/* Copyright (C) 1993-2016 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library 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
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
. */
#ifndef _HURD_H
#define _HURD_H 1
#include
/* Get types, macros, constants and function declarations
for all Mach microkernel interaction. */
#include
#include
/* Get types and constants necessary for Hurd interfaces. */
#include
/* Get MiG stub declarations for commonly used Hurd interfaces. */
#include
#include
#include
#include
/* Get `struct hurd_port' and related definitions implementing lightweight
user references for ports. These are used pervasively throughout the C
library; this is here to avoid putting it in nearly every source file. */
#include
#include
#ifndef _HURD_H_EXTERN_INLINE
#define _HURD_H_EXTERN_INLINE __extern_inline
#endif
int __hurd_fail (error_t err);
#ifdef __USE_EXTERN_INLINES
_HURD_H_EXTERN_INLINE int
__hurd_fail (error_t err)
{
switch (err)
{
case EMACH_SEND_INVALID_DEST:
case EMIG_SERVER_DIED:
/* The server has disappeared! */
err = EIEIO;
break;
case KERN_NO_SPACE:
err = ENOMEM;
break;
case KERN_INVALID_ARGUMENT:
err = EINVAL;
break;
case 0:
return 0;
default:
break;
}
errno = err;
return -1;
}
#endif
�
/* Basic ports and info, initialized by startup. */
extern int _hurd_exec_flags; /* Flags word passed in exec_startup. */
extern struct hurd_port *_hurd_ports;
extern unsigned int _hurd_nports;
extern mode_t _hurd_umask;
extern sigset_t _hurdsig_traced;
/* Shorthand macro for internal library code referencing _hurd_ports (see
). */
#define __USEPORT(which, expr) \
HURD_PORT_USE (&_hurd_ports[INIT_PORT_##which], (expr))
/* Function version of __USEPORT: calls OPERATE with a send right. */
extern error_t _hurd_ports_use (int which, error_t (*operate) (mach_port_t));
/* Base address and size of the initial stack set up by the exec server.
If using cthreads, this stack is deallocated in startup.
Not locked. */
extern vm_address_t _hurd_stack_base;
extern vm_size_t _hurd_stack_size;
/* Initial file descriptor table we were passed at startup. If we are
using a real dtable, these are turned into that and then cleared at
startup. If not, these are never changed after startup. Not locked. */
extern mach_port_t *_hurd_init_dtable;
extern mach_msg_type_number_t _hurd_init_dtablesize;
�
/* Current process IDs. */
extern pid_t _hurd_pid, _hurd_ppid, _hurd_pgrp;
extern int _hurd_orphaned;
/* This variable is incremented every time the process IDs change. */
extern unsigned int _hurd_pids_changed_stamp;
/* This condition is broadcast every time the process IDs change. */
extern struct condition _hurd_pids_changed_sync;
�
/* Unix `data break', for brk and sbrk.
If brk and sbrk are not used, this info will not be initialized or used. */
/* Data break. This is what `sbrk (0)' returns. */
extern vm_address_t _hurd_brk;
/* End of allocated space. This is generally `round_page (_hurd_brk)'. */
extern vm_address_t _hurd_data_end;
/* This mutex locks _hurd_brk and _hurd_data_end. */
extern struct mutex _hurd_brk_lock;
/* Set the data break to NEWBRK; _hurd_brk_lock must
be held, and is released on return. */
extern int _hurd_set_brk (vm_address_t newbrk);
�
#define __need_FILE
#include
/* Calls to get and set basic ports. */
extern error_t _hurd_ports_get (unsigned int which, mach_port_t *result);
extern error_t _hurd_ports_set (unsigned int which, mach_port_t newport);
extern process_t getproc (void);
extern file_t getcwdir (void), getcrdir (void);
extern auth_t getauth (void);
extern mach_port_t getcttyid (void);
extern int setproc (process_t);
extern int setcwdir (file_t), setcrdir (file_t);
extern int setcttyid (mach_port_t);
/* Does reauth with the proc server and fd io servers. */
extern int __setauth (auth_t), setauth (auth_t);
/* Modify a port cell by looking up a directory name.
This verifies that it is a directory and that we have search permission. */
extern int _hurd_change_directory_port_from_name (struct hurd_port *portcell,
const char *name);
/* Same thing, but using an open file descriptor.
Also verifies that it is a directory and that we have search permission. */
extern int _hurd_change_directory_port_from_fd (struct hurd_port *portcell,
int fd);
/* Get and set the effective UID set. */
extern int geteuids (int __n, uid_t *__uidset);
extern int seteuids (int __n, const uid_t *__uidset);
/* Split FILE into a directory and a name within the directory. The
directory lookup uses the current root and working directory. If
successful, stores in *NAME a pointer into FILE where the name
within directory begins and returns a port to the directory;
otherwise sets `errno' and returns MACH_PORT_NULL. */
extern file_t __file_name_split (const char *file, char **name);
extern file_t file_name_split (const char *file, char **name);
/* Split DIRECTORY into a parent directory and a name within the directory.
This is the same as file_name_split, but ignores trailing slashes. */
extern file_t __directory_name_split (const char *file, char **name);
extern file_t directory_name_split (const char *file, char **name);
/* Open a port to FILE with the given FLAGS and MODE (see ).
The file lookup uses the current root and working directory.
