ref: 2b5ad9dc38f160c5f883fd7c94c60cd473eddd1a
dir: /src/link/assign.c/
#include <stdio.h>
#include <stdlib.h>
#include <stdbool.h>
#include <string.h>
#include "extern/err.h"
#include "link/assign.h"
#include "link/mylink.h"
#include "link/main.h"
#include "link/script.h"
#include "link/symbol.h"
struct sFreeArea {
SLONG nOrg;
SLONG nSize;
struct sFreeArea *pPrev, *pNext;
};
struct sSectionAttributes {
const char *name;
SLONG bank;
SLONG offset; // bank + offset = bank originally stored in a section struct
SLONG minBank;
SLONG bankCount;
};
struct sFreeArea *BankFree[MAXBANKS];
SLONG MaxAvail[MAXBANKS];
SLONG MaxBankUsed;
SLONG MaxWBankUsed;
SLONG MaxSBankUsed;
SLONG MaxVBankUsed;
const enum eSectionType SECT_MIN = SECT_WRAM0;
const enum eSectionType SECT_MAX = SECT_OAM;
const struct sSectionAttributes SECT_ATTRIBUTES[] = {
{"WRAM0", BANK_WRAM0, 0, 0, BANK_COUNT_WRAM0},
{"VRAM", BANK_VRAM, 0, 0, BANK_COUNT_VRAM},
{"ROMX", BANK_ROMX, -1, 1, BANK_COUNT_ROMX},
{"ROM0", BANK_ROM0, 0, 0, BANK_COUNT_ROM0},
{"HRAM", BANK_HRAM, 0, 0, BANK_COUNT_HRAM},
{"WRAMX", BANK_WRAMX, 0, 0, BANK_COUNT_WRAMX},
{"SRAM", BANK_SRAM, 0, 0, BANK_COUNT_SRAM},
{"OAM", BANK_OAM, 0, 0, BANK_COUNT_OAM}
};
#define DOMAXBANK(x, y) {switch (x) { \
case SECT_ROMX: DOMAXRBANK(y); break; \
case SECT_WRAMX: DOMAXWBANK(y); break; \
case SECT_SRAM: DOMAXSBANK(y); break; \
case SECT_VRAM: DOMAXVBANK(y); break; \
default: break; }}
#define DOMAXRBANK(x) {if( (x)>MaxBankUsed ) MaxBankUsed=(x);}
#define DOMAXWBANK(x) {if( (x)>MaxWBankUsed ) MaxWBankUsed=(x);}
#define DOMAXSBANK(x) {if( (x)>MaxSBankUsed ) MaxSBankUsed=(x);}
#define DOMAXVBANK(x) {if( (x)>MaxVBankUsed ) MaxVBankUsed=(x);}
void
ensureSectionTypeIsValid(enum eSectionType type)
{
if (type < SECT_MIN || type > SECT_MAX) {
errx(1, "(INTERNAL) Invalid section type found.");
}
}
SLONG
area_Avail(SLONG bank)
{
SLONG r;
struct sFreeArea *pArea;
r = 0;
pArea = BankFree[bank];
while (pArea) {
r += pArea->nSize;
pArea = pArea->pNext;
}
return (r);
}
SLONG
area_doAlloc(struct sFreeArea *pArea, SLONG org, SLONG size)
{
if (org >= pArea->nOrg && (org + size) <= (pArea->nOrg + pArea->nSize)) {
if (org == pArea->nOrg) {
pArea->nOrg += size;
pArea->nSize -= size;
return org;
} else {
if ((org + size) == (pArea->nOrg + pArea->nSize)) {
pArea->nSize -= size;
return org;
} else {
struct sFreeArea *pNewArea;
if ((pNewArea = malloc(sizeof(struct sFreeArea))) != NULL) {
*pNewArea = *pArea;
pNewArea->pPrev = pArea;
pArea->pNext = pNewArea;
pArea->nSize = org - pArea->nOrg;
pNewArea->nOrg = org + size;
pNewArea->nSize -= size + pArea->nSize;
return org;
} else {
err(1, NULL);
}
}
}
}
return -1;
}
SLONG
area_AllocAbs(struct sFreeArea ** ppArea, SLONG org, SLONG size)
{
struct sFreeArea *pArea;
pArea = *ppArea;
while (pArea) {
SLONG result = area_doAlloc(pArea, org, size);
if (result != -1) {
return result;
}
ppArea = &(pArea->pNext);
pArea = *ppArea;
}
return -1;
}
SLONG
area_AllocAbsAnyBank(SLONG org, SLONG size, enum eSectionType type)
{
ensureSectionTypeIsValid(type);
SLONG startBank = SECT_ATTRIBUTES[type].bank;
SLONG bankCount = SECT_ATTRIBUTES[type].bankCount;
for (int i = 0; i < bankCount; i++) {
if (area_AllocAbs(&BankFree[startBank + i], org, size) != -1) {
return startBank + i;
}
}
return -1;
}
SLONG
area_Alloc(struct sFreeArea ** ppArea, SLONG size, SLONG alignment) {
