_entry <= 3) bump_size ("display"); if (first_entry <= 4) bump_size ("input"); } /* Allocate it. */ *data = mmap (0, size, PROT_READ|PROT_WRITE, MAP_ANON, 0, 0); err = ((void *) *data == (void *) -1) ? errno : 0; if (! err) /* Copy out the result. */ { char *p = *data; int add_dir_entry (const char *name, ino_t fileno, int type) { if (num_entries == -1 || count < num_entries) { struct dirent hdr; size_t name_len = strlen (name); size_t sz = DIRENT_LEN (name_len); if (sz > size) return 0; else size -= sz; hdr.d_fileno = fileno; hdr.d_reclen = sz; hdr.d_type = type; hdr.d_namlen = name_len; memcpy (p, &hdr, DIRENT_NAME_OFFS); strcpy (p + DIRENT_NAME_OFFS, name); p += sz; count++; return 1; } else return 0; } *data_len = size; *data_entries = count; count = 0; if (dir->nn->cons) { /* Add `.' and `..' entries. */ if (first_entry == 0) add_dir_entry (".", 2, DT_DIR); if (first_entry <= 1) add_dir_entry ("..", 2, DT_DIR); /* Fill in the real directory entries. */ for (vcons = first_vcons; vcons; vcons = vcons->next) if (!add_dir_entry (vcons->name, vcons->id << 2, DT_DIR)) break; mutex_unlock (&dir->nn->cons->lock); } else { /* Add `.' and `..' entries. */ if (first_entry == 0) add_dir_entry (".", dir->nn_stat.st_ino, DT_DIR); if (first_entry <= 1) add_dir_entry ("..", 2, DT_DIR); if (first_entry <= 2) add_dir_entry ("console", (dir->nn->vcons->id << 2) + 1, DT_REG); if (first_entry <= 3) add_dir_entry ("display", (dir->nn->vcons->id << 2) + 2, DT_REG); if (first_entry <= 4) add_dir_entry ("input", (dir->nn->vcons->id << 3) + 2, DT_FIFO); } } fshelp_touch (&dir->nn_stat, TOUCH_ATIME, console_maptime); return err; } /* This should sync the entire remote filesystem. If WAIT is set, return only after sync is completely finished. */ error_t netfs_attempt_syncfs (struct iouser *cred, int wait) { return 0; } /* This should attempt a chmod call for the user specified by CRED on node NODE, to change the owner to UID and the group to GID. */ error_t netfs_attempt_chown (struct iouser *cred, struct node *node, uid_t uid, uid_t gid) { cons_t cons = node->nn->cons; vcons_t vcons; error_t err; if (!cons) return EOPNOTSUPP; err = file_chown (cons->underlying, uid, gid); if (err) return err; /* Change NODE's owner. */ node->nn_stat.st_uid = uid; node->nn_stat.st_gid = gid; mutex_lock (&cons->lock); cons->stat_template.st_uid = uid; cons->stat_template.st_gid = gid; /* Change the owner of each leaf node. */ for (vcons = cons->vcons_list; vcons; vcons = vcons->next) { if (vcons->dir_node) { vcons->dir_node->nn_stat.st_uid = uid; vcons->dir_node->nn_stat.st_gid = gid; } if (vcons->cons_node) { vcons->cons_node->nn_stat.st_uid = uid; vcons->cons_node->nn_stat.st_gid = gid; } if (vcons->disp_node) { vcons->disp_node->nn_stat.st_uid = uid; vcons->disp_node->nn_stat.st_gid = gid; } if (vcons->inpt_node) { vcons->inpt_node->nn_stat.st_uid = uid; vcons->inpt_node->nn_stat.st_gid = gid; } } mutex_unlock (&cons->lock); fshelp_touch (&node->nn_stat, TOUCH_CTIME, console_maptime); return err; } /* This should attempt a chauthor call for the user specified by CRED on node NODE, to change the author to AUTHOR. */ error_t netfs_attempt_chauthor (struct iouser *cred, struct node *node, uid_t author) { cons_t cons = node->nn->cons; vcons_t vcons; error_t err; if (!cons) return EOPNOTSUPP; err = file_chauthor (cons->underlying, author); if (err) return err; /* Change NODE's author. */ node->nn_stat.st_author = author; mutex_lock (&cons->lock); cons->stat_template.st_author = author; /* Change the author of each leaf node. */ for (vcons = cons->vcons_list; vcons; vcons = vcons->next) { if (vcons->dir_node) vcons->dir_node->nn_stat.st_author = author; if (vcons->cons_node) vcons->cons_node->nn_stat.st_author = author; if (vcons->disp_node) vcons->disp_node->nn_stat.st_author = author; if (vcons->inpt_node) vcons->inpt_node->nn_stat.st_author = author; } mutex_unlock (&cons->lock); fshelp_touch (&node->nn_stat, TOUCH_CTIME, console_maptime); return err; } /* This should attempt a chmod call for the user specified by CRED on node NODE, to change the mode to MODE. Unlike the normal Unix and Hurd meaning of chmod, this function is also used to attempt to change files into other types. If such a transition is attempted which is impossible, then return EOPNOTSUPP. */ error_t netfs_attempt_chmod (struct iouser *cred, struct node *node, mode_t mode) { error_t err; mode &= ~S_ITRANS; if ((mode & S_IFMT) == 0) mode |= (node->nn_stat.st_mode & S_IFMT); if (!node->nn->cons || ((mode & S_IFMT) != (node->nn_stat.st_mode & S_IFMT))) return EOPNOTSUPP; err = file_chmod (node->nn->cons->underlying, mode & ~S_IFMT); if (err) return err; node->nn_stat.st_mode = mode; fshelp_touch (&node->nn_stat, TOUCH_CTIME, console_maptime); return err; } /* The user must define this function. Attempt to turn locked node NP (user CRED) into a symlink with target NAME. */ error_t netfs_attempt_mksymlink (struct iouser *cred, struct node *np, char *name) { return EOPNOTSUPP; } error_t netfs_attempt_mkdev (struct iouser *cred, struct node *np, mode_t type, dev_t indexes) { return EOPNOTSUPP; } error_t netfs_attempt_chflags (struct iouser *cred, struct node *np, int flags) { return EOPNOTSUPP; } error_t netfs_attempt_set_size (struct iouser *cred, struct node *np, off_t size) { vcons_t vcons = np->nn->vcons; if (!vcons || np == vcons->dir_node || np == vcons->disp_node) return EOPNOTSUPP; assert (np == vcons->cons_node || np == vcons->inpt_node); return 0; } error_t netfs_attempt_statfs (struct iouser *cred, struct node *np, struct statfs *st) { return EOPNOTSUPP; } error_t netfs_attempt_mkdir (struct iouser *user, struct node *dir, char *name, mode_t mode) { return EOPNOTSUPP; } error_t netfs_attempt_unlink (struct iouser *user, struct node *dir, char *name) { return EOPNOTSUPP; } error_t netfs_attempt_rename (struct iouser *user, struct node *fromdir, char *fromname, struct node *todir, char *toname, int excl) { return EOPNOTSUPP; } error_t netfs_attempt_rmdir (struct iouser *user, struct node *dir, char *name) { return EOPNOTSUPP; } error_t netfs_attempt_link (struct iouser *user, struct node *dir, struct node *file, char *name, int excl) { return EOPNOTSUPP; } error_t netfs_attempt_mkfile (struct iouser *user, struct node *dir, mode_t mode, struct node **np) { return EOPNOTSUPP; } error_t netfs_attempt_readlink (struct iouser *user, struct node *np, char *buf) { return EOPNOTSUPP; } error_t netfs_attempt_read (struct iouser *cred, struct node *np, off_t offset, size_t *len, void *data) { error_t err = 0; vcons_t vcons = np->nn->vcons; if (!vcons || np == vcons->dir_node || np == vcons->inpt_node) return EOPNOTSUPP; mutex_unlock (&np->lock); if (np == vcons->cons_node) { ssize_t amt = input_dequeue (vcons->input, /* cred->po->openstat & O_NONBLOCK */ 0, data, *len); if (amt == -1) err = errno; else *len = amt; } else { /* Pass display content to caller. */ ssize_t amt = *len; assert (np == vcons->disp_node); if (offset + amt > np->nn_stat.st_size) amt = np->nn_stat.st_size - offset; if (amt < 0) amt = 0; else amt = display_read (vcons->display, /* cred->po->openstat & O_NONBLOCK */ 0, offset, data, amt); if (amt == -1) err = errno; else *len = amt; } mutex_lock (&np->lock); return err; } error_t netfs_attempt_write (struct iouser *cred, struct node *np, off_t offset, size_t *len, void *data) { error_t err = 0; vcons_t vcons = np->nn->vcons; if (!vcons || np == vcons->dir_node || np == vcons->disp_node) return EOPNOTSUPP; mutex_unlock (&np->lock); if (np == vcons->cons_node) { /* The term server is writing to the console device. Feed the data into the screen matrix display. */ int amt = display_output (vcons->display, /* cred->po->openstat & O_NONBLOCK */ 0, data, *len); if (amt == -1) err = errno; else *len = amt; } else { int amt; /* The input driver is writing to the input device. Feed the data into the input queue. */ assert (np == vcons->inpt_node); amt = input_enqueue (vcons->input, /* cred->po->openstat & O_NONBLOCK */ 1, data, *len); if (amt == -1) err = errno; else *len = amt; } mutex_lock (&np->lock); return err; } /* Implement io_map as described in . */ kern_return_t netfs_S_io_map (struct protid *cred, memory_object_t *rdobj, mach_msg_type_name_t *rdtype, memory_object_t *wrobj, mach_msg_type_name_t *wrtype) { int flags; struct node *np; vcons_t vcons; if (!cred) return EOPNOTSUPP; np = cred->po->np; vcons = np->nn->vcons; if (!vcons || np != vcons->disp_node) return EOPNOTSUPP; *wrobj = *rdobj = MACH_PORT_NULL; flags = cred->po->openstat & (O_READ | O_WRITE); mutex_lock (&np->lock); switch (flags) { case O_READ | O_WRITE: *wrobj = *rdobj = display_get_filemap (vcons->display, VM_PROT_READ | VM_PROT_WRITE); if (*wrobj == MACH_PORT_NULL) goto error; mach_port_mod_refs (mach_task_self (), *rdobj, MACH_PORT_RIGHT_SEND, 1); break; case O_READ: *rdobj = display_get_filemap (vcons->display, VM_PROT_READ); if (*rdobj == MACH_PORT_NULL) goto error; break; case O_WRITE: *wrobj = display_get_filemap (vcons->display, VM_PROT_WRITE); if (*wrobj == MACH_PORT_NULL) goto error; break; } mutex_unlock (&np->lock); *rdtype = MACH_MSG_TYPE_MOVE_SEND; *wrtype = MACH_MSG_TYPE_MOVE_SEND; return 0; error: mutex_unlock (&np->lock); return errno; } kern_return_t netfs_S_dir_notice_changes (struct protid *cred, mach_port_t notify) { error_t err; cons_t cons; struct modreq **preq; struct modreq *req; if (!cred) return EOPNOTSUPP; cons = cred->po->np->nn->cons; if (!cons) return EOPNOTSUPP; mutex_lock (&cons->lock); /* We have to prevent that we accumulate dead-names in the notification list. They are cleaned up in cons_notice_dirchange, but that is not called often enough, so we also clean them up here. This way, the maximum of dead-names will never exceed the prior maximum of active clients. The better way would be to request dead-name notifications, XXX. */ preq = &cons->dirmod_reqs; while (*preq) { mach_port_type_t type; req = *preq; err = mach_port_type (mach_task_self (), req->port, &type); if (!err && type == MACH_PORT_TYPE_DEAD_NAME) { /* Remove notify port. */ *preq = req->next; mach_port_deallocate (mach_task_self (), req->port); free (req); } else preq = &req->next; } err = dir_changed (notify, cons->dirmod_tick, DIR_CHANGED_NULL, ""); if (err) { mutex_unlock (&cons->lock); return err; } req = malloc (sizeof (struct modreq)); if (!req) { mutex_unlock (&cons->lock); return errno; } req->port = notify; req->next = cons->dirmod_reqs; cons->dirmod_reqs = req; mutex_unlock (&cons->lock); return 0; } kern_return_t netfs_S_file_notice_changes (struct protid *cred, mach_port_t notify) { struct node *np; vcons_t vcons; if (!cred) return EOPNOTSUPP; np = cred->po->np; vcons = np->nn->vcons; if (!vcons || np != vcons->disp_node) return EOPNOTSUPP; return display_notice_changes (vcons->display, notify); } static const char *color_names[CONS_COLOR_MAX + 1] = { [CONS_COLOR_BLACK] = "black", [CONS_COLOR_RED] = "red", [CONS_COLOR_GREEN] = "green", [CONS_COLOR_YELLOW] = "yellow", [CONS_COLOR_BLUE] = "blue", [CONS_COLOR_MAGENTA] = "magenta", [CONS_COLOR_CYAN] = "cyan", [CONS_COLOR_WHITE] = "white" }; static const struct