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[/] [eco32/] [trunk/] [binutils/] [ld/] [ld.c] - Rev 80
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/* * ld.c -- ECO32 linking loader */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include <stdarg.h> #include <ctype.h> #include <unistd.h> #include "../include/a.out.h" /**************************************************************/ #define MAX_STRLEN 200 #define PAGE_SHIFT 12 #define PAGE_SIZE (1 << PAGE_SHIFT) #define PAGE_MASK (PAGE_SIZE - 1) #define PAGE_ROUND(n) (((n) + PAGE_SIZE - 1) & ~PAGE_MASK) #define MSB ((unsigned int) 1 << (sizeof(unsigned int) * 8 - 1)) /**************************************************************/ int debugLink = 0; int debugFixup = 0; int withHeader = 1; char codeName[L_tmpnam]; char dataName[L_tmpnam]; char *outName = NULL; char *mapName = NULL; char *inName = NULL; FILE *codeFile = NULL; FILE *dataFile = NULL; FILE *outFile = NULL; FILE *mapFile = NULL; FILE *inFile = NULL; unsigned int segPtr[4] = { 0, 0, 0, 0 }; int segStartDefined[4] = { 0, 0, 0, 0 }; unsigned int segStart[4] = { 0, 0, 0, 0 }; char *segName[4] = { "ABS", "CODE", "DATA", "BSS" }; char *methodName[5] = { "H16", "L16", "R16", "R26", "W32" }; typedef struct reloc { int segment; /* in which segment to relocate */ unsigned int offset; /* where in the segment to relocate */ int method; /* how to relocate */ int value; /* additive part of value */ int type; /* 0: base is a segment */ /* 1: base is a symbol */ union { /* relocation relative to .. */ int segment; /* .. a segment */ struct symbol *symbol; /* .. a symbol */ } base; struct reloc *next; /* next relocation */ } Reloc; typedef struct symbol { char *name; /* name of symbol */ int type; /* if MSB = 0: the symbol's segment */ /* if MSB = 1: the symbol is undefined */ int value; /* if symbol defined: the symbol's value */ /* if symbol not defined: meaningless */ struct symbol *left; /* left son in binary search tree */ struct symbol *right; /* right son in binary search tree */ } Symbol; /**************************************************************/ void error(char *fmt, ...) { va_list ap; va_start(ap, fmt); fprintf(stderr, "Error: "); vfprintf(stderr, fmt, ap); fprintf(stderr, "\n"); va_end(ap); if (codeFile != NULL) { fclose(codeFile); codeFile = NULL; } if (dataFile != NULL) { fclose(dataFile); dataFile = NULL; } if (outFile != NULL) { fclose(outFile); outFile = NULL; } if (mapFile != NULL) { fclose(mapFile); mapFile = NULL; } if (inFile != NULL) { fclose(inFile); inFile = NULL; } if (codeName != NULL) { unlink(codeName); } if (dataName != NULL) { unlink(dataName); } if (outName != NULL) { unlink(outName); } if (mapName != NULL) { unlink(mapName); } exit(1); } void *allocateMemory(unsigned int size) { void *p; p = malloc(size); if (p == NULL) { error("out of memory"); } return p; } void freeMemory(void *p) { free(p); } /**************************************************************/ Reloc *relocs = NULL; void addReloc(int segment, RelocRecord *relRec, Symbol **symMap) { Reloc *rel; rel = allocateMemory(sizeof(Reloc)); rel->segment = segment; rel->offset = relRec->offset + segPtr[segment]; rel->method = relRec->method; rel->value = relRec->value; if ((relRec->base & MSB) == 0) { /* relocation is relative to a segment */ rel->type = 0; rel->base.segment = relRec->base; rel->value += segPtr[relRec->base]; } else { /* relocation is relative to a symbol */ rel->type = 1; rel->base.symbol = symMap[relRec->base & ~MSB]; } rel->next = relocs; relocs = rel; } void linkSymbol(Reloc *rel) { Symbol *sym; /* check if this is a reference to a symbol */ if (rel->type != 1) { /* no: nothing to do here */ return; } /* get information from the symbol table record */ sym = rel->base.symbol; if (sym->type & MSB) { error("undefined symbol '%s'", sym->name); } /* output debugging info */ if (debugLink) { printf("DEBUG: link '%s' (s:%s, v:%08X)\n", sym->name, segName[sym->type], sym->value); printf(" (s:%s, o:%08X, m:%s, v:%08X --> %08X, b:%s)\n", segName[rel->segment], rel->offset, methodName[rel->method], rel->value, rel->value + sym->value, segName[sym->type]); } /* update relocation information */ rel->value += sym->value; rel->type = 0; rel->base.segment = sym->type; } void linkSymbols(void) { Reloc *rel; rel = relocs; while (rel != NULL) { linkSymbol(rel); rel = rel->next; } } void fixupRef(Reloc *rel) { FILE *file; unsigned int value; unsigned int final; /* determine the segment in which to do fixup */ switch (rel->segment) { case SEGMENT_ABS: /* this should never happen */ error("cannot do fixup in ABS"); break; case SEGMENT_CODE: file = codeFile; break; case SEGMENT_DATA: file = dataFile; break; case SEGMENT_BSS: /* this should never happen */ error("cannot do fixup in BSS"); break; default: /* this should never happen */ error("illegal segment in doFixup()"); break; } /* check that the base is indeed a segment */ if (rel->type != 0) { /* this should never happen */ error("fixup cannot handle reference to symbol"); } /* now patch according to method */ switch (rel->method) { case METHOD_H16: value = rel->value + segStart[rel->base.segment]; final = (value >> 16) & 0x0000FFFF; fseek(file, rel->offset + 2, SEEK_SET); fputc((final >> 8) & 0xFF, file); fputc((final >> 0) & 0xFF, file); break; case METHOD_L16: value = rel->value + segStart[rel->base.segment]; final = value & 0x0000FFFF; fseek(file, rel->offset + 2, SEEK_SET); fputc((final >> 8) & 0xFF, file); fputc((final >> 0) & 0xFF, file); break; case METHOD_R16: value = (rel->value - (rel->offset + 4)) / 4; final = value & 0x0000FFFF; fseek(file, rel->offset + 2, SEEK_SET); fputc((final >> 8) & 0xFF, file); fputc((final >> 0) & 0xFF, file); break; case METHOD_R26: value = (rel->value - (rel->offset + 4)) / 4; fseek(file, rel->offset, SEEK_SET); final = (fgetc(file) << 24) & 0xFC000000; final |= value & 0x03FFFFFF; fseek(file, -1, SEEK_CUR); fputc((final >> 24) & 0xFF, file); fputc((final >> 16) & 0xFF, file); fputc((final >> 8) & 0xFF, file); fputc((final >> 0) & 0xFF, file); break; case METHOD_W32: value = rel->value + segStart[rel->base.segment]; final = value; fseek(file, rel->offset, SEEK_SET); fputc((final >> 24) & 0xFF, file); fputc((final >> 16) & 0xFF, file); fputc((final >> 8) & 0xFF, file); fputc((final >> 0) & 0xFF, file); break; default: /* this should never happen */ error("illegal method in doFixup()"); break; } /* output debugging info */ if (debugFixup) { printf("DEBUG: fixup (s:%s, o:%08X, m:%s, v:%08X), %08X --> %08X\n", segName[rel->segment], rel->offset, methodName[rel->method], rel->value, value, final); } } void relocateSegments(void) { Reloc *rel; /* determine start of segments */ if (!segStartDefined[SEGMENT_CODE]) { segStart[SEGMENT_CODE] = 0; segStartDefined[SEGMENT_CODE] = 1; } if (!segStartDefined[SEGMENT_DATA]) { segStart[SEGMENT_DATA] = segStart[SEGMENT_CODE] + PAGE_ROUND(segPtr[SEGMENT_CODE]); segStartDefined[SEGMENT_DATA] = 1; } if (!segStartDefined[SEGMENT_BSS]) { segStart[SEGMENT_BSS] = segStart[SEGMENT_DATA] + segPtr[SEGMENT_DATA]; segStartDefined[SEGMENT_BSS] = 1; } /* fixup all references (which now are only relative to segments) */ while (relocs != NULL) { rel = relocs; relocs = rel->next; fixupRef(rel); freeMemory(rel); } } /**************************************************************/ Symbol *symbolTable = NULL; Symbol *newSymbol(char *name) { Symbol *p; p = allocateMemory(sizeof(Symbol)); p->name = allocateMemory(strlen(name) + 1); strcpy(p->name, name); p->type = MSB; p->value = 0; p->left = NULL; p->right = NULL; return p; } Symbol *lookupEnter(char *name) { Symbol *p, *q, *r; int cmp; p = symbolTable; if (p == NULL) { r = newSymbol(name); symbolTable = r; return r; } while (1) { q = p; cmp = strcmp(name, q->name); if (cmp == 0) { return q; } if (cmp < 0) { p = q->left; } else { p = q->right; } if (p == NULL) { r = newSymbol(name); if (cmp < 0) { q->left = r; } else { q->right = r; } return r; } } } void walkTree(Symbol *s, void (*fp)(Symbol *sp)) { if (s == NULL) { return; } walkTree(s->left, fp); (*fp)(s); walkTree(s->right, fp); } void walkSymbols(void (*fp)(Symbol *sym)) { walkTree(symbolTable, fp); } /**************************************************************/ unsigned int read4FromEco(unsigned char *p) { return (unsigned int) p[0] << 24 | (unsigned int) p[1] << 16 | (unsigned int) p[2] << 8 | (unsigned int) p[3] << 0; } void write4ToEco(unsigned char *p, unsigned int data) { p[0] = data >> 24; p[1] = data >> 16; p[2] = data >> 8; p[3] = data >> 0; } void conv4FromEcoToNative(unsigned char *p) { unsigned int data; data = read4FromEco(p); * (unsigned int *) p = data; } void conv4FromNativeToEco(unsigned char *p) { unsigned int data; data = * (unsigned int *) p; write4ToEco(p, data); } /**************************************************************/ #define CODE_START(h) (sizeof(ExecHeader)) #define DATA_START(h) (CODE_START(h) + (h).csize) #define CRELOC_START(h) (DATA_START(h) + (h).dsize) #define DRELOC_START(h) (CRELOC_START(h) + (h).crsize) #define SYMTBL_START(h) (DRELOC_START(h) + (h).drsize) #define STRING_START(h) (SYMTBL_START(h) + (h).symsize) ExecHeader inHeader; Symbol **symMap; void readHeader(void) { if (fseek(inFile, 0, SEEK_SET) < 0) { error("cannot seek to exec header"); } if (fread(&inHeader, sizeof(ExecHeader), 1, inFile) != 1) { error("cannot read exec header"); } conv4FromEcoToNative((unsigned char *) &inHeader.magic); conv4FromEcoToNative((unsigned char *) &inHeader.csize); conv4FromEcoToNative((unsigned char *) &inHeader.dsize); conv4FromEcoToNative((unsigned char *) &inHeader.bsize); conv4FromEcoToNative((unsigned char *) &inHeader.crsize); conv4FromEcoToNative((unsigned char *) &inHeader.drsize); conv4FromEcoToNative((unsigned char *) &inHeader.symsize); conv4FromEcoToNative((unsigned char *) &inHeader.strsize); if (inHeader.magic != EXEC_MAGIC) { error("wrong magic number in exec header"); } } void readCode(void) { unsigned char *buffer; if (fseek(inFile, CODE_START(inHeader), SEEK_SET) < 0) { error("cannot seek to code