struct sFreeArea *pArea;
if (alignment < 1) {
alignment = 1;
}
pArea = *ppArea;
while (pArea) {
SLONG org = pArea->nOrg;
if (org % alignment) {
org += alignment;
}
org -= org % alignment;
SLONG result = area_doAlloc(pArea, org, size);
if (result != -1) {
return result;
}
ppArea = &(pArea->pNext);
pArea = *ppArea;
}
return -1;
}
SLONG
area_AllocAnyBank(SLONG size, SLONG alignment, enum eSectionType type) {
ensureSectionTypeIsValid(type);
SLONG startBank = SECT_ATTRIBUTES[type].bank;
SLONG bankCount = SECT_ATTRIBUTES[type].bankCount;
for (int i = 0; i < bankCount; i++) {
SLONG org = area_Alloc(&BankFree[startBank + i], size, alignment);
if (org != -1) {
return ((startBank + i) << 16) | org;
}
}
return -1;
}
struct sSection *
FindLargestSection(enum eSectionType type, bool bankFixed)
{
struct sSection *pSection, *r = NULL;
SLONG nLargest = 0;
SLONG nLargestAlignment = 0;
pSection = pSections;
while (pSection) {
if (pSection->oAssigned == 0 && pSection->Type == type && (bankFixed ^ (pSection->nBank == -1))) {
if (pSection->nAlign > nLargestAlignment || (pSection->nAlign == nLargestAlignment && pSection->nByteSize > nLargest)) {
nLargest = pSection->nByteSize;
nLargestAlignment = pSection->nAlign;
r = pSection;
}
}
pSection = pSection->pNext;
}
return r;
}
int
IsSectionNameInUse(const char *name)
{
struct sSection *pSection;
pSection = pSections;
while (pSection) {
if (strcmp(pSection->pzName, name) == 0)
return 1;
pSection = pSection->pNext;
}
return 0;
}
int
IsSectionSameTypeBankAndFloating(const char *name, enum eSectionType type, int bank)
{
struct sSection *pSection;
pSection = pSections;
while (pSection) {
if (pSection->oAssigned == 0) {
if (strcmp(pSection->pzName, name) == 0) {
/* Section must be floating in source */
if (pSection->nOrg != -1 || pSection->nAlign != 1)
return 0;
/* It must have the same type in source and linkerscript */
if (pSection->Type != type)
return 0;
/* Bank number must be unassigned in source or equal */
if (pSection->nBank != -1 && pSection->nBank != bank)
return 0;
return 1;
}
}
pSection = pSection->pNext;
}
errx(1, "Section \"%s\" not found (or already used).\n", name);
}
unsigned int
AssignSectionAddressAndBankByName(const char *name, unsigned int address, int bank)
{
struct sSection *pSection;
pSection = pSections;
while (pSection) {
if (pSection->oAssigned == 0) {
if (strcmp(pSection->pzName, name) == 0) {
if (pSection->nOrg != -1 || pSection->nAlign != 1)
errx(1, "Section \"%s\" from linkerscript isn't floating.\n", name);
if (pSection->nBank != -1 && pSection->nBank != bank)
errx(1, "Section \"%s\" from linkerscript has different bank number than in the source.\n", name);
pSection->nOrg = address;
pSection->nBank = bank;
pSection->nAlign = -1;
return pSection->nByteSize;
}
}
pSection = pSection->pNext;
}
errx(1, "Section \"%s\" not found (or already used).\n", name);
}
bool
VerifyAndSetBank(struct sSection *pSection)
{
ensureSectionTypeIsValid(pSection->Type);
if (pSection->nBank >= SECT_ATTRIBUTES[pSection->Type].minBank
&& pSection->nBank < SECT_ATTRIBUTES[pSection->Type].minBank + SECT_ATTRIBUTES[pSection->Type].bankCount) {
pSection->nBank += SECT_ATTRIBUTES[pSection->Type].bank + SECT_ATTRIBUTES[pSection->Type].offset;
return true;
} else {
return false;
}
}
void
AssignFixedBankSections(enum eSectionType type)
{