argp_option options[] = { { "foreground", 'f', "COLOR", 0, "Set foreground color to" " COLOR (default `" DEFAULT_FOREGROUND_NAME "')" }, { "background", 'b', "COLOR", 0, "Set background color to" " COLOR (default `" DEFAULT_BACKGROUND_NAME "')" }, { "attribute", 'a', "ATTR[,...]", 0, "Set further default attributes" " (default `" DEFAULT_ATTRIBUTE_NAME "')" }, { "encoding", 'e', "NAME", 0, "Set encoding of virtual consoles to" " NAME (default `" DEFAULT_ENCODING "')" }, { "width", 'w', "WIDTH", 0, "Set width to WIDTH (default `" STR(DEFAULT_WIDTH) "')" }, { "height", 'h', "HEIGHT", 0, "Set height to HEIGHT (default `" STR(DEFAULT_HEIGHT) "')" }, { "lines", 'l', "LINES", 0, "Set amount of scrollback lines to LINES " "(default `" STR(DEFAULT_LINES) "')" }, {0} }; static error_t parse_color (const char *name, int *number) { if (isdigit (*name)) { long int nr; char *tail; errno = 0; nr = strtol (name, &tail, 0); if (errno || *tail || nr < 0 || nr > CONS_COLOR_MAX) return EINVAL; *number = nr; return 0; } else { int i; for (i = 0; i <= CONS_COLOR_MAX; i++) if (!strcmp (color_names[i], name)) { *number = i; return 0; } return EINVAL; } } static error_t parse_attributes (const char *name, conchar_attr_t *attr) { while (*name) { int value = 1; if (!strncmp (name, "not-", 4)) { value = 0; name += 4; } if (!strncmp (name, "normal", 6)) { name += 6; if (value != 1) return EINVAL; attr->intensity = CONS_ATTR_INTENSITY_NORMAL; } else if (!strncmp (name, "bright", 6)) { name += 6; if (value != 1) return EINVAL; attr->intensity = CONS_ATTR_INTENSITY_BOLD; } else if (!strncmp (name, "dim", 3)) { name += 3; if (value != 1) return EINVAL; attr->intensity = CONS_ATTR_INTENSITY_DIM; } else if (!strncmp (name, "underlined", 10)) { name += 10; attr->underlined = value; } else if (!strncmp (name, "blinking", 8)) { name += 8; attr->blinking = value; } else if (!strncmp (name, "concealed", 9)) { name += 9; attr->concealed = value; } else if (!strncmp (name, "italic", 6)) { name += 6; attr->italic = value; } else if (!strncmp (name, "bold", 4)) { name += 4; attr->bold = value; } else return EINVAL; if (name[0] == ',') name++; else if (name[0] != '\0') return EINVAL; } return 0; } static error_t parse_opt (int opt, char *arg, struct argp_state *state) { cons_t cons = state->input ?: netfs_root_node->nn->cons; error_t err; int color = 0; char *tail; switch (opt) { default: return ARGP_ERR_UNKNOWN; case ARGP_KEY_SUCCESS: case ARGP_KEY_ERROR: break; case ARGP_KEY_INIT: mutex_lock (&cons->lock); break; case ARGP_KEY_FINI: mutex_unlock (&cons->lock); break; case 'f': err = parse_color (arg, &color); cons->attribute.fgcol = color; if (err) argp_error (state, "Invalid color name: %s", arg); break; case 'b': err = parse_color (arg, &color); cons->attribute.bgcol = color; if (err) argp_error (state, "Invalid color name: %s", arg); break; case 'a': err = parse_attributes (arg, &cons->attribute); if (err) argp_error (state, "Invalid attribute specifier: %s", arg); break; case 'l': errno = 0; cons->lines = strtoul (arg, &tail, 0); if (tail == NULL || tail == arg || *tail != '\0') argp_error (state, "LINES is not a number: %s", arg); if (errno) argp_error (state, "Overflow in argument LINES %s", arg); break; case 'w': errno = 0; cons->width = strtoul (arg, &tail, 0); if (tail == NULL || tail == arg || *tail != '\0') argp_error (state, "WIDTH is not a number: %s", arg); if (errno) argp_error (state, "Overflow in argument WIDTH %s", arg); break; case 'h': errno = 0; cons->height = strtoul (arg, &tail, 0); if (tail == NULL || tail == arg || *tail != '\0') argp_error (state, "HEIGHT is not a number: %s", arg); if (errno) argp_error (state, "Overflow in argument HEIGHT %s", arg); break; case 