Mercurial > hg > xemacs-beta
view src/unexnext.c @ 3063:d30cd499e445
[xemacs-hg @ 2005-11-13 10:48:01 by ben]
further error-checking, etc.
alloc.c, lrecord.h: Move around the handling of setting of lheader->uid so it's in
set_lheader_implementation() -- that way, even non-MC-ALLOC builds
get useful uid's in their bare lrecords. Redo related code for
strings so the non-ascii count that is stored in the uid isn't hosed.
events.c: Save and restore the uid around event zeroing/deadbeefing.
lisp.h: Set the correct value of MAX_STRING_ASCII_BEGIN under MC_ALLOC.
lisp.h: rearrange the basic code handling ints and chars. basic int stuff goes
first, followed by basic char stuff, followed in turn by stuff that
mixes ints and chars. this is required since some basic defn's have
become inline functions.
XCHAR and CHARP have additional error-checking in that they check to make
sure that the value in question is not just a character but a valid
character (i.e. its numeric value is valid).
print.c: debug_p4 now has a useful UID in all cases and uses it; but it also prints
the raw header address (previously, you just got one of them).
text.h: some basic char defn's that belonged in lisp.h have been moved there.
valid_ichar_p() is moved too since the inline functions need it.
| author | ben |
|---|---|
| date | Sun, 13 Nov 2005 10:48:04 +0000 |
| parents | ab71ad6ff3dd |
| children |
line wrap: on
line source
/* Dump Emacs in macho format. Copyright (C) 1990-1993 Free Software Foundation, Inc. Written by Bradley Taylor (btaylor@next.com). This file is part of XEmacs. XEmacs is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. XEmacs is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with XEmacs; see the file COPYING. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* Synched up with: NeXT port */ #include <stdio.h> #include <libc.h> #include <nlist.h> #include <mach/mach.h> #include <mach-o/ldsyms.h> #include <mach-o/loader.h> int malloc_cookie; static void fatal_unexec(char *format, ...) { va_list ap; va_start(ap, format); fprintf(stderr, "unexec: "); vfprintf(stderr, format, ap); fprintf(stderr, "\n"); va_end(ap); exit(1); } static void mcopy(int ffd,int tfd, unsigned long fpos,unsigned long tpos,unsigned long len) { if ((ffd==-1)&&(tfd==-1)) { char *f,*t,*e; if (fpos>tpos) { f=(char *)fpos; t=(char *)tpos; e=(char *)(fpos+len); while(f<e) *t++=*f++; } else if (tpos>fpos) { f=(char *)(fpos+len); t=(char *)(tpos+len); e=(char *)fpos; while(f>e) *--t=*--f; } } else if (ffd==-1) { if (lseek(tfd,tpos,L_SET)<0) fatal_unexec("cannot seek target"); if (write(tfd,(void *)fpos,len)!=len) fatal_unexec("cannot write target"); } else if (tfd==-1) { if (lseek(ffd,fpos,L_SET)<0) fatal_unexec("cannot seek source"); if (read(ffd,(void *)tpos,len)!=len) fatal_unexec("cannot read source"); } else { int bread; char *buf=alloca(1<<16); if (lseek(ffd,fpos,L_SET)<0) fatal_unexec("cannot seek source"); if (lseek(tfd,tpos,L_SET)<0) fatal_unexec("cannot seek target"); while((len>0) && (bread=read(ffd,buf,MIN(1<<16,len)))>0) { if (bread<0) fatal_unexec("cannot read source"); if (write(tfd,buf,bread)!=bread) fatal_unexec("cannot write target"); len-=bread; } } } static void unexec_doit(int infd,int outfd) { int i,j,hpos,opos; extern int malloc_freezedry(void); struct region { struct region *next; unsigned long addr; unsigned long size; vm_prot_t prot; vm_prot_t mprot; } *regions=0,*cregion,**pregions; struct mach_header mh; struct segment_command *lc,*sp; struct symtab_command *st; struct section *sect; malloc_cookie=malloc_freezedry(); { vm_task_t task=task_self(); vm_address_t addr; vm_size_t size; vm_prot_t prot,mprot; vm_inherit_t inhe; boolean_t shrd; port_t name; vm_offset_t offset; for(addr=VM_MIN_ADDRESS,pregions=®ions; vm_region(task,&addr,&size,&prot,&mprot, &inhe,&shrd,&name,&offset)==KERN_SUCCESS; addr += size) { (*pregions)=alloca(sizeof(struct region)); (*pregions)->addr=addr; (*pregions)->size=size; (*pregions)->prot=prot; (*pregions)->mprot=mprot; (*pregions)->next=0; pregions=&((*pregions)->next); } } for(cregion=regions;cregion;cregion=cregion->next) while ((cregion->next) && (cregion->next->addr==cregion->addr+cregion->size) && (cregion->next->prot==cregion->prot) && (cregion->next->mprot==cregion->mprot)) { cregion->size += cregion->next->size; cregion->next = cregion->next->next; } mcopy(infd,-1,0,(unsigned long) &mh,sizeof(mh)); lc=alloca(mh.sizeofcmds); mcopy(infd,-1,sizeof(mh),(unsigned long) lc,mh.sizeofcmds); for(pregions=®ions;*pregions;) { if (!((*pregions)->prot&VM_PROT_WRITE) || ((*pregions)->addr>=0x3000000)) goto kill_region; for(sp=lc,i=0; i<mh.ncmds; i++,sp=(struct segment_command *)(((char *)sp)+sp->cmdsize)) { unsigned long ob,oe; if (sp->cmd!=LC_SEGMENT||(strcmp(sp->segname,SEG_DATA)==0)) continue; ob=MAX((*pregions)->addr,sp->vmaddr); oe=MIN((*pregions)->addr+(*pregions)->size,sp->vmaddr+sp->vmsize); if (ob >= oe) continue; if (ob==(*pregions)->addr) if (oe==(*pregions)->addr+(*pregions)->size) { goto kill_region; } else { (*pregions)->addr=oe; (*pregions)->size-=(oe-ob); } else if (oe==(*pregions)->addr+(*pregions)->size) { (*pregions)->size-=(oe-ob); } else { cregion=alloca(sizeof(*cregion)); cregion->addr=oe; cregion->size=((*pregions)->addr+(*pregions)->size)-oe; cregion->prot=(*pregions)->prot; cregion->mprot=(*pregions)->mprot; cregion->next=(*pregions)->next; (*pregions)->size=ob-(*pregions)->addr; (*pregions)->next=cregion; } } pregions=&((*pregions)->next); continue; kill_region: *pregions=(*pregions)->next; } for(sp=lc,i=mh.ncmds,hpos=sizeof(mh),opos=0; i>0; i--,sp=(struct segment_command *)(((char *)sp)+sp->cmdsize)) switch (sp->cmd) { case LC_SEGMENT: if (strcmp(sp->segname,SEG_DATA)==0) { mh.ncmds--; j=sp->cmdsize; while (regions) { mcopy(-1,outfd,regions->addr,opos,regions->size); sp->cmd=LC_SEGMENT; sp->cmdsize=sizeof(*sp); strncpy(sp->segname,SEG_DATA,sizeof(sp->segname)); sp->vmaddr=regions->addr; sp->vmsize=regions->size; sp->filesize=regions->size; sp->maxprot=regions->prot; sp->initprot=regions->mprot; sp->nsects=0; sp->flags=0; sp->fileoff=opos; opos+=sp->filesize; mcopy(-1,outfd,(unsigned long)sp,hpos,sp->cmdsize); hpos+=sp->cmdsize; mh.ncmds++; regions=regions->next; } sp->cmdsize=j; regions=0; } else if (strcmp(sp->segname,SEG_LINKEDIT)==0) { mh.ncmds--; } else { mcopy(infd,outfd,sp->fileoff,opos,sp->filesize); sect=(struct section *) (((char *)sp)+sizeof(*sp)); for(j=0;j<sp->nsects;j++) { if (sect[j].offset!=0) sect[j].offset=(sect[j].offset-sp->fileoff)+opos; if (sect[j].reloff!=0) sect[j].reloff=(sect[j].reloff-sp->fileoff)+opos; } sp->fileoff=opos; opos+=sp->filesize; mcopy(-1,outfd,(unsigned long)sp,hpos,sp->cmdsize); hpos+=sp->cmdsize; } break; case LC_SYMTAB: st=(struct symtab_command *)sp; mcopy(infd,outfd,st->symoff,opos,st->nsyms*sizeof(struct nlist)); st->symoff=opos; opos+=sizeof(struct nlist)*st->nsyms; mcopy(infd,outfd,st->stroff,opos,st->strsize); ((struct symtab_command *)sp)->stroff=opos; opos+=((struct symtab_command *)sp)->strsize; default: mcopy(-1,outfd,(unsigned long)sp,hpos,sp->cmdsize); hpos+=sp->cmdsize; } mh.sizeofcmds=hpos-sizeof(mh); mcopy(-1,outfd,(unsigned long) &mh,0,sizeof(mh)); } void unexec(char *outfile,char *infile) { char tmpfile[PATH_MAX_EXTERNAL]; int infd,outfd; if ((infd=open(infile, O_RDONLY, 0))<0) fatal_unexec("cannot open input file `%s'", infile); strcpy(tmpfile,outfile); strcat(tmpfile,"-temp"); if ((outfd=open(tmpfile, O_RDWR|O_TRUNC|O_CREAT, 0755))<0) fatal_unexec("cannot open temporary output file `%s'",tmpfile); unexec_doit(infd,outfd); close(infd); close(outfd); if (rename(tmpfile, outfile)<0) { unlink(tmpfile); fatal_unexec("cannot rename `%s' to `%s'", tmpfile, outfile); } }