/* * Copyright (c) 2000-2006 Apple Computer, Inc. All rights reserved. * * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in * compliance with the License. The rights granted to you under the License * may not be used to create, or enable the creation or redistribution of, * unlawful or unlicensed copies of an Apple operating system, or to * circumvent, violate, or enable the circumvention or violation of, any * terms of an Apple operating system software license agreement. * * Please obtain a copy of the License at * http://www.opensource.apple.com/apsl/ and read it before using this file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. * * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ */ /* Copyright (c) 1995 NeXT Computer, Inc. All Rights Reserved */ /* * 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. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. 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 */ /* * NOTICE: This file was modified by SPARTA, Inc. in 2005 to introduce * support for mandatory and extensible security protections. This notice * is included in support of clause 2.2 (b) of the Apple Public License, * Version 2.0. */ #ifndef _SYS_SYSCTL_H_ #define _SYS_SYSCTL_H_ /* * These are for the eproc structure defined below. */ #include #include #ifndef KERNEL #include #include #else #include #endif #include #include #ifdef XNU_KERNEL_PRIVATE #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. */ #define CTL_MAXNAME 12 /* largest number of components supported */ /* * 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. * * When declaring new sysctl names, unless your sysctl is callable * from the paging path, please use the CTLFLAG_LOCKED flag in the * type to indicate that all necessary locking will be handled * within the sysctl. * * Any sysctl defined without CTLFLAG_LOCKED is considered legacy * and will be protected by both wiring the user process pages and, * if it is a 32 bit legacy KEXT, by the obsolete kernel funnel. * * Note: This is not optimal, so it is best to handle locking * yourself, if you are able to do so. A simple design * pattern for use to avoid in a single function known * to potentially be in the paging path ot doing a DMA * to physical memory in a user space process is: * * lock * perform operation vs. local buffer * unlock * SYSCTL_OUT(rey, local buffer, length) * * ...this assumes you are not using a deep call graph * or are unable to pass a local buffer address as a * parameter into your deep call graph. * * Note that very large user buffers can fail the wire * if to do so would require more physical pages than * are available (the caller will get an ENOMEM error, * see sysctl_mem_hold() for details). */ struct ctlname { char *ctl_name; /* subsystem name */ int ctl_type; /* type of name */ }; #define CTLTYPE 0xf /* Mask for the type */ #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_OPAQUE 5 /* name describes a structure */ #define CTLTYPE_STRUCT CTLTYPE_OPAQUE /* name describes a structure */ #define CTLFLAG_RD 0x80000000 /* Allow reads of variable */ #define CTLFLAG_WR 0x40000000 /* Allow writes to the variable */ #define CTLFLAG_RW (CTLFLAG_RD|CTLFLAG_WR) #define CTLFLAG_NOLOCK 0x20000000 /* XXX Don't Lock */ #define CTLFLAG_ANYBODY 0x10000000 /* All users can set this var */ #define CTLFLAG_SECURE 0x08000000 /* Permit set only if securelevel<=0 */ #define CTLFLAG_MASKED 0x04000000 /* deprecated variable, do not display */ #define CTLFLAG_NOAUTO 0x02000000 /* do not auto-register */ #define CTLFLAG_KERN 0x01000000 /* valid inside the kernel */ #define CTLFLAG_LOCKED 0x00800000 /* node will handle locking itself */ #define CTLFLAG_OID2 0x00400000 /* struct sysctl_oid has version info */ /* * USE THIS instead of a hardwired number from the categories below * to get dynamically assigned sysctl entries using the linker-set * technology. This is the way nearly all new sysctl variables should * be implemented. * * e.g. SYSCTL_INT(_parent, OID_AUTO, name, CTLFLAG_RW, &variable, 0, ""); * * Note that linker set technology will automatically register all nodes * declared like this on kernel initialization, UNLESS they are defined * in I/O-Kit. In this case, you have to call sysctl_register_oid() * manually - just like in a KEXT. */ #define OID_AUTO (-1) #define OID_AUTO_START 100 /* conventional */ #ifdef KERNEL #define SYSCTL_HANDLER_ARGS (struct sysctl_oid *oidp, void *arg1, int arg2, \ struct sysctl_req *req) /* * This describes the access space for a sysctl request. This is needed * so