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view lwlink/script.c @ 234:d389adbcc4ab
Added section base and length symbols to lwlink
Added the ability for a link script to define section base and section
length symbols when linking. These symbols are searched for when an external
reference is resolved before looking up any symbols in the various objects
being linked. Also documented the new link script directives and added such
directives to all default link scripts.
author | William Astle <lost@l-w.ca> |
---|---|
date | Fri, 10 Aug 2012 23:47:56 -0600 |
parents | c6a38fd8bd33 |
children | ce1fdc8d6568 |
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/* script.c Copyright © 2009 William Astle This file is part of LWLINK. LWLINK 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 3 of the License, or (at your option) any later version. This program 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 this program. If not, see <http://www.gnu.org/licenses/>. Read and parse linker scripts */ #include <ctype.h> #include <errno.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <lw_alloc.h> #include <lw_string.h> #include "lwlink.h" // the built-in OS9 script // the 000D bit is to handle the module header! static char *os9_script = "define basesympat s_%s\n" "define lensympat l_%s\n" "section code load 000D\n" "section .text\n" "section data\n" "section .data\n" "section bss,bss load 0000\n" "section .bss,bss\n" "entry __start\n" ; // the built-in DECB target linker script static char *decb_script = "define basesympat s_%s\n" "define lensympat l_%s\n" "section init load 2000\n" "section code\n" "section *,!bss\n" "section *,bss\n" "entry 2000\n" ; // the built-in RAW target linker script static char *raw_script = "define basesympat s_%s\n" "define lensympat l_%s\n" "section init load 0000\n" "section code\n" "section *,!bss\n" "section *,bss\n" ; static char *lwex0_script = "define basesympat s_%s\n" "define lensympat l_%s\n" "section init load 0100\n" "section .text\n" "section .data\n" "section .ctors_start\n" "section .ctors\n" "section .ctors_end\n" "section .dtors_start\n" "section .dtors\n" "section .dtors_end\n" "section *,!bss\n" "section *,bss\n" "entry __start\n" "stacksize 0100\n" // default 256 byte stack ; // the "simple" script static char *simple_script = "define basesympat s_%s\n" "define lensympat l_%s\n" "section *,!bss\n" "section *,bss\n" ; linkscript_t linkscript = { 0, NULL, -1 }; void setup_script() { char *script, *oscript; long size; // read the file if needed if (scriptfile) { FILE *f; long bread; f = fopen(scriptfile, "rb"); if (!f) { fprintf(stderr, "Can't open file %s:", scriptfile); perror(""); exit(1); } fseek(f, 0, SEEK_END); size = ftell(f); rewind(f); script = lw_alloc(size + 2); bread = fread(script, 1, size, f); if (bread < size) { fprintf(stderr, "Short read on file %s (%ld/%ld):", scriptfile, bread, size); perror(""); exit(1); } fclose(f); script[size] = '\n'; script[size + 1] = '\0'; } else { // fetch defaults based on output mode switch (outformat) { case OUTPUT_RAW: script = raw_script; break; case OUTPUT_DECB: script = decb_script; break; case OUTPUT_LWEX0: script = lwex0_script; break; case OUTPUT_OS9: script = os9_script; break; default: script = simple_script; break; } size = strlen(script); if (nscriptls) { char *rscript; int i; // prepend the "extra" script lines for (i = 0; i < nscriptls; i++) size += strlen(scriptls[i]) + 1; rscript = lw_alloc(size + 1); oscript = rscript; for (i = 0; i < nscriptls; i++) { oscript += sprintf(oscript, "%s\n", scriptls[i]); } strcpy(oscript, script); script = rscript; } } if (outformat == OUTPUT_LWEX0) linkscript.stacksize = 0x100; if (outformat == OUTPUT_OS9) { linkscript.modtype = 0x01; linkscript.modlang = 0x01; linkscript.modattr = 0x08; linkscript.modrev = 0x00; linkscript.name = NULL; } oscript = script; // now parse the script file while (*script) { char *ptr, *ptr2, *line; for (ptr = script; *ptr && *ptr != '\n' && *ptr != '\r'; ptr++) /* do nothing */ ; line = lw_alloc(ptr - script + 1); memcpy(line, script, ptr - script); line[ptr - script] = '\0'; // skip line terms for (script = ptr + 1; *script == '\n' || *script == '\r'; script++) /* do nothing */ ; // ignore leading whitespace for (ptr = line; *ptr && isspace(*ptr); ptr++) /* do nothing */ ; // ignore blank lines if (!