void PrintErrorMsg( return_val exit_code, int where ) { ChangePrintDest( STDERR_FILENO ); if( exit_code == RC_OUT_OF_MEMORY ) { BufferMsg( OUT_OF_MEMORY ); } else if( exit_code == RC_ERROR ) { BufferMsg( ERROR_OCCURRED ); } BufferMsg( where ); BufferConcatNL(); BufferPrint(); ChangePrintDest( OutputDest ); }
static return_val bssUnixASMSection( section_ptr sec, orl_sec_size size, label_entry l_entry ) { orl_sec_offset dsiz = 0; char *prefix; label_entry prev_entry; if( ( size == 0 ) && ( l_entry == NULL ) ) return( RC_OKAY ); PrintHeader( sec ); prev_entry = NULL; for( ; l_entry != NULL; l_entry = l_entry->next ) { if( ( l_entry->type == LTYP_SECTION ) && ( strcmp( l_entry->label.name, sec->name ) == 0 ) ) { continue; } else if( prev_entry == NULL ) { prev_entry = l_entry; continue; } else if( prev_entry->offset > l_entry->offset ) { continue; } else if( prev_entry->offset == l_entry->offset ) { dsiz = 0; prefix = ""; } else { dsiz = l_entry->offset - prev_entry->offset; prefix = " .lcomm\t"; } switch( prev_entry->type ) { case LTYP_UNNAMED: BufferStore( "%s%c$%d", prefix, LabelChar, prev_entry->label.number ); break; case LTYP_SECTION: case LTYP_NAMED: BufferStore( "%s%s", prefix, prev_entry->label.name ); break; default: break; } if( dsiz ) { BufferStore( ", 0x%08x", dsiz ); } else { BufferConcat( ":" ); } BufferConcatNL(); BufferPrint(); prev_entry = l_entry; } if( prev_entry != NULL ) { if( prev_entry->offset < size ) { dsiz = size - prev_entry->offset; prefix = " .lcomm\t"; } else { dsiz = 0; prefix = ""; } switch( prev_entry->type ) { case LTYP_UNNAMED: BufferStore( "%s%c$%d", prefix, LabelChar, prev_entry->label.number ); break; case LTYP_SECTION: case LTYP_NAMED: BufferStore( "%s%s", prefix, prev_entry->label.name ); break; default: break; } if( dsiz ) { BufferStore( ", 0x%08x", dsiz ); } else { BufferConcat( ":" ); } BufferConcatNL(); BufferPrint(); } BufferConcatNL(); BufferPrint(); return( RC_OKAY ); }
static label_entry dumpAsmLabel( label_entry l_entry, section_ptr sec, orl_sec_offset curr_pos, orl_sec_offset end, unsigned_8 *contents, char *buffer ) { int raw; int is_masm; end = end; raw = buffer && contents; is_masm = IsMasmOutput(); while( l_entry != NULL && ( l_entry->type == LTYP_ABSOLUTE || l_entry->offset <= curr_pos ) ) { switch( l_entry->type ) { case( LTYP_ABSOLUTE ): // no print any absolute label here break; case( LTYP_SECTION ): if( is_masm ) break; /* fall through */ case( LTYP_NAMED ): if( strcmp( l_entry->label.name, sec->name ) == 0 ) break; /* fall through */ case( LTYP_UNNAMED ): if( raw ) { strncpy( buffer, (char *)contents + curr_pos, sizeof( unsigned_32 ) ); } if( l_entry->type == LTYP_UNNAMED ) { if( !(DFormat & DFF_ASM) ) { BufferStore( "\t %04X\t%c$%d:", LabelChar, curr_pos, l_entry->label.number ); if( raw ) { printRawAndAddress( buffer, curr_pos ); } } else { if( l_entry->offset != curr_pos ) { BufferStore( "%c$%d equ $-%d", LabelChar, l_entry->label.number, (int)( curr_pos - l_entry->offset ) ); } else { BufferStore( "%c$%d:", LabelChar, l_entry->label.number ); } } } else { if( !(DFormat & DFF_ASM) ) { BufferStore( "\t %04X\t%s:", curr_pos, l_entry->label.name ); if( raw ) { printRawAndAddress( buffer, curr_pos ); } } else { if( l_entry->offset != curr_pos ) { BufferStore( "%s equ $-%d", l_entry->label.name, (int)( curr_pos - l_entry->offset ) ); } else { BufferStore( "%s:", l_entry->label.name ); } } } BufferConcatNL(); BufferPrint(); } l_entry = l_entry->next; } return( l_entry ); }
