modstubs.s revision 747cfc73193da6c99aeb06f23e70552319393cc4
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2007 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#pragma ident "%Z%%M% %I% %E% SMI"
#include <sys/asm_linkage.h>
#if defined(__lint)
char stubs_base[1], stubs_end[1];
#else /* __lint */
#include "assym.h"
/*
* !!!!!!!! WARNING! WARNING! WARNING! WARNING! WARNING! WARNING! !!!!!!!!
*
* For functions which are either STUBs or WSTUBs the actual function
* need to be called using 'call' instruction because of preamble and
* postamble (i.e mod_hold_stub and mod_release_stub) around the
* function call. Due to this we need to copy arguments for the
* real function. On Intel we can't tell how many arguments are there
* on the stack so we have to either copy everything between esp and
* ebp or copy only a fixed number (MAXNARG - defined here) for
* all the stub functions. Currently we are using MAXNARG (it is a kludge
* but worth it?!).
*
* NOTE: Use NO_UNLOAD_STUBs if the module is NOT unloadable once it is
* loaded.
*/
#define MAXNARG 10
/*
* WARNING: there is no check for forgetting to write END_MODULE,
* and if you do, the kernel will most likely crash. Be careful
*
* This file assumes that all of the contributions to the data segment
* will be contiguous in the output file, even though they are separated
* by pieces of text. This is safe for all assemblers I know of now...
*/
/*
* This file uses ansi preprocessor features:
*
* 1. #define mac(a) extra_ ## a --> mac(x) expands to extra_a
* The old version of this is
* #define mac(a) extra_/.*.*./a
* but this fails if the argument has spaces "mac ( x )"
* (Ignore the dots above, I had to put them in to keep this a comment.)
*
* 2. #define mac(a) #a --> mac(x) expands to "x"
* The old version is
* #define mac(a) "a"
*
* For some reason, the 5.0 preprocessor isn't happy with the above usage.
* For now, we're not using these ansi features.
*
* The reason is that "the 5.0 ANSI preprocessor" is built into the compiler
* and is a tokenizing preprocessor. This means, when confronted by something
* other than C token generation rules, strange things occur. In this case,
* when confronted by an assembly file, it would turn the token ".globl" into
* two tokens "." and "globl". For this reason, the traditional, non-ANSI
* preprocessor is used on assembly files.
*
* It would be desirable to have a non-tokenizing cpp (accp?) to use for this.
*/
/*
* This file contains the stubs routines for modules which can be autoloaded.
*/
#if defined(__amd64)
/*
* See the 'struct mod_modinfo' definition to see what this declaration
* is trying to achieve here.
*/
#define MODULE(module,namespace) \
.data; \
module/**/_modname: \
.string "namespace/module"; \
SET_SIZE(module/**/_modname); \
.align CPTRSIZE; \
.globl module/**/_modinfo; \
.type module/**/_modinfo, @object; \
module/**/_modinfo: \
.quad module/**/_modname; \
.quad 0 /* storage for modctl pointer */
/* then mod_stub_info structures follow until a mods_func_adr is 0 */
/* this puts a 0 where the next mods_func_adr would be */
#define END_MODULE(module) \
.data; \
.align CPTRSIZE; \
.quad 0; \
SET_SIZE(module/**/_modinfo)
/*
* The data section in the stub_common macro is the
* mod_stub_info structure for the stub function
*/
#define STUB_COMMON(module, fcnname, install_fcn, retfcn, weak) \
ENTRY(fcnname); \
leaq fcnname/**/_info(%rip), %rax; \
cmpl $0, MODS_FLAG(%rax); /* weak? */ \
je stubs_common_code; /* not weak */ \
testb $MODS_INSTALLED, MODS_FLAG(%rax); /* installed? */ \
jne stubs_common_code; /* yes, do the mod_hold */ \
jmp *MODS_RETFCN(%rax); /* no, jump to retfcn */ \
SET_SIZE(fcnname); \
.data; \
.align CPTRSIZE; \
.type fcnname/**/_info, @object; \
fcnname/**/_info: \
.quad install_fcn; /* 0 */ \
.quad module/**/_modinfo; /* 0x8 */ \
.quad fcnname; /* 0x10 */ \
.quad retfcn; /* 0x18 */ \
.long weak; /* 0x20 */ \
SET_SIZE(fcnname/**/_info)
#define STUB_UNLOADABLE(module, fcnname, install_fcn, retfcn, weak) \
ENTRY(fcnname); \
leaq fcnname/**/_info(%rip), %rax; \
testb $MODS_INSTALLED, MODS_FLAG(%rax); /* installed? */ \
je 5f; /* no */ \
jmp *(%rax); /* yes, jump to install_fcn */ \
5: testb $MODS_WEAK, MODS_FLAG(%rax); /* weak? */ \
je stubs_common_code; /* no, do mod load */ \
jmp *MODS_RETFCN(%rax); /* yes, jump to retfcn */ \
SET_SIZE(fcnname); \
.data; \
.align CPTRSIZE; \
.type fcnname/**/_info, @object; \
fcnname/**/_info: \
.quad install_fcn; /* 0 */ \
.quad module/**/_modinfo; /* 0x8 */ \
.quad fcnname; /* 0x10 */ \
.quad retfcn; /* 0x18 */ \
.long weak; /* 0x20 */ \
SET_SIZE(fcnname/**/_info)
/*
* We branch here with the fcnname_info pointer in %rax
*/
ENTRY_NP(stubs_common_code)
.globl mod_hold_stub
.globl mod_release_stub
pushq %rbp
movq %rsp, %rbp
subq $0x10, %rsp
movq %r15, (%rsp) /* (caller saved) */
movq %rax, %r15 /* stash the fcnname_info pointer */
/*
* save incoming register arguments
*/
pushq %rdi
pushq %rsi
pushq %rdx
pushq %rcx
pushq %r8
pushq %r9
/* (next 4 args, if any, are already on the stack above %rbp) */
movq %r15, %rdi
call mod_hold_stub /* mod_hold_stub(mod_stub_info *) */
cmpl $-1, %eax /* error? */
jne .L1
movq 0x18(%r15), %rax
call *%rax
addq $0x30, %rsp
jmp .L2
.L1:
/*
* copy MAXNARG == 10 incoming arguments
*/
popq %r9
popq %r8
popq %rcx
popq %rdx
popq %rsi
popq %rdi
/*
* stack:
* arg9 0x38(%rsp)
* arg8 0x30(%rsp)
* arg7 0x28(%rsp)
* arg6 0x20(%rsp)
* saved %rip 0x18(%rsp)
* saved %rbp 0x10(%rsp)
* <pad> 0x8(%rsp)
* saved %r15 0x0(%rsp)
*/
movl $MAXNARG - 6 + 3, %r11d
pushq (%rsp, %r11, 8)
pushq (%rsp, %r11, 8)
pushq (%rsp, %r11, 8)
pushq (%rsp, %r11, 8)
call *(%r15) /* call the stub fn(arg, ..) */
addq $0x20, %rsp /* pop off last 4 args */
pushq %rax /* save any return values */
pushq %rdx
movq %r15, %rdi
call mod_release_stub /* release hold on module */
popq %rdx /* restore return values */
popq %rax
.L2:
popq %r15
leave
ret
SET_SIZE(stubs_common_code)
#elif defined(__i386)
/*
* See the 'struct mod_modinfo' definition to see what this declaration
* is trying to achieve here.
