/* * Copyright (c) 1999 Apple Computer, Inc. All rights reserved. * * @APPLE_LICENSE_HEADER_START@ * * Copyright (c) 1999-2003 Apple Computer, Inc. All Rights Reserved. * * 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. 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_LICENSE_HEADER_END@ */ /* * Copyright (c) 1995 NeXT Computer, Inc. All Rights Reserved */ #include "SYS.h" #if 0 LEAF(_vfork, 0) CALL_EXTERN(__cthread_fork_prepare) #if defined(__DYNAMIC__) // Just like __cthread_fork_prepare we need to prevent threads on the child's // side from doing a mach call in the dynamic linker until __dyld_fork_child // is run (see below). So we call __dyld_fork_prepare which takes out the dyld // lock to prevent all other threads but this one from entering dyld. .cstring LC1: .ascii "__dyld_fork_prepare\0" .text subl $4,%esp // allocate space for the address parameter leal 0(%esp),%eax // get the address of the allocated space pushl %eax // push the address of the allocated space call 1f 1: popl %eax leal LC1-1b(%eax),%eax pushl %eax // push the name of the function to look up call __dyld_func_lookup addl $8,%esp // remove parameters to __dyld_func_lookup movl 0(%esp),%eax // move the value returned in address parameter addl $4,%esp // deallocate the space for the address param call *%eax // call __dyld_fork_prepare indirectly #endif movl $ SYS_vfork,%eax; // code for vfork -> eax UNIX_SYSCALL_TRAP; // do the system call jnc L1 // jump if CF==0 #if defined(__DYNAMIC__) // __dyld_fork_parent() is called by the parent process after a vfork syscall. // This releases the dyld lock acquired by __dyld_fork_prepare(). In this case // we just use it to clean up after a vfork error so the parent process can // dyld after vfork() errors without deadlocking. .cstring LC2: .ascii "__dyld_fork_parent\0" .text pushl %eax // save the return value (errno) subl $4,%esp // allocate space for the address parameter leal 0(%esp),%eax // get the address of the allocated space pushl %eax // push the address of the allocated space call 1f 1: popl %eax leal LC2-1b(%eax),%eax pushl %eax // push the name of the function to look up call __dyld_func_lookup addl $8,%esp // remove parameters to __dyld_func_lookup movl 0(%esp),%eax // move the value returned in address parameter addl $4,%esp // deallocate the space for the address param call *%eax // call __dyld_fork_parent indirectly popl %eax // restore the return value (errno) #endif CALL_EXTERN(cerror) CALL_EXTERN(__cthread_fork_parent) movl $-1,%eax ret L1: orl %edx,%edx // CF=OF=0, ZF set if zero result jz L2 // parent, since r1 == 0 in parent, 1 in child //child here... #if defined(__DYNAMIC__) // Here on the child side of the vfork we need to tell the dynamic linker that // we have vforked. To do this we call __dyld_fork_child in the dyanmic // linker. But since we can't dynamicly bind anything until this is done we // do this by using the private extern __dyld_func_lookup() function to get the // address of __dyld_fork_child (the 'C' code equivlent): // // _dyld_func_lookup("__dyld_fork_child", &address); // address(); // .cstring LC0: .ascii "__dyld_fork_child\0" .text subl $4,%esp // allocate space for the address parameter leal 0(%esp),%eax // get the address of the allocated space pushl %eax // push the address of the allocated space call 1f 1: popl %eax leal LC0-1b(%eax),%eax pushl %eax // push the name of the function to look up call __dyld_func_lookup addl $8,%esp // remove parameters to __dyld_func_lookup movl 0(%esp),%eax // move the value returned in address parameter addl $4,%esp // deallocate the space for the address param call *%eax // call __dyld_fork_child indirectly #endif CALL_EXTERN(_fork_mach_init) CALL_EXTERN(__cthread_fork_child) #if defined(__DYNAMIC__) .cstring LC10: .ascii "__dyld_fork_child_final\0" .text subl $4,%esp // allocate space for the address parameter leal 0(%esp),%eax // get the address of the allocated space pushl %eax // push the address of the allocated space call 1f 1: popl %eax leal LC10-1b(%eax),%eax pushl %eax // push the name of the function to look up call __dyld_func_lookup addl $8,%esp // remove parameters to __dyld_func_lookup movl 0(%esp),%eax // move the value returned in address parameter addl $4,%esp // deallocate the space for the address param call *%eax // call __dyld_fork_child_final indirectly #endif xorl %eax,%eax // zero eax ret //parent here... L2: push %eax // save pid #if defined(__DYNAMIC__) // __dyld_fork_parent() is called by the parent process after a vfork syscall. // This releases the dyld lock acquired by __dyld_fork_prepare(). subl $4,%esp // allocate space for the address parameter leal 0(%esp),%eax // get the address of the allocated space pushl %eax // push the address of the allocated space call 1f 1: popl %eax leal LC2-1b(%eax),%eax pushl %eax // push the name of the function to look up call __dyld_func_lookup addl $8,%esp // remove parameters to __dyld_func_lookup movl 0(%esp),%eax // move the value returned in address parameter addl $4,%esp // deallocate the space for the address param call *%eax // call __dyld_fork_parent indirectly #endif CALL_EXTERN_AGAIN(__cthread_fork_parent) pop %eax ret #else LEAF(_vfork, 0) popl %ecx movl $ SYS_vfork,%eax; // code for vfork -> eax UNIX_SYSCALL_TRAP; // do the system call jnb L1 // jump if CF==0 pushl %ecx BRANCH_EXTERN(cerror) L1: orl %edx,%edx // CF=OF=0, ZF set if zero result jz L2 // parent, since r1 == 0 in parent, 1 in child xorl %eax,%eax // zero eax jmp *%ecx L2: jmp *%ecx #endif