that we can use the interface from the kernel or from user-space. */ struct sysctl_req { struct proc *p; int lock; user_addr_t oldptr; /* pointer to user supplied buffer */ size_t oldlen; /* user buffer length (also returned) */ size_t oldidx; /* total data iteratively copied out */ int (*oldfunc)(struct sysctl_req *, const void *, size_t); user_addr_t newptr; /* buffer containing new value */ size_t newlen; /* length of new value */ size_t newidx; /* total data iteratively copied in */ int (*newfunc)(struct sysctl_req *, void *, size_t); }; SLIST_HEAD(sysctl_oid_list, sysctl_oid); #define SYSCTL_OID_VERSION 1 /* current OID structure version */ /* * This describes one "oid" in the MIB tree. Potentially more nodes can * be hidden behind it, expanded by the handler. * * NOTES: We implement binary comparibility between CTLFLAG_OID2 and * pre-CTLFLAG_OID2 structure in sysctl_register_oid() and in * sysctl_unregister_oid() using the fact that the fields up * to oid_fmt are unchanged, and that the field immediately * following is on an alignment boundary following a pointer * type and is also a pointer. This lets us get the previous * size of the structure, and the copy-cut-off point, using * the offsetof() language primitive, and these values are * used in conjunction with the fact that earlier and future * statically compiled sysctl_oid structures are declared via * macros. This lets us overload the macros so that the addition * of the CTLFLAG_OID2 in newly compiled code containing sysctl * node declarations, subsequently allowing us to to avoid * changing the KPI used for non-static (un)registration in * KEXTs. * * This depends on the fact that people declare SYSCTLs, * rather than declaring sysctl_oid structures. All new code * should avoid declaring struct sysctl_oid's directly without * the macros; the current risk for this is limited to losing * your description field and ending up with a malloc'ed copy, * as if it were a legacy binary static declaration via SYSCTL; * in the future, we may deprecate access to a named structure * type in third party code. Use the macros, or our code will * end up with compile errors when that happens. * * Please try to include a long description of the field in any * new sysctl declarations (all the macros support this). This * field may be the only human readable documentation your users * get for your sysctl. */ struct sysctl_oid { struct sysctl_oid_list *oid_parent; SLIST_ENTRY(sysctl_oid) oid_link; int oid_number; int oid_kind; void *oid_arg1; int oid_arg2; const char *oid_name; int (*oid_handler) SYSCTL_HANDLER_ARGS; const char *oid_fmt; const char *oid_descr; /* offsetof() field / long description */ int oid_version; int oid_refcnt; }; #define SYSCTL_IN(r, p, l) (r->newfunc)(r, p, l) #define SYSCTL_OUT(r, p, l) (r->oldfunc)(r, p, l) typedef int (* sysctl_handler_t) SYSCTL_HANDLER_ARGS; __BEGIN_DECLS /* old interface */ int sysctl_handle_int SYSCTL_HANDLER_ARGS; int sysctl_handle_long SYSCTL_HANDLER_ARGS; int sysctl_handle_quad SYSCTL_HANDLER_ARGS; int sysctl_handle_int2quad SYSCTL_HANDLER_ARGS; int sysctl_handle_string SYSCTL_HANDLER_ARGS; int sysctl_handle_opaque SYSCTL_HANDLER_ARGS; /* new interface */ int sysctl_io_number(struct sysctl_req *req, long long bigValue, size_t valueSize, void *pValue, int *changed); int sysctl_io_string(struct sysctl_req *req, char *pValue, size_t valueSize, int trunc, int *changed); int sysctl_io_opaque(struct sysctl_req *req, void *pValue, size_t valueSize, int *changed); /* * These functions are used to add/remove an oid from the mib. */ void sysctl_register_oid(struct sysctl_oid *oidp); void sysctl_unregister_oid(struct sysctl_oid *oidp); /* Not exported */ void sysctl_register_fixed(void); __END_DECLS /* Declare an oid to allow child oids to be added to it. */ #define SYSCTL_DECL(name) \ extern struct sysctl_oid_list sysctl_##name##_children #ifdef XNU_KERNEL_PRIVATE #define SYSCTL_LINKER_SET_ENTRY LINKER_SET_ENTRY #else #define SYSCTL_LINKER_SET_ENTRY(a, b) #endif /* This constructs a "raw" MIB oid. */ #define SYSCTL_OID(parent, nbr, name, kind, a1, a2, handler, fmt, descr) \ struct sysctl_oid sysctl_##parent##_##name = { \ &sysctl_##parent##_children, { 0 }, \ nbr, (int)(kind|CTLFLAG_OID2), a1, (int)(a2), #name, handler, fmt, descr, SYSCTL_OID_VERSION, 0 }; \ SYSCTL_LINKER_SET_ENTRY(__sysctl_set, sysctl_##parent##_##name) /* This constructs a node from which other oids can hang. */ #define SYSCTL_NODE(parent, nbr, name, access, handler, descr) \ struct sysctl_oid_list sysctl_##parent##_##name##_children; \ SYSCTL_OID(parent, nbr, name, CTLTYPE_NODE|access, \ (void*)&sysctl_##parent##_##name##_children, 0, handler, \ "N", descr); /* Oid for a string. len can be 0 to indicate '\0' termination. */ #define SYSCTL_STRING(parent, nbr, name, access, arg, len, descr) \ SYSCTL_OID(parent, nbr, name, CTLTYPE_STRING|access, \ arg, len, sysctl_handle_string, "A", descr) #define SYSCTL_COMPAT_INT(parent, nbr, name, access, ptr, val, descr) \ SYSCTL_OID(parent, nbr, name, CTLTYPE_INT|access, \ ptr, val, sysctl_handle_int, "I", descr) #define SYSCTL_COMPAT_UINT(parent, nbr, name, access, ptr, val, descr) \ SYSCTL_OID(parent, nbr, name, CTLTYPE_INT|access, \ ptr, val, sysctl_handle_int, "IU", descr) /* Oid for an int. If ptr is NULL, val is returned. */ #define SYSCTL_INT(parent, nbr, name, access, ptr, val, descr) \ SYSCTL_OID(parent, nbr, name, CTLTYPE_INT|access, \ ptr, val, sysctl_handle_int, "I", descr); \ typedef char _sysctl_##parent##_##name##_size_check[(__builtin_constant_p(ptr) || sizeof(*(ptr)) == sizeof(int)) ? 0 : -1]; /* Oid for an unsigned int. If ptr is NULL, val is returned. */ #define SYSCTL_UINT(parent, nbr, name, access, ptr, val, descr) \ SYSCTL_OID(parent, nbr, name, CTLTYPE_INT|access, \ ptr, val, sysctl_handle_int, "IU", descr); \ typedef char _sysctl_##parent##_##name##_size_check[(__builtin_constant_p(ptr) || sizeof(*(ptr)) == sizeof(unsigned int)) ? 0 : -1]; /* Oid for a long. The pointer must be non NULL. */ #define SYSCTL_LONG(parent, nbr, name, access, ptr, descr) \ SYSCTL_OID(parent, nbr, name, CTLTYPE_INT|access, \ ptr, 0, sysctl_handle_long, "L", descr); \ typedef char _sysctl_##parent##_##name##_size_check[(__builtin_constant_p(ptr) || sizeof(*(ptr)) == sizeof(long)) ? 0 : -1]; /* Oid for a quad. The pointer must be non NULL. */ #define SYSCTL_QUAD(parent, nbr, name, access, ptr, descr) \ SYSCTL_OID(parent, nbr, name, CTLTYPE_QUAD|access, \ ptr, 0, sysctl_handle_quad, "Q", descr); \ typedef char _sysctl_##parent##_##name##_size_check[(__builtin_constant_p(ptr) || sizeof(*(ptr)) == sizeof(long long)) ? 0 : -1]; /* Oid for an opaque object. Specified by a pointer and a length. */ #define SYSCTL_OPAQUE(parent, nbr, name, access, ptr, len, fmt, descr) \ SYSCTL_OID(parent, nbr, name, CTLTYPE_OPAQUE|access, \ ptr, len, sysctl_handle_opaque, fmt, descr) /* Oid for a struct. Specified by a pointer and a type. */ #define SYSCTL_STRUCT(parent, nbr, name, access, ptr, type, descr) \ SYSCTL_OID(parent, nbr, name, CTLTYPE_OPAQUE|access, \ ptr, sizeof(struct type), sysctl_handle_opaque, \ "S," #type, descr) /* Oid for a procedure. Specified by a pointer and an arg. */ #define SYSCTL_PROC(parent, nbr, name, access, ptr, arg, handler, fmt, descr) \ SYSCTL_OID(parent, nbr, name, access, \ ptr, arg, handler, fmt, descr) extern struct sysctl_oid_list sysctl__children; SYSCTL_DECL(_kern); SYSCTL_DECL(_sysctl); SYSCTL_DECL(_vm); SYSCTL_DECL(_vfs); SYSCTL_DECL(_net); SYSCTL_DECL(_debug); SYSCTL_DECL(_hw); SYSCTL_DECL(_machdep); SYSCTL_DECL(_user); #endif /* KERNEL */ #ifdef XNU_KERNEL_PRIVATE #define SYSCTL_DEF_ENABLED #else #ifndef KERNEL #define SYSCTL_DEF_ENABLED #endif #endif #ifdef SYSCTL_DEF_ENABLED /* * 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_MAXID 9 /* number of valid top-level ids */ #define CTL_NAMES { \ { 0, 0 }, \ { "kern", CTLTYPE_NODE }, \ { "vm", CTLTYPE_NODE }, \ { "vfs", CTLTYPE_NODE }, \ { "net", CTLTYPE_NODE }, \ { "debug", CTLTYPE_NODE }, \ { "hw", CTLTYPE_NODE }, \ { "machdep", CTLTYPE_NODE }, \ { "user", CTLTYPE_NODE }, \ } /* * 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 clockrate */ #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_BOOTTIME 21 /* struct: time kernel was booted */ #define KERN_NISDOMAINNAME 22 /* string: YP domain name */ #define KERN_DOMAINNAME KERN_NISDOMAINNAME #define KERN_MAXPARTITIONS 23 /* int: number of partitions/disk */ #define KERN_KDEBUG 24 /* int: kernel trace points */ #define KERN_UPDATEINTERVAL 25 /* int: update process sleep time */ #define KERN_OSRELDATE 26 /* int: OS release date */ #define KERN_NTP_PLL 27 /* node: NTP PLL control */ #define KERN_BOOTFILE 28 /* string: name of booted kernel */ #define KERN_MAXFILESPERPROC 29 /* int: max open files per proc */ #define KERN_MAXPROCPERUID 30 /* int: max processes per uid */ #define KERN_DUMPDEV 31 /* dev_t: device to dump on */ #define KERN_IPC 32 /* node: anything related to IPC */ #define KERN_DUMMY 33 /* unused */ #define KERN_PS_STRINGS 34 /* int: address of PS_STRINGS */ #define KERN_USRSTACK32 35 /* int: address of USRSTACK */ #define KERN_LOGSIGEXIT 36 /* int: do we log sigexit procs? */ #define KERN_SYMFILE 37 /* string: kernel symbol filename */ #define KERN_PROCARGS 38 /* 39 was KERN_PCSAMPLES... now deprecated */ #define KERN_NETBOOT 40 /* int: are we netbooted? 