/* $OpenBSD: proc.h,v 1.300 2020/09/16 08:01:15 mpi Exp $ */ /* $NetBSD: proc.h,v 1.44 1996/04/22 01:23:21 christos Exp $ */ /*- * Copyright (c) 1986, 1989, 1991, 1993 * The Regents of the University of California. All rights reserved. * (c) UNIX System Laboratories, Inc. * All or some portions of this file are derived from material licensed * to the University of California by American Telephone and Telegraph * Co. or Unix System Laboratories, Inc. and are reproduced herein with * the permission of UNIX System Laboratories, Inc. * * 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. * 3. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS 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 REGENTS 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. * * @(#)proc.h 8.8 (Berkeley) 1/21/94 */ #ifndef _SYS_PROC_H_ #define _SYS_PROC_H_ #include /* Machine-dependent proc substruct. */ #include /* For struct selinfo */ #include /* For LOGIN_NAME_MAX */ #include #include /* For struct timeout */ #include /* For struct klist */ #include /* For struct mutex */ #include /* For struct rusage */ #include /* For struct rwlock */ #include /* For struct sigio */ #ifdef _KERNEL #include #define __need_process #endif /* * One structure allocated per session. */ struct process; struct session { int s_count; /* Ref cnt; pgrps in session. */ struct process *s_leader; /* Session leader. */ struct vnode *s_ttyvp; /* Vnode of controlling terminal. */ struct tty *s_ttyp; /* Controlling terminal. */ char s_login[LOGIN_NAME_MAX]; /* Setlogin() name. */ pid_t s_verauthppid; uid_t s_verauthuid; struct timeout s_verauthto; }; void zapverauth(/* struct session */ void *); /* * One structure allocated per process group. */ struct pgrp { LIST_ENTRY(pgrp) pg_hash; /* Hash chain. */ LIST_HEAD(, process) pg_members;/* Pointer to pgrp members. */ struct session *pg_session; /* Pointer to session. */ struct sigiolst pg_sigiolst; /* List of sigio structures. */ pid_t pg_id; /* Pgrp id. */ int pg_jobc; /* # procs qualifying pgrp for job control */ }; /* * One structure allocated per emulation. */ struct exec_package; struct proc; struct ps_strings; struct uvm_object; union sigval; struct emul { char e_name[8]; /* Symbolic name */ int *e_errno; /* Errno array */ int e_nosys; /* Offset of the nosys() syscall */ int e_nsysent; /* Number of system call entries */ struct sysent *e_sysent; /* System call array */ char **e_syscallnames; /* System call name array */ int e_arglen; /* Extra argument size in words */ /* Copy arguments on the stack */ void *(*e_copyargs)(struct exec_package *, struct ps_strings *, void *, void *); /* Set registers before execution */ void (*e_setregs)(struct proc *, struct exec_package *, u_long, register_t *); int (*e_fixup)(struct proc *, struct exec_package *); int (*e_coredump)(struct proc *, void *cookie); char *e_sigcode; /* Start of sigcode */ char *e_esigcode; /* End of sigcode */ char *e_esigret; /* sigaction RET position */ struct uvm_object *e_sigobject; /* shared sigcode object */ }; /* * time usage: accumulated times in ticks * Once a second, each thread's immediate counts (p_[usi]ticks) are * accumulated into these. */ struct tusage { struct timespec tu_runtime; /* Realtime. */ uint64_t tu_uticks; /* Statclock hits in user mode. */ uint64_t tu_sticks; /* Statclock hits in system mode. */ uint64_t tu_iticks; /* Statclock hits processing intr. */ }; /* * Description of a process. * * These structures contain the information needed to manage a thread of * control, known in UN*X as a process; it has references to substructures * containing descriptions of things that the process uses, but may share * with related processes. * * struct process is the higher level