ensureSectionTypeIsValid(type);
struct sSection *pSection;
while ((pSection = FindLargestSection(type, true))) {
if (VerifyAndSetBank(pSection) &&
(pSection->nOrg = area_Alloc(&BankFree[pSection->nBank], pSection->nByteSize, pSection->nAlign)) != -1) {
pSection->oAssigned = 1;
DOMAXBANK(pSection->Type, pSection->nBank);
} else {
if (pSection->nAlign <= 1) {
errx(1, "Unable to place '%s' (%s section) in bank $%02lX",
pSection->pzName, SECT_ATTRIBUTES[pSection->Type].name, pSection->nBank);
} else {
errx(1, "Unable to place '%s' (%s section) in bank $%02lX (with $%lX-byte alignment)",
pSection->pzName, SECT_ATTRIBUTES[pSection->Type].name, pSection->nBank, pSection->nAlign);
}
}
}
}
void
AssignFloatingBankSections(enum eSectionType type)
{
ensureSectionTypeIsValid(type);
struct sSection *pSection;
while ((pSection = FindLargestSection(type, false))) {
SLONG org;
if ((org = area_AllocAnyBank(pSection->nByteSize, pSection->nAlign, type)) != -1) {
if (options & OPT_OVERLAY) {
errx(1, "All sections must be fixed when using overlay");
}
pSection->nOrg = org & 0xFFFF;
pSection->nBank = org >> 16;
pSection->oAssigned = 1;
DOMAXBANK(pSection->Type, pSection->nBank);
} else {
const char *locality = "anywhere";
if (SECT_ATTRIBUTES[pSection->Type].bankCount > 1) {
locality = "in any bank";
}
if (pSection->nAlign <= 1) {
errx(1, "Unable to place '%s' (%s section) %s",
pSection->pzName, SECT_ATTRIBUTES[type].name, locality);
} else {
errx(1, "Unable to place '%s' (%s section) %s (with $%lX-byte alignment)",
pSection->pzName, SECT_ATTRIBUTES[type].name, locality, pSection->nAlign);
}
}
}
}
char *tzLinkerscriptName = NULL;
void
SetLinkerscriptName(char *tzLinkerscriptFile)
{
tzLinkerscriptName = tzLinkerscriptFile;
}
void
AssignSections(void)
{
SLONG i;
struct sSection *pSection;
MaxBankUsed = 0;
/*
* Initialize the memory areas
*
*/
for (i = 0; i < MAXBANKS; i += 1) {
BankFree[i] = malloc(sizeof *BankFree[i]);
if (!BankFree[i]) {
err(1, NULL);
}
if (i == BANK_ROM0) {
/* ROM0 bank */
BankFree[i]->nOrg = 0x0000;
if (options & OPT_TINY) {
BankFree[i]->nSize = 0x8000;
} else {
BankFree[i]->nSize = 0x4000;
}
} else if (i >= BANK_ROMX && i < BANK_ROMX + BANK_COUNT_ROMX) {
/* Swappable ROM bank */
BankFree[i]->nOrg = 0x4000;
BankFree[i]->nSize = 0x4000;
} else if (i == BANK_WRAM0) {
/* WRAM */
BankFree[i]->nOrg = 0xC000;
if (options & OPT_CONTWRAM) {
BankFree[i]->nSize = 0x2000;
} else {
BankFree[i]->nSize = 0x1000;
}
} else if (i >= BANK_SRAM && i < BANK_SRAM + BANK_COUNT_SRAM) {
/* Swappable SRAM bank */
BankFree[i]->nOrg = 0xA000;
BankFree[i]->nSize = 0x2000;
} else if (i >= BANK_WRAMX && i < BANK_WRAMX + BANK_COUNT_WRAMX) {
/* Swappable WRAM bank */
BankFree[i]->nOrg = 0xD000;
BankFree[i]->nSize = 0x1000;
} else if (i >= BANK_VRAM && i < BANK_VRAM + BANK_COUNT_VRAM) {
/* Swappable VRAM bank */
BankFree[i]->nOrg = 0x8000;
if (options & OPT_DMG_MODE && i != BANK_VRAM) {
BankFree[i]->nSize = 0;
} else {
BankFree[i]->nSize = 0x2000;
}
} else if (i == BANK_OAM) {
BankFree[i]->nOrg = 0xFE00;
BankFree[i]->nSize = 0x00A0;
} else if (i == BANK_HRAM) {
/* HRAM */
BankFree[i]->nOrg = 0xFF80;
BankFree[i]->nSize = 0x007F;
} else {
errx(1, "(INTERNAL) Unknown bank type!");
}
MaxAvail[i] = BankFree[i]->nSize;
BankFree[i]->pPrev = NULL;
BankFree[i]->pNext = NULL;
}
/*
* First, let's parse the linkerscript.
