ref: ab47428c0e3e9fc68621a20f42bb6e7372fa3358
dir: /src/link/object.c/
/* * Here we have the routines that read an objectfile * */ #include <errno.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include "link/mylink.h" #include "link/main.h" struct sSymbol **tSymbols; struct sSection *pSections = NULL; struct sSection *pLibSections = NULL; UBYTE dummymem; BBOOL oReadLib = 0; /* * The usual byte order stuff * */ SLONG readlong(FILE * f) { SLONG r; r = fgetc(f); r |= fgetc(f) << 8; r |= fgetc(f) << 16; r |= fgetc(f) << 24; return (r); } UWORD readword(FILE * f) { UWORD r; r = fgetc(f); r |= fgetc(f) << 8; return (r); } /* * Read a NULL terminated string from a file * */ SLONG readasciiz(char *s, FILE * f) { SLONG r = 0; while (((*s++) = fgetc(f)) != 0) r += 1; return (r + 1); } /* * Allocate a new section and link it into the list * */ struct sSection * AllocSection(void) { struct sSection **ppSections; if (oReadLib == 1) ppSections = &pLibSections; else ppSections = &pSections; while (*ppSections) ppSections = &((*ppSections)->pNext); *ppSections = malloc(sizeof **ppSections); if (!*ppSections) { fprintf(stderr, "Out of memory!\n"); exit(1); } (*ppSections)->tSymbols = tSymbols; (*ppSections)->pNext = NULL; (*ppSections)->pPatches = NULL; (*ppSections)->oAssigned = 0; return *ppSections; } /* * Read a symbol from a file * */ struct sSymbol * obj_ReadSymbol(FILE * f) { char s[256]; struct sSymbol *pSym; pSym = malloc(sizeof *pSym); if (!pSym) { fprintf(stderr, "Out of memory!\n"); exit(1); } readasciiz(s, f); pSym->pzName = malloc(strlen(s) + 1); if (!pSym->pzName) { fprintf(stderr, "Out of memory!\n"); exit(1); } strcpy(pSym->pzName, s); if ((pSym->Type = (enum eSymbolType) fgetc(f)) != SYM_IMPORT) { pSym->nSectionID = readlong(f); pSym->nOffset = readlong(f); } return pSym; } /* * RGB0 object reader routines * */ struct sSection * obj_ReadRGB0Section(FILE * f) { struct sSection *pSection; pSection = AllocSection(); pSection->nByteSize = readlong(f); pSection->Type = (enum eSectionType) fgetc(f); pSection->nOrg = -1; pSection->nBank = -1; /* does the user want the -s mode? */ if ((options & OPT_SMALL) && (pSection->Type == SECT_CODE)) { pSection->Type = SECT_HOME; } if ((pSection->Type == SECT_CODE) || (pSection->Type == SECT_HOME)) { /* * These sectiontypes contain data... * */ if (pSection->nByteSize) { pSection->pData = malloc(pSection->nByteSize); if (!pSection->pData) { fprintf(stderr, "Out of memory!\n"); } SLONG nNumberOfPatches; struct sPatch **ppPatch, *pPatch; char s[256]; fread(pSection->pData, sizeof(UBYTE), pSection->nByteSize, f); nNumberOfPatches = readlong(f); ppPatch = &pSection->pPatches; /* * And patches... * */ while (nNumberOfPatches--) { pPatch = malloc(sizeof *pPatch); if (!pPatch) { fprintf(stderr, "Out of memory!\n"); } *ppPatch = pPatch; readasciiz(s, f); pPatch->pzFilename = malloc(strlen(s) + 1); if (!pPatch->pzFilename) { fprintf(stderr, "Out of memory!\n"); } strcpy(pPatch->pzFilename, s); pPatch->nLineNo = readlong(f); pPatch->nOffset = readlong(f); pPatch->Type = (enum ePatchType) fgetc(f); if ((pPatch->nRPNSize = readlong(f)) > 0) { pPatch->pRPN = malloc(pPatch->nRPNSize); if (!pPatch->pRPN) { fprintf(stderr, "Out of memory!