*/
#define MODULE(module,namespace) \
.data; \
module/**/_modname: \
.string "namespace/module"; \
SET_SIZE(module/**/_modname); \
.align CPTRSIZE; \
.globl module/**/_modinfo; \
.type module/**/_modinfo, @object; \
module/**/_modinfo: \
.long module/**/_modname; \
.long 0 /* storage for modctl pointer */
/* then mod_stub_info structures follow until a mods_func_adr is 0 */
/* this puts a 0 where the next mods_func_adr would be */
#define END_MODULE(module) \
.data; \
.align CPTRSIZE; \
.long 0; \
SET_SIZE(module/**/_modinfo)
/*
* The data section in the stub_common macro is the
* mod_stub_info structure for the stub function
*/
/*
* The flag MODS_INSTALLED is stored in the stub data and is used to
* indicate if a module is installed and initialized. This flag is used
* instead of the mod_stub_info->mods_modinfo->mod_installed flag
* to minimize the number of pointer de-references for each function
* call (and also to avoid possible TLB misses which could be induced
* by dereferencing these pointers.)
*/
#define STUB_COMMON(module, fcnname, install_fcn, retfcn, weak) \
ENTRY(fcnname); \
leal fcnname/**/_info, %eax; \
cmpl $0, MODS_FLAG(%eax); /* weak? */ \
je stubs_common_code; /* not weak */ \
testb $MODS_INSTALLED, MODS_FLAG(%eax); /* installed? */ \
jne stubs_common_code; /* yes, do the mod_hold */ \
jmp *MODS_RETFCN(%eax); /* no, just jump to retfcn */ \
SET_SIZE(fcnname); \
.data; \
.align CPTRSIZE; \
.type fcnname/**/_info, @object; \
fcnname/**/_info: \
.long install_fcn; \
.long module/**/_modinfo; \
.long fcnname; \
.long retfcn; \
.long weak; \
SET_SIZE(fcnname/**/_info)
#define STUB_UNLOADABLE(module, fcnname, install_fcn, retfcn, weak) \
ENTRY(fcnname); \
leal fcnname/**/_info, %eax; \
testb $MODS_INSTALLED, MODS_FLAG(%eax); /* installed? */ \
je 5f; /* no */ \
jmp *(%eax); /* yes, just jump to install_fcn */ \
5: testb $MODS_WEAK, MODS_FLAG(%eax); /* weak? */ \
je stubs_common_code; /* no, do mod load */ \
jmp *MODS_RETFCN(%eax); /* yes, just jump to retfcn */ \
SET_SIZE(fcnname); \
.data; \
.align CPTRSIZE; \
.type fcnname/**/_info, @object; \
fcnname/**/_info: \
.long install_fcn; /* 0 */ \
.long module/**/_modinfo; /* 0x4 */ \
.long fcnname; /* 0x8 */ \
.long retfcn; /* 0xc */ \
.long weak; /* 0x10 */ \
SET_SIZE(fcnname/**/_info)
/*
* We branch here with the fcnname_info pointer in %eax
*/
ENTRY_NP(stubs_common_code)
.globl mod_hold_stub
.globl mod_release_stub
pushl %esi
movl %eax, %esi / save the info pointer
pushl %eax
call mod_hold_stub / mod_hold_stub(mod_stub_info *)
popl %ecx
cmpl $-1, %eax / error?
jne .L1
movl MODS_RETFCN(%esi), %eax
call *%eax
popl %esi / yes, return error (panic?)
ret
.L1:
movl $MAXNARG+1, %ecx
/ copy incoming arguments
pushl (%esp, %ecx, 4) / push MAXNARG times
pushl (%esp, %ecx, 4)
pushl (%esp, %ecx, 4)
pushl (%esp, %ecx, 4)
pushl (%esp, %ecx, 4)
pushl (%esp, %ecx, 4)
pushl (%esp, %ecx, 4)
pushl (%esp, %ecx, 4)
pushl (%esp, %ecx, 4)
pushl (%esp, %ecx, 4)
call *(%esi) / call the stub function(arg1,arg2, ...)
add $_MUL(MAXNARG, 4), %esp / pop off MAXNARG arguments
pushl %eax / save any return values from the stub
pushl %edx
pushl %esi
call mod_release_stub / release hold on module
addl $4, %esp
popl %edx / restore return values
popl %eax
.L2:
popl %esi
ret
SET_SIZE(stubs_common_code)
#endif /* __i386 */
#define STUB(module, fcnname, retfcn) \
STUB_COMMON(module, fcnname, mod_hold_stub, retfcn, 0)
/*
* "weak stub", don't load on account of this call
*/
#define WSTUB(module, fcnname, retfcn) \
STUB_COMMON(module, fcnname, retfcn, retfcn, MODS_WEAK)
/*
* "non-unloadable stub", don't bother 'holding' module if it's already loaded
* since the module cannot be unloaded.
*
* User *MUST* guarantee the module is not unloadable (no _fini routine).
*/
#define NO_UNLOAD_STUB(module, fcnname, retfcn) \
STUB_UNLOADABLE(module, fcnname, retfcn, retfcn, MODS_NOUNLOAD)
/*
* "weak stub" for non-unloadable module, don't load on account of this call
*/
#define NO_UNLOAD_WSTUB(module, fcnname, retfcn) \
STUB_UNLOADABLE(module, fcnname, retfcn, retfcn, MODS_NOUNLOAD|MODS_WEAK)
/*
* this is just a marker for the beginning area of text that contains stubs
*/
ENTRY_NP(stubs_base)
nop
/*
* WARNING WARNING WARNING!!!!!!
