ref: f88968ec20e59daefa4c8fc1e4a61f7c958ffe90
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 <inttypes.h>
#include <stdio.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.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 "error.h"
#include "linkdefs.h"
#include "platform.h" // strdup
struct Patch {
struct FileStackNode const *src;
uint32_t lineNo;
uint32_t offset;
struct Section *pcSection;
uint32_t pcOffset;
uint8_t type;
uint32_t rpnSize;
uint8_t *rpn;
struct Patch *next;
};
struct Assertion {
struct Patch *patch;
struct Section *section;
char *message;
struct Assertion *next;
};
char *objectName;
struct Section *sectionList;
// Linked list of symbols to put in the object file
static struct Symbol *objectSymbols = NULL;
static struct Symbol **objectSymbolsTail = &objectSymbols;
static uint32_t nbSymbols = 0; // Length of the above list
static struct Assertion *assertions = NULL;
static struct FileStackNode *fileStackNodes = NULL;
// Count the number of sections used in this object
static uint32_t countSections(void)
{
uint32_t count = 0;
for (struct Section const *sect = sectionList; sect; sect = sect->next)
count++;
return count;
}
// Count the number of patches used in this object
static uint32_t countPatches(struct Section const *sect)
{
uint32_t r = 0;
for (struct Patch const *patch = sect->patches; patch != NULL;
patch = patch->next)
r++;
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 putlong(uint32_t i, FILE *f)
{
putc(i, f);
putc(i >> 8, f);
putc(i >> 16, f);
putc(i >> 24, f);
}
// Write a NULL-terminated string to a file
static void putstring(char const *s, FILE *f)
{
while (*s)
putc(*s++, f);
putc(0, f);
}
static uint32_t getNbFileStackNodes(void)
{
return fileStackNodes ? fileStackNodes->ID + 1 : 0;
}
void out_RegisterNode(struct FileStackNode *node)
{
// If node is not already registered, register it (and parents), and give it a unique ID
while (node->ID == (uint32_t)-1) {
node->ID = getNbFileStackNodes();
if (node->ID == (uint32_t)-1)
fatalerror("Reached too many file stack nodes; try splitting the file up\n");
node->next = fileStackNodes;
fileStackNodes = node;
// Also register the node's parents
node = node->parent;
if (!node)
break;
}
}
void out_ReplaceNode(struct FileStackNode *node)
{
(void)node;
#if 0
This is code intended to replace a node, which is pretty useless until ref counting is added...
struct FileStackNode **ptr = &fileStackNodes;
// The linked list is supposed to have decrementing IDs, so iterate with less memory reads,
// to hopefully hit the cache less. A debug check is added after, in case a change is made
// that breaks this assumption.
for (uint32_t i = fileStackNodes->ID; i != node->ID; i--)
ptr = &(*ptr)->next;
assert((*ptr)->ID == node->ID);
node->next = (*ptr)->next;
assert(!node->next || node->next->ID == node->ID - 1); // Catch inconsistencies early
// TODO: unreference the node
*ptr = node;
#endif
}
// Return a section's ID
static uint32_t getsectid(struct Section const *sect)
{
struct Section const *sec = sectionList;
uint32_t ID = 0;
while (sec) {
if (sec == sect)
return ID;
ID++;
sec = sec->next;
}
fatalerror("Unknown section '%s'\n", sect->name);
}
static uint32_t getSectIDIfAny(struct Section const *sect)
{
return sect ? getsectid(sect) : (uint32_t)-1;
}
// Write a patch to a file
static void writepatch(struct Patch const *patch, FILE *f)
{
assert(patch->src->ID != (uint32_t)-1);
putlong(patch->src->ID, f);
putlong(patch->lineNo, f);
putlong(patch->offset, f);
putlong(getSectIDIfAny(patch->pcSection), f);
putlong(patch->pcOffset, f);
putc(patch->type, f);
putlong(patch->rpnSize, f);
fwrite(patch->rpn, 1, patch->rpnSize, f);
}
// Write a section to a file
static void writesection(struct Section const *sect, FILE *f)
{
putstring(sect->name, f);
putlong(sect->size, f);
bool isUnion = sect->modifier == SECTION_UNION;
bool isFragment = sect->modifier == SECTION_FRAGMENT;