'e': /* XXX Check validity of encoding. Can we perform all necessary conversions? */ { char *new = strdup (arg); if (!new) return ENOMEM; if (cons->encoding) free (cons->encoding); cons->encoding = new; } break; } return 0; } /* Return an argz string describing the current options. Fill *ARGZ with a pointer to newly malloced storage holding the list and *LEN to the length of that storage. */ error_t netfs_append_args (char **argz, size_t *argz_len) { error_t err = 0; cons_t cons = netfs_root_node->nn->cons; /* The longest possible is 61 characters long: "normal,not-underlined,not-blinking,not-reversed,not-concealed". */ char attr_str[80] = "--attribute="; char *attr = &attr_str[12]; char *attrp = attr; if (cons->encoding && strcmp (cons->encoding, DEFAULT_ENCODING)) { char *buf; if (asprintf (&buf, "--encoding=%s", cons->encoding) < 0) err = ENOMEM; else err = argz_add (argz, argz_len, buf); } if (!err && cons->attribute.fgcol != DEFAULT_FOREGROUND) { char *buf; if (asprintf (&buf, "--foreground=%s", color_names[cons->attribute.fgcol]) < 0) err = ENOMEM; else err = argz_add (argz, argz_len, buf); } if (!err && cons->attribute.bgcol != DEFAULT_BACKGROUND) { char *buf; if (asprintf (&buf, "--background=%s", color_names[cons->attribute.bgcol]) < 0) err = ENOMEM; else err = argz_add (argz, argz_len, buf); } if (!err && cons->lines != DEFAULT_LINES) { char *buf; if (asprintf (&buf, "--lines=%d", cons->lines) < 0) err = ENOMEM; else err = argz_add (argz, argz_len, buf); } if (!err && cons->width != DEFAULT_WIDTH) { char *buf; if (asprintf (&buf, "--width=%d", cons->lines) < 0) err = ENOMEM; else err = argz_add (argz, argz_len, buf); } if (!err && cons->height != DEFAULT_HEIGHT) { char *buf; if (asprintf (&buf, "--height=%d", cons->height) < 0) err = ENOMEM; else err = argz_add (argz, argz_len, buf); } if (!err && cons->attribute.intensity != DEFAULT_INTENSITY) { if (attrp != attr) *(attrp++) = ','; switch (cons->attribute.intensity) { case CONS_ATTR_INTENSITY_NORMAL: attrp = stpcpy (attrp, "normal"); break; case CONS_ATTR_INTENSITY_BOLD: attrp = stpcpy (attrp, "bold"); break; case CONS_ATTR_INTENSITY_DIM: attrp = stpcpy (attrp, "dim"); break; } } if (!err && cons->attribute.underlined != DEFAULT_UNDERLINED) { if (attrp != attr) *(attrp++) = ','; if (!cons->attribute.underlined) attrp = stpcpy (attrp, "not-"); attrp = stpcpy (attrp, "underlined"); } if (!err && cons->attribute.blinking != DEFAULT_BLINKING) { if (attrp != attr) *(attrp++) = ','; if (!cons->attribute.blinking) attrp = stpcpy (attrp, "not-"); attrp = stpcpy (attrp, "blinking"); } if (!err && cons->attribute.reversed != DEFAULT_REVERSED) { if (attrp != attr) *(attrp++) = ','; if (!cons->attribute.reversed) attrp = stpcpy (attrp, "not-"); attrp = stpcpy (attrp, "reversed"); } if (!err && cons->attribute.concealed != DEFAULT_CONCEALED) { if (attrp != attr) *(attrp++) = ','; if (!cons->attribute.concealed) attrp = stpcpy (attrp, "not-"); attrp = stpcpy (attrp, "concealed"); } if (!err && attrp != attr) err = argz_add (argz, argz_len, attr_str); return err; } kern_return_t S_tioctl_tiocflush (struct protid *cred, int queue_selector) { struct node *np; vcons_t vcons; if (!cred) return EOPNOTSUPP; if (!(cred->po->openstat & (O_READ | O_WRITE))) return EBADF; np = cred->po->np; vcons = np->nn->vcons; if (!vcons || np != vcons->cons_node) return EOPNOTSUPP; if (!queue_selector) queue_selector = O_READ | O_WRITE; if (queue_selector & O_READ) input_flush (vcons->input); if (queue_selector & O_WRITE) display_discard_output (vcons->display); return 0; } kern_return_t S_tioctl_tiocgwinsz (struct protid *cred, struct winsize *size) { struct node *np; vcons_t vcons; if (!cred) return EOPNOTSUPP; np = cred->po->np; vcons = np->nn->vcons; if (!vcons || np != vcons->cons_node) return EOPNOTSUPP; display_getsize (vcons->display, size); return 0; } kern_return_t S_tioctl_tiocstart (struct protid *cred) { struct node *np; vcons_t vcons; if (!cred) return EOPNOTSUPP; if (!