*
* On the MODULE macro you MUST NOT use any spaces!!! They are
* significant to the preprocessor. With ansi c there is a way around this
* but for some reason (yet to be investigated) ansi didn't work for other
* reasons!
*
* When zero is used as the return function, the system will call
* panic if the stub can't be resolved.
*/
/*
* Stubs for devfs. A non-unloadable module.
*/
#ifndef DEVFS_MODULE
MODULE(devfs,fs);
NO_UNLOAD_STUB(devfs, devfs_clean, nomod_minus_one);
NO_UNLOAD_STUB(devfs, devfs_lookupname, nomod_minus_one);
NO_UNLOAD_STUB(devfs, devfs_walk, nomod_minus_one);
NO_UNLOAD_STUB(devfs, devfs_devpolicy, nomod_minus_one);
NO_UNLOAD_STUB(devfs, devfs_reset_perm, nomod_minus_one);
NO_UNLOAD_STUB(devfs, devfs_remdrv_cleanup, nomod_minus_one);
END_MODULE(devfs);
#endif
#ifndef DEV_MODULE
MODULE(dev,fs);
NO_UNLOAD_STUB(dev, sdev_modctl_readdir, nomod_minus_one);
NO_UNLOAD_STUB(dev, sdev_modctl_readdir_free, nomod_minus_one);
NO_UNLOAD_STUB(dev, devname_filename_register, nomod_minus_one);
NO_UNLOAD_STUB(dev, sdev_modctl_devexists, nomod_minus_one);
NO_UNLOAD_STUB(dev, devname_nsmaps_register, nomod_minus_one);
NO_UNLOAD_STUB(dev, devname_profile_update, nomod_minus_one);
NO_UNLOAD_STUB(dev, sdev_module_register, nomod_minus_one);
NO_UNLOAD_STUB(dev, sdev_devstate_change, nomod_minus_one);
NO_UNLOAD_STUB(dev, devpts_getvnodeops, nomod_zero);
END_MODULE(dev);
#endif
/*
* Stubs for specfs. A non-unloadable module.
*/
#ifndef SPEC_MODULE
MODULE(specfs,fs);
NO_UNLOAD_STUB(specfs, common_specvp, nomod_zero);
NO_UNLOAD_STUB(specfs, makectty, nomod_zero);
NO_UNLOAD_STUB(specfs, makespecvp, nomod_zero);
NO_UNLOAD_STUB(specfs, smark, nomod_zero);
NO_UNLOAD_STUB(specfs, spec_segmap, nomod_einval);
NO_UNLOAD_STUB(specfs, specfind, nomod_zero);
NO_UNLOAD_STUB(specfs, specvp, nomod_zero);
NO_UNLOAD_STUB(specfs, devi_stillreferenced, nomod_zero);
NO_UNLOAD_STUB(specfs, spec_getvnodeops, nomod_zero);
NO_UNLOAD_STUB(specfs, spec_char_map, nomod_zero);
NO_UNLOAD_STUB(specfs, specvp_devfs, nomod_zero);
NO_UNLOAD_STUB(specfs, spec_assoc_vp_with_devi, nomod_void);
NO_UNLOAD_STUB(specfs, spec_hold_devi_by_vp, nomod_zero);
NO_UNLOAD_STUB(specfs, spec_snode_walk, nomod_void);
NO_UNLOAD_STUB(specfs, spec_devi_open_count, nomod_minus_one);
NO_UNLOAD_STUB(specfs, spec_is_clone, nomod_zero);
NO_UNLOAD_STUB(specfs, spec_is_selfclone, nomod_zero);
NO_UNLOAD_STUB(specfs, spec_fence_snode, nomod_minus_one);
NO_UNLOAD_STUB(specfs, spec_unfence_snode, nomod_minus_one);
END_MODULE(specfs);
#endif
/*
* Stubs for sockfs. A non-unloadable module.
*/
#ifndef SOCK_MODULE
MODULE(sockfs,fs);
NO_UNLOAD_STUB(sockfs, so_socket, nomod_zero);
NO_UNLOAD_STUB(sockfs, so_socketpair, nomod_zero);
NO_UNLOAD_STUB(sockfs, bind, nomod_zero);
NO_UNLOAD_STUB(sockfs, listen, nomod_zero);
NO_UNLOAD_STUB(sockfs, accept, nomod_zero);
NO_UNLOAD_STUB(sockfs, connect, nomod_zero);
NO_UNLOAD_STUB(sockfs, shutdown, nomod_zero);
NO_UNLOAD_STUB(sockfs, recv, nomod_zero);
NO_UNLOAD_STUB(sockfs, recvfrom, nomod_zero);
NO_UNLOAD_STUB(sockfs, recvmsg, nomod_zero);
NO_UNLOAD_STUB(sockfs, send, nomod_zero);
NO_UNLOAD_STUB(sockfs, sendmsg, nomod_zero);
NO_UNLOAD_STUB(sockfs, sendto, nomod_zero);
#ifdef _SYSCALL32_IMPL
NO_UNLOAD_STUB(sockfs, recv32, nomod_zero);
NO_UNLOAD_STUB(sockfs, recvfrom32, nomod_zero);
NO_UNLOAD_STUB(sockfs, send32, nomod_zero);
NO_UNLOAD_STUB(sockfs, sendto32, nomod_zero);
#endif /* _SYSCALL32_IMPL */
NO_UNLOAD_STUB(sockfs, getpeername, nomod_zero);
NO_UNLOAD_STUB(sockfs, getsockname, nomod_zero);
NO_UNLOAD_STUB(sockfs, getsockopt, nomod_zero);
NO_UNLOAD_STUB(sockfs, setsockopt, nomod_zero);
NO_UNLOAD_STUB(sockfs, sockconfig, nomod_zero);
NO_UNLOAD_STUB(sockfs, sock_getmsg, nomod_zero);
NO_UNLOAD_STUB(sockfs, sock_putmsg, nomod_zero);
NO_UNLOAD_STUB(sockfs, sosendfile64, nomod_zero);
NO_UNLOAD_STUB(sockfs, snf_segmap, nomod_einval);
NO_UNLOAD_STUB(sockfs, sock_getfasync, nomod_zero);
NO_UNLOAD_STUB(sockfs, nl7c_sendfilev, nomod_zero);
NO_UNLOAD_STUB(sockfs, sostream_direct, nomod_zero);
END_MODULE(sockfs);
#endif
/*
* IPsec stubs.