process containing information * shared by all threads in a process, while struct proc contains the * run-time information needed by threads. */ #ifdef __need_process struct futex; LIST_HEAD(futex_list, futex); struct tslpentry; TAILQ_HEAD(tslpqueue, tslpentry); struct unveil; /* * Locks used to protect struct members in this file: * a atomic operations * K kernel lock * m this process' `ps_mtx' * p this process' `ps_lock' * R rlimit_lock * S scheduler lock * T itimer_mtx */ struct process { /* * ps_mainproc is the original thread in the process. * It's only still special for the handling of * some signal and ptrace behaviors that need to be fixed. */ struct proc *ps_mainproc; struct ucred *ps_ucred; /* Process owner's identity. */ LIST_ENTRY(process) ps_list; /* List of all processes. */ TAILQ_HEAD(,proc) ps_threads; /* Threads in this process. */ LIST_ENTRY(process) ps_pglist; /* List of processes in pgrp. */ struct process *ps_pptr; /* Pointer to parent process. */ LIST_ENTRY(process) ps_sibling; /* List of sibling processes. */ LIST_HEAD(, process) ps_children;/* Pointer to list of children. */ LIST_ENTRY(process) ps_hash; /* Hash chain. */ /* * An orphan is the child that has been re-parented to the * debugger as a result of attaching to it. Need to keep * track of them for parent to be able to collect the exit * status of what used to be children. */ LIST_ENTRY(process) ps_orphan; /* List of orphan processes. */ LIST_HEAD(, process) ps_orphans;/* Pointer to list of orphans. */ struct sigiolst ps_sigiolst; /* List of sigio structures. */ struct sigacts *ps_sigacts; /* Signal actions, state */ struct vnode *ps_textvp; /* Vnode of executable. */ struct filedesc *ps_fd; /* Ptr to open files structure */ struct vmspace *ps_vmspace; /* Address space */ pid_t ps_pid; /* Process identifier. */ struct futex_list ps_ftlist; /* futexes attached to this process */ struct tslpqueue ps_tslpqueue; /* [p] queue of threads in thrsleep */ struct rwlock ps_lock; /* per-process rwlock */ struct mutex ps_mtx; /* per-process mutex */ /* The following fields are all zeroed upon creation in process_new. */ #define ps_startzero ps_klist struct klist ps_klist; /* knotes attached to this process */ u_int ps_flags; /* [a] PS_* flags. */ int ps_siglist; /* Signals pending for the process. */ struct proc *ps_single; /* [S] Thread for single-threading. */ u_int ps_singlecount; /* [a] Not yet suspended threads. */ int ps_traceflag; /* Kernel trace points. */ struct vnode *ps_tracevp; /* Trace to vnode. */ struct ucred *ps_tracecred; /* Creds for writing trace */ u_int ps_xexit; /* Exit status for wait */ int ps_xsig; /* Stopping or killing signal */ pid_t ps_oppid; /* Save parent pid during ptrace. */ int ps_ptmask; /* Ptrace event mask */ struct ptrace_state *ps_ptstat;/* Ptrace state */ struct rusage *ps_ru; /* sum of stats for dead threads. */ struct tusage ps_tu; /* accumulated times. */ struct rusage ps_cru; /* sum of stats for reaped children */ struct itimerspec ps_timer[3]; /* [K] ITIMER_REAL timer */ /* [T] ITIMER_{VIRTUAL,PROF} timers */ struct timeout ps_rucheck_to; /* [] resource limit check timer */ time_t ps_nextxcpu; /* when to send next SIGXCPU, */ /* in seconds of process runtime */ u_int64_t ps_wxcounter; struct unveil *ps_uvpaths; /* unveil vnodes and names */ struct unveil *ps_uvpcwd; /* pointer to unveil of cwd, NULL if none */ ssize_t ps_uvvcount; /* count of unveil vnodes held */ size_t ps_uvncount; /* count of unveil names allocated */ int ps_uvshrink; /* do we need to shrink vnode list */ int ps_uvdone; /* no more unveil is permitted */ /* End area that is zeroed on creation. */ #define ps_endzero ps_startcopy /* The following fields are all copied upon creation in