1=yes,0=no */ /* 41 was KERN_PANICINFO : panic UI information (deprecated) */ #define KERN_SYSV 42 /* node: System V IPC information */ #define KERN_AFFINITY 43 /* xxx */ #define KERN_TRANSLATE 44 /* xxx */ #define KERN_CLASSIC KERN_TRANSLATE /* XXX backwards compat */ #define KERN_EXEC 45 /* xxx */ #define KERN_CLASSICHANDLER KERN_EXEC /* XXX backwards compatibility */ #define KERN_AIOMAX 46 /* int: max aio requests */ #define KERN_AIOPROCMAX 47 /* int: max aio requests per process */ #define KERN_AIOTHREADS 48 /* int: max aio worker threads */ #ifdef __APPLE_API_UNSTABLE #define KERN_PROCARGS2 49 #endif /* __APPLE_API_UNSTABLE */ #define KERN_COREFILE 50 /* string: corefile format string */ #define KERN_COREDUMP 51 /* int: whether to coredump at all */ #define KERN_SUGID_COREDUMP 52 /* int: whether to dump SUGID cores */ #define KERN_PROCDELAYTERM 53 /* int: set/reset current proc for delayed termination during shutdown */ #define KERN_SHREG_PRIVATIZABLE 54 /* int: can shared regions be privatized ? */ /* 55 was KERN_PROC_LOW_PRI_IO... now deprecated */ #define KERN_LOW_PRI_WINDOW 56 /* int: set/reset throttle window - milliseconds */ #define KERN_LOW_PRI_DELAY 57 /* int: set/reset throttle delay - milliseconds */ #define KERN_POSIX 58 /* node: posix tunables */ #define KERN_USRSTACK64 59 /* LP64 user stack query */ #define KERN_NX_PROTECTION 60 /* int: whether no-execute protection is enabled */ #define KERN_TFP 61 /* Task for pid settings */ #define KERN_PROCNAME 62 /* setup process program name(2*MAXCOMLEN) */ #define KERN_THALTSTACK 63 /* for compat with older x86 and does nothing */ #define KERN_SPECULATIVE_READS 64 /* int: whether speculative reads are disabled */ #define KERN_OSVERSION 65 /* for build number i.e. 9A127 */ #define KERN_SAFEBOOT 66 /* are we booted safe? */ #define KERN_LCTX 67 /* node: login context */ #define KERN_RAGEVNODE 68 #define KERN_TTY 69 /* node: tty settings */ #define KERN_CHECKOPENEVT 70 /* spi: check the VOPENEVT flag on vnodes at open time */ #define KERN_THREADNAME 71 /* set/get thread name */ #define KERN_MAXID 72 /* number of valid kern ids */ /* * Don't add any more sysctls like this. Instead, use the SYSCTL_*() macros * and OID_AUTO. This will have the added benefit of not having to recompile * sysctl(8) to pick up your changes. */ #if COUNT_SYSCALLS && defined(KERNEL) #define KERN_COUNT_SYSCALLS (KERN_OSTYPE + 1000) /* keep called count for each bsd syscall */ #endif #if defined(__LP64__) #define KERN_USRSTACK KERN_USRSTACK64 #else #define KERN_USRSTACK KERN_USRSTACK32 #endif /* KERN_RAGEVNODE types */ #define KERN_RAGE_PROC 1 #define KERN_RAGE_THREAD 2 #define KERN_UNRAGE_PROC 3 #define KERN_UNRAGE_THREAD 4 /* KERN_OPENEVT types */ #define KERN_OPENEVT_PROC 1 #define KERN_UNOPENEVT_PROC 2 /* KERN_TFP types */ #define KERN_TFP_POLICY 1 /* KERN_TFP_POLICY values . All policies allow task port for self */ #define KERN_TFP_POLICY_DENY 0 /* Deny Mode: None allowed except privileged */ #define KERN_TFP_POLICY_DEFAULT 2 /* Default Mode: related ones allowed and upcall authentication */ /* KERN_KDEBUG types */ #define KERN_KDEFLAGS 1 #define KERN_KDDFLAGS 2 #define KERN_KDENABLE 3 #define KERN_KDSETBUF 4 #define KERN_KDGETBUF 5 #define KERN_KDSETUP 6 #define KERN_KDREMOVE 7 #define KERN_KDSETREG 8 #define KERN_KDGETREG 9 #define KERN_KDREADTR 10 #define KERN_KDPIDTR 11 #define KERN_KDTHRMAP 12 /* Don't use 13 as it is overloaded with KERN_VNODE */ #define KERN_KDPIDEX 14 #define KERN_KDSETRTCDEC 15 #define KERN_KDGETENTROPY 16 #define KERN_KDWRITETR 17 #define KERN_KDWRITEMAP 18 #define KERN_KDENABLE_BG_TRACE 19 #define KERN_KDDISABLE_BG_TRACE 20 #define KERN_KDREADCURTHRMAP 21 #define KERN_KDSET_TYPEFILTER 22 #define KERN_KDBUFWAIT 23 #define KERN_KDCPUMAP 24 #define CTL_KERN_NAMES { \ { 0, 0 }, \ { "ostype", CTLTYPE_STRING }, \ { "osrelease", CTLTYPE_STRING }, \ { "osrevision", CTLTYPE_INT }, \ { "version", CTLTYPE_STRING }, \ { "maxvnodes", CTLTYPE_INT }, \ { "maxproc", CTLTYPE_INT }, \ { "maxfiles", CTLTYPE_INT }, \ { "argmax", CTLTYPE_INT }, \ { "securelevel", CTLTYPE_INT }, \ { "hostname", CTLTYPE_STRING }, \ { "hostid", CTLTYPE_INT }, \ { "clockrate", CTLTYPE_STRUCT }, \ { "vnode", CTLTYPE_STRUCT }, \ { "proc", CTLTYPE_STRUCT }, \ { "file", CTLTYPE_STRUCT }, \ { "profiling", CTLTYPE_NODE }, \ { "posix1version", CTLTYPE_INT }, \ { "ngroups", CTLTYPE_INT }, \ { "job_control", CTLTYPE_INT }, \ { "saved_ids", CTLTYPE_INT }, \ { "boottime", CTLTYPE_STRUCT }, \ { "nisdomainname", CTLTYPE_STRING }, \ { "maxpartitions", CTLTYPE_INT }, \ { "kdebug", CTLTYPE_INT }, \ { "update", CTLTYPE_INT }, \ { "osreldate", CTLTYPE_INT }, \ { "ntp_pll", CTLTYPE_NODE }, \ { "bootfile", CTLTYPE_STRING }, \ { "maxfilesperproc", CTLTYPE_INT }, \ { "maxprocperuid", CTLTYPE_INT }, \ { "dumpdev", CTLTYPE_STRUCT }, /* we lie; don't print as int */ \ { "ipc", CTLTYPE_NODE }, \ { "dummy", CTLTYPE_INT }, \ { "dummy", CTLTYPE_INT }, \ { "usrstack", CTLTYPE_INT }, \ { "logsigexit", CTLTYPE_INT }, \ { "symfile",CTLTYPE_STRING },\ { "procargs",CTLTYPE_STRUCT },\ { "dummy", CTLTYPE_INT }, /* deprecated pcsamples */ \ { "netboot", CTLTYPE_INT }, \ { "dummy", CTLTYPE_INT }, /* deprecated: panicinfo */ \ { "sysv", CTLTYPE_NODE }, \ { "dummy", CTLTYPE_INT }, \ { "dummy", CTLTYPE_INT }, \ { "exec", CTLTYPE_NODE }, \ { "aiomax", CTLTYPE_INT }, \ { "aioprocmax", CTLTYPE_INT }, \ { "aiothreads", CTLTYPE_INT }, \ { "procargs2",CTLTYPE_STRUCT }, \ { "corefile",CTLTYPE_STRING }, \ { "coredump", CTLTYPE_INT }, \ { "sugid_coredump", CTLTYPE_INT }, \ { "delayterm", CTLTYPE_INT }, \ { "shreg_private", CTLTYPE_INT }, \ { "proc_low_pri_io", CTLTYPE_INT }, \ { "low_pri_window", CTLTYPE_INT }, \ { "low_pri_delay", CTLTYPE_INT }, \ { "posix", CTLTYPE_NODE }, \ { "usrstack64", CTLTYPE_QUAD }, \ { "nx", CTLTYPE_INT }, \ { "tfp", CTLTYPE_NODE }, \ { "procname", CTLTYPE_STRING }, \ { "threadsigaltstack", CTLTYPE_INT }, \ { "speculative_reads_disabled", CTLTYPE_INT }, \ { "osversion", CTLTYPE_STRING }, \ { "safeboot", CTLTYPE_INT }, \ { "lctx", CTLTYPE_NODE }, \ { "rage_vnode", CTLTYPE_INT }, \ { "tty", CTLTYPE_NODE }, \ { "check_openevt", CTLTYPE_INT }, \ { "thread_name", CTLTYPE_STRING } \ } /* * CTL_VFS identifiers */ #define CTL_VFS_NAMES { \ { "vfsconf", CTLTYPE_STRUCT } \ } /* * 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_LCID 7 /* by login context id */ /* * KERN_LCTX subtypes */ #define KERN_LCTX_ALL 0 /* everything */ #define KERN_LCTX_LCID 1 /* by login context id */ #if defined(XNU_KERNEL_PRIVATE) || !defined(KERNEL) /* * KERN_PROC subtype ops return arrays of augmented proc structures: */ struct _pcred { char pc_lock[72]; /* opaque content */ struct ucred *pc_ucred; /* Current credentials. */ 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 _ucred { int32_t cr_ref; /* reference count */ uid_t cr_uid; /* effective user id */ short cr_ngroups; /* number of groups */ gid_t cr_groups[NGROUPS]; /* groups */ }; struct kinfo_proc { struct extern_proc kp_proc; /* proc structure */ struct eproc { struct proc *e_paddr; /* address of proc */ struct session *e_sess; /* session pointer */ struct _pcred e_pcred; /* process credentials */ struct _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 */ dev_t e_tdev; /* controlling tty dev */ pid_t e_tpgid; /* tty process group id */ struct session *e_tsess; /* tty session pointer */ #define WMESGLEN 7 char e_wmesg[WMESGLEN+1]; /* wchan message */ segsz_t e_xsize; /* text size */ short e_xrssize; /* text rss */ short e_xccount; /* text references */ short e_xswrss; int32_t e_flag; #define EPROC_CTTY 0x01 /* controlling tty vnode active */ #define EPROC_SLEADER 0x02 /* session leader */ #define COMAPT_MAXLOGNAME 12 char e_login[COMAPT_MAXLOGNAME]; /* short setlogin() name */ #if CONFIG_LCTX pid_t e_lcid; int32_t e_spare[3]; #else int32_t e_spare[4]; #endif } kp_eproc; }; struct kinfo_lctx { pid_t id; /* Login Context ID */ int mc; /* Member Count */ }; #endif /* defined(XNU_KERNEL_PRIVATE) || !defined(KERNEL) */ #ifdef BSD_KERNEL_PRIVATE #include /* LP64 version of _pcred. all pointers * grow when we're dealing with a 64-bit process. * WARNING - keep in sync with _pcred */ struct user32_pcred { char pc_lock[72]; /* opaque content */ user32_addr_t pc_ucred; /* Current credentials. */ 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 user64_pcred { char pc_lock[72]; /* opaque content */ user64_addr_t pc_ucred; /* Current credentials. */ 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. */ }; /* LP64 version of kinfo_proc. all pointers * grow when we're dealing with a 64-bit process. * WARNING - keep in sync with kinfo_proc */ struct user32_kinfo_proc { struct user32_extern_proc kp_proc; /* proc structure */ struct user32_eproc { user32_addr_t e_paddr; /* address of proc */ user32_addr_t e_sess; /* session pointer */ struct user32_pcred