*/
#ifndef IPSECAH_MODULE
MODULE(ipsecah,drv);
WSTUB(ipsecah, ipsec_construct_inverse_acquire, nomod_zero);
WSTUB(ipsecah, sadb_acquire, nomod_zero);
WSTUB(ipsecah, sadb_ill_download, nomod_zero);
WSTUB(ipsecah, ipsecah_algs_changed, nomod_zero);
WSTUB(ipsecah, sadb_alg_update, nomod_zero);
WSTUB(ipsecah, sadb_unlinkassoc, nomod_zero);
WSTUB(ipsecah, sadb_insertassoc, nomod_zero);
WSTUB(ipsecah, ipsecah_in_assocfailure, nomod_zero);
WSTUB(ipsecah, sadb_set_lpkt, nomod_zero);
WSTUB(ipsecah, ipsecah_icmp_error, nomod_zero);
END_MODULE(ipsecah);
#endif
#ifndef IPSECESP_MODULE
MODULE(ipsecesp,drv);
WSTUB(ipsecesp, ipsecesp_fill_defs, nomod_zero);
WSTUB(ipsecesp, ipsecesp_algs_changed, nomod_zero);
WSTUB(ipsecesp, ipsecesp_in_assocfailure, nomod_zero);
WSTUB(ipsecesp, ipsecesp_init_funcs, nomod_zero);
WSTUB(ipsecesp, ipsecesp_icmp_error, nomod_zero);
WSTUB(ipsecesp, ipsecesp_send_keepalive, nomod_zero);
END_MODULE(ipsecesp);
#endif
#ifndef KEYSOCK_MODULE
MODULE(keysock, drv);
WSTUB(keysock, keysock_plumb_ipsec, nomod_zero);
WSTUB(keysock, keysock_extended_reg, nomod_zero);
WSTUB(keysock, keysock_next_seq, nomod_zero);
END_MODULE(keysock);
#endif
#ifndef SPDSOCK_MODULE
MODULE(spdsock,drv);
WSTUB(spdsock, spdsock_update_pending_algs, nomod_zero);
END_MODULE(spdsock);
#endif
/*
* Stubs for nfs common code.
* XXX nfs_getvnodeops should go away with removal of kludge in vnode.c
*/
#ifndef NFS_MODULE
MODULE(nfs,fs);
WSTUB(nfs, nfs_getvnodeops, nomod_zero);
WSTUB(nfs, nfs_perror, nomod_zero);
WSTUB(nfs, nfs_cmn_err, nomod_zero);
WSTUB(nfs, clcleanup_zone, nomod_zero);
WSTUB(nfs, clcleanup4_zone, nomod_zero);
END_MODULE(nfs);
#endif
/*
* Stubs for nfs_dlboot (diskless booting).
*/
#ifndef NFS_DLBOOT_MODULE
MODULE(nfs_dlboot,misc);
STUB(nfs_dlboot, mount_root, nomod_minus_one);
STUB(nfs_dlboot, dhcpinit, nomod_minus_one);
END_MODULE(nfs_dlboot);
#endif
/*
* Stubs for nfs server-only code.
*/
#ifndef NFSSRV_MODULE
MODULE(nfssrv,misc);
STUB(nfssrv, lm_nfs3_fhtovp, nomod_minus_one);
STUB(nfssrv, lm_fhtovp, nomod_minus_one);
STUB(nfssrv, exportfs, nomod_minus_one);
STUB(nfssrv, nfs_getfh, nomod_minus_one);
STUB(nfssrv, nfsl_flush, nomod_minus_one);
STUB(nfssrv, rfs4_check_delegated, nomod_zero);
STUB(nfssrv, mountd_args, nomod_minus_one);
NO_UNLOAD_STUB(nfssrv, rdma_start, nomod_zero);
NO_UNLOAD_STUB(nfssrv, nfs_svc, nomod_zero);
END_MODULE(nfssrv);
#endif
/*
* Stubs for kernel lock manager.
*/
#ifndef KLM_MODULE
MODULE(klmmod,misc);
NO_UNLOAD_STUB(klmmod, lm_svc, nomod_zero);
NO_UNLOAD_STUB(klmmod, lm_shutdown, nomod_zero);
NO_UNLOAD_STUB(klmmod, lm_unexport, nomod_zero);
NO_UNLOAD_STUB(klmmod, lm_cprresume, nomod_zero);
NO_UNLOAD_STUB(klmmod, lm_cprsuspend, nomod_zero);
NO_UNLOAD_STUB(klmmod, lm_safelock, nomod_zero);
NO_UNLOAD_STUB(klmmod, lm_safemap, nomod_zero);
NO_UNLOAD_STUB(klmmod, lm_has_sleep, nomod_zero);
NO_UNLOAD_STUB(klmmod, lm_free_config, nomod_zero);
NO_UNLOAD_STUB(klmmod, lm_vp_active, nomod_zero);
NO_UNLOAD_STUB(klmmod, lm_get_sysid, nomod_zero);
NO_UNLOAD_STUB(klmmod, lm_rel_sysid, nomod_zero);
NO_UNLOAD_STUB(klmmod, lm_alloc_sysidt, nomod_minus_one);
NO_UNLOAD_STUB(klmmod, lm_free_sysidt, nomod_zero);
NO_UNLOAD_STUB(klmmod, lm_sysidt, nomod_minus_one);
END_MODULE(klmmod);
#endif
#ifndef KLMOPS_MODULE
MODULE(klmops,misc);
NO_UNLOAD_STUB(klmops, lm_frlock, nomod_zero);
NO_UNLOAD_STUB(klmops, lm4_frlock, nomod_zero);
NO_UNLOAD_STUB(klmops, lm_shrlock, nomod_zero);
NO_UNLOAD_STUB(klmops, lm4_shrlock, nomod_zero);
NO_UNLOAD_STUB(klmops, lm_nlm_dispatch, nomod_zero);
NO_UNLOAD_STUB(klmops, lm_nlm4_dispatch, nomod_zero);
NO_UNLOAD_STUB(klmops, lm_nlm_reclaim, nomod_zero);