section"); } buffer = allocateMemory(inHeader.csize); if (fread(buffer, 1, inHeader.csize, inFile) != inHeader.csize) { error("cannot read code segment"); } if (fwrite(buffer, 1, inHeader.csize, codeFile) != inHeader.csize) { error("cannot write code segment"); } freeMemory(buffer); } void readData(void) { unsigned char *buffer; if (fseek(inFile, DATA_START(inHeader), SEEK_SET) < 0) { error("cannot seek to data section"); } buffer = allocateMemory(inHeader.dsize); if (fread(buffer, 1, inHeader.dsize, inFile) != inHeader.dsize) { error("cannot read data segment"); } if (fwrite(buffer, 1, inHeader.dsize, dataFile) != inHeader.dsize) { error("cannot write data segment"); } freeMemory(buffer); } void readCodeRelocs(void) { int n, i; RelocRecord relRec; if (fseek(inFile, CRELOC_START(inHeader), SEEK_SET) < 0) { error("cannot seek to code relocation section"); } n = inHeader.crsize / sizeof(RelocRecord); for (i = 0; i < n; i++) { if (fread(&relRec, sizeof(RelocRecord), 1, inFile) != 1) { error("cannot read code relocation records"); } conv4FromEcoToNative((unsigned char *) &relRec.offset); conv4FromEcoToNative((unsigned char *) &relRec.method); conv4FromEcoToNative((unsigned char *) &relRec.value); conv4FromEcoToNative((unsigned char *) &relRec.base); addReloc(SEGMENT_CODE, &relRec, symMap); } } void readDataRelocs(void) { int n, i; RelocRecord relRec; if (fseek(inFile, DRELOC_START(inHeader), SEEK_SET) < 0) { error("cannot seek to data relocation section"); } n = inHeader.drsize / sizeof(RelocRecord); for (i = 0; i < n; i++) { if (fread(&relRec, sizeof(RelocRecord), 1, inFile) != 1) { error("cannot read data relocation records"); } conv4FromEcoToNative((unsigned char *) &relRec.offset); conv4FromEcoToNative((unsigned char *) &relRec.method); conv4FromEcoToNative((unsigned char *) &relRec.value); conv4FromEcoToNative((unsigned char *) &relRec.base); addReloc(SEGMENT_DATA, &relRec, symMap); } } void readString(unsigned int offset, char *buffer, int size) { long pos; int c; pos = ftell(inFile); if (fseek(inFile, STRING_START(inHeader) + offset, SEEK_SET) < 0) { error("cannot seek to string"); } do { c = fgetc(inFile); if (c == EOF) { error("unexpected end of file"); } *buffer++ = c; if (--size == 0) { error("string buffer overflow"); } } while (c != 0); fseek(inFile, pos, SEEK_SET); } void readSymbols(void) { int n, i; SymbolRecord symRec; char strBuf[MAX_STRLEN]; Symbol *sym; if (fseek(inFile, SYMTBL_START(inHeader), SEEK_SET) < 0) { error("cannot seek to symbol table section"); } n = inHeader.symsize / sizeof(SymbolRecord); symMap = allocateMemory(n * sizeof(Symbol *)); for (i = 0; i < n; i++) { if (fread(&symRec, sizeof(SymbolRecord), 1, inFile) != 1) { error("cannot read symbol table"); } conv4FromEcoToNative((unsigned char *) &symRec.name); conv4FromEcoToNative((unsigned char *) &symRec.type); conv4FromEcoToNative((unsigned char *) &symRec.value); readString(symRec.name, strBuf, MAX_STRLEN); sym = lookupEnter(strBuf); if ((symRec.type & MSB) == 0) { /* the symbol is defined in this symbol record */ if ((sym->type & MSB) == 0) { /* the symbol was already defined in the table */ error("symbol '%s' multiply defined", sym->name); } else { /* the symbol was not yet defined in the table, so define it now */ /* the segment is copied directly from the file */ /* the value is the sum of the value given in the