ref: c0aff678e9f1a88163781ccad94b889d7961bc57
dir: /src/asm/output.c/
/* * This file is part of RGBDS. * * Copyright (c) 1997-2019, Carsten Sorensen and RGBDS contributors. * * SPDX-License-Identifier: MIT */ /* * Outputs an objectfile */ #include <assert.h> #include <errno.h> #include <stdio.h> #include <stdint.h> #include <stdlib.h> #include <string.h> #include "asm/asm.h" #include "asm/charmap.h" #include "asm/fstack.h" #include "asm/main.h" #include "asm/output.h" #include "asm/rpn.h" #include "asm/section.h" #include "asm/symbol.h" #include "asm/warning.h" #include "extern/err.h" #include "linkdefs.h" struct Patch { char tzFilename[_MAX_PATH + 1]; uint32_t nOffset; uint8_t nType; uint32_t nRPNSize; uint8_t *pRPN; struct Patch *pNext; }; struct Assertion { struct Patch *patch; struct Section *section; char *message; struct Assertion *next; }; char *tzObjectname; /* TODO: shouldn't `pCurrentSection` be somewhere else? */ struct Section *pSectionList, *pCurrentSection; /* Linked list of symbols to put in the object file */ static struct sSymbol *objectSymbols = NULL; static struct sSymbol **objectSymbolsTail = &objectSymbols; static uint32_t nbSymbols = 0; /* Length of the above list */ static struct Assertion *assertions = NULL; /* * Count the number of sections used in this object */ static uint32_t countsections(void) { struct Section *pSect; uint32_t count = 0; pSect = pSectionList; while (pSect) { count++; pSect = pSect->pNext; } return count; } /* * Count the number of patches used in this object */ static uint32_t countpatches(struct Section *pSect) { struct Patch *pPatch; uint32_t r = 0; pPatch = pSect->pPatches; while (pPatch) { r++; pPatch = pPatch->pNext; } return r; } /** * Count the number of assertions used in this object */ static uint32_t countasserts(void) { struct Assertion *assert = assertions; uint32_t count = 0; while (assert) { count++; assert = assert->next; } return count; } /* * Write a long to a file (little-endian) */ static void fputlong(uint32_t i, FILE *f) { fputc(i, f); fputc(i >> 8, f); fputc(i >> 16, f); fputc(i >> 24, f); } /* * Write a NULL-terminated string to a file */ static void fputstring(char const *s, FILE *f) { while (*s) fputc(*s++, f); fputc(0, f); } /* * Return a section's ID */ static uint32_t getsectid(struct Section *pSect) { struct Section *sec; uint32_t ID = 0; sec = pSectionList; while (sec) { if (sec == pSect) return ID; ID++; sec = sec->pNext; } fatalerror("Unknown section '%s'", pSect->pzName); } /* * Write a patch to a file */ static void writepatch(struct Patch *pPatch, FILE *f) { fputstring(pPatch->tzFilename, f); fputlong(pPatch->nOffset, f); fputc(pPatch->nType, f); fputlong(pPatch->nRPNSize, f); fwrite(pPatch->pRPN, 1, pPatch->nRPNSize, f); } /* * Write a section to a file */ static void writesection(struct Section *pSect, FILE *f) { fputstring(pSect->pzName, f); fputlong(pSect->size, f); fputc(pSect->nType | pSect->isUnion << 7, f); fputlong(pSect->nOrg, f); fputlong(pSect->nBank, f); fputlong(pSect->nAlign, f); if (sect_HasData(pSect->nType)) { struct Patch *pPatch; fwrite(pSect->tData, 1, pSect->size, f); fputlong(countpatches(pSect), f); pPatch = pSect->pPatches; while (pPatch) { writepatch(pPatch, f); pPatch = pPatch->pNext; } } } /* * Write a symbol to a file */ static void writesymbol(struct sSymbol const *pSym, FILE *f) { fputstring(pSym->tzName, f); if (!sym_IsDefined(pSym)) { fputc(SYMTYPE_IMPORT, f); } else { fputc(pSym->isExported ? SYMTYPE_EXPORT : SYMTYPE_LOCAL, f); fputstring(pSym->tzFileName, f); fputlong(pSym->nFileLine, f); fputlong(pSym->pSection ? getsectid(pSym->pSection) : -1, f); fputlong(pSym->nValue, f); } } /* * Returns a symbol's ID within the object file * If the symbol does not have one, one is assigned by registering the symbol */ static uint32_t getSymbolID(struct sSymbol *sym) { if (sym->ID == -1) { sym->ID = nbSymbols++; *objectSymbolsTail = sym; objectSymbolsTail = &sym->next; } return sym->ID; } static void writerpn(uint8_t *rpnexpr, uint32_t *rpnptr, uint8_t *rpn, uint32_t rpnlen) { char tzSym[512]; for (size_t offset = 0; offset < rpnlen; ) { #define popbyte() rpn[offset++] #define writebyte(byte) rpnexpr[(*rpnptr)++] = byte uint8_t rpndata = popbyte(); switch (rpndata) { case RPN_CONST: writebyte(RPN_CONST); writebyte(popbyte()); writebyte(popbyte()); writebyte(popbyte()); writebyte(popbyte()); break; case RPN_SYM: { for (unsigned int i = -1; (tzSym[++i] = popbyte()); ) ; struct sSymbol *sym = sym_FindSymbol(tzSym); uint32_t value; if (sym_IsConstant(sym)) { writebyte(RPN_CONST); value = sym_GetConstantValue(tzSym); } else { writebyte(RPN_SYM); value = getSymbolID(sym); } writebyte(value & 0xFF); writebyte(value >> 8); writebyte(value >> 16); writebyte(value >> 24); break; } case RPN_BANK_SYM: { for (unsigned int i = -1; (tzSym[++i] = popbyte()); ) ; struct sSymbol *sym = sym_FindSymbol(tzSym); uint32_t value = getSymbolID(sym); writebyte(RPN_BANK_SYM); writebyte(value & 0xFF); writebyte(value >> 8); writebyte(value >> 16); writebyte(value >> 24); break; } case RPN_BANK_SECT: { uint8_t b; writebyte(RPN_BANK_SECT); do { b = popbyte(); writebyte(b); } while (b != 0); break; } default: writebyte(rpndata); break; } #undef popbyte #undef writebyte } } /* * Allocate a new patch structure and link it into the list */ static struct Patch *allocpatch(uint32_t type, struct Expression const *expr, uint32_t ofs) { struct Patch *pPatch; pPatch = malloc(sizeof(struct Patch)); if (!pPatch) fatalerror("No memory for patch: %s", strerror(errno)); pPatch->pRPN = malloc(sizeof(*pPatch->pRPN) * expr->nRPNPatchSize); if (!pPatch->pRPN) fatalerror("No memory for patch's RPN expression: %s", strerror(errno)); pPatch->nRPNSize = 0; pPatch->nType = type; fstk_DumpToStr(pPatch->tzFilename, sizeof(pPatch->tzFilename)); pPatch->nOffset = ofs; writerpn(pPatch->pRPN, &pPatch->nRPNSize, expr->tRPN, expr->nRPNLength); assert(pPatch->nRPNSize == expr->nRPNPatchSize); return pPatch; } /* * Create a new patch (includes the rpn expr) */ void out_CreatePatch(uint32_t type, struct Expression const *expr, uint32_t ofs) { struct Patch *pPatch = allocpatch(type, expr, ofs); pPatch->pNext = pCurrentSection->pPatches; pCurrentSection->pPatches = pPatch; } /** * Creates an assert that will be written to the object file */ bool out_CreateAssert(enum AssertionType type, struct Expression const *expr, char const *message, uint32_t ofs) { struct Assertion *assertion = malloc(sizeof(*assertion)); if (!assertion) return false; assertion->patch = allocpatch(type, expr, ofs); assertion->section = pCurrentSection; assertion->message = strdup(message); if (!assertion->message) { free(assertion); return false; } assertion->next = assertions; assertions = assertion; return true; } static void writeassert(struct Assertion *assert, FILE *f) { writepatch(assert->patch, f); fputlong(assert->section ? getsectid(assert->section) : -1, f); fputstring(assert->message, f); } static void registerExportedSymbol(struct sSymbol *symbol, void *arg) { (void)arg; if (symbol->isExported && symbol->ID == -1) { *objectSymbolsTail = symbol; objectSymbolsTail = &symbol->next; nbSymbols++; } } /* * Write an objectfile */ void out_WriteObject(void) { FILE *f; struct Section *pSect; struct Assertion *assert = assertions; f = fopen(tzObjectname, "wb"); if (!f) err(1, "Couldn't write file '%s'", tzObjectname); /* Also write exported symbols that weren't written above */ sym_ForEach(registerExportedSymbol, NULL); fprintf(f, RGBDS_OBJECT_VERSION_STRING, RGBDS_OBJECT_VERSION_NUMBER); fputlong(RGBDS_OBJECT_REV, f); fputlong(nbSymbols, f); fputlong(countsections(), f); for (struct sSymbol const *sym = objectSymbols; sym; sym = sym->next) { writesymbol(sym, f); } pSect = pSectionList; while (pSect) { writesection(pSect, f); pSect = pSect->pNext; } fputlong(countasserts(), f); while (assert) { writeassert(assert, f); assert = assert->next; } fclose(f); } /* * Set the objectfilename */ void out_SetFileName(char *s) { tzObjectname = s; if (CurrentOptions.verbose) printf("Output filename %s\n", s); }