(cred->po->openstat & (O_READ | O_WRITE))) return EBADF; np = cred->po->np; vcons = np->nn->vcons; if (!vcons || np != vcons->cons_node) return EOPNOTSUPP; display_start_output (vcons->display); return 0; } kern_return_t S_tioctl_tiocstop (struct protid *cred) { struct node *np; vcons_t vcons; if (!cred) return EOPNOTSUPP; if (!(cred->po->openstat & (O_READ | O_WRITE))) return EBADF; np = cred->po->np; vcons = np->nn->vcons; if (!vcons || np != vcons->cons_node) return EOPNOTSUPP; display_stop_output (vcons->display); return 0; } kern_return_t S_tioctl_tiocoutq (struct protid *cred, int *queue_size) { struct node *np; vcons_t vcons; if (!cred) return EOPNOTSUPP; if (!(cred->po->openstat & (O_READ | O_WRITE))) return EBADF; np = cred->po->np; vcons = np->nn->vcons; if (!vcons || np != vcons->cons_node) return EOPNOTSUPP; *queue_size = display_pending_output (vcons->display); return 0; } kern_return_t S_tioctl_tiocspgrp (struct protid *cred, int pgrp) { struct node *np; vcons_t vcons; if (!cred) return EOPNOTSUPP; if (!(cred->po->openstat & (O_READ | O_WRITE))) return EBADF; np = cred->po->np; vcons = np->nn->vcons; if (!vcons || np != vcons->cons_node) return EOPNOTSUPP; display_set_owner (vcons->display, -pgrp); return 0; } kern_return_t S_tioctl_tiocgpgrp (struct protid *cred, int *pgrp) { error_t err; struct node *np; vcons_t vcons; if (!cred) return EOPNOTSUPP; if (!(cred->po->openstat & (O_READ | O_WRITE))) return EBADF; np = cred->po->np; vcons = np->nn->vcons; if (!vcons || np != vcons->cons_node) return EOPNOTSUPP; err = display_get_owner (vcons->display, pgrp); if (!err) *pgrp = -*pgrp; return err; } kern_return_t S_tioctl_tiocmodg (io_t port, int *state) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocmods (io_t port, int state) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocexcl (io_t port) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocnxcl (io_t port) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocgeta (io_t port, tcflag_t *modes, cc_t *ccs, speed_t *speeds) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocseta (io_t port, tcflag_t *modes, cc_t *ccs, speed_t *speeds) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocsetaw (io_t port, tcflag_t *modes, cc_t *ccs, speed_t *speeds) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocsetaf (io_t port, tcflag_t *modes, cc_t *ccs, speed_t *speeds) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocgetd (io_t port, int *disc) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocsetd (io_t port, int disc) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocdrain (io_t port) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocmget (io_t port, int *bits) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocmset (io_t port, int bits) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocsig (io_t port, int sig) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocext (io_t port, int mode) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocucntl (io_t port, int mode) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocswinsz (struct protid *cred, struct winsize size) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocremote (struct protid *cred, int how) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocmbic (struct protid *cred, int bits) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocmbis (struct protid *cred, int bits) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocpkt (struct protid *cred, int mode) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocsti (struct protid *cred, char c) { return EOPNOTSUPP; } kern_return_t S_tioctl_tioccdtr (struct protid *cred) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocsdtr (struct protid *cred) { return EOPNOTSUPP; } kern_return_t S_tioctl_tioccbrk (struct protid *cred) { return EOPNOTSUPP; } kern_return_t S_tioctl_tiocsbrk (struct protid *cred) { return EOPNOTSUPP; } int console_demuxer (mach_msg_header_t *inp, mach_msg_header_t *outp) { extern int netfs_demuxer (mach_msg_header_t *inp, mach_msg_header_t *outp); extern int tioctl_server (mach_msg_header_t *inp, mach_msg_header_t *outp); return (netfs_demuxer (inp, outp) || tioctl_server (inp, outp)); } const struct argp netfs_std_runtime_argp = { options, parse_opt, NULL, "A translator that provides virtual consoles." }; int main (int argc, char **argv) { error_t err; mach_port_t bootstrap; struct stat ul_stat; cons_t cons; struct netnode root_nn = { vcons: 0 }; cons = malloc (sizeof (struct cons)); if (!cons) error (1, ENOMEM, "Cannot create console structure"); mutex_init (&cons->lock); cons->encoding = NULL; cons->width = DEFAULT_WIDTH; cons->height = DEFAULT_HEIGHT; cons->lines = DEFAULT_LINES; cons->attribute.intensity = DEFAULT_INTENSITY; cons->attribute.underlined = DEFAULT_UNDERLINED; cons->attribute.blinking = DEFAULT_BLINKING; cons->attribute.reversed = DEFAULT_REVERSED; cons->attribute.concealed = DEFAULT_CONCEALED; cons->attribute.fgcol = DEFAULT_FOREGROUND; cons->attribute.bgcol = DEFAULT_BACKGROUND; cons->vcons_list = NULL; cons->dirmod_reqs = NULL; cons->dirmod_tick = 0; root_nn.cons = cons; /* Parse our command line arguments. */ argp_parse (&netfs_std_runtime_argp, argc, argv, 0, 0, cons); task_get_bootstrap_port (mach_task_self (), &bootstrap); netfs_init (); display_init (); /* Create the root node (some attributes initialized below). */ netfs_root_node = netfs_make_node (&root_nn); if (! netfs_root_node) error (2, ENOMEM, "Cannot create root node"); err = maptime_map (0, 0, &console_maptime); if (err) error (3, err, "Cannot map time"); cons->node = netfs_root_node; cons->underlying = netfs_startup (bootstrap, O_READ); if (cons->underlying == MACH_PORT_NULL) error (4, 0, "Cannot get underlying node"); err = io_stat (cons->underlying, &ul_stat); if (err) error (5, err, "Cannot stat underlying node"); /* CONS.stat_template contains some fields that are inherited by all nodes we create. */ cons->stat_template.st_uid = ul_stat.st_uid; cons->stat_template.st_gid = ul_stat.st_gid; cons->stat_template.st_author = ul_stat.st_author; cons->stat_template.st_mode = (ul_stat.st_mode & ~S_IFMT & ~S_ITRANS); cons->stat_template.st_fsid = getpid (); cons->stat_template.st_nlink = 1; cons->stat_template.st_fstype = FSTYPE_MISC; /* Initialize the root node's stat information. */ netfs_root_node->nn_stat = cons->stat_template; netfs_root_node->nn_stat.st_ino = 2; netfs_root_node->nn_stat.st_mode |= S_IFDIR; netfs_root_node->nn_translated = 0; /* If the underlying node isn't a directory, propagate read permission to execute permission since we need that for lookups. */ if (! S_ISDIR (ul_stat.st_mode)) { if (ul_stat.st_mode & S_IRUSR) netfs_root_node->nn_stat.st_mode |= S_IXUSR; if (ul_stat.st_mode & S_IRGRP) netfs_root_node->nn_stat.st_mode |= S_IXGRP; if (ul_stat.st_mode & S_IROTH) netfs_root_node->nn_stat.st_mode |= S_IXOTH; } fshelp_touch (&netfs_root_node->nn_stat, TOUCH_ATIME|TOUCH_MTIME|TOUCH_CTIME, console_maptime); do { ports_manage_port_operations_multithread (netfs_port_bucket, console_demuxer, 1000 * 60 * 2, 1000 * 60 * 10, 0); err = netfs_shutdown (0); } while (err); exit (err); }