NO_UNLOAD_STUB(klmops, lm_nlm4_reclaim, nomod_zero);
NO_UNLOAD_STUB(klmops, lm_register_lock_locally, nomod_zero);
END_MODULE(klmops);
#endif
/*
* Stubs for kernel TLI module
* XXX currently we never allow this to unload
*/
#ifndef TLI_MODULE
MODULE(tlimod,misc);
NO_UNLOAD_STUB(tlimod, t_kopen, nomod_minus_one);
NO_UNLOAD_STUB(tlimod, t_kunbind, nomod_zero);
NO_UNLOAD_STUB(tlimod, t_kadvise, nomod_zero);
NO_UNLOAD_STUB(tlimod, t_krcvudata, nomod_zero);
NO_UNLOAD_STUB(tlimod, t_ksndudata, nomod_zero);
NO_UNLOAD_STUB(tlimod, t_kalloc, nomod_zero);
NO_UNLOAD_STUB(tlimod, t_kbind, nomod_zero);
NO_UNLOAD_STUB(tlimod, t_kclose, nomod_zero);
NO_UNLOAD_STUB(tlimod, t_kspoll, nomod_zero);
NO_UNLOAD_STUB(tlimod, t_kfree, nomod_zero);
END_MODULE(tlimod);
#endif
/*
* Stubs for kernel RPC module
* XXX currently we never allow this to unload
*/
#ifndef RPC_MODULE
MODULE(rpcmod,strmod);
NO_UNLOAD_STUB(rpcmod, clnt_tli_kcreate, nomod_minus_one);
NO_UNLOAD_STUB(rpcmod, svc_tli_kcreate, nomod_minus_one);
NO_UNLOAD_STUB(rpcmod, bindresvport, nomod_minus_one);
NO_UNLOAD_STUB(rpcmod, rdma_register_mod, nomod_minus_one);
NO_UNLOAD_STUB(rpcmod, rdma_unregister_mod, nomod_minus_one);
NO_UNLOAD_STUB(rpcmod, svc_queuereq, nomod_minus_one);
NO_UNLOAD_STUB(rpcmod, clist_add, nomod_minus_one);
END_MODULE(rpcmod);
#endif
/*
* Stubs for des
*/
#ifndef DES_MODULE
MODULE(des,misc);
STUB(des, cbc_crypt, nomod_zero);
STUB(des, ecb_crypt, nomod_zero);
STUB(des, _des_crypt, nomod_zero);
END_MODULE(des);
#endif
/*
* Stubs for procfs. A non-unloadable module.
*/
#ifndef PROC_MODULE
MODULE(procfs,fs);
NO_UNLOAD_STUB(procfs, prfree, nomod_zero);
NO_UNLOAD_STUB(procfs, prexit, nomod_zero);
NO_UNLOAD_STUB(procfs, prlwpfree, nomod_zero);
NO_UNLOAD_STUB(procfs, prlwpexit, nomod_zero);
NO_UNLOAD_STUB(procfs, prinvalidate, nomod_zero);
NO_UNLOAD_STUB(procfs, prnsegs, nomod_zero);
NO_UNLOAD_STUB(procfs, prgetcred, nomod_zero);
NO_UNLOAD_STUB(procfs, prgetpriv, nomod_zero);
NO_UNLOAD_STUB(procfs, prgetprivsize, nomod_zero);
NO_UNLOAD_STUB(procfs, prgetstatus, nomod_zero);
NO_UNLOAD_STUB(procfs, prgetlwpstatus, nomod_zero);
NO_UNLOAD_STUB(procfs, prgetpsinfo, nomod_zero);
NO_UNLOAD_STUB(procfs, prgetlwpsinfo, nomod_zero);
NO_UNLOAD_STUB(procfs, oprgetstatus, nomod_zero);
NO_UNLOAD_STUB(procfs, oprgetpsinfo, nomod_zero);
#ifdef _SYSCALL32_IMPL
NO_UNLOAD_STUB(procfs, prgetstatus32, nomod_zero);
NO_UNLOAD_STUB(procfs, prgetlwpstatus32, nomod_zero);
NO_UNLOAD_STUB(procfs, prgetpsinfo32, nomod_zero);
NO_UNLOAD_STUB(procfs, prgetlwpsinfo32, nomod_zero);
NO_UNLOAD_STUB(procfs, oprgetstatus32, nomod_zero);
NO_UNLOAD_STUB(procfs, oprgetpsinfo32, nomod_zero);
#endif /* _SYSCALL32_IMPL */
NO_UNLOAD_STUB(procfs, prnotify, nomod_zero);
NO_UNLOAD_STUB(procfs, prexecstart, nomod_zero);
NO_UNLOAD_STUB(procfs, prexecend, nomod_zero);
NO_UNLOAD_STUB(procfs, prrelvm, nomod_zero);
NO_UNLOAD_STUB(procfs, prbarrier, nomod_zero);
NO_UNLOAD_STUB(procfs, estimate_msacct, nomod_zero);
NO_UNLOAD_STUB(procfs, pr_getprot, nomod_zero);
NO_UNLOAD_STUB(procfs, pr_getprot_done, nomod_zero);
NO_UNLOAD_STUB(procfs, pr_getsegsize, nomod_zero);
NO_UNLOAD_STUB(procfs, pr_isobject, nomod_zero);
NO_UNLOAD_STUB(procfs, pr_isself, nomod_zero);
NO_UNLOAD_STUB(procfs, pr_allstopped, nomod_zero);
NO_UNLOAD_STUB(procfs, pr_free_watched_pages, nomod_zero);
END_MODULE(procfs);
#endif
/*
* Stubs for fifofs
*/
#ifndef FIFO_MODULE
MODULE(fifofs,fs);
STUB(fifofs, fifovp, 0);
STUB(fifofs, fifo_getinfo, 0);
STUB(fifofs, fifo_vfastoff, 0);
END_MODULE(fifofs);
#endif
/*
* Stubs for ufs
*
* This is needed to support the old quotactl system call.
* When the old sysent stuff goes away, this will need to be revisited.