Returns a port to the file if successful; otherwise sets `errno'
and returns MACH_PORT_NULL. */
extern file_t __file_name_lookup (const char *file, int flags, mode_t mode);
extern file_t file_name_lookup (const char *file, int flags, mode_t mode);
/* Open a port to FILE with the given FLAGS and MODE (see ). The
file lookup uses the current root directory, but uses STARTDIR as the
"working directory" for file relative names. Returns a port to the file
if successful; otherwise sets `errno' and returns MACH_PORT_NULL. */
extern file_t __file_name_lookup_under (file_t startdir, const char *file,
int flags, mode_t mode);
extern file_t file_name_lookup_under (file_t startdir, const char *file,
int flags, mode_t mode);
/* Lookup FILE_NAME and return the node opened with FLAGS & MODE
(see hurd_file_name_lookup for details), but a simple file name (without
any directory prefixes) will be consecutively prefixed with the pathnames
in the `:' separated list PATH until one succeeds in a successful lookup.
If none succeed, then the first error that wasn't ENOENT is returned, or
ENOENT if no other errors were returned. If PREFIXED_NAME is non-NULL,
then if the result is looked up directly, *PREFIXED_NAME is set to NULL, and
if it is looked up using a prefix from PATH, *PREFIXED_NAME is set to
malloc'd storage containing the prefixed name. */
extern file_t file_name_path_lookup (const char *file_name, const char *path,
int flags, mode_t mode,
char **prefixed_name);
/* Open a file descriptor on a port. FLAGS are as for `open'; flags
affected by io_set_openmodes are not changed by this. If successful,
this consumes a user reference for PORT (which will be deallocated on
close). */
extern int openport (io_t port, int flags);
/* Open a stream on a port. MODE is as for `fopen'.
If successful, this consumes a user reference for PORT
(which will be deallocated on fclose). */
extern FILE *fopenport (io_t port, const char *mode);
extern FILE *__fopenport (io_t port, const char *mode);
/* Execute a file, replacing TASK's current program image. */
extern error_t _hurd_exec (task_t task,
file_t file,
char *const argv[],
char *const envp[]);
/* Inform the proc server we have exited with STATUS, and kill the
task thoroughly. This function never returns, no matter what. */
extern void _hurd_exit (int status) __attribute__ ((noreturn));
/* Initialize the library data structures from the
ints and ports passed to us by the exec server.
Then vm_deallocate PORTARRAY and INTARRAY. */
extern void _hurd_init (int flags, char **argv,
mach_port_t *portarray, size_t portarraysize,
int *intarray, size_t intarraysize);
/* Do startup handshaking with the proc server, and initialize library data
structures that require proc server interaction. This includes
initializing signals; see _hurdsig_init in . */
extern void _hurd_proc_init (char **argv,
const int *intarray, size_t intarraysize);
/* Return the socket server for sockaddr domain DOMAIN. If DEAD is
nonzero, remove the old cached port and always do a fresh lookup.
It is assumed that a socket server will stay alive during a complex socket
operation involving several RPCs. But a socket server may die during
long idle periods between socket operations. Callers should first pass
zero for DEAD; if the first socket RPC tried on the returned port fails
with MACH_SEND_INVALID_DEST or MIG_SERVER_DIED (indicating the server
went away), the caller should call _hurd_socket_server again with DEAD
nonzero and retry the RPC on the new socket server port. */
extern socket_t _hurd_socket_server (int domain, int dead);
/* Send a `sig_post' RPC to process number PID. If PID is zero,
send the message to all processes in the current process's process group.
If PID is < -1, send SIG to all processes in process group - PID.
SIG and REFPORT are passed along in the request message. */
extern error_t _hurd_sig_post (pid_t pid, int sig, mach_port_t refport);
extern error_t hurd_sig_post (pid_t pid, int sig, mach_port_t refport);
/* Fetch the host privileged port and device master port from the proc
server. They are fetched only once and then cached in the
variables below. A special program that gets them from somewhere
other than the proc server (such as a bootstrap filesystem) can set
these variables to install the ports. */
extern kern_return_t __get_privileged_ports (mach_port_t *host_priv_ptr,
device_t *device_master_ptr);
extern kern_return_t get_privileged_ports (mach_port_t *host_priv_ptr,
device_t *device_master_ptr);
extern mach_port_t _hurd_host_priv, _hurd_device_master;
/* Return the PID of the task whose control port is TASK.
On error, sets `errno' and returns -1. */
extern pid_t __task2pid (task_t task), task2pid (task_t task);
/* Return the task control port of process PID.
On error, sets `errno' and returns MACH_PORT_NULL. */
extern task_t __pid2task (pid_t pid), pid2task (pid_t pid);
/* Return the current thread's thread port. This is a cheap operation (no
system call), but it relies on Hurd signal state being set up. */
extern thread_t hurd_thread_self (void);
/* Cancel pending operations on THREAD. If it is doing an interruptible RPC,
that RPC will now return EINTR; otherwise, the "cancelled" flag will be
set, causing the next `hurd_check_cancel' call to return nonzero or the
next interruptible RPC to return EINTR (whichever is called first). */
extern error_t hurd_thread_cancel (thread_t thread);
/* Test and clear the calling thread's "cancelled" flag. */
extern int hurd_check_cancel (void);
/* Return the io server port for file descriptor FD.
This adds a Mach user reference to the returned port.
On error, sets `errno' and returns MACH_PORT_NULL. */
extern io_t __getdport (int fd), getdport (int fd);
#include
/* Write formatted output to PORT, a Mach port supporting the i/o protocol,
according to the format string FORMAT, using the argument list in ARG. */
int vpprintf (io_t port, const char *format, va_list arg);
#endif /* hurd.h */