/* Definitions for process server interface Copyright (C) 1992, 1993, 1994 Free Software Foundation This file is part of the GNU Hurd. The GNU Hurd 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. The GNU Hurd 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 the GNU Hurd; see the file COPYING. If not, write to the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */ subsystem process 24000; #include /* If any calls are added or deleted, modify process_reply.defs to correspond. */ #ifdef PROCESS_IMPORTS PROCESS_IMPORTS #endif type reply_port_t = MACH_MSG_TYPE_MAKE_SEND_ONCE | polymorphic ctype: mach_port_t; /*** Host management ***/ /* Set the hostid for the machine. This should be unique among all machines. By convention, it is the "primary" IP address of the machine. */ routine proc_sethostid ( process: process_t; hostid: int); /* Get the host id. */ routine proc_gethostid ( process: process_t; out hostid: int); /* Set the hostname for the machine. By convention this is the DNS FQDN for the machine. */ routine proc_sethostname ( process: process_t; hostname: data_t); /* Get the hostname. */ routine proc_gethostname ( process: process_t; out hostname: data_t); /* Get the privileged host port and the device master port. */ routine proc_getprivports ( process: process_t; out host_priv: host_priv_t; out device_master: device_t); /* Return all the pids of all live processes. */ routine proc_getallpids ( process: process_t; out pidarray: pidarray_t); /* Set the "standard exec data", used by programs that want predefined values for exec. */ routine proc_setexecdata ( process: process_t; ports: portarray_t; ints: intarray_t); /* Get the standard exec data */ routine proc_getexecdata ( process: process_t; out ports: portarray_t; out ints: intarray_t); /* Request notification with exec_setexecdata on NOTIFY. */ routine proc_execdata_notify ( process: process_t; notify: mach_port_send_t); /* Return a uname structure for the currently running system. */ routine proc_uname ( process: process_t; out uname: utsname_t); /* Tell the server who we are for inclusion in the uname string. */ routine proc_register_version ( process: process_t; credential: host_priv_t; name: string_t; release: string_t; version: string_t); /*** Process creation and simple management. ***/ /* There is a 1-1 relationship between tasks and processes; to create a new process, just create a new task and use proc_task2proc. */ /* Change the current authentication of the process. The user should follow this call with a call to auth_user_authenticate. The new_port passed back through the auth server will be MACH_PORT_NULL. */ simpleroutine proc_reauthenticate ( process: process_t; id: int); /* Declare that a task is a child of the caller. The task's state will then inherit from the caller. This call can be made only once per task. */ routine proc_child ( process: process_t; child: task_t); /* Atomically change the message port of a process. */ routine proc_setmsgport ( process: process_t; sreplyport reply_port: reply_port_t; newmsgport: mach_port_t; out oldmsgport: mach_port_move_send_t); /* Cause a task to take over the pid and all other state from an existing task, and kill the old task with task_terminate. The message port will be set to MACH_PORT_NULL. This is principally used for doing exec's with the EXEC_NEWTASK bit set. The request port assigned to NEWTASK does not change. The new task cannot have had proc_child called on its behalf, it cannot have a pgrp, a session, a login name set with proc_setlogin, it cannot have called proc_child, and it cannot have a message port. */ /* If this call is made for a process which is no longer alive or does not exist, then newtask will be killed (and no error is returned). */ routine proc_reassign ( process: process_t; newtask: task_t); /* Set the owner of the process. The new owner must be within the current authentication of the caller. */ routine proc_setowner ( process: process_t; owner: uid_t); /* Get the process ID and the parent process ID, also find out if we are orphaned. */ routine proc_getpids ( process: process_t; out pid: pid_t; out ppid: pid_t; out orphaned: int); /* Set the locations of ARGV and ENVP which will be examined by proc_getprocargs and proc_getprocenv. */ routine proc_set_arg_locations ( process: process_t; argv: vm_address_t; envp: vm_address_t); /* Fetch the locations set by proc_set_arg_locations. */ routine proc_get_arg_locations ( process: process_t; out argv: vm_address_t; out envp: vm_address_t); /* Fetch the message ports of a set of processes */ /* INTR */ routine proc_getmsgport ( process: process_t; sreplyport reply_port: reply_port_t; pid: pid_t; out msgport: mach_port_t); /* Wait for a child process to exit. If pid is zero, it waits for any child. If pid is negative, it waits for any process in the specified