/* $NetBSD: sysctl.h,v 1.239 2024/01/20 13:15:46 christos Exp $ */ /* * Copyright (c) 1989, 1993 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Mike Karels at Berkeley Software Design, 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. * * @(#)sysctl.h 8.1 (Berkeley) 6/2/93 */ #ifndef _SYS_SYSCTL_H_ #define _SYS_SYSCTL_H_ #include /* precautionary upon removal from ucred.h */ #include /* Needed for things like P_ZOMBIE() and LW_SINTR */ #include #if defined(_KERNEL) || defined(_KMEMUSER) /* * These are for the eproc structure defined below. */ #include #include #include #include #include #endif /* For offsetof() */ #if defined(_KERNEL) || defined(_STANDALONE) #include #else #include #include #endif /* * Definitions for sysctl call. The sysctl call uses a hierarchical name * for objects that can be examined or modified. The name is expressed as * a sequence of integers. Like a file path name, the meaning of each * component depends on its place in the hierarchy. The top-level and kern * identifiers are defined here, and other identifiers are defined in the * respective subsystem header files. */ struct sysctlnode; #define CTL_MAXNAME 12 /* largest number of components supported */ #define SYSCTL_NAMELEN 32 /* longest name allowed for a node */ #define CREATE_BASE (1024) /* start of dynamic mib allocation */ #define SYSCTL_DEFSIZE 8 /* initial size of a child set */ /* * Each subsystem defined by sysctl defines a list of variables * for that subsystem. Each name is either a node with further * levels defined below it, or it is a leaf of some particular * type given below. Each sysctl level defines a set of name/type * pairs to be used by sysctl(1) in manipulating the subsystem. */ struct ctlname { const char *ctl_name; /* subsystem name */ int ctl_type; /* type of name */ }; #define CTLTYPE_NODE 1 /* name is a node */ #define CTLTYPE_INT 2 /* name describes an integer */ #define CTLTYPE_STRING 3 /* name describes a string */ #define CTLTYPE_QUAD 4 /* name describes a 64-bit number */ #define CTLTYPE_STRUCT 5 /* name describes a structure */ #define CTLTYPE_BOOL 6 /* name describes a bool */ #ifdef _LP64 #define CTLTYPE_LONG CTLTYPE_QUAD #else #define CTLTYPE_LONG CTLTYPE_INT #endif /* * Flags that apply to each node, governing access and other features */ #define CTLFLAG_READONLY 0x00000000 /* #define CTLFLAG_UNUSED1 0x00000010 */ /* #define CTLFLAG_UNUSED2 0x00000020 */ /* #define CTLFLAG_READ* 0x00000040 */ #define CTLFLAG_READWRITE 0x00000070 #define CTLFLAG_ANYWRITE 0x00000080 #define CTLFLAG_PRIVATE 0x00000100 #define CTLFLAG_PERMANENT 0x00000200 #define CTLFLAG_OWNDATA 0x00000400 #define CTLFLAG_IMMEDIATE 0x00000800 #define CTLFLAG_HEX 0x00001000 #define CTLFLAG_ROOT 0x00002000 #define CTLFLAG_ANYNUMBER 0x00004000 #define CTLFLAG_HIDDEN 0x00008000 #define CTLFLAG_ALIAS 0x00010000 #define CTLFLAG_MMAP 0x00020000 #define CTLFLAG_OWNDESC 0x00040000 #define CTLFLAG_UNSIGNED 0x00080000 /* * sysctl API version */ #define SYSCTL_VERS_MASK 0xff000000 #define SYSCTL_VERS_0 0x00000000 #define SYSCTL_VERS_1 0x01000000 #define SYSCTL_VERSION SYSCTL_VERS_1 #define SYSCTL_VERS(f) ((f) & SYSCTL_VERS_MASK) /* * Flags that can be set by a create request from user-space */ #define SYSCTL_USERFLAGS (CTLFLAG_READWRITE|\ CTLFLAG_ANYWRITE|\ CTLFLAG_PRIVATE|\ CTLFLAG_OWNDATA|\ CTLFLAG_IMMEDIATE|\ CTLFLAG_HEX|\ CTLFLAG_HIDDEN) /* * Accessor macros */ #define SYSCTL_TYPEMASK 0x0000000f #define SYSCTL_TYPE(x) ((x) & SYSCTL_TYPEMASK) #define SYSCTL_FLAGMASK 0x00fffff0 #define SYSCTL_FLAGS(x) ((x) & SYSCTL_FLAGMASK) /* * Meta-identifiers */ #define CTL_EOL (-1) /* end of createv/destroyv list */ #define CTL_QUERY (-2) /* enumerates children of a node */ #define CTL_CREATE (-3) /* node create request */ #define CTL_CREATESYM (-4) /* node create request with symbol */ #define CTL_DESTROY (-5) /* node destroy request */ #define CTL_MMAP (-6) /* mmap request */ #define CTL_DESCRIBE (-7) /* get node descriptions */ /* * Top-level identifiers */ #define CTL_UNSPEC 0 /* unused */ #define CTL_KERN 1 /* "high kernel": proc, limits */ #define CTL_VM 2 /* virtual memory */ #define CTL_VFS 3 /* file system, mount type is next */ #define CTL_NET 4 /* network, see socket.h */ #define CTL_DEBUG 5 /* debugging parameters */ #define CTL_HW 6 /* generic CPU/io */ #define CTL_MACHDEP 7 /* machine dependent */ #define CTL_USER 8 /* user-level */ #define CTL_DDB 9 /* in-kernel debugger */ #define CTL_PROC 10 /* per-proc attr */ #define CTL_VENDOR 11 /* vendor-specific data */ #define CTL_EMUL 12 /* emulation-specific data */ #define CTL_SECURITY 13 /* security */ /* * The "vendor" toplevel name is to be used by vendors who wish to * have their own private MIB tree. If you do that, please use * vendor..* */ /* * CTL_KERN identifiers */ #define KERN_OSTYPE 1 /* string: system version */ #define KERN_OSRELEASE 2 /* string: system release */ #define KERN_OSREV 3 /* int: system revision */ #define KERN_VERSION 4 /* string: compile time info */ #define KERN_MAXVNODES 5 /* int: max vnodes */ #define KERN_MAXPROC 6 /* int: max processes */ #define KERN_MAXFILES 7 /* int: max open files */ #define KERN_ARGMAX 8 /* int: max arguments to exec */ #define KERN_SECURELVL 9 /* int: system security level */ #define KERN_HOSTNAME 10 /* string: hostname */ #define KERN_HOSTID 11 /* int: host identifier */ #define KERN_CLOCKRATE 12 /* struct: struct clockinfo */ #define KERN_VNODE 13 /* struct: vnode structures */ #define KERN_PROC 14 /* struct: process entries */ #define KERN_FILE 15 /* struct: file entries */ #define KERN_PROF 16 /* node: kernel profiling info */ #define KERN_POSIX1 