e_pcred; /* process credentials */ struct _ucred e_ucred; /* current credentials */ struct user32_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 */ dev_t e_tdev; /* controlling tty dev */ pid_t e_tpgid; /* tty process group id */ user32_addr_t e_tsess; /* tty session pointer */ char e_wmesg[WMESGLEN+1]; /* wchan message */ segsz_t e_xsize; /* text size */ short e_xrssize; /* text rss */ short e_xccount; /* text references */ short e_xswrss; int32_t e_flag; char e_login[COMAPT_MAXLOGNAME]; /* short setlogin() name */ #if CONFIG_LCTX pid_t e_lcid; int32_t e_spare[3]; #else int32_t e_spare[4]; #endif } kp_eproc; }; struct user64_kinfo_proc { struct user64_extern_proc kp_proc; /* proc structure */ struct user64_eproc { user_addr_t e_paddr; /* address of proc */ user_addr_t e_sess; /* session pointer */ struct user64_pcred e_pcred; /* process credentials */ struct _ucred e_ucred; /* current credentials */ struct user_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 */ dev_t e_tdev; /* controlling tty dev */ pid_t e_tpgid; /* tty process group id */ user64_addr_t e_tsess __attribute((aligned(8))); /* tty session pointer */ char e_wmesg[WMESGLEN+1]; /* wchan message */ segsz_t e_xsize; /* text size */ short e_xrssize; /* text rss */ short e_xccount; /* text references */ short e_xswrss; int32_t e_flag; char e_login[COMAPT_MAXLOGNAME]; /* short setlogin() name */ #if CONFIG_LCTX pid_t e_lcid; int32_t e_spare[3]; #else int32_t e_spare[4]; #endif } kp_eproc; }; #endif /* BSD_KERNEL_PRIVATE */ /* * KERN_IPC identifiers */ #define KIPC_MAXSOCKBUF 1 /* int: max size of a socket buffer */ #define KIPC_SOCKBUF_WASTE 2 /* int: wastage factor in sockbuf */ #define KIPC_SOMAXCONN 3 /* int: max length of connection q */ #define KIPC_MAX_LINKHDR 4 /* int: max length of link header */ #define KIPC_MAX_PROTOHDR 5 /* int: max length of network header */ #define KIPC_MAX_HDR 6 /* int: max total length of headers */ #define KIPC_MAX_DATALEN 7 /* int: max length of data? */ #define KIPC_MBSTAT 8 /* struct: mbuf usage statistics */ #define KIPC_NMBCLUSTERS 9 /* int: maximum mbuf clusters */ #define KIPC_SOQLIMITCOMPAT 10 /* int: socket queue limit */ /* * CTL_VM identifiers */ #define VM_METER 1 /* struct vmmeter */ #define VM_LOADAVG 2 /* struct loadavg */ /* * Note: "3" was skipped sometime ago and should probably remain unused * to avoid any new entry from being accepted by older kernels... */ #define VM_MACHFACTOR 4 /* struct loadavg with mach factor*/ #define VM_SWAPUSAGE 5 /* total swap usage */ #define VM_MAXID 6 /* number of valid vm ids */ #define CTL_VM_NAMES { \ { 0, 0 }, \ { "vmmeter", CTLTYPE_STRUCT }, \ { "loadavg", CTLTYPE_STRUCT }, \ { 0, 0 }, /* placeholder for "3" (see comment above) */ \ { "dummy", CTLTYPE_INT }, \ { "swapusage", CTLTYPE_STRUCT } \ } struct xsw_usage { u_int64_t xsu_total; u_int64_t xsu_avail; u_int64_t xsu_used; u_int32_t xsu_pagesize; boolean_t xsu_encrypted; }; #ifdef __APPLE_API_PRIVATE /* Load average structure. Use of fixpt_t assume in scope. */ /* XXX perhaps we should protect fixpt_t, and define it here (or discard it) */ struct loadavg { fixpt_t ldavg[3]; long fscale; }; extern struct loadavg averunnable; #define LSCALE 1000 /* scaling for "fixed point" arithmetic */ #ifdef BSD_KERNEL_PRIVATE struct user32_loadavg { fixpt_t ldavg[3]; user32_long_t fscale; }; struct user64_loadavg { fixpt_t ldavg[3]; user64_long_t fscale; }; #endif /* BSD_KERNEL_PRIVATE */ #endif /* __APPLE_API_PRIVATE */ /* * 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 */ #define HW_USERMEM 6 /* int: non-kernel memory */ #define HW_PAGESIZE 7 /* int: software page size */ #define HW_DISKNAMES 8 /* strings: disk drive names */ #define HW_DISKSTATS 9 /* struct: diskstats[] */ #define HW_EPOCH 10 /* int: 0 for Legacy, else NewWorld */ #define HW_FLOATINGPT 11 /* int: has HW floating point? */ #define HW_MACHINE_ARCH 12 /* string: machine architecture */ #define HW_VECTORUNIT 13 /* int: has HW vector unit? */ #define HW_BUS_FREQ 14 /* int: Bus Frequency */ #define HW_CPU_FREQ 15 /* int: CPU Frequency */ #define HW_CACHELINE 16 /* int: Cache Line Size in Bytes */ #define HW_L1ICACHESIZE 17 /* int: L1 I Cache Size in Bytes */ #define HW_L1DCACHESIZE 18 /* int: L1 D Cache Size in Bytes */ #define HW_L2SETTINGS 19 /* int: L2 Cache Settings */ #define HW_L2CACHESIZE 20 /* int: L2 Cache Size in Bytes */ #define HW_L3SETTINGS 21 /* int: L3 Cache Settings */ #define HW_L3CACHESIZE 22 /* int: L3 Cache Size in Bytes */ #define HW_TB_FREQ 23 /* int: Bus Frequency */ #define