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view lwasm/output.c @ 236:ce1fdc8d6568
Added ability to add padding after a section when linking.
Added the ability for lwlink to automatically append padding bytes to the
end of a section (once the section instances are merged). This behaviour is
controlled by the link script. See the updated documentation for more
information.
author | William Astle <lost@l-w.ca> |
---|---|
date | Sat, 11 Aug 2012 23:29:57 -0600 |
parents | 2b784a28428e |
children | d4ac484d0ec6 |
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/* output.c Copyright © 2009, 2010 William Astle This file is part of LWASM. LWASM 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/>. Contains the code for actually outputting the assembled code */ #include <errno.h> #include <stdio.h> #include <string.h> #include <unistd.h> #include <lw_alloc.h> #include <lw_expr.h> #include "lwasm.h" void write_code_raw(asmstate_t *as, FILE *of); void write_code_decb(asmstate_t *as, FILE *of); void write_code_rawrel(asmstate_t *as, FILE *of); void write_code_obj(asmstate_t *as, FILE *of); void write_code_os9(asmstate_t *as, FILE *of); // this prevents warnings about not using the return value of fwrite() // r++ prevents the "set but not used" warnings; should be optimized out #define writebytes(s, l, c, f) do { int r; r = fwrite((s), (l), (c), (f)); r++; } while (0) void do_output(asmstate_t *as) { FILE *of; if (as -> errorcount > 0) { fprintf(stderr, "Not doing output due to assembly errors.\n"); return; } of = fopen(as -> output_file, "wb"); if (!of) { fprintf(stderr, "Cannot open '%s' for output", as -> output_file); perror(""); return; } switch (as -> output_format) { case OUTPUT_RAW: write_code_raw(as, of); break; case OUTPUT_DECB: write_code_decb(as, of); break; case OUTPUT_RAWREL: write_code_rawrel(as, of); break; case OUTPUT_OBJ: write_code_obj(as, of); break; case OUTPUT_OS9: write_code_os9(as, of); break; default: fprintf(stderr, "BUG: unrecognized output format when generating output file\n"); fclose(of); unlink(as -> output_file); return; } fclose(of); } /* rawrel output treats an ORG directive as an offset from the start of the file. Undefined results will occur if an ORG directive moves the output pointer backward. This particular implementation uses "fseek" to handle ORG requests and to skip over RMBs. This simple brain damanged method simply does an fseek before outputting each instruction. */ void write_code_rawrel(asmstate_t *as, FILE *of) { line_t *cl; for (cl = as -> line_head; cl; cl = cl -> next) { if (cl -> outputl <= 0) continue; fseek(of, lw_expr_intval(cl -> addr), SEEK_SET); writebytes(cl -> output, cl -> outputl, 1, of); } } /* raw merely writes all the bytes directly to the file as is. ORG is just a reference for the assembler to handle absolute references. Multiple ORG statements will produce mostly useless results */ void write_code_raw(asmstate_t *as, FILE *of) { line_t *cl; for (cl = as -> line_head; cl; cl = cl -> next) { if (cl -> len > 0 && cl -> outputl == 0) { int i; for (i = 0; i < cl -> len; i++) writebytes("\0", 1, 1, of); continue; } else if (cl -> outputl > 0) writebytes(cl -> output, cl -> outputl, 1, of); } } /* OS9 target also just writes all the bytes in order. No need for anything else. */ void write_code_os9(asmstate_t *as, FILE *of) { line_t *cl; for (cl = as -> line_head; cl; cl = cl -> next) { // if (cl -> inmod == 0) // continue; if (cl -> len > 0 && cl -> outputl == 0) { int i; for (i = 0; i < cl -> len; i++) writebytes("\0", 1, 1, of); continue; } else if (cl -> outputl > 0) writebytes(cl -> output, cl -> outputl, 1, of); } } void write_code_decb(asmstate_t *as, FILE *of) { long preambloc; line_t *cl; int blocklen = -1; int nextcalc = -1; unsigned char outbuf[5]; int caddr; for (cl = as -> line_head; cl; cl = cl -> next) { if (cl -> outputl < 0) continue; caddr = lw_expr_intval(cl -> addr); if (caddr != nextcalc && cl -> outputl > 0) { // need preamble here if (blocklen > 0) { // update previous preamble if needed fseek(of, preambloc, SEEK_SET); outbuf[0] = (blocklen >> 8) & 0xFF; outbuf[1] = blocklen & 0xFF; writebytes(outbuf, 2, 1, of); fseek(of, 0, SEEK_END); } blocklen = 0; nextcalc = caddr; outbuf[0] = 0x00; outbuf[1] = 0x00; outbuf[2] = 0x00; outbuf[3] = (nextcalc >> 8) & 0xFF; outbuf[4] = nextcalc & 0xFF; preambloc = ftell(of) + 