*/
#ifndef UFS_MODULE
MODULE(ufs,fs);
STUB(ufs, quotactl, nomod_minus_one);
END_MODULE(ufs);
#endif
/*
* Stubs for namefs
*/
#ifndef NAMEFS_MODULE
MODULE(namefs,fs);
STUB(namefs, nm_unmountall, 0);
END_MODULE(namefs);
#endif
/*
* Stubs for ts_dptbl
*/
#ifndef TS_DPTBL_MODULE
MODULE(TS_DPTBL,sched);
STUB(TS_DPTBL, ts_getdptbl, 0);
STUB(TS_DPTBL, ts_getkmdpris, 0);
STUB(TS_DPTBL, ts_getmaxumdpri, 0);
END_MODULE(TS_DPTBL);
#endif
/*
* Stubs for rt_dptbl
*/
#ifndef RT_DPTBL_MODULE
MODULE(RT_DPTBL,sched);
STUB(RT_DPTBL, rt_getdptbl, 0);
END_MODULE(RT_DPTBL);
#endif
/*
* Stubs for ia_dptbl
*/
#ifndef IA_DPTBL_MODULE
MODULE(IA_DPTBL,sched);
STUB(IA_DPTBL, ia_getdptbl, nomod_zero);
STUB(IA_DPTBL, ia_getkmdpris, nomod_zero);
STUB(IA_DPTBL, ia_getmaxumdpri, nomod_zero);
END_MODULE(IA_DPTBL);
#endif
/*
* Stubs for FSS scheduler
*/
#ifndef FSS_MODULE
MODULE(FSS,sched);
WSTUB(FSS, fss_allocbuf, nomod_zero);
WSTUB(FSS, fss_freebuf, nomod_zero);
WSTUB(FSS, fss_changeproj, nomod_zero);
WSTUB(FSS, fss_changepset, nomod_zero);
END_MODULE(FSS);
#endif
/*
* Stubs for fx_dptbl
*/
#ifndef FX_DPTBL_MODULE
MODULE(FX_DPTBL,sched);
STUB(FX_DPTBL, fx_getdptbl, 0);
STUB(FX_DPTBL, fx_getmaxumdpri, 0);
END_MODULE(FX_DPTBL);
#endif
/*
* Stubs for bootdev
*/
#ifndef BOOTDEV_MODULE
MODULE(bootdev,misc);
STUB(bootdev, i_promname_to_devname, 0);
STUB(bootdev, i_convert_boot_device_name, 0);
END_MODULE(bootdev);
#endif
/*
* stubs for strplumb...
*/
#ifndef STRPLUMB_MODULE
MODULE(strplumb,misc);
STUB(strplumb, strplumb, 0);
STUB(strplumb, strplumb_load, 0);
STUB(strplumb, strplumb_get_netdev_path, 0);
END_MODULE(strplumb);
#endif
/*
* Stubs for console configuration module
*/
#ifndef CONSCONFIG_MODULE
MODULE(consconfig,misc);
STUB(consconfig, consconfig, 0);
STUB(consconfig, consconfig_get_usb_kb_path, 0);
STUB(consconfig, consconfig_get_usb_ms_path, 0);
STUB(consconfig, consconfig_teardown, 0);
END_MODULE(consconfig);
#endif
/*
* Stubs for accounting.
*/
#ifndef SYSACCT_MODULE
MODULE(sysacct,sys);
WSTUB(sysacct, acct, nomod_zero);
WSTUB(sysacct, acct_fs_in_use, nomod_zero);
END_MODULE(sysacct);
#endif
/*
* Stubs for semaphore routines. sem.c
*/
#ifndef SEMSYS_MODULE
MODULE(semsys,sys);
WSTUB(semsys, semexit, nomod_zero);
END_MODULE(semsys);
#endif
/*
* Stubs for shmem routines. shm.c
*/
#ifndef SHMSYS_MODULE
MODULE(shmsys,sys);
WSTUB(shmsys, shmexit, nomod_zero);
WSTUB(shmsys, shmfork, nomod_zero);
WSTUB(shmsys, shmgetid, nomod_minus_one);
END_MODULE(shmsys);
#endif
/*
* Stubs for doors
*/
#ifndef DOOR_MODULE
MODULE(doorfs,sys);
WSTUB(doorfs, door_slam, nomod_zero);
WSTUB(doorfs, door_exit, nomod_zero);
WSTUB(doorfs, door_revoke_all, nomod_zero);
WSTUB(doorfs, door_fork, nomod_zero);
NO_UNLOAD_STUB(doorfs, door_upcall, nomod_einval);
NO_UNLOAD_STUB(doorfs, door_ki_create, nomod_einval);
NO_UNLOAD_STUB(doorfs, door_ki_open, nomod_einval);
NO_UNLOAD_STUB(doorfs, door_ki_lookup, nomod_zero);
WSTUB(doorfs, door_ki_upcall, nomod_einval);
WSTUB(doorfs, door_ki_hold, nomod_zero);
WSTUB(doorfs, door_ki_rele, nomod_zero);
WSTUB(doorfs, door_ki_info, nomod_einval);
END_MODULE(doorfs);
#endif
/*
* Stubs for idmap
*/
#ifndef IDMAP_MODULE
MODULE(idmap,misc);
STUB(idmap,kidmap_batch_getgidbysid,nomod_zero);
STUB(idmap,kidmap_batch_getpidbysid,nomod_zero);
STUB(idmap,kidmap_batch_getsidbygid,nomod_zero);
STUB(idmap,kidmap_batch_getsidbyuid,nomod_zero);
STUB(idmap,kidmap_batch_getuidbysid,nomod_zero);
STUB(idmap,kidmap_get_create,nomod_zero);
STUB(idmap,kidmap_get_destroy,nomod_zero);
STUB(idmap,kidmap_get_mappings,nomod_zero);
STUB(idmap,kidmap_getgidbysid,nomod_zero);
STUB(idmap,kidmap_getpidbysid,nomod_zero);
STUB(idmap,kidmap_getsidbygid,nomod_zero);
STUB(idmap,kidmap_getsidbyuid,nomod_zero);
STUB(idmap,kidmap_getuidbysid,nomod_zero);
STUB(idmap,idmap_get_door,nomod_einval);
STUB(idmap,idmap_unreg_dh,nomod_einval);
STUB(idmap,idmap_reg_dh,nomod_einval);
STUB(idmap,idmap_release_door,nomod_einval);
END_MODULE(idmap);
#endif
/*
* Stubs for auditing.