\n"); exit(1); } fread(pPatch->pRPN, sizeof(UBYTE), pPatch->nRPNSize, f); } else pPatch->pRPN = NULL; pPatch->pNext = NULL; ppPatch = &(pPatch->pNext); } } else { /* Skip number of patches */ readlong(f); pSection->pData = &dummymem; } } return pSection; } void obj_ReadRGB0(FILE * pObjfile) { struct sSection *pFirstSection; SLONG nNumberOfSymbols, nNumberOfSections, i; nNumberOfSymbols = readlong(pObjfile); nNumberOfSections = readlong(pObjfile); /* First comes the symbols */ if (nNumberOfSymbols) { tSymbols = malloc(nNumberOfSymbols * sizeof(struct sSymbol *)); if (!tSymbols) { fprintf(stderr, "Out of memory!\n"); exit(1); } for (i = 0; i < nNumberOfSymbols; i += 1) tSymbols[i] = obj_ReadSymbol(pObjfile); } else tSymbols = (struct sSymbol **) & dummymem; /* Next we have the sections */ pFirstSection = NULL; while (nNumberOfSections--) { struct sSection *pNewSection; pNewSection = obj_ReadRGB0Section(pObjfile); pNewSection->nNumberOfSymbols = nNumberOfSymbols; if (pFirstSection == NULL) pFirstSection = pNewSection; } /* * Fill in the pSection entry in the symbolstructure. * This REALLY needs some cleaning up... but, hey, it works * */ for (i = 0; i < nNumberOfSymbols; i += 1) { struct sSection *pConvSect = pFirstSection; if (tSymbols[i]->Type != SYM_IMPORT && tSymbols[i]->nSectionID != -1) { SLONG j = 0; while (j != tSymbols[i]->nSectionID) { j += 1; pConvSect = pConvSect->pNext; } tSymbols[i]->pSection = pConvSect; } else tSymbols[i]->pSection = NULL; } } /* * RGB1 object reader routines * */ struct sSection * obj_ReadRGB1Section(FILE * f) { struct sSection *pSection; pSection = AllocSection(); pSection->nByteSize = readlong(f); pSection->Type = (enum eSectionType) fgetc(f); /* * And because of THIS new feature I'll have to rewrite loads and * loads of stuff... oh well it needed to be done anyway * */ pSection->nOrg = readlong(f); pSection->nBank = readlong(f); /* does the user want the -s mode? */ if ((options & OPT_SMALL) && (pSection->Type == SECT_CODE)) { pSection->Type = SECT_HOME; } if ((pSection->Type == SECT_CODE) || (pSection->Type == SECT_HOME)) { /* * These sectiontypes contain data... * */ if (pSection->nByteSize) { pSection->pData = malloc(pSection->nByteSize); if (!pSection->pData) { fprintf(stderr, "Out of memory!\n"); exit(1); } SLONG nNumberOfPatches; struct sPatch **ppPatch, *pPatch; char s[256]; fread(pSection->pData, sizeof(UBYTE), pSection->nByteSize, f); nNumberOfPatches = readlong(f); ppPatch = &pSection->pPatches; /* * And patches... * */ while (nNumberOfPatches--) { pPatch = malloc(sizeof *pPatch); if (!pPatch) { fprintf(stderr, "Out of memory!\n"); } *ppPatch = pPatch; readasciiz(s, f); pPatch->pzFilename = malloc(strlen(s) + 1); if (!pPatch->pzFilename) { fprintf(stderr, "Out of memory!\n"); } strcpy(pPatch->pzFilename, s); pPatch->nLineNo = readlong(f); pPatch->nOffset = readlong(f); pPatch->Type = (enum ePatchType) fgetc(f); if ((pPatch->nRPNSize = readlong(f)) > 0) { pPatch->pRPN = malloc(pPatch->nRPNSize); if (!pPatch->pRPN) { fprintf(stderr, "Out of memory!