ref: 4feaa929ff8b8181e6d637e9b3cc42e7cafd88f4
dir: /src/link/assign.c/
#include <err.h>
#include <stdio.h>
#include <stdlib.h>
#include "link/mylink.h"
#include "link/main.h"
#include "link/symbol.h"
#include "link/assign.h"
struct sFreeArea {
SLONG nOrg;
SLONG nSize;
struct sFreeArea *pPrev, *pNext;
};
struct sFreeArea *BankFree[MAXBANKS];
SLONG MaxAvail[MAXBANKS];
SLONG MaxBankUsed;
#define DOMAXBANK(x) {if( (x)>MaxBankUsed ) MaxBankUsed=(x);}
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_AllocAbs(struct sFreeArea ** ppArea, SLONG org, SLONG size)
{
struct sFreeArea *pArea;
pArea = *ppArea;
while (pArea) {
if (org >= pArea->nOrg
&& (org + size - 1) <= (pArea->nOrg + pArea->nSize - 1)) {
if (org == pArea->nOrg) {
pArea->nOrg += size;
pArea->nSize -= size;
return (org);
} else {
if ((org + size - 1) ==
(pArea->nOrg + pArea->nSize - 1)) {
pArea->nSize -= size;
return (org);
} else {
struct sFreeArea *pNewArea;
if ((pNewArea =
(struct sFreeArea *)
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
errx(5, "Out of memory!");
}
}
}
ppArea = &(pArea->pNext);
pArea = *ppArea;
}
return (-1);
}
SLONG
area_AllocAbsCODEAnyBank(SLONG org, SLONG size)
{
SLONG i;
for (i = 1; i <= 255; i += 1) {
if (area_AllocAbs(&BankFree[i], org, size) == org)
return (i);
}
return (-1);
}
SLONG
area_Alloc(struct sFreeArea ** ppArea, SLONG size)
{
struct sFreeArea *pArea;
pArea = *ppArea;
while (pArea) {
if (size <= pArea->nSize) {
SLONG r;
r = pArea->nOrg;
pArea->nOrg += size;
pArea->nSize -= size;
return (r);
}
ppArea = &(pArea->pNext);
pArea = *ppArea;
}
return (-1);
}
SLONG
area_AllocCODEAnyBank(SLONG size)
{
SLONG i, org;
for (i = 1; i <= 255; i += 1) {
if ((org = area_Alloc(&BankFree[i], size)) != -1)
return ((i << 16) | org);
}
return (-1);
}
struct sSection *
FindLargestCode(void)
{
struct sSection *pSection, *r = NULL;
SLONG nLargest = 0;
pSection = pSections;
while (pSection) {
if (pSection->oAssigned == 0 && pSection->Type == SECT_CODE) {
if (pSection->nByteSize > nLargest) {
nLargest = pSection->nByteSize;
r = pSection;
}
}
pSection = pSection->pNext;
}
return (r);
}
void
AssignCodeSections(void)
{
struct sSection *pSection;
while ((pSection = FindLargestCode())) {
SLONG org;
if ((org = area_AllocCODEAnyBank(pSection->nByteSize)) != -1) {
pSection->nOrg = org & 0xFFFF;
pSection->nBank = org >> 16;
pSection->oAssigned = 1;
DOMAXBANK(pSection->nBank);
} else
errx(5, "Unable to place CODE section anywhere");
}
}
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])
errx(5, "Out of memory!");
if (i == 0) {
BankFree[i]->nOrg = 0x0000;
if (options & OPT_SMALL) {
BankFree[i]->nSize = 0x8000;
MaxAvail[i] = 0x8000;
} else {
BankFree[i]->nSize = 0x4000;
MaxAvail[i] = 0x4000;
}
} else if (i >= 1 && i <= 255) {
BankFree[i]->nOrg = 0x4000;
/*
* Now, this shouldn't really be necessary... but for
* good measure we'll do it anyway.
*/
if (options & OPT_SMALL) {
BankFree[i]->nSize = 0;
MaxAvail[i] = 0;
} else {
BankFree[i]->nSize = 0x4000;
MaxAvail[i] = 0x4000;
}
} else if (i == BANK_BSS) {
BankFree[i]->nOrg = 0xC000;
BankFree[i]->nSize = 0x2000;
MaxAvail[i] = 0x2000;
} else if (i == BANK_VRAM) {
BankFree[i]->nOrg = 0x8000;
BankFree[i]->nSize = 0x2000;
MaxAvail[i] = 0x2000;
} else if (i == BANK_HRAM) {
BankFree[i]->nOrg = 0xFF80;
BankFree[i]->nSize = 0x007F;
MaxAvail[i] = 0x007F;
}
BankFree[i]->pPrev = NULL;
BankFree[i]->pNext = NULL;
}
/*
* First, let's assign all the fixed sections...