process_new. */ #define ps_startcopy ps_limit struct plimit *ps_limit; /* [m,R] Process limits. */ struct pgrp *ps_pgrp; /* Pointer to process group. */ struct emul *ps_emul; /* Emulation information */ char ps_comm[MAXCOMLEN+1]; vaddr_t ps_strings; /* User pointers to argv/env */ vaddr_t ps_timekeep; /* User pointer to timekeep */ vaddr_t ps_sigcode; /* User pointer to the signal code */ vaddr_t ps_sigcoderet; /* User pointer to sigreturn retPC */ u_long ps_sigcookie; u_int ps_rtableid; /* Process routing table/domain. */ char ps_nice; /* Process "nice" value. */ struct uprof { /* profile arguments */ caddr_t pr_base; /* buffer base */ size_t pr_size; /* buffer size */ u_long pr_off; /* pc offset */ u_int pr_scale; /* pc scaling */ } ps_prof; u_short ps_acflag; /* Accounting flags. */ uint64_t ps_pledge; uint64_t ps_execpledge; int64_t ps_kbind_cookie; u_long ps_kbind_addr; /* End area that is copied on creation. */ #define ps_endcopy ps_refcnt int ps_refcnt; /* Number of references. */ struct timespec ps_start; /* starting uptime. */ struct timeout ps_realit_to; /* [K] ITIMER_REAL timeout */ }; #define ps_session ps_pgrp->pg_session #define ps_pgid ps_pgrp->pg_id #endif /* __need_process */ /* * These flags are kept in ps_flags. */ #define PS_CONTROLT 0x00000001 /* Has a controlling terminal. */ #define PS_EXEC 0x00000002 /* Process called exec. */ #define PS_INEXEC 0x00000004 /* Process is doing an exec right now */ #define PS_EXITING 0x00000008 /* Process is exiting. */ #define PS_SUGID 0x00000010 /* Had set id privs since last exec. */ #define PS_SUGIDEXEC 0x00000020 /* last execve() was set[ug]id */ #define PS_PPWAIT 0x00000040 /* Parent waits for exec/exit. */ #define PS_ISPWAIT 0x00000080 /* Is parent of PPWAIT child. */ #define PS_PROFIL 0x00000100 /* Has started profiling. */ #define PS_TRACED 0x00000200 /* Being ptraced. */ #define PS_WAITED 0x00000400 /* Stopped proc was waited for. */ #define PS_COREDUMP 0x00000800 /* Busy coredumping */ #define PS_SINGLEEXIT 0x00001000 /* Other threads must die. */ #define PS_SINGLEUNWIND 0x00002000 /* Other threads must unwind. */ #define PS_NOZOMBIE 0x00004000 /* No signal or zombie at exit. */ #define PS_STOPPED 0x00008000 /* Just stopped, need sig to parent. */ #define PS_SYSTEM 0x00010000 /* No sigs, stats or swapping. */ #define PS_EMBRYO 0x00020000 /* New process, not yet fledged */ #define PS_ZOMBIE 0x00040000 /* Dead and ready to be waited for */ #define PS_NOBROADCASTKILL 0x00080000 /* Process excluded from kill -1. */ #define PS_PLEDGE 0x00100000 /* Has called pledge(2) */ #define PS_WXNEEDED 0x00200000 /* Process may violate W^X */ #define PS_EXECPLEDGE 0x00400000 /* Has exec pledges */ #define PS_ORPHAN 0x00800000 /* Process is on an orphan list */ #define PS_BITS \ ("\20" "\01CONTROLT" "\02EXEC" "\03INEXEC" "\04EXITING" "\05SUGID" \ "\06SUGIDEXEC" "\07PPWAIT" "\010ISPWAIT" "\011PROFIL" "\012TRACED" \ "\013WAITED" "\014COREDUMP" "\015SINGLEEXIT" "\016SINGLEUNWIND" \ "\017NOZOMBIE" "\020STOPPED" "\021SYSTEM" "\022EMBRYO" "\023ZOMBIE" \ "\024NOBROADCASTKILL" "\025PLEDGE" "\026WXNEEDED" "\027EXECPLEDGE" \ "\028ORPHAN") struct kcov_dev; struct lock_list_entry; struct p_inentry { u_long ie_serial; vaddr_t ie_start; vaddr_t ie_end; }; /* * Locks used to protect struct members in this file: * I immutable after creation * S scheduler lock * l read only reference, see lim_read_enter() * o owned (read/modified only) by this thread */ struct proc { TAILQ_ENTRY(proc) p_runq; /* [S] current run/sleep queue */ LIST_ENTRY(proc) p_list; /* List of all threads. */ struct process *p_p; /* [I] The process of this thread. */ TAILQ_ENTRY(proc) p_thr_link; /* Threads in a process linkage. */ TAILQ_ENTRY(proc) p_fut_link; /* Threads in