17 /* int: POSIX.1 version */ #define KERN_NGROUPS 18 /* int: # of supplemental group ids */ #define KERN_JOB_CONTROL 19 /* int: is job control available */ #define KERN_SAVED_IDS 20 /* int: saved set-user/group-ID */ #define KERN_OBOOTTIME 21 /* struct: time kernel was booted */ #define KERN_DOMAINNAME 22 /* string: (YP) domainname */ #define KERN_MAXPARTITIONS 23 /* int: number of partitions/disk */ #define KERN_RAWPARTITION 24 /* int: raw partition number */ #define KERN_NTPTIME 25 /* struct: extended-precision time */ #define KERN_TIMEX 26 /* struct: ntp timekeeping state */ #define KERN_AUTONICETIME 27 /* int: proc time before autonice */ #define KERN_AUTONICEVAL 28 /* int: auto nice value */ #define KERN_RTC_OFFSET 29 /* int: offset of rtc from gmt */ #define KERN_ROOT_DEVICE 30 /* string: root device */ #define KERN_MSGBUFSIZE 31 /* int: max # of chars in msg buffer */ #define KERN_FSYNC 32 /* int: file synchronization support */ #define KERN_OLDSYSVMSG 33 /* old: SysV message queue support */ #define KERN_OLDSYSVSEM 34 /* old: SysV semaphore support */ #define KERN_OLDSYSVSHM 35 /* old: SysV shared memory support */ #define KERN_OLDSHORTCORENAME 36 /* old, unimplemented */ #define KERN_SYNCHRONIZED_IO 37 /* int: POSIX synchronized I/O */ #define KERN_IOV_MAX 38 /* int: max iovec's for readv(2) etc. */ #define KERN_MBUF 39 /* node: mbuf parameters */ #define KERN_MAPPED_FILES 40 /* int: POSIX memory mapped files */ #define KERN_MEMLOCK 41 /* int: POSIX memory locking */ #define KERN_MEMLOCK_RANGE 42 /* int: POSIX memory range locking */ #define KERN_MEMORY_PROTECTION 43 /* int: POSIX memory protections */ #define KERN_LOGIN_NAME_MAX 44 /* int: max length login name + NUL */ #define KERN_DEFCORENAME 45 /* old: sort core name format */ #define KERN_LOGSIGEXIT 46 /* int: log signaled processes */ #define KERN_PROC2 47 /* struct: process entries */ #define KERN_PROC_ARGS 48 /* struct: process argv/env */ #define KERN_FSCALE 49 /* int: fixpt FSCALE */ #define KERN_CCPU 50 /* old: fixpt ccpu */ #define KERN_CP_TIME 51 /* struct: CPU time counters */ #define KERN_OLDSYSVIPC_INFO 52 /* old: number of valid kern ids */ #define KERN_MSGBUF 53 /* kernel message buffer */ #define KERN_CONSDEV 54 /* dev_t: console terminal device */ #define KERN_MAXPTYS 55 /* int: maximum number of ptys */ #define KERN_PIPE 56 /* node: pipe limits */ #define KERN_MAXPHYS 57 /* int: kernel value of MAXPHYS */ #define KERN_SBMAX 58 /* int: max socket buffer size */ #define KERN_TKSTAT 59 /* tty in/out counters */ #define KERN_MONOTONIC_CLOCK 60 /* int: POSIX monotonic clock */ #define KERN_URND 61 /* int: random integer from urandom */ #define KERN_LABELSECTOR 62 /* int: disklabel sector */ #define KERN_LABELOFFSET 63 /* int: offset of label within sector */ #define KERN_LWP 64 /* struct: lwp entries */ #define KERN_FORKFSLEEP 65 /* int: sleep length on failed fork */ #define KERN_POSIX_THREADS 66 /* int: POSIX Threads option */ #define KERN_POSIX_SEMAPHORES 67 /* int: POSIX Semaphores option */ #define KERN_POSIX_BARRIERS 68 /* int: POSIX Barriers option */ #define KERN_POSIX_TIMERS 69 /* int: POSIX Timers option */ #define KERN_POSIX_SPIN_LOCKS 70 /* int: POSIX Spin Locks option */ #define KERN_POSIX_READER_WRITER_LOCKS 71 /* int: POSIX R/W Locks option */ #define KERN_DUMP_ON_PANIC 72 /* int: dump on panic */ #define KERN_SOMAXKVA 73 /* int: max socket kernel virtual mem */ #define KERN_ROOT_PARTITION 74 /* int: root partition */ #define KERN_DRIVERS 75 /* struct: driver names and majors #s */ #define KERN_BUF 76 /* struct: buffers */ #define KERN_FILE2 77 /* struct: file entries */ #define KERN_VERIEXEC 78 /* node: verified exec */ #define KERN_CP_ID 79 /* struct: cpu id numbers */ #define KERN_HARDCLOCK_TICKS 80 /* int: number of hardclock ticks */ #define KERN_ARND 81 /* void *buf, size_t siz random */ #define KERN_SYSVIPC 82 /* node: SysV IPC parameters */ #define KERN_BOOTTIME 83 /* struct: time kernel was booted */ #define KERN_EVCNT 84 /* struct: evcnts */ #define KERN_SOFIXEDBUF 85 /* bool: fixed socket buffer sizes */ /* * KERN_CLOCKRATE structure */ struct clockinfo { int hz; /* clock frequency */ int tick; /* micro-seconds per hz tick */ int tickadj; /* clock skew rate for adjtime() */ int stathz; /* statistics clock frequency */ int profhz; /* profiling clock frequency */ }; /* * KERN_PROC subtypes */ #define KERN_PROC_ALL 0 /* everything */ #define KERN_PROC_PID 1 /* by process id */ #define KERN_PROC_PGRP 2 /* by process group id */ #define KERN_PROC_SESSION 3 /* by session of pid */ #define KERN_PROC_TTY 4 /* by controlling tty */ #define KERN_PROC_UID 5 /* by effective uid */ #define KERN_PROC_RUID 6 /* by real uid */ #define KERN_PROC_GID 7 /* by effective gid */ #define KERN_PROC_RGID 8 /* by real gid */ /* * KERN_PROC_TTY sub-subtypes */ #define KERN_PROC_TTY_NODEV NODEV /* no controlling tty */ #define KERN_PROC_TTY_REVOKE ((dev_t)-2) /* revoked tty */ struct ki_pcred { void *p_pad; uid_t p_ruid; /* Real user id */ uid_t p_svuid; /* Saved effective user id */ gid_t p_rgid; /* Real group id */ gid_t p_svgid; /* Saved effective group id */ int p_refcnt; /* Number of references */ }; struct ki_ucred { uint32_t cr_ref; /* reference count */ uid_t cr_uid; /* effective user id */ gid_t cr_gid; /* effective group id */ uint32_t cr_ngroups; /* number of groups */ gid_t cr_groups[NGROUPS]; /* groups */ }; #if defined(_KERNEL) || defined(_KMEMUSER) struct eproc { struct proc *e_paddr; /* address of proc */ struct session *e_sess; /* session pointer */ struct ki_pcred e_pcred; /* process credentials */ struct ki_ucred e_ucred; /* current