/* * 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. */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ #ifndef _SYS_EXEC_H #define _SYS_EXEC_H #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #ifdef __cplusplus extern "C" { #endif /* * Number of bytes to read for magic string */ #define MAGIC_BYTES 8 #define getexmag(x) (((x)[0] << 8) + (x)[1]) typedef struct execa { const char *fname; const char **argp; const char **envp; } execa_t; typedef struct execenv { caddr_t ex_bssbase; caddr_t ex_brkbase; size_t ex_brksize; vnode_t *ex_vp; short ex_magic; } execenv_t; #ifdef _KERNEL #define LOADABLE_EXEC(e) ((e)->exec_lock) #define LOADED_EXEC(e) ((e)->exec_func) extern int nexectype; /* number of elements in execsw */ extern struct execsw execsw[]; extern kmutex_t execsw_lock; /* * User argument structure for passing exec information around between the * common and machine-dependent portions of exec and the exec modules. */ typedef struct uarg { ssize_t na; ssize_t ne; ssize_t nc; ssize_t arglen; char *fname; char *pathname; ssize_t auxsize; caddr_t stackend; size_t stk_align; size_t stk_size; char *stk_base; char *stk_strp; int *stk_offp; size_t usrstack_size; uint_t stk_prot; uint_t dat_prot; int traceinval; model_t to_model; model_t from_model; size_t to_ptrsize; size_t from_ptrsize; size_t ncargs; struct execsw *execswp; uintptr_t entry; uintptr_t thrptr; vnode_t *ex_vp; char *emulator; char *brandname; char *auxp_brand_phdr; /* addr of brand phdr auxv on user stack */ } uarg_t; /* * Possible brand actions for exec. */ #define EBA_NONE 0 #define EBA_NATIVE 1 #define EBA_BRAND 2 /* * The following macro is a machine dependent encapsulation of * postfix processing to hide the stack direction from elf.c * thereby making the elf.c code machine independent. */ #define execpoststack(ARGS, ARRAYADDR, BYTESIZE) \ (copyout((caddr_t)(ARRAYADDR), (ARGS)->stackend, (BYTESIZE)) ? EFAULT \ : (((ARGS)->stackend += (BYTESIZE)), 0)) /* * This provides the current user stack address for an object of size BYTESIZE. * Used to determine the stack address just before applying execpoststack(). */ #define stackaddress(ARGS, BYTESIZE) ((ARGS)->stackend) /* * Macro to add attribute/values the aux vector under construction. */ /* BEGIN CSTYLED */ #if ((_LONG_ALIGNMENT == (2 * _INT_ALIGNMENT)) || \ (_POINTER_ALIGNMENT == (2 * _INT_ALIGNMENT))) /* END CSTYLED */ /* * This convoluted stuff is necessitated by the fact that there is * potential padding in the aux vector, but not necessarily and * without clearing the padding there is a small, but potential * security hole. */ #define ADDAUX(p, a, v) { \ (&(p)->a_type)[1] = 0; \ (p)->a_type = (a); \ (p)->a_un.a_val = (v); \ ++(p); \ } #else #define ADDAUX(p, a, v) { \ (p)->a_type = (a); \ ((p)++)->a_un.a_val = (v); \ } #endif #define INTPSZ MAXPATHLEN typedef struct intpdata { char *intp; char *intp_name; char *intp_arg; } intpdata_t; #define EXECSETID_SETID 0x1 /* setid exec */ #define EXECSETID_UGIDS 0x2 /* [ug]ids mismatch */ #define EXECSETID_PRIVS 0x4 /* more privs than before */ struct execsw { char *exec_magic; int exec_magoff; int exec_maglen; int (*exec_func)(struct vnode *vp, struct execa *uap, struct uarg *args, struct intpdata *idata, int level, long *execsz, int setid, caddr_t exec_file, struct cred *cred, int brand_action); int (*exec_core)(struct vnode *vp, struct proc *p, struct cred *cred, rlim64_t rlimit, int sig, core_content_t content); krwlock_t *exec_lock; }; extern short elfmagic; extern short intpmagic; extern short javamagic; #if defined(__sparc) extern short aout_zmagic; extern short aout_nmagic; extern short aout_omagic; #endif extern short nomagic; extern char elf32magicstr[]; extern char elf64magicstr[]; extern char intpmagicstr[]; extern char javamagicstr[]; #if defined(__sparc) extern char aout_nmagicstr[]; extern char aout_zmagicstr[]; extern char aout_omagicstr[]; #endif extern char nomagicstr[]; extern int exec_args(execa_t *, uarg_t *, intpdata_t *, void **); extern int exec(const char *fname, const char **argp); extern int exece(const char *fname, const char **argp, const char **envp); extern int exec_common(const char *fname, const char **argp, const char **envp, int brand_action); extern int gexec(vnode_t **vp, struct execa *uap, struct uarg *args, struct intpdata *idata, int level, long *execsz, caddr_t exec_file, struct cred *cred, int brand_action); extern struct execsw *allocate_execsw(char *name, char *magic, size_t magic_size); extern struct execsw *findexecsw(char *magic); extern struct execsw *findexec_by_hdr(char *header); extern struct execsw *findexec_by_magic(char *magic); extern int execpermissions(struct vnode *vp, struct vattr *vattrp, struct uarg *args); extern int execmap(vnode_t *vp, caddr_t addr, size_t len, size_t zfodlen, off_t offset, int prot, int page, uint_t); extern void setexecenv(struct execenv *ep); extern int execopen(struct vnode **vpp, int *fdp); extern int execclose(int fd); extern void setregs(uarg_t *); extern void exec_set_sp(size_t); /* * Utility functions for branded process executing */ #if !defined(_ELF32_COMPAT) /* * When compiling 64-bit kernels we don't want these definitions included * when compiling the 32-bit compatability elf code in the elfexec module. */ extern int elfexec(vnode_t *, execa_t *, uarg_t *, intpdata_t *, int, long *, int, caddr_t, cred_t *, int); extern int mapexec_brand(vnode_t *, uarg_t *, Ehdr *, Addr *, intptr_t *, caddr_t, int *, caddr_t *, caddr_t *, size_t *); #endif /* !_ELF32_COMPAT */ #if defined(_LP64) extern int elf32exec(vnode_t *, execa_t *, uarg_t *, intpdata_t *, int, long *, int, caddr_t, cred_t *, int); extern int mapexec32_brand(vnode_t *, uarg_t *, Elf32_Ehdr *, Elf32_Addr *, intptr_t *, caddr_t, int *, caddr_t *, caddr_t *, size_t *); #endif /* _LP64 */ /* * Utility functions for exec module core routines: */ extern int core_seg(proc_t *, vnode_t *, offset_t, caddr_t, size_t, rlim64_t, cred_t *); extern int core_write(vnode_t *, enum uio_seg, offset_t, const void *, size_t, rlim64_t, cred_t *); /* a.out stuff */ struct exec; extern caddr_t gettmem(struct exec *exp); extern caddr_t getdmem(struct exec *exp); extern ulong_t getdfile(struct exec *exp); extern uint_t gettfile(struct exec *exp); extern int chkaout(struct exdata *exp); extern void getexinfo(struct exdata *edp_in, struct exdata *edp_out, int *pagetext, int *pagedata); #endif /* _KERNEL */ #ifdef __cplusplus } #endif #endif /* _SYS_EXEC_H */