*/
#ifndef C2AUDIT_MODULE
MODULE(c2audit,sys);
STUB(c2audit, audit_init, nomod_zero);
STUB(c2audit, _auditsys, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_free, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_start, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_finish, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_newproc, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_pfree, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_thread_free, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_thread_create, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_falloc, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_unfalloc, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_closef, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_copen, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_core_start, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_core_finish, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_stropen, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_strclose, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_strioctl, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_strputmsg, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_c2_revoke, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_savepath, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_anchorpath, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_addcomponent, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_exit, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_exec, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_symlink, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_symlink_create, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_vncreate_start, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_vncreate_finish, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_enterprom, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_exitprom, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_chdirec, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_getf, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_setf, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_sock, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_strgetmsg, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_ipc, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_ipcget, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_lookupname, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_pathcomp, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_fdsend, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_fdrecv, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_priv, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_setppriv, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_devpolicy, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_setfsat_path, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_cryptoadm, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_update_context, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_kssl, nomod_zero);
NO_UNLOAD_STUB(c2audit, audit_pf_policy, nomod_zero);
END_MODULE(c2audit);
#endif
/*
* Stubs for kernel rpc security service module
*/
#ifndef RPCSEC_MODULE
MODULE(rpcsec,misc);
NO_UNLOAD_STUB(rpcsec, sec_clnt_revoke, nomod_zero);
NO_UNLOAD_STUB(rpcsec, authkern_create, nomod_zero);
NO_UNLOAD_STUB(rpcsec, sec_svc_msg, nomod_zero);
NO_UNLOAD_STUB(rpcsec, sec_svc_control, nomod_zero);
END_MODULE(rpcsec);
#endif
/*
* Stubs for rpc RPCSEC_GSS security service module
*/
#ifndef RPCSEC_GSS_MODULE
MODULE(rpcsec_gss,misc);
NO_UNLOAD_STUB(rpcsec_gss, __svcrpcsec_gss, nomod_zero);
NO_UNLOAD_STUB(rpcsec_gss, rpc_gss_getcred, nomod_zero);
NO_UNLOAD_STUB(rpcsec_gss, rpc_gss_set_callback, nomod_zero);
NO_UNLOAD_STUB(rpcsec_gss, rpc_gss_secget, nomod_zero);
NO_UNLOAD_STUB(rpcsec_gss, rpc_gss_secfree, nomod_zero);
NO_UNLOAD_STUB(rpcsec_gss, rpc_gss_seccreate, nomod_zero);
NO_UNLOAD_STUB(rpcsec_gss, rpc_gss_set_defaults, nomod_zero);
NO_UNLOAD_STUB(rpcsec_gss, rpc_gss_revauth, nomod_zero);
NO_UNLOAD_STUB(rpcsec_gss, rpc_gss_secpurge, nomod_zero);
NO_UNLOAD_STUB(rpcsec_gss, rpc_gss_cleanup, nomod_zero);
NO_UNLOAD_STUB(rpcsec_gss, rpc_gss_get_versions, nomod_zero);
NO_UNLOAD_STUB(rpcsec_gss, rpc_gss_max_data_length, nomod_zero);
NO_UNLOAD_STUB(rpcsec_gss, rpc_gss_svc_max_data_length, nomod_zero);
END_MODULE(rpcsec_gss);
#endif
/*
* Stubs for PCI configurator module (misc/pcicfg).
*/
#ifndef PCICFG_MODULE
MODULE(pcicfg,misc);
STUB(pcicfg, pcicfg_configure, 0);
STUB(pcicfg, pcicfg_unconfigure, 0);
END_MODULE(pcicfg);
#endif
/*
* Stubs for PCIEHPC (pci-ex hot plug support) module (misc/pciehpc).
*/
#ifndef PCIEHPC_MODULE
MODULE(pciehpc,misc);
STUB(pciehpc, pciehpc_init, 0);
STUB(pciehpc, pciehpc_uninit, 0);
STUB(pciehpc, pciehpc_acpi_eval_osc, 0);
WSTUB(pciehpc, pciehpc_intr, nomod_zero);
END_MODULE(pciehpc);
#endif
#ifndef IWSCN_MODULE
MODULE(iwscn,drv);
STUB(iwscn, srpop, 0);
END_MODULE(iwscn);
#endif
/*
* Stubs for checkpoint-resume module
*/
#ifndef CPR_MODULE
MODULE(cpr,misc);
STUB(cpr, cpr, 0);
END_MODULE(cpr);
#endif
/*
* Stubs for kernel probes (tnf module). Not unloadable.
*/
#ifndef TNF_MODULE
MODULE(tnf,drv);
NO_UNLOAD_STUB(tnf, tnf_ref32_1, nomod_zero);
NO_UNLOAD_STUB(tnf, tnf_string_1, nomod_zero);
NO_UNLOAD_STUB(tnf, tnf_opaque_array_1, nomod_zero);
NO_UNLOAD_STUB(tnf, tnf_struct_tag_1, nomod_zero);
NO_UNLOAD_STUB(tnf, tnf_allocate, nomod_zero);
END_MODULE(tnf);
#endif
/*
* Clustering: stubs for bootstrapping.
*/
#ifndef CL_BOOTSTRAP
MODULE(cl_bootstrap,misc);
NO_UNLOAD_WSTUB(cl_bootstrap, clboot_modload, nomod_minus_one);
NO_UNLOAD_WSTUB(cl_bootstrap, clboot_loadrootmodules, nomod_zero);
NO_UNLOAD_WSTUB(cl_bootstrap, clboot_rootconf, nomod_zero);
NO_UNLOAD_WSTUB(cl_bootstrap, clboot_mountroot, nomod_zero);
NO_UNLOAD_WSTUB(cl_bootstrap, clconf_init, nomod_zero);
NO_UNLOAD_WSTUB(cl_bootstrap, clconf_get_nodeid, nomod_zero);
NO_UNLOAD_WSTUB(cl_bootstrap, clconf_maximum_nodeid, nomod_zero);
NO_UNLOAD_WSTUB(cl_bootstrap, cluster, nomod_zero);
END_MODULE(cl_bootstrap);
#endif
/*
* Clustering: stubs for cluster infrastructure.
*/
#ifndef CL_COMM_MODULE
MODULE(cl_comm,misc);
NO_UNLOAD_STUB(cl_comm, cladmin, nomod_minus_one);
END_MODULE(cl_comm);
#endif
/*
* Clustering: stubs for global file system operations.