credentials */ struct vmspace e_vm; /* address space */ pid_t e_ppid; /* parent process id */ pid_t e_pgid; /* process group id */ short e_jobc; /* job control counter */ uint32_t e_tdev; /* XXX: controlling tty dev */ pid_t e_tpgid; /* tty process group id */ struct session *e_tsess; /* tty session pointer */ #define WMESGLEN 8 char e_wmesg[WMESGLEN]; /* wchan message */ segsz_t e_xsize; /* text size */ short e_xrssize; /* text rss */ short e_xccount; /* text references */ short e_xswrss; long e_flag; /* see p_eflag below */ char e_login[MAXLOGNAME]; /* setlogin() name */ pid_t e_sid; /* session id */ long e_spare[3]; }; /* * KERN_PROC subtype ops return arrays of augmented proc structures: */ struct kinfo_proc { struct proc kp_proc; /* proc structure */ struct eproc kp_eproc; /* eproc structure */ }; #endif /* defined(_KERNEL) || defined(_KMEMUSER) */ /* * Convert pointer to 64 bit unsigned integer for struct * kinfo_proc2, etc. */ #define PTRTOUINT64(p) ((uint64_t)(uintptr_t)(p)) #define UINT64TOPTR(u) ((void *)(uintptr_t)(u)) /* * KERN_PROC2 subtype ops return arrays of relatively fixed size * structures of process info. Use 8 byte alignment, and new * elements should only be added to the end of this structure so * binary compatibility can be preserved. */ #define KI_NGROUPS 16 #define KI_MAXCOMLEN 24 /* extra for 8 byte alignment */ #define KI_WMESGLEN 8 #define KI_MAXLOGNAME 24 /* extra for 8 byte alignment */ #define KI_MAXEMULLEN 16 #define KI_LNAMELEN 20 /* extra 4 for alignment */ #define KI_NOCPU (~(uint64_t)0) typedef struct { uint32_t __bits[4]; } ki_sigset_t; struct kinfo_proc2 { uint64_t p_forw; /* PTR: linked run/sleep queue. */ uint64_t p_back; uint64_t p_paddr; /* PTR: address of proc */ uint64_t p_addr; /* PTR: Kernel virtual addr of u-area */ uint64_t p_fd; /* PTR: Ptr to open files structure. */ uint64_t p_cwdi; /* PTR: cdir/rdir/cmask info */ uint64_t p_stats; /* PTR: Accounting/statistics */ uint64_t p_limit; /* PTR: Process limits. */ uint64_t p_vmspace; /* PTR: Address space. */ uint64_t p_sigacts; /* PTR: Signal actions, state */ uint64_t p_sess; /* PTR: session pointer */ uint64_t p_tsess; /* PTR: tty session pointer */ uint64_t p_ru; /* PTR: Exit information. XXX */ int32_t p_eflag; /* LONG: extra kinfo_proc2 flags */ #define EPROC_CTTY 0x01 /* controlling tty vnode active */ #define EPROC_SLEADER 0x02 /* session leader */ int32_t p_exitsig; /* INT: signal to sent to parent on exit */ int32_t p_flag; /* INT: P_* flags. */ int32_t p_pid; /* PID_T: Process identifier. */ int32_t p_ppid; /* PID_T: Parent process id */ int32_t p_sid; /* PID_T: session id */ int32_t p__pgid; /* PID_T: process group id */ /* XXX: hijacks p_pgid */ int32_t p_tpgid; /* PID_T: tty process group id */ uint32_t p_uid; /* UID_T: effective user id */ uint32_t p_ruid; /* UID_T: real user id */ uint32_t p_gid; /* GID_T: effective group id */ uint32_t p_rgid; /* GID_T: real group id */ uint32_t p_groups[KI_NGROUPS]; /* GID_T: groups */ int16_t p_ngroups; /* SHORT: number of groups */ int16_t p_jobc; /* SHORT: job control counter */ uint32_t p_tdev; /* XXX: DEV_T: controlling tty dev */ uint32_t p_estcpu; /* U_INT: Time averaged value of p_cpticks. */ uint32_t p_rtime_sec; /* STRUCT TIMEVAL: Real time. */ uint32_t p_rtime_usec; /* STRUCT TIMEVAL: Real time. */ int32_t p_cpticks; /* INT: Ticks of CPU time. */ uint32_t p_pctcpu; /* FIXPT_T: %cpu for this process during p_swtime */ uint32_t p_swtime; /* U_INT: Time swapped in or out. */ uint32_t p_slptime; /* U_INT: Time since last blocked. */ int32_t p_schedflags; /* INT: PSCHED_* flags */ uint64_t p_uticks; /* U_QUAD_T: Statclock hits in user mode. */ uint64_t p_sticks; /* U_QUAD_T: Statclock hits in system mode. */ uint64_t p_iticks; /* U_QUAD_T: Statclock hits processing intr. */ uint64_t p_tracep; /* PTR: Trace to vnode or file */ int32_t p_traceflag; /* INT: Kernel trace points. */ int32_t p_holdcnt; /* INT: If non-zero, don't swap. */ ki_sigset_t p_siglist; /* SIGSET_T: Signals arrived but not delivered. */ ki_sigset_t p_sigmask; /* SIGSET_T: Current signal mask. */ ki_sigset_t p_sigignore; /* SIGSET_T: Signals being ignored. */ ki_sigset_t p_sigcatch; /* SIGSET_T: Signals being caught by user. */ int8_t p_stat; /* CHAR: S* process status (from LWP). */ uint8_t p_priority; /* U_CHAR: Process priority. */ uint8_t p_usrpri; /* U_CHAR: User-priority based on p_cpu and p_nice. */ uint8_t p_nice; /* U_CHAR: Process "nice" value. */ uint16_t p_xstat; /* U_SHORT: Exit status for wait; also stop signal. */ uint16_t p_acflag; /* U_SHORT: Accounting flags. */ char p_comm[KI_MAXCOMLEN]; char p_wmesg[KI_WMESGLEN]; /* wchan message */ uint64_t p_wchan; /* PTR: sleep address. */ char p_login[KI_MAXLOGNAME]; /* setlogin() name */ int32_t p_vm_rssize; /* SEGSZ_T: current resident set size in pages */ int32_t p_vm_tsize; /* SEGSZ_T: text size (pages) */ int32_t p_vm_dsize; /* SEGSZ_T: data size (pages) */ int32_t p_vm_ssize; /* SEGSZ_T: stack size (pages) */ int64_t p_uvalid; /* CHAR: following p_u* parameters are valid */ /* XXX 64 bits for alignment */ uint32_t p_ustart_sec; /* STRUCT TIMEVAL: starting time. */ uint32_t p_ustart_usec; /* STRUCT TIMEVAL: starting time. */ uint32_t p_uutime_sec; /* STRUCT TIMEVAL: user time. */ uint32_t p_uutime_usec; /* STRUCT TIMEVAL: user time. */ uint32_t p_ustime_sec; /* STRUCT TIMEVAL: system time. */ uint32_t p_ustime_usec; /* STRUCT TIMEVAL: system time. */ uint64_t p_uru_maxrss; /* LONG: max resident set size. */ uint64_t p_uru_ixrss; /* LONG: integral shared memory size. */ uint64_t p_uru_idrss; /* LONG: integral unshared data ". */ uint64_t