a futex linkage. */ struct futex *p_futex; /* Current sleeping futex. */ /* substructures: */ struct filedesc *p_fd; /* copy of p_p->ps_fd */ struct vmspace *p_vmspace; /* [I] copy of p_p->ps_vmspace */ struct p_inentry p_spinentry; /* [o] cache for SP check */ struct p_inentry p_pcinentry; /* [o] cache for PC check */ int p_flag; /* P_* flags. */ u_char p_spare; /* unused */ char p_stat; /* [S] S* process status. */ u_char p_runpri; /* [S] Runqueue priority */ u_char p_descfd; /* if not 255, fdesc permits this fd */ pid_t p_tid; /* Thread identifier. */ LIST_ENTRY(proc) p_hash; /* Hash chain. */ /* The following fields are all zeroed upon creation in fork. */ #define p_startzero p_dupfd int p_dupfd; /* Sideways return value from filedescopen. XXX */ /* scheduling */ int p_cpticks; /* Ticks of cpu time. */ const volatile void *p_wchan; /* [S] Sleep address. */ struct timeout p_sleep_to;/* timeout for tsleep() */ const char *p_wmesg; /* [S] Reason for sleep. */ fixpt_t p_pctcpu; /* [S] %cpu for this thread */ u_int p_slptime; /* [S] Time since last blocked. */ u_int p_uticks; /* Statclock hits in user mode. */ u_int p_sticks; /* Statclock hits in system mode. */ u_int p_iticks; /* Statclock hits processing intr. */ struct cpu_info * volatile p_cpu; /* [S] CPU we're running on. */ struct rusage p_ru; /* Statistics */ struct tusage p_tu; /* accumulated times. */ struct timespec p_rtime; /* Real time. */ struct plimit *p_limit; /* [l] read ref. of p_p->ps_limit */ struct kcov_dev *p_kd; /* kcov device handle */ struct lock_list_entry *p_sleeplocks; /* WITNESS lock tracking */ int p_siglist; /* [a] Signals arrived & not delivered*/ /* End area that is zeroed on creation. */ #define p_endzero p_startcopy /* The following fields are all copied upon creation in fork. */ #define p_startcopy p_sigmask sigset_t p_sigmask; /* [a] Current signal mask */ u_char p_slppri; /* [S] Sleeping priority */ u_char p_usrpri; /* [S] Priority based on p_estcpu & ps_nice */ u_int p_estcpu; /* [S] Time averaged val of p_cpticks */ int p_pledge_syscall; /* Cache of current syscall */ struct ucred *p_ucred; /* [o] cached credentials */ struct sigaltstack p_sigstk; /* sp & on stack state variable */ u_long p_prof_addr; /* tmp storage for profiling addr until AST */ u_long p_prof_ticks; /* tmp storage for profiling ticks until AST */ /* End area that is copied on creation. */ #define p_endcopy p_addr struct user *p_addr; /* Kernel virtual addr of u-area */ struct mdproc p_md; /* Any machine-dependent fields. */ sigset_t p_oldmask; /* Saved mask from before sigpause */ int p_sisig; /* For core dump/debugger XXX */ union sigval p_sigval; /* For core dump/debugger XXX */ long p_sitrapno; /* For core dump/debugger XXX */ int p_sicode; /* For core dump/debugger XXX */ }; /* Status values. */ #define SIDL 1 /* Thread being created by fork. */ #define SRUN 2 /* Currently runnable. */ #define SSLEEP 3 /* Sleeping on an address. */ #define SSTOP 4 /* Debugging or suspension. */ #define SZOMB 5 /* unused */ #define SDEAD 6 /* Thread is almost gone */ #define SONPROC 7 /* Thread is currently on a CPU. */ #define P_ZOMBIE(p) ((p)->p_stat == SDEAD) #define P_HASSIBLING(p) (TAILQ_FIRST(&(p)->p_p->ps_threads) != (p) || \ TAILQ_NEXT((p), p_thr_link) != NULL) /* * These flags are per-thread and kept in p_flag */ #define P_INKTR 0x00000001 /* In a ktrace op, don't recurse */ #define P_PROFPEND 0x00000002 /* SIGPROF needs to be posted */ #define P_ALRMPEND 0x00000004 /* SIGVTALRM needs to be posted */ #define P_SIGSUSPEND 0x00000008 /* Need to restore before-suspend mask*/ #define P_CANTSLEEP 0x00000010 /* insomniac thread */ #define P_SELECT 0x00000040 /* Selecting; wakeup/waiting danger. */ #define P_SINTR 0x00000080 /* Sleep is interruptible. */ #define P_SYSTEM 0x00000200 /* No sigs, stats or swapping. */ #define P_TIMEOUT 0x00000400 /* Timing out during sleep. */ #define P_WEXIT 0x00002000 /* Working on exiting. */ #define P_OWEUPC 0x00008000 /* Owe proc an addupc() at next ast. */ #define P_SUSPSINGLE 0x00080000 /* Need to stop for single threading. */ #define P_CONTINUED 0x00800000 /* Proc has continued from a stopped state. */ #define P_THREAD 0x04000000 /* Only a thread, not a real process */ #define P_SUSPSIG 0x08000000 /* Stopped from signal. */ #define P_SOFTDEP 0x10000000 /* Stuck processing softdep worklist */ #define P_CPUPEG 0x40000000 /* Do not move to another cpu. */ #define P_BITS \ ("\20" "\01INKTR" "\02PROFPEND" "\03ALRMPEND" "\04SIGSUSPEND" \ "\05CANTSLEEP" "\07SELECT" "\010SINTR" "\012SYSTEM" "\013TIMEOUT" \ "\016WEXIT" "\020OWEUPC" "\024SUSPSINGLE" "\027XX" \ "\030CONTINUED" "\033THREAD" "\034SUSPSIG" "\035SOFTDEP" "\037CPUPEG") #define THREAD_PID_OFFSET 100000 #ifdef _KERNEL struct uidinfo { LIST_ENTRY(uidinfo) ui_hash; uid_t ui_uid; long ui_proccnt; /* proc structs */ long ui_lockcnt; /* lockf structs */ }; struct uidinfo *uid_find(uid_t); void uid_release(struct uidinfo *); /* * We use process IDs <= PID_MAX; PID_MAX + 1 must also fit in a pid_t, * as it is used to represent "no process group". * We set PID_MAX to 99999 to keep it in 5 columns in ps * When exposed to userspace, thread IDs have THREAD_PID_OFFSET * added to keep them from overlapping the PID range. For them, * we use a * a (0 .. 2^n] range for cheapness, picking 'n' such * that 2^n + THREAD_PID_OFFSET and THREAD_PID_OFFSET have * the same number of columns when printed. */ #define PID_MAX 99999 #define TID_MASK 0x7ffff #define NO_PID (PID_MAX+1) #define SESS_LEADER(pr) ((pr)->ps_session->s_leader == (pr)) #define SESSHOLD(s) ((s)->s_count++) #define SESSRELE(s) do { \ if (--(s)->s_count == 0) { \ timeout_del(&(s)->s_verauthto); \ pool_put(&session_pool, (s)); \ } \ } while (/* CONSTCOND */ 0) /* * Flags to fork1(). */ #define FORK_FORK 0x00000001 #define FORK_VFORK 0x00000002 #define FORK_IDLE 0x00000004 #define FORK_PPWAIT 0x00000008 #define FORK_SHAREFILES 0x00000010 #define FORK_SYSTEM 0x00000020 #define FORK_NOZOMBIE 0x00000040 #define FORK_SHAREVM 0x00000080 #define FORK_PTRACE 0x00000400 #define EXIT_NORMAL 0x00000001 #define EXIT_THREAD 0x00000002 #define EXIT_THREAD_NOCHECK 0x00000003 #define TIDHASH(tid) (&tidhashtbl[(tid) & tidhash]) extern LIST_HEAD(tidhashhead, proc) *tidhashtbl; extern u_long tidhash; #define PIDHASH(pid) (&pidhashtbl[(pid) & pidhash]) extern LIST_HEAD(pidhashhead, process) *pidhashtbl; extern u_long pidhash; #define PGRPHASH(pgid) (&pgrphashtbl[(pgid) & pgrphash]) extern LIST_HEAD(pgrphashhead, pgrp) *pgrphashtbl; extern u_long pgrphash; extern struct proc proc0; /* Process slot for swapper. */ extern struct process process0; /* Process slot for kernel threads. */ extern int nprocesses, maxprocess; /* Cur and max number of processes. */ extern int nthreads, maxthread; /* Cur and max number of threads. */ extern int randompid; /* fork() should create random pid's */ LIST_HEAD(proclist, proc); LIST_HEAD(processlist, process); extern struct processlist allprocess; /* List of all processes. */ extern struct processlist zombprocess; /* List of zombie processes. */ extern struct proclist allproc; /* List of all threads. */ extern struct process *initprocess; /* Process slot for init. */ extern struct proc *reaperproc; /* Thread slot for reaper. */ extern struct proc *syncerproc; /* filesystem syncer daemon */ extern struct pool process_pool; /* memory pool for processes */ extern struct pool proc_pool; /* memory pool for procs */ extern struct pool rusage_pool; /* memory