HW_MEMSIZE 24 /* uint64_t: physical ram size */ #define HW_AVAILCPU 25 /* int: number of available CPUs */ #define HW_MAXID 26 /* number of valid hw ids */ #define CTL_HW_NAMES { \ { 0, 0 }, \ { "machine", CTLTYPE_STRING }, \ { "model", CTLTYPE_STRING }, \ { "ncpu", CTLTYPE_INT }, \ { "byteorder", CTLTYPE_INT }, \ { "physmem", CTLTYPE_INT }, \ { "usermem", CTLTYPE_INT }, \ { "pagesize", CTLTYPE_INT }, \ { "disknames", CTLTYPE_STRUCT }, \ { "diskstats", CTLTYPE_STRUCT }, \ { "epoch", CTLTYPE_INT }, \ { "floatingpoint", CTLTYPE_INT }, \ { "machinearch", CTLTYPE_STRING }, \ { "vectorunit", CTLTYPE_INT }, \ { "busfrequency", CTLTYPE_INT }, \ { "cpufrequency", CTLTYPE_INT }, \ { "cachelinesize", CTLTYPE_INT }, \ { "l1icachesize", CTLTYPE_INT }, \ { "l1dcachesize", CTLTYPE_INT }, \ { "l2settings", CTLTYPE_INT }, \ { "l2cachesize", CTLTYPE_INT }, \ { "l3settings", CTLTYPE_INT }, \ { "l3cachesize", CTLTYPE_INT }, \ { "tbfrequency", CTLTYPE_INT }, \ { "memsize", CTLTYPE_QUAD }, \ { "availcpu", CTLTYPE_INT } \ } /* * XXX This information should be moved to the man page. * * These are the support HW selectors for sysctlbyname. Parameters that are byte counts or frequencies are 64 bit numbers. * All other parameters are 32 bit numbers. * * hw.memsize - The number of bytes of physical memory in the system. * * hw.ncpu - The maximum number of processors that could be available this boot. * Use this value for sizing of static per processor arrays; i.e. processor load statistics. * * hw.activecpu - The number of processors currently available for executing threads. * Use this number to determine the number threads to create in SMP aware applications. * This number can change when power management modes are changed. * * hw.physicalcpu - The number of physical processors available in the current power management mode. * hw.physicalcpu_max - The maximum number of physical processors that could be available this boot * * hw.logicalcpu - The number of logical processors available in the current power management mode. * hw.logicalcpu_max - The maximum number of logical processors that could be available this boot * * hw.tbfrequency - This gives the time base frequency used by the OS and is the basis of all timing services. * In general is is better to use mach's or higher level timing services, but this value * is needed to convert the PPC Time Base registers to real time. * * hw.cpufrequency - These values provide the current, min and max cpu frequency. The min and max are for * hw.cpufrequency_max - all power management modes. The current frequency is the max frequency in the current mode. * hw.cpufrequency_min - All frequencies are in Hz. * * hw.busfrequency - These values provide the current, min and max bus frequency. The min and max are for * hw.busfrequency_max - all power management modes. The current frequency is the max frequency in the current mode. * hw.busfrequency_min - All frequencies are in Hz. * * hw.cputype - These values provide the mach-o cpu type and subtype. A complete list is in * hw.cpusubtype - These values should be used to determine what processor family the running cpu is from so that * the best binary can be chosen, or the best dynamic code generated. They should not be used * to determine if a given processor feature is available. * hw.cputhreadtype - This value will be present if the processor supports threads. Like hw.cpusubtype this selector * should not be used to infer features, and only used to name the processors thread architecture. * The values are defined in * * hw.byteorder - Gives the byte order of the processor. 4321 for big endian, 1234 for little. * * hw.pagesize - Gives the size in bytes of the pages used by the processor and VM system. * * hw.cachelinesize - Gives the size in bytes of the processor's cache lines. * This value should be use to control the strides of loops that use cache control instructions * like dcbz, dcbt or dcbst. * * hw.l1dcachesize - These values provide the size in bytes of the L1, L2 and L3 caches. If a cache is not present * hw.l1icachesize - then the selector will return and error. * hw.l2cachesize - * hw.l3cachesize - * * hw.packages - Gives the number of processor packages. * * These are the selectors for optional processor features for specific processors. Selectors that return errors are not support * on the system. Supported features will return 1 if they are recommended or 0 if they are supported but are not expected to help . * performance. Future versions of these selectors may return larger values as necessary so