file */ /* and this module's segment start of the symbol's segment */ sym->type = symRec.type; sym->value = symRec.value + segPtr[symRec.type]; } } else { /* the symbol is undefined in this symbol record */ /* nothing to do here: lookupEnter already entered */ /* the symbol into the symbol table, if necessary */ } /* in any case remember the symbol table entry, so that */ /* a symbol index in a relocation record can be resolved */ symMap[i] = sym; } } void readModule(void) { /* read the file header to determine the sizes */ readHeader(); /* read and transfer the code and data segments */ readCode(); readData(); /* read and build the symbol table and a symbol map */ readSymbols(); /* read and build a list of relocation records */ readCodeRelocs(); readDataRelocs(); /* free the symbol map, it is no longer needed */ freeMemory(symMap); /* update accumulated segment sizes */ segPtr[SEGMENT_CODE] += inHeader.csize; segPtr[SEGMENT_DATA] += inHeader.dsize; segPtr[SEGMENT_BSS] += inHeader.bsize; } /**************************************************************/ void printSymbol(Symbol *s) { fprintf(mapFile, "%-32s", s->name); if (s->type & MSB) { /* symbol is undefined */ fprintf(mapFile, "%-15s", "UNDEFINED"); } else { /* symbol is defined */ switch (s->type) { case SEGMENT_ABS: fprintf(mapFile, "%-15s", "ABS"); break; case SEGMENT_CODE: fprintf(mapFile, "%-15s", "CODE"); break; case SEGMENT_DATA: fprintf(mapFile, "%-15s", "DATA"); break; case SEGMENT_BSS: fprintf(mapFile, "%-15s", "BSS"); break; default: error("illegal symbol segment in printToMap()"); } } fprintf(mapFile, "0x%08X", s->value); fprintf(mapFile, "\n"); } void printToMapFile(void) { walkSymbols(printSymbol); fprintf(mapFile, "\n"); fprintf(mapFile, "CODE start 0x%08X size 0x%08X\n", segStart[SEGMENT_CODE], segPtr[SEGMENT_CODE]); fprintf(mapFile, "DATA start 0x%08X size 0x%08X\n", segStart[SEGMENT_DATA], segPtr[SEGMENT_DATA]); fprintf(mapFile, "BSS start 0x%08X size 0x%08X\n", segStart[SEGMENT_BSS], segPtr[SEGMENT_BSS]); } /**************************************************************/ void writeHeader(void) { ExecHeader outHeader; if (withHeader) { outHeader.magic = EXEC_MAGIC; outHeader.csize = segPtr[SEGMENT_CODE]; outHeader.dsize = segPtr[SEGMENT_DATA]; outHeader.bsize = segPtr[SEGMENT_BSS]; outHeader.crsize = 0; outHeader.drsize = 0; outHeader.symsize = 0; outHeader.strsize = 0; conv4FromNativeToEco((unsigned char *) &outHeader.magic); conv4FromNativeToEco((unsigned char *) &outHeader.csize); conv4FromNativeToEco((unsigned char *) &outHeader.dsize); conv4FromNativeToEco((unsigned char *) &outHeader.bsize); conv4FromNativeToEco((unsigned char *) &outHeader.crsize); conv4FromNativeToEco((unsigned char *) &outHeader.drsize); conv4FromNativeToEco((unsigned char *) &outHeader.symsize); conv4FromNativeToEco((unsigned char *) &outHeader.strsize); fwrite(&outHeader, sizeof(ExecHeader), 1, outFile); } } void writeCode(void) { int data; rewind(codeFile); while (1) { data = fgetc(codeFile); if (data == EOF) { break; } fputc(data, outFile); } } void writeData(void) { int data; rewind(dataFile); while (1) { data = fgetc(dataFile); if (data == EOF) { break; } fputc(data, outFile); } } /**************************************************************/ int readNumber(char *str, unsigned int *np) { int base; int value; int digit; base = 10; value = 