ref: e12cb95079f001aae1b1eeecd2463ccc61da1c30
dir: /src/link/patch.c/
#include <stdio.h> #include <string.h> #include "mylink.h" #include "symbol.h" #include "main.h" struct sSection *pCurrentSection; SLONG rpnstack[256]; SLONG rpnp; SLONG nPC; void rpnpush( SLONG i ) { rpnstack[rpnp++]=i; } SLONG rpnpop( void ) { return( rpnstack[--rpnp] ); } SLONG getsymvalue( SLONG symid ) { switch( pCurrentSection->tSymbols[symid]->Type ) { case SYM_IMPORT: return( sym_GetValue(pCurrentSection->tSymbols[symid]->pzName) ); break; case SYM_EXPORT: case SYM_LOCAL: { if( strcmp(pCurrentSection->tSymbols[symid]->pzName,"@")==0 ) { return( nPC ); } else return( pCurrentSection->tSymbols[symid]->nOffset+pCurrentSection->tSymbols[symid]->pSection->nOrg ); } default: break; } fatalerror( "*INTERNAL* UNKNOWN SYMBOL TYPE" ); return( 0 ); } SLONG getsymbank( SLONG symid ) { switch( pCurrentSection->tSymbols[symid]->Type ) { case SYM_IMPORT: return( sym_GetBank(pCurrentSection->tSymbols[symid]->pzName) ); break; case SYM_EXPORT: case SYM_LOCAL: return( pCurrentSection->tSymbols[symid]->pSection->nBank ); //return( pCurrentSection->nBank ); default: break; } fatalerror( "*INTERNAL* UNKNOWN SYMBOL TYPE" ); return( 0 ); } SLONG calcrpn( struct sPatch *pPatch ) { SLONG t, size; UBYTE *rpn; rpnp=0; size=pPatch->nRPNSize; rpn=pPatch->pRPN; pPatch->oRelocPatch=0; while( size>0 ) { size-=1; switch( *rpn++ ) { case RPN_ADD: rpnpush( rpnpop()+rpnpop() ); break; case RPN_SUB: t=rpnpop(); rpnpush( rpnpop()-t ); break; case RPN_MUL: rpnpush( rpnpop()*rpnpop() ); break; case RPN_DIV: t=rpnpop(); rpnpush( rpnpop()/t ); break; case RPN_MOD: t=rpnpop(); rpnpush( rpnpop()%t ); break; case RPN_UNSUB: rpnpush( -rpnpop() ); break; case RPN_OR: rpnpush( rpnpop()|rpnpop() ); break; case RPN_AND: rpnpush( rpnpop()&rpnpop() ); break; case RPN_XOR: rpnpush( rpnpop()^rpnpop() ); break; case RPN_UNNOT: rpnpush( rpnpop()^0xFFFFFFFF ); break; case RPN_LOGAND: rpnpush( rpnpop()&&rpnpop() ); break; case RPN_LOGOR: rpnpush( rpnpop()||rpnpop() ); break; case RPN_LOGUNNOT: rpnpush( !rpnpop() ); break; case RPN_LOGEQ: rpnpush( rpnpop()==rpnpop() ); break; case RPN_LOGNE: rpnpush( rpnpop()!=rpnpop() ); break; case RPN_LOGGT: t=rpnpop(); rpnpush( rpnpop()>t ); break; case RPN_LOGLT: t=rpnpop(); rpnpush( rpnpop()<t ); break; case RPN_LOGGE: t=rpnpop(); rpnpush( rpnpop()>=t ); break; case RPN_LOGLE: t=rpnpop(); rpnpush( rpnpop()<=t ); break; case RPN_SHL: t=rpnpop(); rpnpush( rpnpop()<<t ); break; case RPN_SHR: t=rpnpop(); rpnpush( rpnpop()>>t ); break; case RPN_HRAM: t=rpnpop(); rpnpush(t&0xFF); if( t<0 || (t>0xFF && t<0xFF00) || t>0xFFFF ) { sprintf( temptext, "%s(%d) : Value must be in the HRAM area", pPatch->pzFilename, pPatch->nLineNo ); fatalerror( temptext ); } break; case RPN_PCEZP: t=rpnpop(); rpnpush(t&0xFF); if( t<0x2000 || t>0x20FF ) { sprintf( temptext, "%s(%d) : Value must be in the ZP area", pPatch->pzFilename, pPatch->nLineNo ); fatalerror( temptext ); } break; case RPN_CONST: /* constant */ t=(*rpn++); t|=(*rpn++)<<8; t|=(*rpn++)<<16; t|=(*rpn++)<<24; rpnpush( t ); size-=4; break; case RPN_SYM: /* symbol */ t=(*rpn++); t|=(*rpn++)<<8; t|=(*rpn++)<<16; t|=(*rpn++)<<24; rpnpush( getsymvalue(t) ); pPatch->oRelocPatch|=(getsymbank(t)!=-1); size-=4; break; case RPN_BANK: /* symbol */ t=(*rpn++); t|=(*rpn++)<<8; t|=(*rpn++)<<16; t|=(*rpn++)<<24; rpnpush( getsymbank(t) ); size-=4; break; case RPN_RANGECHECK: { SLONG low, high; low =(*rpn++); low|=(*rpn++)<<8; low|=(*rpn++)<<16; low|=(*rpn++)<<24; high =(*rpn++); high|=(*rpn++)<<8; high|=(*rpn++)<<16; high|=(*rpn++)<<24; t=rpnpop(); if( t<low || t>high ) { sprintf( temptext, "%s(%d) : Value must be in the range [%d;%d]", pPatch->pzFilename, pPatch->nLineNo, low, high ); fatalerror( temptext ); } rpnpush(t); size-=8; break; } } } return( rpnpop() ); } void Patch( void ) { struct sSection *pSect; pSect=pSections; while( pSect ) { struct sPatch *pPatch; pCurrentSection=pSect; pPatch=pSect->pPatches; while( pPatch ) { SLONG t; nPC=pSect->nOrg+pPatch->nOffset; t=calcrpn( pPatch ); switch( pPatch->Type ) { case PATCH_BYTE: if( t>=-128 && t<=255 ) { t&=0xFF; pSect->pData[pPatch->nOffset]=(UBYTE)t; } else { sprintf( temptext, "%s(%d) : Value must be 8-bit\n", pPatch->pzFilename, pPatch->nLineNo ); fatalerror( temptext ); } break; case PATCH_WORD_L: case PATCH_WORD_B: if( t>=-32768 && t<=65535 ) { t&=0xFFFF; if( pPatch->Type==PATCH_WORD_L ) { pSect->pData[pPatch->nOffset]=t&0xFF; pSect->pData[pPatch->nOffset+1]=(t>>8)&0xFF; } else { // Assume big endian pSect->pData[pPatch->nOffset]=(t>>8)&0xFF; pSect->pData[pPatch->nOffset+1]=t&0xFF; } } else { sprintf( temptext, "%s(%d) : Value must be 16-bit\n", pPatch->pzFilename, pPatch->nLineNo ); fatalerror( temptext ); } break; case PATCH_LONG_L: pSect->pData[pPatch->nOffset+0]=t&0xFF; pSect->pData[pPatch->nOffset+1]=(t>>8)&0xFF; pSect->pData[pPatch->nOffset+2]=(t>>16)&0xFF; pSect->pData[pPatch->nOffset+3]=(t>>24)&0xFF; break; case PATCH_LONG_B: pSect->pData[pPatch->nOffset+0]=(t>>24)&0xFF; pSect->pData[pPatch->nOffset+1]=(t>>16)&0xFF; pSect->pData[pPatch->nOffset+2]=(t>>8)&0xFF; pSect->pData[pPatch->nOffset+3]=t&0xFF; break; } pPatch=pPatch->pNext; } pSect=pSect->pNext; } }