p_uru_isrss; /* LONG: integral unshared stack ". */ uint64_t p_uru_minflt; /* LONG: page reclaims. */ uint64_t p_uru_majflt; /* LONG: page faults. */ uint64_t p_uru_nswap; /* LONG: swaps. */ uint64_t p_uru_inblock; /* LONG: block input operations. */ uint64_t p_uru_oublock; /* LONG: block output operations. */ uint64_t p_uru_msgsnd; /* LONG: messages sent. */ uint64_t p_uru_msgrcv; /* LONG: messages received. */ uint64_t p_uru_nsignals; /* LONG: signals received. */ uint64_t p_uru_nvcsw; /* LONG: voluntary context switches. */ uint64_t p_uru_nivcsw; /* LONG: involuntary ". */ uint32_t p_uctime_sec; /* STRUCT TIMEVAL: child u+s time. */ uint32_t p_uctime_usec; /* STRUCT TIMEVAL: child u+s time. */ uint64_t p_cpuid; /* LONG: CPU id */ uint64_t p_realflag; /* INT: P_* flags (not including LWPs). */ uint64_t p_nlwps; /* LONG: Number of LWPs */ uint64_t p_nrlwps; /* LONG: Number of running LWPs */ uint64_t p_realstat; /* LONG: non-LWP process status */ uint32_t p_svuid; /* UID_T: saved user id */ uint32_t p_svgid; /* GID_T: saved group id */ char p_ename[KI_MAXEMULLEN]; /* emulation name */ int64_t p_vm_vsize; /* SEGSZ_T: total map size (pages) */ int64_t p_vm_msize; /* SEGSZ_T: stack-adjusted map size (pages) */ }; /* * Compat flags for kinfo_proc, kinfo_proc2. Not guaranteed to be stable. * Some of them used to be shared with LWP flags. * XXXAD Trim to the minimum necessary... */ #define P_ADVLOCK 0x00000001 #define P_CONTROLT 0x00000002 #define L_INMEM 0x00000004 #define P_INMEM /* 0x00000004 */ L_INMEM #define P_NOCLDSTOP 0x00000008 #define P_PPWAIT 0x00000010 #define P_PROFIL 0x00000020 #define L_SELECT 0x00000040 #define P_SELECT /* 0x00000040 */ L_SELECT #define L_SINTR 0x00000080 #define P_SINTR /* 0x00000080 */ L_SINTR #define P_SUGID 0x00000100 #define L_SYSTEM 0x00000200 #define P_SYSTEM /* 0x00000200 */ L_SYSTEM #define L_SA 0x00000400 #define P_SA /* 0x00000400 */ L_SA #define P_TRACED 0x00000800 #define P_WAITED 0x00001000 #define P_WEXIT 0x00002000 #define P_EXEC 0x00004000 #define P_OWEUPC 0x00008000 #define P_NOCLDWAIT 0x00020000 #define P_32 0x00040000 #define P_CLDSIGIGN 0x00080000 #define P_SYSTRACE 0x00200000 #define P_CHTRACED 0x00400000 #define P_STOPFORK 0x00800000 #define P_STOPEXEC 0x01000000 #define P_STOPEXIT 0x02000000 #define P_SYSCALL 0x04000000 /* * LWP compat flags. */ #define L_DETACHED 0x00800000 #define __SYSCTL_PROC_FLAG_BITS \ "\20" \ "\1ADVLOCK" \ "\2CONTROLT" \ "\3INMEM" \ "\4NOCLDSTOP" \ "\5PPWAIT" \ "\6PROFIL" \ "\7SELECT" \ "\10SINTR" \ "\11SUGID" \ "\12SYSTEM" \ "\13SA" \ "\14TRACED" \ "\15WAITED" \ "\16WEXIT" \ "\17EXEC" \ "\20OWEUPC" \ "\22NOCLDWAIT" \ "\23P32" \ "\24CLDSIGIGN" \ "\26SYSTRACE" \ "\27CHTRACED" \ "\30STOPFORK" \ "\31STOPEXEC" \ "\32STOPEXIT" \ "\33SYSCALL" /* * KERN_LWP structure. See notes on KERN_PROC2 about adding elements. */ struct kinfo_lwp { uint64_t l_forw; /* PTR: linked run/sleep queue. */ uint64_t l_back; uint64_t l_laddr; /* PTR: Address of LWP */ uint64_t l_addr; /* PTR: Kernel virtual addr of u-area */ int32_t l_lid; /* LWPID_T: LWP identifier */ int32_t l_flag; /* INT: L_* flags. */ uint32_t l_swtime; /* U_INT: Time swapped in or out. */ uint32_t l_slptime; /* U_INT: Time since last blocked. */ int32_t l_schedflags; /* INT: PSCHED_* flags */ int32_t l_holdcnt; /* INT: If non-zero, don't swap. */ uint8_t l_priority; /* U_CHAR: Process priority. */ uint8_t l_usrpri; /* U_CHAR: User-priority based on l_cpu and p_nice. */ int8_t l_stat; /* CHAR: S* process status. */ int8_t l_pad1; /* fill out to 4-byte boundary */ int32_t l_pad2; /* .. and then to an 8-byte boundary */ char l_wmesg[KI_WMESGLEN]; /* wchan message */ uint64_t l_wchan; /* PTR: sleep address. */ uint64_t l_cpuid; /* LONG: CPU id */ uint32_t l_rtime_sec; /* STRUCT TIMEVAL: Real time. */ uint32_t l_rtime_usec; /* STRUCT TIMEVAL: Real time. */ uint32_t l_cpticks; /* INT: ticks during l_swtime */ uint32_t l_pctcpu; /* FIXPT_T: cpu usage for ps */ uint32_t l_pid; /* PID_T: process identifier */ char l_name[KI_LNAMELEN]; /* CHAR[]: name, may be empty */ }; /* * KERN_PROC_ARGS subtypes */ #define KERN_PROC_ARGV 1 /* argv */ #define KERN_PROC_NARGV 2 /* number of strings in above */ #define KERN_PROC_ENV 3 /* environ */ #define KERN_PROC_NENV 4 /* number of strings in above */ #define KERN_PROC_PATHNAME 5 /* path to executable */ #define KERN_PROC_CWD 6 /* current working dir */ /* * KERN_SYSVIPC subtypes */ #define KERN_SYSVIPC_INFO 1 /* struct: number of valid kern ids */ #define KERN_SYSVIPC_MSG 2 /* int: SysV message queue support */ #define KERN_SYSVIPC_SEM 3 /* int: SysV semaphore support */ #define KERN_SYSVIPC_SHM 4 /* int: SysV shared memory support */ #define KERN_SYSVIPC_SHMMAX 5 /* int: max shared memory segment size (bytes) */ #define KERN_SYSVIPC_SHMMNI 6 /* int: max number of shared memory identifiers */ #define KERN_SYSVIPC_SHMSEG 7 /* int: max shared memory segments per process */ #define KERN_SYSVIPC_SHMMAXPGS 8 /* int: max amount of shared memory (pages) */ #define KERN_SYSVIPC_SHMUSEPHYS 9 /* int: physical memory usage */ /* * KERN_SYSVIPC_INFO subtypes */ /* KERN_SYSVIPC_OMSG_INFO 1 */ /* KERN_SYSVIPC_OSEM_INFO 2 */ /* KERN_SYSVIPC_OSHM_INFO 3 */ #define KERN_SYSVIPC_MSG_INFO 4 /* msginfo and msgid_ds */ #define KERN_SYSVIPC_SEM_INFO 5 /* seminfo and semid_ds */ #define KERN_SYSVIPC_SHM_INFO 6 /* shminfo and shmid_ds */ /* * tty counter sysctl variables */ #define KERN_TKSTAT_NIN 1 /* total input character */ #define KERN_TKSTAT_NOUT 2 /* total output character */ #define KERN_TKSTAT_CANCC 3 /* canonical input character */ #define KERN_TKSTAT_RAWCC 4 /* raw input character */ /* * kern.drivers