0; if (*str == '0') { str++; if (*str == 'x' || *str == 'X') { base = 16; str++; } else if (isdigit((int) *str)) { base = 8; } else if (*str == '\0') { *np = value; return 1; } else { return 0; } } while (isxdigit((int) *str)) { digit = *str++ - '0'; if (digit >= 'A' - '0') { if (digit >= 'a' - '0') { digit += '0' - 'a' + 10; } else { digit += '0' - 'A' + 10; } } if (digit >= base) { return 0; } value *= base; value += digit; } if (*str == '\0') { *np = value; return 1; } else { return 0; } } void usage(char *myself) { fprintf(stderr, "Usage: %s\n", myself); fprintf(stderr, " [-h] do not write object header\n"); fprintf(stderr, " [-o objfile] set output file name\n"); fprintf(stderr, " [-m mapfile] produce map file\n"); fprintf(stderr, " [-rc addr] relocate code segment\n"); fprintf(stderr, " [-rd addr] relocate data segment\n"); fprintf(stderr, " [-rb addr] relocate bss segment\n"); fprintf(stderr, " file object file name\n"); fprintf(stderr, " [files...] additional object files\n"); exit(1); } int main(int argc, char *argv[]) { int i; char *argp; unsigned int *ssp; int *ssdp; tmpnam(codeName); tmpnam(dataName); outName = "a.out"; for (i = 1; i < argc; i++) { argp = argv[i]; if (*argp != '-') { break; } argp++; switch (*argp) { case 'h': withHeader = 0; break; case 'o': if (i == argc - 1) { usage(argv[0]); } outName = argv[++i]; break; case 'm': if (i == argc - 1) { usage(argv[0]); } mapName = argv[++i]; break; case 'r': if (argp[1] == 'c') { ssp = &segStart[SEGMENT_CODE]; ssdp = &segStartDefined[SEGMENT_CODE]; } else if (argp[1] == 'd') { ssp = &segStart[SEGMENT_DATA]; ssdp = &segStartDefined[SEGMENT_DATA]; } else if (argp[1] == 'b') { ssp = &segStart[SEGMENT_BSS]; ssdp = &segStartDefined[SEGMENT_BSS]; } else { usage(argv[0]); } if (i == argc - 1) { usage(argv[0]); } if (!readNumber(argv[++i], ssp)) { error("cannot read number given with option '-%s'", argp); } *ssdp = 1; break; default: usage(argv[0]); } } if (i == argc) { usage(argv[0]); } codeFile = fopen(codeName, "w+b"); if (codeFile == NULL) { error("cannot create temporary code file '%s'", codeName); } dataFile = fopen(dataName, "w+b"); if (dataFile == NULL) { error("cannot create temporary data file '%s'", dataName); } outFile = fopen(outName, "wb"); if (outFile == NULL) { error("cannot open output file '%s'", outName); } if (mapName != NULL) { mapFile = fopen(mapName, "wt"); if (mapFile == NULL) { error("cannot open map file '%s'", mapName); } } do { inName = argv[i]; if (*inName == '-') { usage(argv[0]); } inFile = fopen(inName, "rb"); if (inFile == NULL) { error("cannot open input file '%s'", inName); } fprintf(stderr, "Reading module '%s'...\n", inName); readModule(); if (inFile != NULL) { fclose(inFile); inFile = NULL; } } while (++i < argc); fprintf(stderr, "Linking modules...\n"); linkSymbols(); fprintf(stderr, "Relocating segments...\n"); relocateSegments(); writeHeader(); writeCode(); writeData(); if (mapFile != NULL) { printToMapFile(); } if (codeFile != NULL) { fclose(codeFile); codeFile = NULL; } if (dataFile != NULL) { fclose(dataFile); dataFile = NULL; } if (outFile != NULL) { fclose(outFile); outFile = NULL; } if (mapFile != NULL) { fclose(mapFile); mapFile = NULL; } if (codeName != NULL) { unlink(codeName); } if (dataName != NULL) { unlink(dataName); } return 0; }
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