it is best to test for non zero. * * For PowerPC: * * hw.optional.floatingpoint - Floating Point Instructions * hw.optional.altivec - AltiVec Instructions * hw.optional.graphicsops - Graphics Operations * hw.optional.64bitops - 64-bit Instructions * hw.optional.fsqrt - HW Floating Point Square Root Instruction * hw.optional.stfiwx - Store Floating Point as Integer Word Indexed Instructions * hw.optional.dcba - Data Cache Block Allocate Instruction * hw.optional.datastreams - Data Streams Instructions * hw.optional.dcbtstreams - Data Cache Block Touch Steams Instruction Form * * For x86 Architecture: * * hw.optional.floatingpoint - Floating Point Instructions * hw.optional.mmx - Original MMX vector instructions * hw.optional.sse - Streaming SIMD Extensions * hw.optional.sse2 - Streaming SIMD Extensions 2 * hw.optional.sse3 - Streaming SIMD Extensions 3 * hw.optional.supplementalsse3 - Supplemental Streaming SIMD Extensions 3 * hw.optional.x86_64 - 64-bit support */ /* * 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: POSIX2_TZNAME_MAX */ #define USER_MAXID 21 /* number of valid user ids */ #define CTL_USER_NAMES { \ { 0, 0 }, \ { "cs_path", CTLTYPE_STRING }, \ { "bc_base_max", CTLTYPE_INT }, \ { "bc_dim_max", CTLTYPE_INT }, \ { "bc_scale_max", CTLTYPE_INT }, \ { "bc_string_max", CTLTYPE_INT }, \ { "coll_weights_max", CTLTYPE_INT }, \ { "expr_nest_max", CTLTYPE_INT }, \ { "line_max", CTLTYPE_INT }, \ { "re_dup_max", CTLTYPE_INT }, \ { "posix2_version", CTLTYPE_INT }, \ { "posix2_c_bind", CTLTYPE_INT }, \ { "posix2_c_dev", CTLTYPE_INT }, \ { "posix2_char_term", CTLTYPE_INT }, \ { "posix2_fort_dev", CTLTYPE_INT }, \ { "posix2_fort_run", CTLTYPE_INT }, \ { "posix2_localedef", CTLTYPE_INT }, \ { "posix2_sw_dev", CTLTYPE_INT }, \ { "posix2_upe", CTLTYPE_INT }, \ { "stream_max", CTLTYPE_INT }, \ { "tzname_max", CTLTYPE_INT } \ } /* * CTL_DEBUG definitions * * Second level identifier specifies which debug variable. * Third level identifier specifies which stucture component. */ #define CTL_DEBUG_NAME 0 /* string: variable name */ #define CTL_DEBUG_VALUE 1 /* int: variable value */ #define CTL_DEBUG_MAXID 20 #if (CTL_MAXID != 9) || (KERN_MAXID != 72) || (VM_MAXID != 6) || (HW_MAXID != 26) || (USER_MAXID != 21) || (CTL_DEBUG_MAXID != 20) #error Use the SYSCTL_*() macros and OID_AUTO instead! #endif #ifdef KERNEL #if DEBUG /* * 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 querried. If more debugging * variables are added, they must also be declared here and also * entered into the array. */ struct ctldebug { char *debugname; /* name of debugging variable */ int *debugvar; /* pointer to debugging variable */ }; 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 */ #ifdef BSD_KERNEL_PRIVATE extern char machine[]; extern char osrelease[]; extern char ostype[]; extern char osversion[]; struct linker_set; void sysctl_register_set(const char *set); void sysctl_unregister_set(const char *set); void sysctl_mib_init(void); int kernel_sysctl(struct proc *p, int *name, u_int namelen, void *old, size_t *oldlenp, void *newp, size_t newlen); int userland_sysctl(struct proc *p, int *name, u_int namelen, user_addr_t old, size_t *oldlenp, user_addr_t newp, size_t newlen, size_t *retval); /* * Internal sysctl function calling convention: * * (*sysctlfn)(name, namelen, oldval, oldlenp, newval, newlen); * * 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. */ typedef int (sysctlfn) (int *, u_int, user_addr_t, size_t *, user_addr_t, size_t, struct proc *); int sysctl_int(user_addr_t, size_t *, user_addr_t, size_t, int *); int sysctl_rdint(user_addr_t, size_t *, user_addr_t, int); int sysctl_quad(user_addr_t, size_t *, user_addr_t, size_t, quad_t *); int sysctl_rdquad(user_addr_t, size_t *, user_addr_t, quad_t); int sysctl_string(user_addr_t, size_t *, user_addr_t, size_t, char *, int); int sysctl_trstring(user_addr_t, size_t *, user_addr_t, size_t, char *, int); int sysctl_rdstring(user_addr_t, size_t *, user_addr_t, char *); int sysctl_rdstruct(user_addr_t, size_t *, user_addr_t, void *, int); /* XXX should be in , but not a real system call */ struct sysctl_args; int new_sysctl(struct proc *, struct sysctl_args *); void sysctl_register_all(void); #endif /* BSD_KERNEL_PRIVATE */ #else /* !KERNEL */ __BEGIN_DECLS int sysctl(int *, u_int, void *, size_t *, void *, size_t); int sysctlbyname(const char *, void *, size_t *, void *, size_t); int sysctlnametomib(const char *, int *, size_t *); __END_DECLS #endif /* KERNEL */ #endif /* SYSCTL_DEF_ENABLED */ #endif /* !_SYS_SYSCTL_H_ */