\n"); } fread(pPatch->pRPN, sizeof(UBYTE), pPatch->nRPNSize, f); } else pPatch->pRPN = NULL; pPatch->pNext = NULL; ppPatch = &(pPatch->pNext); } } else { /* Skip number of patches */ readlong(f); pSection->pData = &dummymem; } } return pSection; } void obj_ReadRGB1(FILE * pObjfile) { struct sSection *pFirstSection; SLONG nNumberOfSymbols, nNumberOfSections, i; nNumberOfSymbols = readlong(pObjfile); nNumberOfSections = readlong(pObjfile); /* First comes the symbols */ if (nNumberOfSymbols) { tSymbols = malloc(nNumberOfSymbols * sizeof *tSymbols); if (!tSymbols) { fprintf(stderr, "Out of memory!\n"); } for (i = 0; i < nNumberOfSymbols; i += 1) tSymbols[i] = obj_ReadSymbol(pObjfile); } else tSymbols = (struct sSymbol **) & dummymem; /* Next we have the sections */ pFirstSection = NULL; while (nNumberOfSections--) { struct sSection *pNewSection; pNewSection = obj_ReadRGB1Section(pObjfile); pNewSection->nNumberOfSymbols = nNumberOfSymbols; if (pFirstSection == NULL) pFirstSection = pNewSection; } /* * Fill in the pSection entry in the symbolstructure. * This REALLY needs some cleaning up... but, hey, it works * */ for (i = 0; i < nNumberOfSymbols; i += 1) { struct sSection *pConvSect = pFirstSection; if (tSymbols[i]->Type != SYM_IMPORT && tSymbols[i]->nSectionID != -1) { SLONG j = 0; while (j != tSymbols[i]->nSectionID) { j += 1; pConvSect = pConvSect->pNext; } tSymbols[i]->pSection = pConvSect; } else tSymbols[i]->pSection = NULL; } } /* * The main objectfileloadroutine (phew) * */ void obj_ReadOpenFile(FILE * pObjfile, char *tzObjectfile) { char tzHeader[8]; fread(tzHeader, sizeof(char), 4, pObjfile); tzHeader[4] = 0; if (strncmp(tzHeader, "RGB", 3) == 0) { switch (tzHeader[3]) { case '0': obj_ReadRGB0(pObjfile); break; case '1': case '2': //V2 is really the same but the are new patch types obj_ReadRGB1(pObjfile); break; default: fprintf(stderr, "'%s' is an unsupported version", tzObjectfile); exit(1); break; } } else { fprintf(stderr, "'%s' is not a valid object\n", tzObjectfile); exit(1); } } void obj_Readfile(char *tzObjectfile) { FILE *pObjfile; if (options & OPT_SMART_C_LINK) oReadLib = 1; else oReadLib = 0; pObjfile = fopen(tzObjectfile, "rb"); if (pObjfile == NULL) { fprintf(stderr, "Unable to open object '%s': ", tzObjectfile); perror(NULL); exit(1); } obj_ReadOpenFile(pObjfile, tzObjectfile); fclose(pObjfile); oReadLib = 0; } SLONG file_Length(FILE * f) { ULONG r, p; p = ftell(f); fseek(f, 0, SEEK_END); r = ftell(f); fseek(f, p, SEEK_SET); return (r); } void lib_ReadXLB0(FILE * f) { SLONG size; size = file_Length(f) - 4; while (size) { char name[256]; size -= readasciiz(name, f); readword(f); size -= 2; readword(f); size -= 2; size -= readlong(f); size -= 4; obj_ReadOpenFile(f, name); } } void lib_Readfile(char *tzLibfile) { FILE *pObjfile; oReadLib = 1; pObjfile = fopen(tzLibfile, "rb"); if (pObjfile == NULL) { fprintf(stderr, "Unable to open object '%s': ", tzLibfile); perror(NULL); exit(1); } if (!pObjfile) { fprintf(stderr, "Unable to open '%s'\n", tzLibfile); exit(1); } char tzHeader[5]; fread(tzHeader, sizeof(char), 4, pObjfile); tzHeader[4] = 0; if (strcmp(tzHeader, "XLB0") == 0) lib_ReadXLB0(pObjfile); else { fprintf(stderr, "'%s' is an invalid library\n", tzLibfile); exit(1); } fclose(pObjfile); }