returns an array of these. */ struct kinfo_drivers { devmajor_t d_cmajor; devmajor_t d_bmajor; char d_name[24]; }; /* * KERN_BUF subtypes, like KERN_PROC2, where the four following mib * entries specify "which type of buf", "which particular buf", * "sizeof buf", and "how many". Currently, only "all buf" is * defined. */ #define KERN_BUF_ALL 0 /* all buffers */ /* * kern.buf returns an array of these structures, which are designed * both to be immune to 32/64 bit emulation issues and to provide * backwards compatibility. Note that the order here differs slightly * from the real struct buf in order to achieve proper 64 bit * alignment. */ struct buf_sysctl { uint32_t b_flags; /* LONG: B_* flags */ int32_t b_error; /* INT: Errno value */ int32_t b_prio; /* INT: Hint for buffer queue discipline */ uint32_t b_dev; /* DEV_T: Device associated with buffer */ uint64_t b_bufsize; /* LONG: Allocated buffer size */ uint64_t b_bcount; /* LONG: Valid bytes in buffer */ uint64_t b_resid; /* LONG: Remaining I/O */ uint64_t b_addr; /* CADDR_T: Memory, superblocks, indirect... */ uint64_t b_blkno; /* DADDR_T: Underlying physical block number */ uint64_t b_rawblkno; /* DADDR_T: Raw underlying physical block */ uint64_t b_iodone; /* PTR: Function called upon completion */ uint64_t b_proc; /* PTR: Associated proc if B_PHYS set */ uint64_t b_vp; /* PTR: File vnode */ uint64_t b_saveaddr; /* PTR: Original b_addr for physio */ uint64_t b_lblkno; /* DADDR_T: Logical block number */ }; #define KERN_BUFSLOP 20 /* * kern.file2 returns an array of these structures, which are designed * both to be immune to 32/64 bit emulation issues and to * provide backwards compatibility. The order differs slightly from * that of the real struct file, and some fields are taken from other * structures (struct vnode, struct proc) in order to make the file * information more useful. */ struct kinfo_file { uint64_t ki_fileaddr; /* PTR: address of struct file */ uint32_t ki_flag; /* INT: flags (see fcntl.h) */ uint32_t ki_iflags; /* INT: internal flags */ uint32_t ki_ftype; /* INT: descriptor type */ uint32_t ki_count; /* UINT: reference count */ uint32_t ki_msgcount; /* UINT: references from msg queue */ uint32_t ki_usecount; /* INT: number active users */ uint64_t ki_fucred; /* PTR: creds for descriptor */ uint32_t ki_fuid; /* UID_T: descriptor credentials */ uint32_t ki_fgid; /* GID_T: descriptor credentials */ uint64_t ki_fops; /* PTR: address of fileops */ uint64_t ki_foffset; /* OFF_T: offset */ uint64_t ki_fdata; /* PTR: descriptor data */ /* vnode information to glue this file to something */ uint64_t ki_vun; /* PTR: socket, specinfo, etc */ uint64_t ki_vsize; /* OFF_T: size of file */ uint32_t ki_vtype; /* ENUM: vnode type */ uint32_t ki_vtag; /* ENUM: type of underlying data */ uint64_t ki_vdata; /* PTR: private data for fs */ /* process information when retrieved via KERN_FILE_BYPID */ uint32_t ki_pid; /* PID_T: process id */ int32_t ki_fd; /* INT: descriptor number */ uint32_t ki_ofileflags; /* CHAR: open file flags */ uint32_t _ki_padto64bits; }; #define KERN_FILE_BYFILE 1 #define KERN_FILE_BYPID 2 #define KERN_FILESLOP 10 /* * kern.evcnt returns an array of these structures, which are designed both to * be immune to 32/64 bit emulation issues. Note that the struct here differs * from the real struct evcnt but contains the same information in order to * accommodate sysctl. */ struct evcnt_sysctl { uint64_t ev_count; /* current count */ uint64_t ev_addr; /* kernel address of evcnt */ uint64_t ev_parent; /* kernel address of parent */ uint8_t ev_type; /* EVCNT_TRAP_* */ uint8_t ev_grouplen; /* length of group with NUL */ uint8_t ev_namelen; /* length of name with NUL */ uint8_t ev_len; /* multiply by 8 */ /* * Now the group and name strings follow (both include the trailing * NUL). ev_name start at &ev_strings[ev_grouplen+1] */ char ev_strings[]; }; #define KERN_EVCNT_COUNT_ANY 0 #define KERN_EVCNT_COUNT_NONZERO 1 /* * kern.hashstat returns an array of these structures, which are designed * to be immune to 32/64 bit emulation issues. * * Hash users can register a filler function to fill the hashstat_sysctl * which can then be exposed via vmstat(1). * * See comments for hashstat_sysctl() in kern/subr_hash.c for details * on sysctl(3) usage. */ struct hashstat_sysctl { char hash_name[SYSCTL_NAMELEN]; char hash_desc[SYSCTL_NAMELEN]; uint64_t hash_size; uint64_t hash_used; uint64_t hash_items; uint64_t hash_maxchain; }; typedef int (*hashstat_func_t)(struct hashstat_sysctl *, bool); void hashstat_register(const char *, hashstat_func_t); /* * CTL_VM identifiers in */ /* * The vm.proc.map sysctl allows a process to dump the VM layout of * another process as a series of entries. */ #define KVME_TYPE_NONE 0 #define KVME_TYPE_OBJECT 1 #define KVME_TYPE_VNODE 2 #define KVME_TYPE_KERN 3 #define KVME_TYPE_DEVICE 4 #define KVME_TYPE_ANON 5 #define KVME_TYPE_SUBMAP 6 #define KVME_TYPE_UNKNOWN 255 #define KVME_PROT_READ 0x00000001 #define KVME_PROT_WRITE 0x00000002 #define KVME_PROT_EXEC 0x00000004 #define KVME_FLAG_COW 0x00000001 #define KVME_FLAG_NEEDS_COPY 0x00000002 #define KVME_FLAG_NOCOREDUMP 0x00000004 #define KVME_FLAG_PAGEABLE 0x00000008 #define KVME_FLAG_GROWS_UP 0x00000010 #define KVME_FLAG_GROWS_DOWN 0x00000020 struct kinfo_vmentry { uint64_t kve_start; /* Starting address. */ uint64_t kve_end; /* Finishing address. */ uint64_t kve_offset; /* Mapping offset in object */ uint32_t kve_type; /* Type of map entry. */ uint32_t kve_flags; /* Flags on map entry. */ uint32_t kve_count; /* Number of pages/entries */ uint32_t kve_wired_count; /* Number of wired pages */ uint32_t kve_advice; /* Advice */ uint32_t kve_attributes; /* Map attribute */ uint32_t kve_protection; /* Protection bitmask. */ uint32_t kve_max_protection; /* Max protection bitmask */ uint32_t kve_ref_count; /* VM obj ref count. */ uint32_t kve_inheritance; /* Inheritance */ uint64_t kve_vn_fileid; /* inode number if vnode */ uint64_t kve_vn_size; /* File size. */ uint64_t kve_vn_fsid; /* dev_t of vnode location */ uint64_t kve_vn_rdev; /* Device id if device. */ uint32_t kve_vn_type; /* Vnode type. */ uint32_t kve_vn_mode; /* File mode. */ char kve_path[PATH_MAX]; /* Path to VM obj, if any. */ }; /* * CTL_HW identifiers */ #define HW_MACHINE 1 /* string: machine class */ #define HW_MODEL 2 /* string: specific machine model */ #define HW_NCPU 3 /* int: number of cpus */ #define HW_BYTEORDER 4 /* int: machine byte order */ #define HW_PHYSMEM 5 /* int: total memory (bytes) */ #define HW_USERMEM 6 /* int: non-kernel memory (bytes) */ #define HW_PAGESIZE 7 /* int: software page size */ #define HW_DISKNAMES 8 /* string: disk drive names */ #define HW_IOSTATS 9 /* struct: iostats[] */ #define HW_MACHINE_ARCH 10 /* string: machine architecture */ #define HW_ALIGNBYTES 11 /* int: ALIGNBYTES for the kernel */ #define HW_CNMAGIC 12 /* string: console magic sequence(s) */ #define HW_PHYSMEM64 13 /* quad: total memory (bytes) */ #define HW_USERMEM64 14 /* quad: non-kernel memory (bytes) */ #define HW_IOSTATNAMES 15 /* string: iostat names */ #define HW_NCPUONLINE 16 /* number CPUs online */ /* * CTL_USER definitions */ #define USER_CS_PATH 1 /* string: _CS_PATH */ #define USER_BC_BASE_MAX 2 /* int: BC_BASE_MAX */ #define USER_BC_DIM_MAX 3 /* int: BC_DIM_MAX */ #define USER_BC_SCALE_MAX 4 /* int: BC_SCALE_MAX */ #define USER_BC_STRING_MAX 5 /* int: BC_STRING_MAX */ #define USER_COLL_WEIGHTS_MAX 6 /* int: COLL_WEIGHTS_MAX */ #define USER_EXPR_NEST_MAX 7 /* int: EXPR_NEST_MAX */ #define USER_LINE_MAX 8 /* int: LINE_MAX */ #define USER_RE_DUP_MAX 9 /* int: RE_DUP_MAX */ #define USER_POSIX2_VERSION 10 /* int: POSIX2_VERSION */ #define USER_POSIX2_C_BIND 11 /* int: POSIX2_C_BIND */ #define USER_POSIX2_C_DEV 12 /* int: POSIX2_C_DEV */ #define USER_POSIX2_CHAR_TERM 13 /* int: POSIX2_CHAR_TERM */ #define USER_POSIX2_FORT_DEV 14 /* int: POSIX2_FORT_DEV */ #define USER_POSIX2_FORT_RUN 15 /* int: POSIX2_FORT_RUN */ #define USER_POSIX2_LOCALEDEF 16 /* int: POSIX2_LOCALEDEF */ #define USER_POSIX2_SW_DEV 17 /* int: POSIX2_SW_DEV */ #define USER_POSIX2_UPE 18 /* int: POSIX2_UPE */ #define USER_STREAM_MAX 19 /* int: POSIX2_STREAM_MAX */ #define USER_TZNAME_MAX 20 /* int: _POSIX_TZNAME_MAX */ #define USER_ATEXIT_MAX 21 /* int: {ATEXIT_MAX} */ /* * CTL_DDB definitions */ #define DDBCTL_RADIX 1 /* int: Input and output radix */ #define DDBCTL_MAXOFF 2 /* int: max symbol offset */ #define DDBCTL_MAXWIDTH 3 /* int: width of the display line */ #define DDBCTL_LINES 4 /* int: number of display lines */ #define DDBCTL_TABSTOPS 5 /* int: tab width */ #define DDBCTL_ONPANIC 6 /* int: DDB on panic if non-zero */ #define DDBCTL_FROMCONSOLE 7 /* int: DDB via console if non-zero */ /* * CTL_DEBUG definitions * * Second level identifier specifies which debug variable. * Third level identifier specifies which structure component. */ #define CTL_DEBUG_NAME 0 /* string: variable name */ #define CTL_DEBUG_VALUE 1 /* int: variable value */ /* * CTL_PROC subtype. Either a PID, or a magic value for the current proc. */ #define PROC_CURPROC (~((u_int)1 << 31)) /* * CTL_PROC tree: either corename (string), a limit * (rlimit..{hard,soft}, int), a process stop * condition, or paxflags. */ #define PROC_PID_CORENAME 1 #define PROC_PID_LIMIT 2 #define PROC_PID_STOPFORK 3 #define PROC_PID_STOPEXEC 4 #define PROC_PID_STOPEXIT 5 #define PROC_PID_PAXFLAGS 6 /* Limit types from */ #define PROC_PID_LIMIT_CPU (RLIMIT_CPU+1) #define PROC_PID_LIMIT_FSIZE (RLIMIT_FSIZE+1) #define PROC_PID_LIMIT_DATA (RLIMIT_DATA+1) #define PROC_PID_LIMIT_STACK (RLIMIT_STACK+1) #define PROC_PID_LIMIT_CORE (RLIMIT_CORE+1) #define PROC_PID_LIMIT_RSS (RLIMIT_RSS+1) #define PROC_PID_LIMIT_MEMLOCK (RLIMIT_MEMLOCK+1) #define PROC_PID_LIMIT_NPROC (RLIMIT_NPROC+1) #define PROC_PID_LIMIT_NOFILE (RLIMIT_NOFILE+1) #define PROC_PID_LIMIT_SBSIZE (RLIMIT_SBSIZE+1) #define PROC_PID_LIMIT_AS (RLIMIT_AS+1) #define PROC_PID_LIMIT_NTHR (RLIMIT_NTHR+1) /* for each type, either hard or soft value */ #define PROC_PID_LIMIT_TYPE_SOFT 1 #define PROC_PID_LIMIT_TYPE_HARD 2 /* * Export PAX flag definitions to userland. * * XXX These are duplicated from sys/pax.h but that header is not * XXX installed. */ #define CTL_PROC_PAXFLAGS_ASLR 0x01 #define CTL_PROC_PAXFLAGS_MPROTECT 0x02 #define CTL_PROC_PAXFLAGS_GUARD 0x04 /* * CTL_EMUL definitions * * Second level identifier specifies which emulation variable. * Subsequent levels are specified in the emulations themselves. */ #define EMUL_LINUX 1 #define EMUL_LINUX32 5 #ifdef _KERNEL #if defined(_KERNEL_OPT) #include "opt_sysctl.h" #endif /* Root node of the kernel sysctl tree */ extern struct sysctlnode sysctl_root; /* * A log of nodes created by a setup function or set of setup * functions so that they can be torn down in one "transaction" * when no longer needed. * * Users of the log merely pass a pointer to a pointer, and the sysctl * infrastructure takes care of the rest. */ struct sysctllog; /* * CTL_DEBUG variables. * * These are declared as separate variables so that they can be * individually initialized at the location of their associated * variable. The loader prevents multiple use by issuing errors * if a variable is initialized in more than one place. They are * aggregated into an