* And all because of that Jens Restemeier character ;)
*
*/
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_BSS:
if (area_AllocAbs
(&BankFree[BANK_BSS], pSection->nOrg,
pSection->nByteSize) != pSection->nOrg) {
errx(5, "Unable to load fixed BSS section at $%lX", pSection->nOrg);
}
pSection->oAssigned = 1;
pSection->nBank = BANK_BSS;
break;
case SECT_HRAM:
if (area_AllocAbs
(&BankFree[BANK_HRAM], pSection->nOrg,
pSection->nByteSize) != pSection->nOrg) {
errx(5, "Unable to load fixed HRAM section at $%lX", pSection->nOrg);
}
pSection->oAssigned = 1;
pSection->nBank = BANK_HRAM;
break;
case SECT_VRAM:
if (area_AllocAbs
(&BankFree[BANK_VRAM], pSection->nOrg,
pSection->nByteSize) != pSection->nOrg) {
errx(5, "Unable to load fixed VRAM section at $%lX", pSection->nOrg);
}
pSection->oAssigned = 1;
pSection->nBank = BANK_VRAM;
break;
case SECT_HOME:
if (area_AllocAbs
(&BankFree[BANK_HOME], pSection->nOrg,
pSection->nByteSize) != pSection->nOrg) {
errx(5, "Unable to load fixed HOME section at $%lX", pSection->nOrg);
}
pSection->oAssigned = 1;
pSection->nBank = BANK_HOME;
break;
case SECT_CODE:
if (pSection->nBank == -1) {
/*
* User doesn't care which bank, so he must want to
* decide which position within that bank.
* We'll do that at a later stage when the really
* hardcoded things are allocated
*
*/
} else {
/*
* User wants to decide which bank we use
* Does he care about the position as well?
*
*/
if (pSection->nOrg == -1) {
/*
* Nope, any position will do
* Again, we'll do that later
*
*/
} else {
/*
* How hardcore can you possibly get? Why does
* he even USE this package? Yeah let's just
* direct address everything, shall we?
* Oh well, the customer is always right
*
*/
if (pSection->nBank >= 1
&& pSection->nBank <= 255) {
if (area_AllocAbs
(&BankFree
[pSection->nBank],
pSection->nOrg,
pSection->
nByteSize) !=
pSection->nOrg) {
errx(5, "Unable to load fixed CODE/DATA section at $%lX in bank $%02lX", pSection->nOrg, pSection->nBank);
}
DOMAXBANK(pSection->
nBank);
pSection->oAssigned = 1;
} else {
errx(5, "Unable to load fixed CODE/DATA section at $%lX in bank $%02lX", pSection->nOrg, pSection->nBank);
}
}
}
break;
}
}
pSection = pSection->pNext;
}
/*
* Next, let's assign all the bankfixed ONLY CODE sections...
*
*/
pSection = pSections;
while (pSection) {
if (pSection->oAssigned == 0
&& pSection->Type == SECT_CODE
&& pSection->nOrg == -1 && pSection->nBank != -1) {
/* User wants to have a say... and he's pissed */
if (pSection->nBank >= 1 && pSection->nBank <= 255) {
if ((pSection->nOrg =
area_Alloc(&BankFree[pSection->nBank],
pSection->nByteSize)) == -1) {
errx(5, "Unable to load fixed CODE/DATA section into bank $%02lX", pSection->nBank);
}
pSection->oAssigned = 1;
DOMAXBANK(pSection->nBank);
} else {
errx(5, "Unable to load fixed CODE/DATA section into bank $%02lX", pSection->nBank);
}
}
pSection = pSection->pNext;
}
/*
* Now, let's assign all the floating bank but fixed CODE sections...
*
*/
pSection = pSections;
while (pSection) {
if (pSection->oAssigned == 0
&& pSection->Type == SECT_CODE
&& pSection->nOrg != -1 && pSection->nBank == -1) {
/* User wants to have a say... and he's back with a
* vengeance */
if ((pSection->nBank =
area_AllocAbsCODEAnyBank(pSection->nOrg,
pSection->nByteSize)) ==
-1) {
errx(5, "Unable to load fixed CODE/DATA section at $%lX into any bank", pSection->nOrg);
}
pSection->oAssigned = 1;
DOMAXBANK(pSection->nBank);
}
pSection = pSection->pNext;
}
/*
* OK, all that nasty stuff is done so let's assign all the other
* sections
*
*/
pSection = pSections;
while (pSection) {
if (pSection->oAssigned == 0) {
switch (pSection->Type) {
case SECT_BSS:
if ((pSection->nOrg =
area_Alloc(&BankFree[BANK_BSS],
pSection->nByteSize)) == -1) {
errx(5, "BSS section too large");
}
pSection->nBank = BANK_BSS;
pSection->oAssigned = 1;
break;
case SECT_HRAM:
if ((pSection->nOrg =
area_Alloc(&BankFree[BANK_HRAM],
pSection->nByteSize)) == -1) {
errx(5, "HRAM section too large");
}
pSection->nBank = BANK_HRAM;
pSection->oAssigned = 1;
break;
case SECT_VRAM:
if ((pSection->nOrg =
area_Alloc(&BankFree[BANK_VRAM],
pSection->nByteSize)) == -1) {
errx(5, "VRAM section too large");
}
pSection->nBank = BANK_VRAM;
pSection->oAssigned = 1;
break;
case SECT_HOME:
if ((pSection->nOrg =
area_Alloc(&BankFree[BANK_HOME],
pSection->nByteSize)) == -1) {
errx(5, "HOME section too large");
}
pSection->nBank = BANK_HOME;
pSection->oAssigned = 1;
break;
case SECT_CODE:
break;
default:
errx(5, "(INTERNAL) Unknown section type!");
break;
}
}
pSection = pSection->pNext;
}
AssignCodeSections();
}
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;
}
}