pool for zombies */ extern struct pool ucred_pool; /* memory pool for ucreds */ extern struct pool session_pool; /* memory pool for sessions */ extern struct pool pgrp_pool; /* memory pool for pgrps */ void freepid(pid_t); struct process *prfind(pid_t); /* Find process by id. */ struct process *zombiefind(pid_t); /* Find zombie process by id. */ struct proc *tfind(pid_t); /* Find thread by id. */ struct pgrp *pgfind(pid_t); /* Find process group by id. */ void proc_printit(struct proc *p, const char *modif, int (*pr)(const char *, ...)); int chgproccnt(uid_t uid, int diff); void enternewpgrp(struct process *, struct pgrp *, struct session *); void enterthispgrp(struct process *, struct pgrp *); int inferior(struct process *, struct process *); void leavepgrp(struct process *); void killjobc(struct process *); void preempt(void); void procinit(void); void setpriority(struct proc *, uint32_t, uint8_t); void setrunnable(struct proc *); void endtsleep(void *); int wakeup_proc(struct proc *, const volatile void *); void unsleep(struct proc *); void reaper(void *); void exit1(struct proc *, int, int, int); void exit2(struct proc *); int dowait4(struct proc *, pid_t, int *, int, struct rusage *, register_t *); void cpu_fork(struct proc *_curp, struct proc *_child, void *_stack, void *_tcb, void (*_func)(void *), void *_arg); void cpu_exit(struct proc *); void process_initialize(struct process *, struct proc *); int fork1(struct proc *_curp, int _flags, void (*_func)(void *), void *_arg, register_t *_retval, struct proc **_newprocp); int thread_fork(struct proc *_curp, void *_stack, void *_tcb, pid_t *_tidptr, register_t *_retval); int groupmember(gid_t, struct ucred *); void dorefreshcreds(struct process *, struct proc *); void dosigsuspend(struct proc *, sigset_t); static inline void refreshcreds(struct proc *p) { struct process *pr = p->p_p; /* this is an unlocked access to ps_ucred, but the result is benign */ if (pr->ps_ucred != p->p_ucred) dorefreshcreds(pr, p); } enum single_thread_mode { SINGLE_SUSPEND, /* other threads to stop wherever they are */ SINGLE_PTRACE, /* other threads to stop but don't wait */ SINGLE_UNWIND, /* other threads to unwind and stop */ SINGLE_EXIT /* other threads to unwind and then exit */ }; int single_thread_set(struct proc *, enum single_thread_mode, int); int single_thread_wait(struct process *, int); void single_thread_clear(struct proc *, int); int single_thread_check(struct proc *, int); void child_return(void *); int proc_cansugid(struct proc *); struct sleep_state { int sls_s; int sls_catch; int sls_do_sleep; int sls_locked; int sls_sig; int sls_unwind; int sls_timeout; }; struct cond { int c_wait; }; #define COND_INITIALIZER() { 1 } #if defined(MULTIPROCESSOR) void proc_trampoline_mp(void); /* XXX */ #endif /* * functions to handle sets of cpus. * * For now we keep the cpus in ints so that we can use the generic * atomic ops. */ #define CPUSET_ASIZE(x) (((x) - 1)/32 + 1) #define CPUSET_SSIZE CPUSET_ASIZE(MAXCPUS) struct cpuset { int cs_set[CPUSET_SSIZE]; }; void cpuset_init_cpu(struct cpu_info *); void cpuset_clear(struct cpuset *); void cpuset_add(struct cpuset *, struct cpu_info *); void cpuset_del(struct cpuset *, struct cpu_info *); int cpuset_isset(struct cpuset *, struct cpu_info *); void cpuset_add_all(struct cpuset *); void cpuset_copy(struct cpuset *, struct cpuset *); void cpuset_union(struct cpuset *, struct cpuset *, struct cpuset *); void cpuset_intersection(struct cpuset *t, struct cpuset *, struct cpuset *); void cpuset_complement(struct cpuset *, struct cpuset *, struct cpuset *); int cpuset_cardinality(struct cpuset *); struct cpu_info *cpuset_first(struct cpuset *); #endif /* _KERNEL */ #endif /* !_SYS_PROC_H_ */