array in debug_sysctl(), so that it can * conveniently locate them when queried. If more debugging * variables are added, they must also be declared here and also * entered into the array. * * Note that the debug subtree is largely obsolescent in terms of * functionality now that we have dynamic sysctl, but the * infrastructure is retained for backwards compatibility. */ struct ctldebug { const char *debugname; /* name of debugging variable */ int *debugvar; /* pointer to debugging variable */ }; #ifdef DEBUG extern struct ctldebug debug0, debug1, debug2, debug3, debug4; extern struct ctldebug debug5, debug6, debug7, debug8, debug9; extern struct ctldebug debug10, debug11, debug12, debug13, debug14; extern struct ctldebug debug15, debug16, debug17, debug18, debug19; #endif /* DEBUG */ #define SYSCTLFN_PROTO const int *, u_int, void *, \ size_t *, const void *, size_t, \ const int *, struct lwp *, const struct sysctlnode * #define SYSCTLFN_ARGS const int *name, u_int namelen, \ void *oldp, size_t *oldlenp, \ const void *newp, size_t newlen, \ const int *oname, struct lwp *l, \ const struct sysctlnode *rnode #define SYSCTLFN_CALL(node) name, namelen, oldp, \ oldlenp, newp, newlen, \ oname, l, node #ifdef RUMP_USE_CTOR #include struct sysctl_setup_chain { void (*ssc_func)(struct sysctllog **); LIST_ENTRY(sysctl_setup_chain) ssc_entries; }; LIST_HEAD(sysctl_boot_chain, sysctl_setup_chain); #define _SYSCTL_REGISTER(name) \ static struct sysctl_setup_chain __CONCAT(ssc,name) = { \ .ssc_func = name, \ }; \ static void sysctlctor_##name(void) __attribute__((constructor)); \ static void sysctlctor_##name(void) \ { \ struct sysctl_setup_chain *ssc = &__CONCAT(ssc,name); \ extern struct sysctl_boot_chain sysctl_boot_chain; \ if (cold) { \ LIST_INSERT_HEAD(&sysctl_boot_chain, ssc, ssc_entries); \ } \ } \ static void sysctldtor_##name(void) __attribute__((destructor)); \ static void sysctldtor_##name(void) \ { \ struct sysctl_setup_chain *ssc = &__CONCAT(ssc,name); \ if (cold) { \ LIST_REMOVE(ssc, ssc_entries); \ } \ } #else /* RUMP_USE_CTOR */ #define _SYSCTL_REGISTER(name) __link_set_add_text(sysctl_funcs, name); #endif /* RUMP_USE_CTOR */ #ifdef _MODULE #define SYSCTL_SETUP_PROTO(name) \ void name(struct sysctllog **) #ifdef SYSCTL_DEBUG_SETUP #define SYSCTL_SETUP(name, desc) \ SYSCTL_SETUP_PROTO(name); \ static void __CONCAT(___,name)(struct sysctllog **); \ void name(struct sysctllog **clog) { \ printf("%s\n", desc); \ __CONCAT(___,name)(clog); } \ _SYSCTL_REGISTER(name); \ static void __CONCAT(___,name)(struct sysctllog **clog) #else /* !SYSCTL_DEBUG_SETUP */ #define SYSCTL_SETUP(name, desc) \ SYSCTL_SETUP_PROTO(name); \ _SYSCTL_REGISTER(name); \ void name(struct sysctllog **clog) #endif /* !SYSCTL_DEBUG_SETUP */ #else /* !_MODULE */ #define SYSCTL_SETUP_PROTO(name) #ifdef SYSCTL_DEBUG_SETUP #define SYSCTL_SETUP(name, desc) \ static void __CONCAT(___,name)(struct sysctllog **); \ static void name(struct sysctllog **clog) { \ printf("%s\n", desc); \ __CONCAT(___,name)(clog); } \ _SYSCTL_REGISTER(name); \ static void __CONCAT(___,name)(struct sysctllog **clog) #else /* !SYSCTL_DEBUG_SETUP */ #define SYSCTL_SETUP(name, desc) \ static void name(struct sysctllog **); \ _SYSCTL_REGISTER(name); \ static void name(struct sysctllog **clog) #endif /* !SYSCTL_DEBUG_SETUP */ #endif /* !_MODULE */ /* * Internal sysctl function calling convention: * * (*sysctlfn)(name, namelen, oldval, oldlenp, newval, newlen, * origname, lwp, node); * * The name parameter points at the next component of the name to be * interpreted. The namelen parameter is the number of integers in * the name. The origname parameter points to the start of the name * being parsed. The node parameter points to the node on which the * current operation is to be performed. */ typedef int (*sysctlfn)(SYSCTLFN_PROTO); /* * used in more than just sysctl */ void fill_eproc(struct proc *, struct eproc *, bool, bool); void fill_kproc2(struct proc *, struct kinfo_proc2 *, bool, bool); /* * subsystem setup */ void sysctl_init(void); void sysctl_basenode_init(void); void sysctl_finalize(void); /* * typical syscall call order */ void sysctl_lock(bool); int sysctl_dispatch(SYSCTLFN_PROTO); void sysctl_unlock(void); void sysctl_relock(void); /* * tree navigation primitives (must obtain lock before using these) */ int sysctl_locate(struct lwp *, const int *, u_int, const struct sysctlnode **, int *); int sysctl_query(SYSCTLFN_PROTO); int sysctl_create(SYSCTLFN_PROTO); int sysctl_destroy(SYSCTLFN_PROTO); int sysctl_lookup(SYSCTLFN_PROTO); int sysctl_describe(SYSCTLFN_PROTO); /* * simple variadic interface for adding/removing nodes */ int sysctl_createv(struct sysctllog **, int, const struct sysctlnode **, const struct sysctlnode **, int, int, const char *, const char *, sysctlfn, u_quad_t, void *, size_t, ...); int sysctl_destroyv(struct sysctlnode *, ...); #define VERIFY_FN(ctl_type, c_type) \ __always_inline static __inline void * \ __sysctl_verify_##ctl_type##_arg(c_type *arg) \ { \ return arg; \ } VERIFY_FN(CTLTYPE_NODE, struct sysctlnode); VERIFY_FN(CTLTYPE_INT, int); VERIFY_FN(CTLTYPE_STRING, char); VERIFY_FN(CTLTYPE_QUAD, int64_t); VERIFY_FN(CTLTYPE_STRUCT, void); VERIFY_FN(CTLTYPE_BOOL, bool); VERIFY_FN(CTLTYPE_LONG, long); #undef VERIFY_FN #define sysctl_createv(lg, cfl, rn, cn, fl, type, nm, desc, fn, qv, newp, ...) \ sysctl_createv(lg, cfl, rn, cn, fl, type, nm, desc, fn, qv, \ __sysctl_verify_##type##_arg(newp), __VA_ARGS__) /* * miscellany */ void sysctl_dump(const struct sysctlnode *); void sysctl_free(struct sysctlnode *); void sysctl_teardown(struct sysctllog **); void