*/
#ifndef PXFS_MODULE
MODULE(pxfs,fs);
NO_UNLOAD_WSTUB(pxfs, clpxfs_aio_read, nomod_zero);
NO_UNLOAD_WSTUB(pxfs, clpxfs_aio_write, nomod_zero);
NO_UNLOAD_WSTUB(pxfs, cl_flk_state_transition_notify, nomod_zero);
END_MODULE(pxfs);
#endif
/*
* Stubs for kernel cryptographic framework module (misc/kcf).
*/
#ifndef KCF_MODULE
MODULE(kcf,misc);
NO_UNLOAD_STUB(kcf, crypto_mech2id, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_register_provider, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_unregister_provider, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_provider_notification, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_op_notification, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_kmflag, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_digest, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_digest_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_digest_init, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_digest_init_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_digest_update, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_digest_final, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_digest_key_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_encrypt, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_encrypt_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_encrypt_init, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_encrypt_init_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_encrypt_update, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_encrypt_final, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_decrypt, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_decrypt_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_decrypt_init, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_decrypt_init_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_decrypt_update, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_decrypt_final, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_get_all_mech_info, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_key_check, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_key_check_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_key_derive, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_key_generate, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_key_generate_pair, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_key_unwrap, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_key_wrap, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_mac, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_mac_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_mac_verify, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_mac_verify_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_mac_init, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_mac_init_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_mac_update, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_mac_final, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_mac_decrypt, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_mac_decrypt_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_mac_verify_decrypt, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_mac_verify_decrypt_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_mac_decrypt_init, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_mac_decrypt_init_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_mac_decrypt_update, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_mac_decrypt_final, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_object_copy, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_object_create, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_object_destroy, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_object_find_final, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_object_find_init, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_object_find, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_object_get_attribute_value, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_object_get_size, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_object_set_attribute_value, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_session_close, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_session_login, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_session_logout, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_session_open, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_encrypt_mac, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_encrypt_mac_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_encrypt_mac_init, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_encrypt_mac_init_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_encrypt_mac_update, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_encrypt_mac_final, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_create_ctx_template, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_destroy_ctx_template, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_get_mech_list, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_free_mech_list, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_cancel_req, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_cancel_ctx, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_bufcall_alloc, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_bufcall_free, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_bufcall, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_unbufcall, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_notify_events, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_unnotify_events, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_get_provider, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_get_provinfo, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_release_provider, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_sign, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_sign_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_sign_init, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_sign_init_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_sign_update, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_sign_final, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_sign_recover, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_sign_recover_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_sign_recover_init_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_verify, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_verify_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_verify_init, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_verify_init_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_verify_update, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_verify_final, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_verify_recover, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_verify_recover_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, crypto_verify_recover_init_prov, nomod_minus_one);
NO_UNLOAD_STUB(kcf, random_add_entropy, nomod_minus_one);
NO_UNLOAD_STUB(kcf, random_get_bytes, nomod_minus_one);
NO_UNLOAD_STUB(kcf, random_get_pseudo_bytes, nomod_minus_one);
END_MODULE(kcf);
#endif
/*
* Stubs for sha1. A non-unloadable module.
*/
#ifndef SHA1_MODULE
MODULE(sha1,crypto);
NO_UNLOAD_STUB(sha1, SHA1Init, nomod_void);
NO_UNLOAD_STUB(sha1, SHA1Update, nomod_void);
NO_UNLOAD_STUB(sha1, SHA1Final, nomod_void);
END_MODULE(sha1);
#endif
/*
* The following stubs are used by the mac module.
* Since dls and dld already depend on mac, these
* stubs are needed to avoid circular dependencies.
*/
#ifndef DLS_MODULE
MODULE(dls,misc);
STUB(dls, dls_create, nomod_einval);
STUB(dls, dls_destroy, nomod_einval);
END_MODULE(dls);
#endif
#ifndef DLD_MODULE
MODULE(dld,drv);
STUB(dld, dld_init_ops, nomod_void);
STUB(dld, dld_fini_ops, nomod_void);
END_MODULE(dld);
#endif
/*
* Stubs for SDP-IB driver.
*/
#ifndef SDPIB_MODULE
MODULE(sdpib,drv);
STUB(sdpib, sdp_create, nomod_zero);
STUB(sdpib, sdp_bind, nomod_einval);
STUB(sdpib, sdp_listen, nomod_einval);
STUB(sdpib, sdp_connect, nomod_einval);
STUB(sdpib, sdp_recv, nomod_einval);
STUB(sdpib, sdp_send, nomod_einval);
STUB(sdpib, sdp_getpeername, nomod_einval);
STUB(sdpib, sdp_getsockname, nomod_einval);
STUB(sdpib, sdp_disconnect, nomod_einval);
STUB(sdpib, sdp_shutdown, nomod_einval);
STUB(sdpib, sdp_get_opt, nomod_einval);
STUB(sdpib, sdp_set_opt, nomod_einval);
STUB(sdpib, sdp_close, nomod_void);
STUB(sdpib, sdp_polldata, nomod_zero);
STUB(sdpib, sdp_ioctl, nomod_einval);
END_MODULE(sdpib);
#endif
/*
* Stubs for kssl, the kernel SSL proxy
*/
#ifndef KSSL_MODULE
MODULE(kssl,drv);
NO_UNLOAD_STUB(kssl, kssl_check_proxy, nomod_zero);
NO_UNLOAD_STUB(kssl, kssl_handle_record, nomod_zero);
NO_UNLOAD_STUB(kssl, kssl_input, nomod_zero);
NO_UNLOAD_STUB(kssl, kssl_build_record, nomod_zero);
NO_UNLOAD_STUB(kssl, kssl_hold_ent, nomod_void);
NO_UNLOAD_STUB(kssl, kssl_release_ent, nomod_void);
NO_UNLOAD_STUB(kssl, kssl_find_fallback, nomod_zero);
NO_UNLOAD_STUB(kssl, kssl_init_context, nomod_zero);
NO_UNLOAD_STUB(kssl, kssl_hold_ctx, nomod_void);
NO_UNLOAD_STUB(kssl, kssl_release_ctx, nomod_void);
END_MODULE(kssl);
#endif
/ this is just a marker for the area of text that contains stubs
ENTRY_NP(stubs_end)
nop
#endif /* lint */