process group. If pid is positive, it waits for the specified process. The exit status and resource usage of the process are returned in status and rusage respectively. */ /* INTR */ routine proc_wait ( process: process_t; sreplyport reply_port: reply_port_t; pid: pid_t; options: int; out status: int; out rusage: rusage_t; out pid_status: pid_t); /* Have the process server stop all threads except contthread. */ routine proc_dostop ( process: process_t; contthread: thread_t); /* Take over exception messages received on MSGPORT. Any exception messages received will be forwarded to FORWARDPORT. In addition, the thread causing the exception will be aborted (with thread_abort) and have its state adjusted (as by thread_set_state). */ routine proc_handle_exceptions ( process: process_t; msgport: mach_port_move_receive_t; forwardport: mach_port_send_t; flavor: int; new_state: thread_state_t); /*** Mark bits. Some of these (exec, traced, eg) modify small pieces of the proc server's behavior; others are purely informational. ***/ /* Mark the process as stopped on a signal. */ routine proc_mark_stop ( process: process_t; signo: int); /* Mark the process as continued after a stop. */ routine proc_mark_cont ( process: process_t); /* Tell the process server that the process is going away. If it dies without calling this, it will look to the parent like the process died with SIGKILL. This call allows for a cleaner exit. */ routine proc_mark_exit ( process: process_t; status: int); /* Inform the process server that the process has completed an exec. */ routine proc_mark_exec ( process: process_t); /* Inform the process server that the process has asked to be traced. The only result of this is to change the behavior of wait by the parent slightly. */ routine proc_mark_traced ( process: process_t); /* Inform the process server whether SIGCHLD should be sent for stopped child processes. */ routine proc_mod_stopchild ( process: process_t; doit: int); /*** Miscellaneous process information queries. ***/ routine proc_pid2task ( process: process_t; pid: pid_t; out task: task_t); routine proc_task2pid ( process: process_t; task: task_t; out pid: pid_t); /* Return the procserver port for the specified task. */ routine proc_task2proc ( process: process_t; task: task_t; out proc: mach_port_make_send_t); routine proc_proc2task ( process: process_t; out task: task_t); routine proc_pid2proc ( process: process_t; pid: pid_t; out proc: mach_port_make_send_t); routine proc_getprocinfo ( process: process_t; which: pid_t; out procinfo: procinfo_t); routine proc_getprocargs ( process: process_t; which: pid_t; out procargs: data_t); routine proc_getprocenv ( process: process_t; which: pid_t; out procenv: data_t); /* Create a new login collection. The pid of PROCESS will be the id of the collection. All the children (and their children, and so forth) of PROCESS will automatically join the collection. If PROCESS dies its children (and their children, and so forth) will become part of init's process collection. */ routine proc_make_login_coll ( process: process_t); /* Get the process collection ID for the process specified by pid. */ routine proc_getloginid ( process: process_t; pid: pid_t; out login_id: pid_t); /* Get the pids of all the members of process collection ID. */ routine proc_getloginpids ( process: process_t; id: pid_t; out pids: pidarray_t); /* These next two should not actually be used; they are here for "historic reasons." You are not expected to understand this. */ routine proc_setlogin ( process: process_t; logname: string_t); routine proc_getlogin ( process: process_t; out logname: string_t); /*** Sessions and process groups. ***/ /* Create a new session. The process's pgrp is set to its pid, and becomes the session leader. */ routine proc_setsid ( process: process_t); /* Return the pid of a process's session leader. */ routine proc_getsid ( process: process_t; pid: pid_t; out sid: pid_t); /* Get the pgids of all the members of a session. */ routine proc_getsessionpgids ( process: process_t; sid: pid_t; out pgidset: pidarray_t); /* Get the pids of all the members of a session. */ routine proc_getsessionpids ( process: process_t; sid: pid_t; out pidset: pidarray_t); /* Return a "session ID" port for the session of the caller. This port is generally only available to members of the session. (It has no listener, but is useful for identification purposes.) */ routine proc_getsidport ( process: process_t; out sessport: mach_port_t); /* Set the process group of a process. */ routine proc_setpgrp ( process: process_t; pid: pid_t; pgrp: pid_t); /* Get the process group of a process. */ routine proc_getpgrp ( process: process_t; pid: pid_t; out pgrp: pid_t); /* Get the pids of all the members of a pgrp. */ routine proc_getpgrppids ( process: process_t; pgrp: pid_t; out pidset: pidarray_t);