putc(sect->type | isUnion << 7 | isFragment << 6, f);
putlong(sect->org, f);
putlong(sect->bank, f);
putc(sect->align, f);
putlong(sect->alignOfs, f);
if (sect_HasData(sect->type)) {
fwrite(sect->data, 1, sect->size, f);
putlong(countPatches(sect), f);
for (struct Patch const *patch = sect->patches; patch != NULL;
patch = patch->next)
writepatch(patch, f);
}
}
static void freesection(struct Section const *sect)
{
if (sect_HasData(sect->type)) {
struct Patch *patch = sect->patches;
while (patch != NULL) {
struct Patch *next = patch->next;
free(patch->rpn);
free(patch);
patch = next;
}
}
}
// Write a symbol to a file
static void writesymbol(struct Symbol const *sym, FILE *f)
{
putstring(sym->name, f);
if (!sym_IsDefined(sym)) {
putc(SYMTYPE_IMPORT, f);
} else {
assert(sym->src->ID != (uint32_t)-1);
putc(sym->isExported ? SYMTYPE_EXPORT : SYMTYPE_LOCAL, f);
putlong(sym->src->ID, f);
putlong(sym->fileLine, f);
putlong(getSectIDIfAny(sym_GetSection(sym)), f);
putlong(sym->value, f);
}
}
static void registerSymbol(struct Symbol *sym)
{
*objectSymbolsTail = sym;
objectSymbolsTail = &sym->next;
out_RegisterNode(sym->src);
if (nbSymbols == (uint32_t)-1)
fatalerror("Registered too many symbols (%" PRIu32
"); try splitting up your files\n", (uint32_t)-1);
sym->ID = nbSymbols++;
}
// 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 Symbol *sym)
{
if (sym->ID == (uint32_t)-1 && !sym_IsPC(sym))
registerSymbol(sym);
return sym->ID;
}
static void writerpn(uint8_t *rpnexpr, uint32_t *rpnptr, uint8_t *rpn,
uint32_t rpnlen)
{
char symName[512];
for (size_t offset = 0; offset < rpnlen; ) {
#define popbyte() rpn[offset++]
#define writebyte(byte) rpnexpr[(*rpnptr)++] = byte
uint8_t rpndata = popbyte();
switch (rpndata) {
struct Symbol *sym;
uint32_t value;
uint8_t b;
size_t i;
case RPN_CONST:
writebyte(RPN_CONST);
writebyte(popbyte());
writebyte(popbyte());
writebyte(popbyte());
writebyte(popbyte());
break;
case RPN_SYM:
i = 0;
do {
symName[i] = popbyte();
} while (symName[i++]);
// The symbol name is always written expanded
sym = sym_FindExactSymbol(symName);
if (sym_IsConstant(sym)) {
writebyte(RPN_CONST);
value = sym_GetConstantValue(symName);
} else {
writebyte(RPN_SYM);
value = getSymbolID(sym);
}
writebyte(value & 0xFF);
writebyte(value >> 8);
writebyte(value >> 16);
writebyte(value >> 24);
break;
case RPN_BANK_SYM:
i = 0;
do {
symName[i] = popbyte();
} while (symName[i++]);
// The symbol name is always written expanded
sym = sym_FindExactSymbol(symName);
value = getSymbolID(sym);
writebyte(RPN_BANK_SYM);
writebyte(value & 0xFF);
writebyte(value >> 8);
writebyte(value >> 16);
writebyte(value >> 24);
break;
case RPN_BANK_SECT:
writebyte(RPN_BANK_SECT);
do {
b = popbyte();
writebyte(b);
} while (b != 0);
break;
case RPN_SIZEOF_SECT:
writebyte(RPN_SIZEOF_SECT);
do {
b = popbyte();
writebyte(b);
} while (b != 0);
break;
case RPN_STARTOF_SECT:
writebyte(RPN_STARTOF_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
// WARNING: all patches are assumed to eventually be written, so the file stack node is registered
static struct Patch *allocpatch(uint32_t type, struct Expression const *expr, uint32_t ofs)
{
struct Patch *patch = malloc(sizeof(struct Patch));
uint32_t rpnSize = expr->isKnown ? 5 : expr->rpnPatchSize;
struct FileStackNode *node = fstk_GetFileStack();
if (!patch)
fatalerror("No memory for patch: %s\n", strerror(errno));
patch->rpn = malloc(sizeof(*patch->rpn) * rpnSize);
if (!patch->rpn)
fatalerror("No memory for patch's RPN rpnSize: %s\n", strerror(errno));
patch->type = type;
patch->src = node;
out_RegisterNode(node);
patch->lineNo = lexer_GetLineNo();
patch->offset = ofs;
patch->pcSection = sect_GetSymbolSection();
patch->pcOffset = sect_GetSymbolOffset();
// If the rpnSize's value is known, output a constant RPN rpnSize directly
if (expr->isKnown) {
patch->rpnSize = rpnSize;
// Make sure to update `rpnSize` above if modifying this!
