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view lwlink/output.c @ 185:cca933d32298
Clean up some mess in lwbasic directory
author | lost@l-w.ca |
---|---|
date | Thu, 22 Dec 2011 18:03:38 -0700 |
parents | 11b710d231bd |
children | ebda5c96665e |
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/* output.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/>. Actually output the binary */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include "lwlink.h" // this prevents warnings about not using the return value of fwrite() // and, theoretically, can be replaced with a function that handles things // better in the future #define writebytes(s, l, c, f) do { int r; r = fwrite((s), (l), (c), (f)); } while (0) void do_output_os9(FILE *of); void do_output_decb(FILE *of); void do_output_raw(FILE *of); void do_output_lwex0(FILE *of); void do_output(void) { FILE *of; of = fopen(outfile, "wb"); if (!of) { fprintf(stderr, "Cannot open output file %s: ", outfile); perror(""); exit(1); } switch (outformat) { case OUTPUT_DECB: do_output_decb(of); break; case OUTPUT_RAW: do_output_raw(of); break; case OUTPUT_LWEX0: do_output_lwex0(of); break; case OUTPUT_OS9: do_output_os9(of); break; default: fprintf(stderr, "Unknown output format doing output!\n"); exit(111); } fclose(of); } void do_output_decb(FILE *of) { int sn, sn2; int cloc, olen; unsigned char buf[5]; for (sn = 0; sn < nsects; sn++) { if (sectlist[sn].ptr -> flags & SECTION_BSS) { // no output for a BSS section continue; } if (sectlist[sn].ptr -> codesize == 0) { // don't generate output for a zero size section continue; } // calculate the length of this output block cloc = sectlist[sn].ptr -> loadaddress; olen = 0; for (sn2 = sn; sn2 < nsects; sn2++) { // ignore BSS sections if (sectlist[sn2].ptr -> flags & SECTION_BSS) continue; // ignore zero length sections if (sectlist[sn2].ptr -> codesize == 0) continue; if (cloc != sectlist[sn2].ptr -> loadaddress) break; olen += sectlist[sn2].ptr -> codesize; cloc += sectlist[sn2].ptr -> codesize; } // write a preamble buf[0] = 0x00; buf[1] = olen >> 8; buf[2] = olen & 0xff; buf[3] = sectlist[sn].ptr -> loadaddress >> 8; buf[4] = sectlist[sn].ptr -> loadaddress & 0xff; writebytes(buf, 1, 5, of); for (; sn < sn2; sn++) { if (sectlist[sn].ptr -> flags & SECTION_BSS) continue; if (sectlist[sn].ptr -> codesize == 0) continue; writebytes(sectlist[sn].ptr -> code, 1, sectlist[sn].ptr -> codesize, of); } sn--; } // write a postamble buf[0] = 0xff; buf[1] = 0x00; buf[2] = 0x00; buf[3] = linkscript.execaddr >> 8; buf[4] = linkscript.execaddr & 0xff; writebytes(buf, 1, 5, of); } void do_output_raw(FILE *of) { int nskips = 0; // used to output blanks for BSS inline int sn; for (sn = 0; sn < nsects; sn++) { if (sectlist[sn].ptr -> flags & SECTION_BSS) { // no output for a BSS section nskips += sectlist[sn].ptr -> codesize; continue; } while (nskips > 0) { // the "" is not an error - it turns into a single NUL byte! writebytes("", 1, 1, of); nskips--; } writebytes(sectlist[sn].ptr -> code, 1, sectlist[sn].ptr -> codesize, of); } } void do_output_lwex0(FILE *of) { int nskips = 0; // used to output blanks for BSS inline int sn; int codedatasize = 0; unsigned char buf[32]; // calculate items for the file header for (sn = 0; sn < nsects; sn++) { if (sectlist[sn].ptr -> flags & SECTION_BSS) { // no output for a BSS section nskips += sectlist[sn].ptr -> codesize; continue; } codedatasize += nskips; nskips = 0; codedatasize += sectlist[sn].ptr -> codesize; } // output the file header buf[0] = 'L'; buf[1] = 'W'; buf[2] = 'E'; buf[3] = 'X'; buf[4] = 0; // version 0 buf[5] = 0; // low stack buf[6] = linkscript.stacksize / 256; buf[7] = linkscript.stacksize & 0xff; buf[8] = nskips / 256; buf[9] = nskips & 0xff; buf[10] = codedatasize / 256; buf[11] = codedatasize & 0xff; buf[12] = linkscript.execaddr / 256; buf[13] = linkscript.execaddr & 0xff; memset(buf + 14, 0, 18); writebytes(buf, 1, 32, of); // output the data // NOTE: disjoint load addresses will not work correctly!!!!! nskips = 0; for (sn = 0; sn < nsects; sn++) { if (sectlist[sn].ptr -> flags & SECTION_BSS) { // no output for a BSS section nskips += sectlist[sn].ptr -> codesize; continue; } while (nskips > 0) { // the "" is not an error - it turns into a single NUL byte! writebytes("", 1, 1, of); nskips--; } writebytes(sectlist[sn].ptr -> code, 1, sectlist[sn].ptr -> codesize, of); } } void os9crc(unsigned char crc[3], unsigned char b) { b ^= crc[0]; crc[0] = crc[1]; crc[1] = crc[2]; crc[1] ^= b >> 7; crc[2] = b << 1; crc[1] ^= b >> 2; crc[2] ^= b << 6; b ^= b << 1; b ^= b << 2; b ^= b << 4; if (b & 0x80) { crc[0] ^= 0x80; crc[2] ^= 0x21; } } void do_output_os9(FILE *of) { int sn; int codedatasize = 0; int bsssize = 0; int nameoff; int i; unsigned char buf[16]; unsigned char crc[3]; // calculate items for the file header for (sn = 0; sn < nsects; sn++) { if (sectlist[sn].ptr -> flags & SECTION_BSS) { // no output for a BSS section bsssize += sectlist[sn].ptr -> codesize; continue; } codedatasize += sectlist[sn].ptr -> codesize; } // now bss size is the data size for the module // and codesize is the length of the module minus the module header // and CRC codedatasize += 13; // add in headers nameoff = codedatasize; // we'll put the name at the end codedatasize += 3; // add in CRC codedatasize += strlen(linkscript.name); // add in name length // output the file header buf[0] = 0x87; buf[1] = 0xCD; buf[2] = (codedatasize >> 8) & 0xff; buf[3] = codedatasize & 0xff; buf[4] = (nameoff >> 8) & 0xff; buf[5] = nameoff & 0xff; buf[6] = (linkscript.modtype << 4) | (linkscript.modlang); buf[7] = (linkscript.modattr << 4) | (linkscript.modrev); buf[8] = (~(buf[0] ^ buf[1] ^ buf[2] ^ buf[3] ^ buf[4] ^ buf[5] ^ buf[6] ^ buf[7])) & 0xff; buf[9] = (linkscript.execaddr >> 8) & 0xff; buf[10] = linkscript.execaddr & 0xff; buf[11] = (bsssize >> 8) & 0xff; buf[12] = bsssize & 0xff; crc[0] = 0xff; crc[1] = 0xff; crc[2] = 0xff; os9crc(crc, buf[0]); os9crc(crc, buf[1]); os9crc(crc, buf[2]); os9crc(crc, buf[3]); os9crc(crc, buf[4]); os9crc(crc, buf[5]); os9crc(crc, buf[6]); os9crc(crc, buf[7]); os9crc(crc, buf[8]); os9crc(crc, buf[9]); os9crc(crc, buf[10]); os9crc(crc, buf[11]); os9crc(crc, buf[12]); writebytes(buf, 1, 13, of); // output the data // NOTE: disjoint load addresses will not work correctly!!!!! for (sn = 0; sn < nsects; sn++) { if (sectlist[sn].ptr -> flags & SECTION_BSS) { // no output for a BSS section continue; } writebytes(sectlist[sn].ptr -> code, 1, sectlist[sn].ptr -> codesize, of); for (i = 0; i < sectlist[sn].ptr -> codesize; i++) os9crc(crc, sectlist[sn].ptr -> code[i]); } // output the name for (i = 0; linkscript.name[i + 1]; i++) { writebytes(linkscript.name + i, 1, 1, of); os9crc(crc, linkscript.name[i]); } buf[0] = linkscript.name[i] | 0x80; writebytes(buf, 1, 1, of); os9crc(crc, buf[0]); crc[0] ^= 0xff; crc[1] ^= 0xff; crc[2] ^= 0xff; writebytes(crc, 1, 3, of); }