*
*/
if (tzLinkerscriptName) {
script_InitSections();
script_Parse(tzLinkerscriptName);
}
/*
* Second, let's assign all the fixed sections...
*
*/
pSection = pSections;
while (pSection) {
if ((pSection->nOrg != -1 || pSection->nBank != -1)
&& pSection->oAssigned == 0) {
/* User wants to have a say... */
switch (pSection->Type) {
case SECT_WRAM0:
case SECT_HRAM:
case SECT_ROM0:
case SECT_OAM:
pSection->nBank = SECT_ATTRIBUTES[pSection->Type].bank;
if (area_AllocAbs(&BankFree[pSection->nBank], pSection->nOrg,
pSection->nByteSize) == -1) {
errx(1, "Unable to place '%s' (%s section) at $%lX",
pSection->pzName, SECT_ATTRIBUTES[pSection->Type].name, pSection->nOrg);
}
pSection->oAssigned = 1;
break;
case SECT_SRAM:
case SECT_WRAMX:
case SECT_VRAM:
case SECT_ROMX:
if (pSection->nBank != -1 && pSection->nOrg != -1) {
if (VerifyAndSetBank(pSection) &&
area_AllocAbs(&BankFree[pSection->nBank], pSection->nOrg, pSection->nByteSize) != -1) {
DOMAXBANK(pSection->Type, pSection->nBank);
pSection->oAssigned = 1;
} else {
errx(1, "Unable to place '%s' (%s section) at $%lX in bank $%02lX",
pSection->pzName, SECT_ATTRIBUTES[pSection->Type].name, pSection->nOrg, pSection->nBank);
}
}
break;
}
}
pSection = pSection->pNext;
}
/*
* Next, let's assign all the bankfixed ONLY sections...
*
*/
for (enum eSectionType i = SECT_MIN; i <= SECT_MAX; i++) {
AssignFixedBankSections(i);
}
/*
* Now, let's assign all the floating bank but fixed ROMX sections...
*
*/
pSection = pSections;
while (pSection) {
if (pSection->oAssigned == 0
&& pSection->nOrg != -1 && pSection->nBank == -1) {
if (options & OPT_OVERLAY) {
errx(1, "All sections must be fixed when using overlay");
}
switch (pSection->Type) {
case SECT_ROMX:
case SECT_VRAM:
case SECT_SRAM:
case SECT_WRAMX:
if ((pSection->nBank =
area_AllocAbsAnyBank(pSection->nOrg, pSection->nByteSize,
pSection->Type)) == -1) {
errx(1, "Unable to place '%s' (%s section) at $%lX in any bank",
pSection->pzName, SECT_ATTRIBUTES[pSection->Type].name, pSection->nOrg);
}
pSection->oAssigned = 1;
DOMAXBANK(pSection->Type, pSection->nBank);
break;
default: // Handle other sections later
break;
}
}
pSection = pSection->pNext;
}
/*
* OK, all that nasty stuff is done so let's assign all the other
* sections
*
*/
for (enum eSectionType i = SECT_MIN; i <= SECT_MAX; i++) {
AssignFloatingBankSections(i);
}
}
void
CreateSymbolTable(void)
{
struct sSection *pSect;
sym_Init();
pSect = pSections;
while (pSect) {
SLONG i;
i = pSect->nNumberOfSymbols;
while (i--) {
if ((pSect->tSymbols[i]->Type == SYM_EXPORT) &&
((pSect->tSymbols[i]->pSection == pSect) ||
(pSect->tSymbols[i]->pSection == NULL))) {
if (pSect->tSymbols[i]->pSection == NULL)
sym_CreateSymbol(pSect->tSymbols[i]->
pzName,
pSect->tSymbols[i]->
nOffset, -1);
else
sym_CreateSymbol(pSect->tSymbols[i]->
pzName,
pSect->nOrg +
pSect->tSymbols[i]->
nOffset, pSect->nBank);
}
}
pSect = pSect->pNext;
}
}