*ptr) continue; for (ptr = line; *ptr && !isspace(*ptr); ptr++) /* do nothing */ ; // now ptr points to the char past the first word // NUL it out if (*ptr) *ptr++ = '\0'; // skip spaces after the first word for ( ; *ptr && isspace(*ptr); ptr++) /* do nothing */ ; if (!strcmp(line, "define")) { // parse out the definition type for (ptr2 = ptr; *ptr2 && !isspace(*ptr2); ptr2++) /* do nothing */ ; if (*ptr2) *ptr2++ = '\0'; while (*ptr2 && isspace(*ptr2)) ptr2++; // now ptr points to the define type if (!strcmp(ptr, "basesympat")) { /* section base symbol pattern */ lw_free(linkscript.basesympat); linkscript.basesympat = lw_strdup(ptr2); } else if (!strcmp(ptr, "lensympat")) { /* section length symbol pattern */ lw_free(linkscript.lensympat); linkscript.lensympat = lw_strdup(ptr2); } else { fprintf(stderr, "%s: bad script line: %s\n", scriptfile, line); exit(1); } } else if (!strcmp(line, "pad")) { // padding // parse the hex number and stow it linkscript.padsize = strtol(ptr, NULL, 16); if (linkscript.padsize < 0) linkscript.padsize = 0; } else if (!strcmp(line, "stacksize")) { // stack size for targets that support it // parse the hex number and stow it linkscript.padsize = strtol(ptr, NULL, 16); if (linkscript.stacksize < 0) linkscript.stacksize = 0x100; } else if (!strcmp(line, "entry")) { int eaddr; eaddr = strtol(ptr, &ptr2, 16); if (*ptr2) { linkscript.execaddr = -1; linkscript.execsym = lw_strdup(ptr); } else { linkscript.execaddr = eaddr; linkscript.execsym = NULL; } } else if (!strcmp(line, "section")) { // section // parse out the section name and flags for (ptr2 = ptr; *ptr2 && !isspace(*ptr2); ptr2++) /* do nothing */ ; if (*ptr2) *ptr2++ = '\0'; while (*ptr2 && isspace(*ptr2)) ptr2++; // ptr now points to the section name and flags and ptr2 // to the first non-space character following // then look for "load <addr>" clause if (*ptr2) { if (!strncmp(ptr2, "load", 4)) { ptr2 += 4; while (*ptr2 && isspace(*ptr2)) ptr2++; } else { fprintf(stderr, "%s: bad script\n", scriptfile); exit(1); } } // now ptr2 points to the load address if there is one // or NUL if not linkscript.lines = lw_realloc(linkscript.lines, sizeof(struct scriptline_s) * (linkscript.nlines + 1)); linkscript.lines[linkscript.nlines].noflags = 0; linkscript.lines[linkscript.nlines].yesflags = 0; if (*ptr2) linkscript.lines[linkscript.nlines].loadat = strtol(ptr2, NULL, 16); else linkscript.lines[linkscript.nlines].loadat = -1; for (ptr2 = ptr; *ptr2 && *ptr2 != ','; ptr2++) /* do nothing */ ; if (*ptr2) { *ptr2++ = '\0'; if (!strcmp(ptr2, "!bss")) { linkscript.lines[linkscript.nlines].noflags = SECTION_BSS; } else if (!strcmp(ptr2, "bss")) { linkscript.lines[linkscript.nlines].yesflags = SECTION_BSS; } else { fprintf(stderr, "%s: bad script\n", scriptfile); exit(1); } } if (ptr[0] == '*' && ptr[1] == '\0') linkscript.lines[linkscript.nlines].sectname = NULL; else linkscript.lines[linkscript.nlines].sectname = lw_strdup(ptr); linkscript.nlines++; } else { fprintf(stderr, "%s: bad script line: %s\n", scriptfile, line); exit(1); } lw_free(line); } if (scriptfile || nscriptls) lw_free(oscript); if (entrysym) { int eaddr; char *ptr2; lw_free(linkscript.execsym); eaddr = strtol(entrysym, &ptr2, 0); if (*ptr2) { linkscript.execaddr = -1; linkscript.execsym = lw_strdup(entrysym); } else { linkscript.execaddr = eaddr; linkscript.execsym = NULL; } } }