sysctl_log_print(const struct sysctllog *); #ifdef SYSCTL_INCLUDE_DESCR #define SYSCTL_DESCR(s) s #else /* SYSCTL_INCLUDE_DESCR */ #define SYSCTL_DESCR(s) NULL #endif /* SYSCTL_INCLUDE_DESCR */ /* * simple interface similar to old interface for in-kernel consumption */ int old_sysctl(int *, u_int, void *, size_t *, void *, size_t, struct lwp *); /* * these helpers are in other files (XXX so should the nodes be) or * are used by more than one node */ int sysctl_hw_tapenames(SYSCTLFN_PROTO); int sysctl_hw_tapestats(SYSCTLFN_PROTO); int sysctl_kern_vnode(SYSCTLFN_PROTO); int sysctl_net_inet_ip_ports(SYSCTLFN_PROTO); int sysctl_consdev(SYSCTLFN_PROTO); int sysctl_root_device(SYSCTLFN_PROTO); int sysctl_vfs_generic_fstypes(SYSCTLFN_PROTO); /* * primitive helper stubs */ int sysctl_needfunc(SYSCTLFN_PROTO); int sysctl_notavail(SYSCTLFN_PROTO); int sysctl_null(SYSCTLFN_PROTO); int sysctl_copyin(struct lwp *, const void *, void *, size_t); int sysctl_copyout(struct lwp *, const void *, void *, size_t); int sysctl_copyinstr(struct lwp *, const void *, void *, size_t, size_t *); u_int sysctl_map_flags(const u_int *, u_int); MALLOC_DECLARE(M_SYSCTLNODE); MALLOC_DECLARE(M_SYSCTLDATA); extern const u_int sysctl_lwpflagmap[]; #else /* !_KERNEL */ #include typedef void *sysctlfn; __BEGIN_DECLS int sysctl(const int *, u_int, void *, size_t *, const void *, size_t); int sysctlbyname(const char *, void *, size_t *, const void *, size_t); int sysctlgetmibinfo(const char *, int *, u_int *, char *, size_t *, struct sysctlnode **, int); int sysctlnametomib(const char *, int *, size_t *); int proc_compare(const struct kinfo_proc2 *, const struct kinfo_lwp *, const struct kinfo_proc2 *, const struct kinfo_lwp *); void *asysctl(const int *, size_t, size_t *); void *asysctlbyname(const char *, size_t *); int __learn_tree(int *, u_int, struct sysctlnode *); __END_DECLS #endif /* !_KERNEL */ #ifdef __COMPAT_SYSCTL /* * old node definitions go here */ #endif /* __COMPAT_SYSCTL */ /* * padding makes alignment magically "work" for 32/64 compatibility at * the expense of making things bigger on 32 bit platforms. */ #if defined(_LP64) || (BYTE_ORDER == LITTLE_ENDIAN) #define __sysc_pad(type) union { uint64_t __sysc_upad; \ struct { type __sysc_sdatum; } __sysc_ustr; } #else #define __sysc_pad(type) union { uint64_t __sysc_upad; \ struct { uint32_t __sysc_spad; type __sysc_sdatum; } __sysc_ustr; } #endif #define __sysc_unpad(x) x.__sysc_ustr.__sysc_sdatum /* * The following is for gcc2, which doesn't handle __sysc_unpad(). * The code gets a little less ugly this way. */ #define sysc_init_field(field, value) \ .field = { .__sysc_ustr = { .__sysc_sdatum = (value), }, } struct sysctlnode { uint32_t sysctl_flags; /* flags and type */ int32_t sysctl_num; /* mib number */ char sysctl_name[SYSCTL_NAMELEN]; /* node name */ uint32_t sysctl_ver; /* node's version vs. rest of tree */ uint32_t __rsvd; union { struct { uint32_t suc_csize; /* size of child node array */ uint32_t suc_clen; /* number of valid children */ __sysc_pad(struct sysctlnode*) _suc_child; /* array of child nodes */ } scu_child; struct { __sysc_pad(void*) _sud_data; /* pointer to external data */ __sysc_pad(size_t) _sud_offset; /* offset to data */ } scu_data; int32_t scu_alias; /* node this node refers to */ int32_t scu_idata; /* immediate "int" data */ u_quad_t scu_qdata; /* immediate "u_quad_t" data */ bool scu_bdata; /* immediate bool data */ } sysctl_un; __sysc_pad(size_t) _sysctl_size; /* size of instrumented data */ __sysc_pad(sysctlfn) _sysctl_func; /* access helper function */ __sysc_pad(struct sysctlnode*) _sysctl_parent; /* parent of this node */ __sysc_pad(const char *) _sysctl_desc; /* description of node */ }; /* * padded data */ #define suc_child __sysc_unpad(_suc_child) #define sud_data __sysc_unpad(_sud_data) #define sud_offset __sysc_unpad(_sud_offset) #define sysctl_size __sysc_unpad(_sysctl_size) #define sysctl_func __sysc_unpad(_sysctl_func) #define sysctl_parent __sysc_unpad(_sysctl_parent) #define sysctl_desc __sysc_unpad(_sysctl_desc) /* * nested data (may also be padded) */ #define sysctl_csize sysctl_un.scu_child.suc_csize #define sysctl_clen sysctl_un.scu_child.suc_clen #define sysctl_child sysctl_un.scu_child.suc_child #define sysctl_data sysctl_un.scu_data.sud_data #define sysctl_offset sysctl_un.scu_data.sud_offset #define sysctl_alias sysctl_un.scu_alias #define sysctl_idata sysctl_un.scu_idata #define sysctl_qdata sysctl_un.scu_qdata #define sysctl_bdata sysctl_un.scu_bdata /* * when requesting a description of a node (a set of nodes, actually), * you get back an "array" of these, where the actual length of the * descr_str is noted in descr_len (which includes the trailing nul * byte), rounded up to the nearest four (sizeof(int32_t) actually). * * NEXT_DESCR() will take a pointer to a description and advance it to * the next description. */ struct sysctldesc { int32_t descr_num; /* mib number of node */ uint32_t descr_ver; /* version of node */ uint32_t descr_len; /* length of description string */ char descr_str[1]; /* not really 1...see above */ }; #define __sysc_desc_roundup(x) ((((x) - 1) | (sizeof(int32_t) - 1)) + 1) #define __sysc_desc_len(l) (offsetof(struct sysctldesc, descr_str) +\ __sysc_desc_roundup(l)) #define __sysc_desc_adv(d, l) \ (/*XXXUNCONST ptr cast*/(struct sysctldesc *) \ __UNCONST(((const char*)(d)) + __sysc_desc_len(l))) #define NEXT_DESCR(d) __sysc_desc_adv((d), (d)->descr_len) static __inline const struct sysctlnode * sysctl_rootof(const struct sysctlnode *n) { while (n->sysctl_parent != NULL) n = n->sysctl_parent; return (n); } #endif /* !_SYS_SYSCTL_H_ */