1; writebytes(outbuf, 5, 1, of); } nextcalc += cl -> outputl; writebytes(cl -> output, cl -> outputl, 1, of); blocklen += cl -> outputl; } if (blocklen > 0) { fseek(of, preambloc, SEEK_SET); outbuf[0] = (blocklen >> 8) & 0xFF; outbuf[1] = blocklen & 0xFF; writebytes(outbuf, 2, 1, of); fseek(of, 0, SEEK_END); } // now write postamble outbuf[0] = 0xFF; outbuf[1] = 0x00; outbuf[2] = 0x00; outbuf[3] = (as -> execaddr >> 8) & 0xFF; outbuf[4] = (as -> execaddr) & 0xFF; writebytes(outbuf, 5, 1, of); } void write_code_obj_sbadd(sectiontab_t *s, unsigned char b) { if (s -> oblen >= s -> obsize) { s -> obytes = lw_realloc(s -> obytes, s -> obsize + 128); s -> obsize += 128; } s -> obytes[s -> oblen] = b; s -> oblen += 1; } int write_code_obj_expraux(lw_expr_t e, void *of) { int tt; int v; int count = 1; unsigned char buf[16]; tt = lw_expr_type(e); switch (tt) { case lw_expr_type_oper: buf[0] = 0x04; switch (lw_expr_whichop(e)) { case lw_expr_oper_plus: buf[1] = 0x01; count = lw_expr_operandcount(e) - 1; break; case lw_expr_oper_minus: buf[1] = 0x02; break; case lw_expr_oper_times: buf[1] = 0x03; count = lw_expr_operandcount(e) - 1; break; case lw_expr_oper_divide: buf[1] = 0x04; break; case lw_expr_oper_mod: buf[1] = 0x05; break; case lw_expr_oper_intdiv: buf[1] = 0x06; break; case lw_expr_oper_bwand: buf[1] = 0x07; break; case lw_expr_oper_bwor: buf[1] = 0x08; break; case lw_expr_oper_bwxor: buf[1] = 0x09; break; case lw_expr_oper_and: buf[1] = 0x0A; break; case lw_expr_oper_or: buf[1] = 0x0B; break; case lw_expr_oper_neg: buf[1] = 0x0C; break; case lw_expr_oper_com: buf[1] = 0x0D; break; default: buf[1] = 0xff; } while (count--) writebytes(buf, 2, 1, of); return 0; case lw_expr_type_int: v = lw_expr_intval(e); buf[0] = 0x01; buf[1] = (v >> 8) & 0xff; buf[2] = v & 0xff; writebytes(buf, 3, 1, of); return 0; case lw_expr_type_special: v = lw_expr_specint(e); switch (v) { case lwasm_expr_secbase: { // replaced with a synthetic symbol sectiontab_t *se; se = lw_expr_specptr(e); writebytes("\x03\x02", 2, 1, of); writebytes(se -> name, strlen(se -> name) + 1, 1, of); return 0; } case lwasm_expr_import: { importlist_t *ie; ie = lw_expr_specptr(e); buf[0] = 0x02; writebytes(buf, 1, 1, of); writebytes(ie -> symbol, strlen(ie -> symbol) + 1, 1, of); return 0; } case lwasm_expr_syment: { struct symtabe *se; se = lw_expr_specptr(e); buf[0] = 0x03; writebytes(buf, 1, 1, of); writebytes(se -> symbol, strlen(se -> symbol), 1, of); if (se -> context != -1) { sprintf((char *)buf, "\x01%d", se -> context); writebytes(buf, strlen((char *)buf), 1, of); } writebytes("", 1, 1, of); return 0; } } default: // unrecognized term type - replace with integer 0 // fprintf(stderr, "Unrecognized term type: %s\n", lw_expr_print(e)); buf[0] = 0x01; buf[1] = 0x00; buf[2] = 0x00; writebytes(buf, 3, 1, of); break; } return 0; } void write_code_obj_auxsym(asmstate_t *as, FILE *of, sectiontab_t *s, struct symtabe *se2) { struct symtabe *se; unsigned char buf[16]; if (!se2) return; write_code_obj_auxsym(as, of, s, se2 -> left); for (se = se2; se; se = se -> nextver) { lw_expr_t te; debug_message(as, 200, "Consider symbol %s (%p) for export in section %p", se -> symbol, se -> section, s); // ignore symbols not in this section if (se -> section != s) continue; debug_message(as, 200, " In section"); if (se -> flags & symbol_flag_set) continue; debug_message(as, 200, " Not symbol_flag_set"); te = lw_expr_copy(se -> value); debug_message(as, 200, " Value=%s", lw_expr_print(te)); as -> exportcheck = 1; as -> csect = s; lwasm_reduce_expr(as, te); as -> exportcheck = 0; debug_message(as, 200, " Value2=%s", lw_expr_print(te)); // don't output non-constant symbols if (!lw_expr_istype(te, lw_expr_type_int)) { lw_expr_destroy(te); continue; } writebytes(se -> symbol, strlen(se -> symbol), 1, of); if (se -> context >= 0) { writebytes("\x01", 1, 1, of); sprintf((char *)buf, "%d", se -> context); writebytes(buf, strlen((char *)buf), 1, of); } // the "" is NOT an error writebytes("", 1, 1, of); // write the address buf[0] = (lw_expr_intval(te) >> 8) & 0xff; buf[1] = lw_expr_intval(te) & 0xff; writebytes(buf, 2, 1, of); lw_expr_destroy(te); } write_code_obj_auxsym(as, of, s, se2 -> right); } void write_code_obj(asmstate_t *as, FILE *of) { line_t *l; sectiontab_t *s; reloctab_t *re; exportlist_t *ex; int i; unsigned char buf[16]; // output the magic number and file header // the 8 is NOT an error writebytes("LWOBJ16", 8, 1, of); // run through the entire system and build the byte streams for each // section; at the same time, generate a list of "local" symbols to // output for each section // NOTE: for "local" symbols, we will append \x01 and the ascii string // of the context identifier (so sym in context 1 would be "sym\x011" // we can do this because the linker can handle symbols with any // character other than NUL. // also we will generate a list of incomplete references for each // section along with the actual definition that will be output // once all this information is generated, we will output each section // to the file // NOTE: we build everything in memory then output it because the // assembler accepts multiple instances of the same section but the // linker expects only one instance of each section in the object file // so we need to collect all the various pieces of a section together // (also, the assembler treated multiple instances of the same section // as continuations of previous sections so we would need to collect // them together anyway. for (l = as -> line_head; l; l = l -> next) { if (l -> csect) { // we're in a section - need to output some bytes if (l -> outputl > 0) for (i = 0; i < l -> outputl; i++) write_code_obj_sbadd(l -> csect, l -> output[i]); else if (l -> outputl == 0 || l -> outputl == -1) for (i = 0; i < l -> len; i++) write_code_obj_sbadd(l -> csect, 0); } } // run through the sections for (s = as -> sections; s; s = s -> next) { // write the name writebytes(s -> name, strlen(s -> name) + 1, 1, of); // write the flags if (s -> flags & section_flag_bss) writebytes("\x01", 1, 1, of); if (s -> flags & section_flag_constant) writebytes("\x02", 1, 1, of); // indicate end of flags - the "" is NOT an error writebytes("", 1, 1, of); // now the local symbols // a symbol for section base address if ((s -> flags & section_flag_constant) == 0) { writebytes("\x02", 1, 1, of); writebytes(s -> name, strlen(s -> name) + 1, 1, of); // address 0; "\0" is not an error writebytes("\0", 2, 1, of); } write_code_obj_auxsym(as, of, s, as -> symtab.head); // flag end of local symbol table - "" is NOT an error writebytes("", 1, 1, of); // now the exports -- FIXME for (ex = as -> exportlist; ex; ex = ex -> next) { int eval; lw_expr_t te; line_t tl; if (ex -> se == NULL) continue; if (ex -> se -> section != s) continue; te = lw_expr_copy(ex -> se -> value); as -> csect = ex -> se -> section; as -> exportcheck = 1; tl.as = as; as -> cl = &tl; lwasm_reduce_expr(as, te); as -> exportcheck = 0; as -> cl = NULL; if (!lw_expr_istype(te, lw_expr_type_int)) { lw_expr_destroy(te); continue; } eval = lw_expr_intval(te); lw_expr_destroy(te); writebytes(ex -> symbol, strlen(ex -> symbol) + 1, 1, of); buf[0] = (eval >> 8) & 0xff; buf[1] = eval & 0xff; writebytes(buf, 2, 1, of); } // flag end of exported symbols - "" is NOT an error writebytes("", 1, 1, of); // FIXME - relocation table for (re = s -> reloctab; re; re = re -> next) { int offset; lw_expr_t te; line_t tl; tl.as = as; as -> cl = &tl; as -> csect = s; as -> exportcheck = 1; if (re -> expr == NULL) { // this is an error but we'll simply ignore it // and not output this expression continue; } // work through each term in the expression and output // the proper equivalent to the object file if (re -> size == 1) { // flag an 8 bit relocation (low 8 bits will be used) buf[0] = 0xFF; buf[1] = 0x01; writebytes(buf, 2, 1, of); } te = lw_expr_copy(re -> offset); lwasm_reduce_expr(as, te); if (!lw_expr_istype(te, lw_expr_type_int)) { lw_expr_destroy(te); continue; } offset = lw_expr_intval(te); lw_expr_destroy(te); // output expression lw_expr_testterms(re -> expr, write_code_obj_expraux, of); // flag end of expressions writebytes("", 1, 1, of); // write the offset buf[0] = (offset >> 8) & 0xff; buf[1] = offset & 0xff; writebytes(buf, 2, 1, of); } // flag end of incomplete references list writebytes("", 1, 1, of); // now blast out the code // length if (s -> flags & section_flag_constant) { buf[0] = 0; buf[1] = 0; } else { buf[0] = s -> oblen >> 8 & 0xff; buf[1] = s -> oblen & 0xff; } writebytes(buf, 2, 1, of); if (!(s -> flags & section_flag_bss) && !(s -> flags & section_flag_constant)) { writebytes(s -> obytes, s -> oblen, 1, of); } } // flag no more sections // the "" is NOT an error writebytes("", 1, 1, of); }