patch->rpn[0] = RPN_CONST;
patch->rpn[1] = (uint32_t)(expr->val) & 0xFF;
patch->rpn[2] = (uint32_t)(expr->val) >> 8;
patch->rpn[3] = (uint32_t)(expr->val) >> 16;
patch->rpn[4] = (uint32_t)(expr->val) >> 24;
} else {
patch->rpnSize = 0;
writerpn(patch->rpn, &patch->rpnSize, expr->rpn, expr->rpnLength);
}
assert(patch->rpnSize == rpnSize);
return patch;
}
// Create a new patch (includes the rpn expr)
void out_CreatePatch(uint32_t type, struct Expression const *expr, uint32_t ofs, uint32_t pcShift)
{
struct Patch *patch = allocpatch(type, expr, ofs);
// If the patch had a quantity of bytes output before it,
// PC is not at the patch's location, but at the location
// before those bytes.
patch->pcOffset -= pcShift;
patch->next = currentSection->patches;
currentSection->patches = patch;
}
// 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->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);
putstring(assert->message, f);
}
static void freeassert(struct Assertion *assert)
{
free(assert->patch->rpn);
free(assert->patch);
free(assert);
}
static void writeFileStackNode(struct FileStackNode const *node, FILE *f)
{
putlong(node->parent ? node->parent->ID : (uint32_t)-1, f);
putlong(node->lineNo, f);
putc(node->type, f);
if (node->type != NODE_REPT) {
putstring(((struct FileStackNamedNode const *)node)->name, f);
} else {
struct FileStackReptNode const *reptNode = (struct FileStackReptNode const *)node;
putlong(reptNode->reptDepth, f);
// Iters are stored by decreasing depth, so reverse the order for output
for (uint32_t i = reptNode->reptDepth; i--; )
putlong(reptNode->iters[i], f);
}
}
static void registerUnregisteredSymbol(struct Symbol *symbol, void *arg)
{
(void)arg; // sym_ForEach requires a void* parameter, but we are not using it.
// Check for symbol->src, to skip any built-in symbol from rgbasm
if (symbol->src && symbol->ID == (uint32_t)-1) {
registerSymbol(symbol);
}
}
// Write an objectfile
void out_WriteObject(void)
{
FILE *f;
if (strcmp(objectName, "-") != 0)
f = fopen(objectName, "wb");
else
f = fdopen(STDOUT_FILENO, "wb");
if (!f)
err("Couldn't write file '%s'", objectName);
// Also write symbols that weren't written above
sym_ForEach(registerUnregisteredSymbol, NULL);
fprintf(f, RGBDS_OBJECT_VERSION_STRING);
putlong(RGBDS_OBJECT_REV, f);
putlong(nbSymbols, f);
putlong(countSections(), f);
putlong(getNbFileStackNodes(), f);
for (struct FileStackNode const *node = fileStackNodes; node; node = node->next) {
writeFileStackNode(node, f);
if (node->next && node->next->ID != node->ID - 1)
fatalerror("Internal error: fstack node #%" PRIu32 " follows #%" PRIu32
". Please report this to the developers!\n",
node->next->ID, node->ID);
}
for (struct Symbol const *sym = objectSymbols; sym; sym = sym->next)
writesymbol(sym, f);
for (struct Section *sect = sectionList; sect; sect = sect->next) {
writesection(sect, f);
freesection(sect);
}
putlong(countAsserts(), f);
struct Assertion *assert = assertions;
while (assert != NULL) {
struct Assertion *next = assert->next;
writeassert(assert, f);
freeassert(assert);
assert = next;
}
fclose(f);
}
// Set the objectfilename
void out_SetFileName(char *s)
{
if (objectName)
warnx("Overriding output filename %s", objectName);
objectName = s;
if (verbose)
printf("Output filename %s\n", objectName);
}