/* unexec for GNU Emacs on Cygwin32. Copyright (C) 1994, 1998 Free Software Foundation, Inc. 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. */ /* This is a complete rewrite, some code snarfed from unexnt.c and unexec.c, Andy Piper (andy@xemacs.org) 13-1-98 */ #include #include "lisp.h" #include #include #include #include #include #define DONT_ENCAPSULATE /* filenames are external in unex*.c */ #include "sysfile.h" #define PERROR(arg) perror(arg);exit(-1) #if !defined(HAVE_A_OUT_H) && !defined(WIN32_NATIVE) unexec (char *, char *, void *, void *, void *) { PERROR("cannot unexec() a.out.h not installed"); } #else #ifndef MAX_PATH #define MAX_PATH 260 #endif #ifdef MINGW #include <../../include/a.out.h> #else #include #endif #define STACK_SIZE 0x800000 #define ALLOC_UNIT 0xFFFF #define ALLOC_MASK ~((unsigned long)(ALLOC_UNIT)) #define ALIGN_ALLOC(addr) \ ((((unsigned long)addr) + ALLOC_UNIT) & ALLOC_MASK) /* Note that all sections must be aligned on a 0x1000 boundary so this is the minimum size that our dummy bss can be. */ #ifndef NO_DEBUG #define BSS_PAD_SIZE 0x1000 #else #define BSS_PAD_SIZE 0 #endif /* To prevent zero-initialized variables from being placed into the bss section, use non-zero values to represent an uninitialized state. */ #define UNINIT_PTR ((void *) 0xF0A0F0A0) #define UNINIT_LONG (0xF0A0F0A0L) static void get_section_info (int a_out, char* a_name); static void copy_executable_and_dump_data_section (int a_out, int a_new); static void dup_file_area(int a_out, int a_new, long size); #if 0 static void write_int_to_bss(int a_out, int a_new, void* va, void* newval); #endif /* Cached info about the .data section in the executable. */ void* data_start_va = UNINIT_PTR; unsigned long data_size = UNINIT_LONG; /* Cached info about the .bss section in the executable. */ void* bss_start = UNINIT_PTR; unsigned long bss_size = UNINIT_LONG; int sections_reversed = 0; FILHDR f_hdr; PEAOUTHDR f_ohdr; SCNHDR f_data, f_bss, f_text, f_nextdata; #define PERROR(arg) perror(arg);exit(-1) #define CHECK_AOUT_POS(a) \ if (lseek(a_out, 0, SEEK_CUR) != a) \ { \ printf("we are at %lx, should be at %lx\n", \ lseek(a_out, 0, SEEK_CUR), a); \ exit(-1); \ } /* Dump out .data and .bss sections into a new executable. */ int unexec (char *out_name, char *in_name, uintptr_t start_data, uintptr_t d1, uintptr_t d2) { /* ugly nt hack - should be in lisp */ int a_new, a_out = -1; char new_name[MAX_PATH], a_name[MAX_PATH]; char *ptr; /* Make sure that the input and output filenames have the ".exe" extension...patch them up if they don't. */ strcpy (a_name, in_name); ptr = a_name + strlen (a_name) - 4; if (strcmp (ptr, ".exe")) strcat (a_name, ".exe"); strcpy (new_name, out_name); ptr = new_name + strlen (new_name) - 4; if (strcmp (ptr, ".exe")) strcat (new_name, ".exe"); /* We need to round off our heap to NT's allocation unit (64KB). */ /* round_heap (get_allocation_unit ()); */ if (a_name && (a_out = open (a_name, O_RDONLY | OPEN_BINARY)) < 0) { PERROR (a_name); } if ((a_new = open (new_name, O_WRONLY | O_TRUNC | O_CREAT | OPEN_BINARY, 0755)) < 0) { PERROR (new_name); } /* Get the interesting section info, like start and size of .bss... */ get_section_info (a_out, a_name); copy_executable_and_dump_data_section (a_out, a_new); close(a_out); close(a_new); return 0; } /* Flip through the executable and cache the info necessary for dumping. */ static void get_section_info (int a_out, char* a_name) { extern char my_ebss[]; /* From lastfile.c */ extern char my_edata[]; if (read (a_out, &f_hdr, sizeof (f_hdr)) != sizeof (f_hdr)) { PERROR (a_name); } if (f_hdr.e_magic != DOSMAGIC) { PERROR("unknown exe header"); } /* Check the NT header signature ... */ if (f_hdr.nt_signature != NT_SIGNATURE) { PERROR("invalid nt header"); } /* Flip through the sections for .data and .bss ... */ if (f_hdr.f_opthdr > 0) { if (read (a_out, &f_ohdr, AOUTSZ) != AOUTSZ) { PERROR (a_name); } } /* Loop through .data & .bss section headers, copying them in. With newer lds these are reversed so we have to cope with both */ lseek (a_out, sizeof (f_hdr) + f_hdr.f_opthdr, 0); if (read (a_out, &f_text, sizeof (f_text)) != sizeof (f_text) || strcmp (f_text.s_name, ".text")) { PERROR ("no .text section"); } /* The .bss section. */ if (read (a_out, &f_bss, sizeof (f_bss)) != sizeof (f_bss) || (strcmp (f_bss.s_name, ".bss") && strcmp (f_bss.s_name, ".data"))) { PERROR ("no .bss / .data section"); } /* check for reversed .bss and .data */ if (!strcmp(f_bss.s_name, ".data")) { printf(".data and .bss reversed\n"); sections_reversed = 1; memcpy(&f_data, &f_bss, sizeof(f_bss)); } /* The .data section. */ if (!sections_reversed) { if (read (a_out, &f_data, sizeof (f_data)) != sizeof (f_data) || strcmp (f_data.s_name, ".data")) { PERROR ("no .data section"); } } else { if (read (a_out, &f_bss, sizeof (f_bss)) != sizeof (f_bss) || strcmp (f_bss.s_name, ".bss")) { PERROR ("no .bss section"); } } bss_start = (void *) ((char*)f_ohdr.ImageBase + f_bss.s_vaddr); bss_size = (unsigned long)((char*)&my_ebss-(char*)bss_start); /* must keep bss data that we want to be blank as blank */ printf("found bss - keeping %lx of %lx bytes\n", bss_size, f_ohdr.bsize); /* The .data section. */ data_start_va = (void *) ((char*)f_ohdr.ImageBase + f_data.s_vaddr); /* We want to only write Emacs data back to the executable, not any of the library data (if library data is included, then a dumped Emacs won't run on system versions other than the one Emacs was dumped on). */ data_size = (unsigned long)my_edata - (unsigned long)data_start_va; printf("found data - keeping %lx of %lx bytes\n", data_size, f_ohdr.dsize); /* The following data section - often .idata */ if (read (a_out, &f_nextdata, sizeof (f_nextdata)) != sizeof (f_nextdata) && strcmp (&f_nextdata.s_name[2], "data")) { PERROR ("no other data section"); } } /* The dump routines. */ static void copy_executable_and_dump_data_section (int a_out, int a_new) { long size=0; unsigned long new_data_size, new_bss_size, bss_padding, file_sz_change, data_padding=0, f_data_s_vaddr = f_data.s_vaddr, f_data_s_scnptr = f_data.s_scnptr, f_bss_s_vaddr = f_bss.s_vaddr, f_nextdata_s_scnptr = f_nextdata.s_scnptr; int i; void* empty_space; extern int static_heap_dumped; SCNHDR section; /* calculate new sizes: f_ohdr.dsize is the total initialized data size on disk which is f_data.s_size + f_idata.s_size. f_ohdr.data_start is the base addres of all data and so should not be changed. *.s_vaddr is the virtual address of the start of the section *normalized from f_ohdr.ImageBase. *.s_paddr appears to be the number of bytes in the section *actually used (whereas *.s_size is aligned). bsize is now 0 since subsumed into .data dsize is dsize + (f_data.s_vaddr - f_bss.s_vaddr) f_data.s_vaddr is f_bss.s_vaddr f_data.s_size is new dsize maybe. what about s_paddr & s_scnptr? */ /* this is the amount the file increases in size */ if (!sections_reversed) { new_bss_size = f_data.s_vaddr - f_bss.s_vaddr; data_padding = 0; } else { new_bss_size = f_nextdata.s_vaddr - f_bss.s_vaddr; data_padding = (f_bss.s_vaddr - f_data.s_vaddr) - f_data.s_size; } if ((new_bss_size - bss_size) < BSS_PAD_SIZE) { PERROR (".bss free space too small"); } file_sz_change=(new_bss_size + data_padding) - BSS_PAD_SIZE; new_data_size=f_ohdr.dsize + file_sz_change; if (!sections_reversed) { f_data.s_vaddr = f_bss.s_vaddr; } f_data.s_paddr += file_sz_change; #if 0 if (f_data.s_size + f_nextdata.s_size != f_ohdr.dsize) { printf("section size doesn't tally with dsize %lx != %lx\n", f_data.s_size + f_nextdata.s_size, f_ohdr.dsize); } #endif f_data.s_size += file_sz_change; lseek (a_new, 0, SEEK_SET); /* write file header */ f_hdr.f_symptr += file_sz_change; #ifdef NO_DEBUG f_hdr.f_nscns--; #endif printf("writing file header\n"); if (write(a_new, &f_hdr, sizeof(f_hdr)) != sizeof(f_hdr)) { PERROR("failed to write file header"); } /* write optional header fixing dsize & bsize*/ printf("writing optional header\n"); printf("new data size is %lx, >= %lx\n", new_data_size, f_ohdr.dsize + f_ohdr.bsize); if (new_data_size < f_ohdr.dsize + f_ohdr.bsize ) { printf("warning: new data size is < approx\n"); } f_ohdr.dsize=new_data_size; f_ohdr.bsize=BSS_PAD_SIZE; /* Prevent stack overflow with regexp usage. */ f_ohdr.SizeOfStackReserve = STACK_SIZE; if (write(a_new, &f_ohdr, sizeof(f_ohdr)) != sizeof(f_ohdr)) { PERROR("failed to write optional header"); } /* write text as is */ printf("writing text header (unchanged)\n"); if (write(a_new, &f_text, sizeof(f_text)) != sizeof(f_text)) { PERROR("failed to write text header"); } #ifndef NO_DEBUG /* Write small bss section. */ if (!sections_reversed) { f_bss.s_size = BSS_PAD_SIZE; f_bss.s_paddr = BSS_PAD_SIZE; f_bss.s_vaddr = f_data.s_vaddr - BSS_PAD_SIZE; if (write(a_new, &f_bss, sizeof(f_bss)) != sizeof(f_bss)) { PERROR("failed to write bss header"); } } #endif /* write new data header */ printf("writing .data header\n"); if (write(a_new, &f_data, sizeof(f_data)) != sizeof(f_data)) { PERROR("failed to write data header"); } #ifndef NO_DEBUG /* Write small bss section. */ if (sections_reversed) { f_bss.s_size = BSS_PAD_SIZE; f_bss.s_paddr = BSS_PAD_SIZE; f_bss.s_vaddr = f_nextdata.s_vaddr - BSS_PAD_SIZE; if (write(a_new, &f_bss, sizeof(f_bss)) != sizeof(f_bss)) { PERROR("failed to write bss header"); } } #endif printf("writing following data header\n"); f_nextdata.s_scnptr += file_sz_change; if (f_nextdata.s_lnnoptr != 0) f_nextdata.s_lnnoptr += file_sz_change; if (f_nextdata.s_relptr != 0) f_nextdata.s_relptr += file_sz_change; if (write(a_new, &f_nextdata, sizeof(f_nextdata)) != sizeof(f_nextdata)) { PERROR("failed to write nextdata header"); } /* copy other section headers adjusting the file offset */ for (i=0; i<(f_hdr.f_nscns-3); i++) { if (read (a_out, §ion, sizeof (section)) != sizeof (section)) { PERROR ("no .data section"); } section.s_scnptr += file_sz_change; if (section.s_lnnoptr != 0) section.s_lnnoptr += file_sz_change; if (section.s_relptr != 0) section.s_relptr += file_sz_change; if (write(a_new, §ion, sizeof(section)) != sizeof(section)) { PERROR("failed to write data header"); } } #ifdef NO_DEBUG /* dump bss to maintain offsets */ memset(&f_bss, 0, sizeof(f_bss)); if (write(a_new, &f_bss, sizeof(f_bss)) != sizeof(f_bss)) { PERROR("failed to write bss header"); } #endif size=lseek(a_new, 0, SEEK_CUR); CHECK_AOUT_POS(size); /* copy eveything else until start of data */ size = f_data_s_scnptr - lseek (a_out, 0, SEEK_CUR); printf ("copying executable up to data section ... %lx bytes\n", size); dup_file_area(a_out, a_new, size); CHECK_AOUT_POS(f_data_s_scnptr); if (!sections_reversed) { /* dump bss + padding between sections, sans small bss pad */ printf ("dumping .bss into executable... %lx bytes\n", bss_size); if (write(a_new, bss_start, bss_size) != (int)bss_size) { PERROR("failed to write bss section"); } /* pad, needs to be zero */ bss_padding = (new_bss_size - bss_size) - BSS_PAD_SIZE; if (bss_padding < 0) { PERROR("padded .bss too small"); } printf ("padding .bss ... %lx bytes\n", bss_padding); empty_space = malloc(bss_padding); memset(empty_space, 0, bss_padding); if (write(a_new, empty_space, bss_padding) != (int)bss_padding) { PERROR("failed to write bss section"); } free(empty_space); } /* tell dumped version not to free pure heap */ static_heap_dumped = 1; /* Get a pointer to the raw data in our address space. */ printf ("dumping .data section... %lx bytes\n", data_size); if (write(a_new, data_start_va, data_size) != (int)data_size) { PERROR("failed to write data section"); } /* were going to use free again ... */ static_heap_dumped = 0; size = lseek(a_out, f_data_s_scnptr + data_size, SEEK_SET); if (!sections_reversed) { size = f_nextdata_s_scnptr - size; dup_file_area(a_out, a_new, size); } else { /* need to pad to bss with data in file */ printf ("padding .data ... %lx bytes\n", data_padding); size = (f_bss_s_vaddr - f_data_s_vaddr) - data_size; dup_file_area(a_out, a_new, size); /* dump bss + padding between sections */ printf ("dumping .bss into executable... %lx bytes\n", bss_size); if (write(a_new, bss_start, bss_size) != (int)bss_size) { PERROR("failed to write bss section"); } /* pad, needs to be zero */ bss_padding = (new_bss_size - bss_size) - BSS_PAD_SIZE; if (bss_padding < 0) { PERROR("padded .bss too small"); } printf ("padding .bss ... %lx bytes\n", bss_padding); empty_space = malloc(bss_padding); memset(empty_space, 0, bss_padding); if (write(a_new, empty_space, bss_padding) != (int)bss_padding) { PERROR("failed to write bss section"); } free(empty_space); if (lseek(a_new, 0, SEEK_CUR) != f_nextdata.s_scnptr) { printf("at %lx should be at %lx\n", lseek(a_new, 0, SEEK_CUR), f_nextdata.s_scnptr); PERROR("file positioning error\n"); } lseek(a_out, f_nextdata_s_scnptr, SEEK_SET); } CHECK_AOUT_POS(f_nextdata_s_scnptr); /* now dump - nextdata don't need to do this cygwin ds is in .data! */ printf ("dumping following data section... %lx bytes\n", f_nextdata.s_size); dup_file_area(a_out,a_new,f_nextdata.s_size); /* write rest of file */ printf ("writing rest of file\n"); size = lseek(a_out, 0, SEEK_END); size = size - (f_nextdata_s_scnptr + f_nextdata.s_size); /* length remaining in a_out */ lseek(a_out, f_nextdata_s_scnptr + f_nextdata.s_size, SEEK_SET); dup_file_area(a_out, a_new, size); } /* * copy from aout to anew */ static void dup_file_area(int a_out, int a_new, long size) { char page[BUFSIZ]; long n; for (; size > 0; size -= sizeof (page)) { n = size > sizeof (page) ? sizeof (page) : size; if (read (a_out, page, n) != n || write (a_new, page, n) != n) { PERROR ("dump_out()"); } } } #if 0 static void write_int_to_bss(int a_out, int a_new, void* va, void* newval) { int cpos; cpos = lseek(a_new, 0, SEEK_CUR); if (va < bss_start || va > bss_start + f_data.s_size) { PERROR("address not in data space\n"); } lseek(a_new, f_data.s_scnptr + ((unsigned long)va - (unsigned long)bss_start), SEEK_SET); if (write(a_new, newval, sizeof(int)) != (int)sizeof(int)) { PERROR("failed to write int value"); } lseek(a_new, cpos, SEEK_SET); } #endif #endif /* HAVE_A_OUT_H */