return_val DumpASMDataFromSection( unsigned_8 *contents, orl_sec_offset start, orl_sec_offset end, label_entry *labent, ref_entry *refent, section_ptr sec ) { size_t curr_pos; size_t curr_size; size_t tmp_size; size_t size; label_entry l_entry; ref_entry r_entry; char *buffer; l_entry = *labent; r_entry = *refent; size = end - start; if( size < sizeof( unsigned_32 ) ) size = sizeof( unsigned_32 ); buffer = MemAlloc( size + 1 ); if( !buffer ) { PrintErrorMsg( RC_OUT_OF_MEMORY, WHERE_PRINT_SECTION ); return( RC_OUT_OF_MEMORY ); } for( curr_pos = start; curr_pos < end; curr_pos += curr_size ) { /* dump labels */ l_entry = dumpAsmLabel( l_entry, sec, curr_pos, end, contents, buffer ); curr_size = end - curr_pos; if( l_entry != NULL ) { tmp_size = l_entry->offset - curr_pos; if( tmp_size < curr_size ) { curr_size = tmp_size; } } /* Skip over pair relocs */ while( r_entry != NULL && (r_entry->type == ORL_RELOC_TYPE_PAIR || r_entry->offset < curr_pos) ) { r_entry = r_entry->next; } if( r_entry != NULL && r_entry->offset < (curr_pos + curr_size) ) { if( r_entry->offset == curr_pos ) { BufferConcat(" "); curr_size = HandleRefInData(r_entry, contents + curr_pos, TRUE); BufferConcatNL(); BufferPrint(); continue; } else { tmp_size = r_entry->offset - curr_pos; if( tmp_size < curr_size ) { curr_size = tmp_size; } } } memcpy( buffer, (contents + curr_pos), curr_size ); buffer[ curr_size ] = 0; printOut( buffer, curr_pos, curr_size ); } *labent = l_entry; *refent = r_entry; MemFree( buffer ); return( RC_OKAY ); }
static label_entry dumpAsmLabel( label_entry l_entry, section_ptr section, dis_sec_offset curr_pos, dis_sec_offset end, unsigned_8 *contents, char *buffer ) { bool raw; bool is_masm; /* unused parameters */ (void)end; raw = ( buffer != NULL && contents != NULL ); is_masm = IsMasmOutput(); for( ; l_entry != NULL && ( l_entry->type == LTYP_ABSOLUTE || l_entry->offset <= curr_pos ); l_entry = l_entry->next ) { switch( l_entry->type ) { case LTYP_ABSOLUTE: // no print any absolute label here break; case LTYP_SECTION: if( is_masm ) break; /* fall through */ case LTYP_NAMED: if( strcmp( l_entry->label.name, section->name ) == 0 ) break; /* fall through */ case LTYP_UNNAMED: if( raw ) { strncpy( buffer, (char *)contents + curr_pos, sizeof( unsigned_32 ) ); } if( l_entry->type == LTYP_UNNAMED ) { if( (DFormat & DFF_ASM) == 0 ) { BufferStore( "\t %04X\t%c$%d:", LabelChar, curr_pos, l_entry->label.number ); if( raw ) { printRawAndAddress( buffer, curr_pos ); } } else { if( l_entry->offset != curr_pos ) { BufferStore( "%c$%d equ $-%d", LabelChar, l_entry->label.number, (int)( curr_pos - l_entry->offset ) ); } else { BufferStore( "%c$%d:", LabelChar, l_entry->label.number ); } } } else { if( (DFormat & DFF_ASM) == 0 ) { BufferStore( "\t %04X\t%s:", curr_pos, l_entry->label.name ); if( raw ) { printRawAndAddress( buffer, curr_pos ); } } else { if( l_entry->offset != curr_pos ) { BufferStore( "%s equ $-%d", l_entry->label.name, (int)( curr_pos - l_entry->offset ) ); } else { BufferStore( "%s:", l_entry->label.name ); } } } BufferConcatNL(); BufferPrint(); } } return( l_entry ); }
num_errors DoPass2( section_ptr sec, unsigned_8 *contents, orl_sec_size size, label_list sec_label_list, ref_list sec_ref_list ) // perform pass 2 on one section { struct pass2 data; label_entry l_entry; dis_dec_ins decoded; char name[ MAX_INS_NAME ]; char ops[ MAX_OBJ_NAME + 24 ]; // at most 1 label/relocation per instruction, plus room for registers, brackets and other crap dis_inst_flags flags; scantab_ptr st; int is_intel; sa_disasm_struct sds; char *FPU_fixup; int pos_tabs; bool is32bit; routineBase = 0; st = sec->scan; data.size = size; sds.data = contents; sds.last = size - 1; l_entry = NULL; if( sec_label_list != NULL ) { l_entry = sec_label_list->first; } if( sec_ref_list != NULL ) { data.r_entry = sec_ref_list->first; } else { data.r_entry = NULL; } data.disassembly_errors = 0; if( source_mix ) { GetSourceFile( sec ); } PrintHeader( sec ); if( size && sec_label_list ) PrintAssumeHeader( sec ); flags.u.all = DIF_NONE; if( GetMachineType() == ORL_MACHINE_TYPE_I386 ) { if( ( GetFormat() != ORL_OMF ) || ( ORLSecGetFlags( sec->shnd ) & ORL_SEC_FLAG_USE_32 ) ) { flags.u.x86 = DIF_X86_USE32_FLAGS; } is_intel = 1; } else { is_intel = IsIntelx86(); } is32bit = ( size >= 0x10000 ); for( data.loop = 0; data.loop < size; data.loop += decoded.size ) { // process data in code segment while( st && ( data.loop > st->end ) ) { st = st->next; } if( st && ( data.loop >= st->start ) ) { decoded.size = 0; processDataInCode( sec, contents, &data, st->end - data.loop, &l_entry ); st = st->next; continue; } // data may not be listed in scan table, but a fixup at this offset will // give it away while( data.r_entry && ( data.r_entry->offset < data.loop ) ) { data.r_entry = data.r_entry->next; } FPU_fixup = processFpuEmulatorFixup( &data.r_entry, data.loop ); if( data.r_entry && ( data.r_entry->offset == data.loop ) ) { if( is_intel || IsDataReloc( data.r_entry ) ) { // we just skip the data decoded.size = 0; processDataInCode( sec, contents, &data, RelocSize( data.r_entry ), &l_entry ); continue; } } if( source_mix ) { MixSource( data.loop ); } DisDecodeInit( &DHnd, &decoded ); decoded.flags.u.all |= flags.u.all; sds.offs = data.loop; DisDecode( &DHnd, &sds, &decoded ); if( sec_label_list ) { l_entry = handleLabels( sec->name, data.loop, data.loop + decoded.size, l_entry, size ); if( ( l_entry != NULL ) && ( l_entry->offset > data.loop ) && ( l_entry->offset < data.loop + decoded.size ) ) { /* If we have a label planted in the middle of this instruction (see inline memchr for example), put out a couple of data bytes, and then restart decode and label process from offset of actual label. */ decoded.size = 0; processDataInCode( sec, contents, &data, l_entry->offset - data.loop, &l_entry ); continue; } } DisFormat( &DHnd, &data, &decoded, DFormat, name, sizeof( name ), ops, sizeof( ops ) ); if( FPU_fixup != NULL ) { if( !(DFormat & DFF_ASM) ) { BufferAlignToTab( PREFIX_SIZE_TABS ); } BufferStore( "\t%sFPU fixup %s\n", CommentString, FPU_fixup ); } if( !(DFormat & DFF_ASM) ) { unsigned_64 *tmp_64; unsigned_32 *tmp_32; unsigned_16 *tmp_16; tmp_64 = (unsigned_64 *)(contents + data.loop); tmp_32 = (unsigned_32 *)(contents + data.loop); tmp_16 = (unsigned_16 *)(contents + data.loop); if( DHnd.need_bswap ) { switch( DisInsSizeInc( &DHnd ) ) { //case 8: SWAP_64( *tmp_64 ); // break; case 4: SWAP_32( *tmp_32 ); break; case 2: SWAP_16( *tmp_16 ); break; default: break; } } PrintLinePrefixAddress( data.loop, is32bit ); PrintLinePrefixData( contents, data.loop, size, DisInsSizeInc( &DHnd ), decoded.size ); BufferAlignToTab( PREFIX_SIZE_TABS ); } BufferStore( "\t%s", name ); if( *ops != '\0' ) { pos_tabs = ( DisInsNameMax( &DHnd ) + TAB_WIDTH ) / TAB_WIDTH + 1; if( !(DFormat & DFF_ASM) ) { pos_tabs += PREFIX_SIZE_TABS; } BufferAlignToTab( pos_tabs ); BufferConcat( ops ); } BufferConcatNL(); BufferPrint(); } if( sec_label_list ) { l_entry = handleLabels( sec->name, size, (orl_sec_offset)-1, l_entry, size ); } if( !(DFormat & DFF_ASM) ) { routineSize = data.loop - routineBase; BufferConcatNL(); BufferMsg( ROUTINE_SIZE ); BufferStore(" %d ", routineSize ); BufferMsg( BYTES ); BufferConcat(", "); BufferMsg( ROUTINE_BASE ); BufferStore(" %s + %04X\n\n", sec->name, routineBase ); BufferPrint(); } if( source_mix ) { EndSourceMix(); } PrintTail( sec ); return( data.disassembly_errors ); }
size_t HandleAReference( dis_value value, int ins_size, ref_flags flags, orl_sec_offset offset, orl_sec_size sec_size, ref_entry * r_entry, char *buff ) // handle any references at this offset { return_val error; dis_value nvalue; char *p; buff[0] = '\0'; for( ; *r_entry && (*r_entry)->offset == offset; *r_entry = (*r_entry)->next ) { if( (*r_entry)->no_val == 0 ) { nvalue = value; } else if( (*r_entry)->addend ) { nvalue = HandleAddend( *r_entry ); } else { nvalue = 0; } switch( (*r_entry)->type ) { case ORL_RELOC_TYPE_MAX + 1: case ORL_RELOC_TYPE_JUMP: case ORL_RELOC_TYPE_REL_21_SH: case ORL_RELOC_TYPE_WORD_26: error = referenceString( *r_entry, sec_size, "j^", "", "", buff, flags ); if( error != RC_OKAY ) { // label is defined to be beyond the boundaries of the section! if( !(DFormat & DFF_ASM) ){ BufferStore("\t %04X", offset ); BufferAlignToTab( COMMENT_TAB_POS ); } else { BufferConcat("\t" ); } BufferConcat( CommentString ); BufferMsg( LABEL_BEYOND_SECTION ); BufferConcatNL(); BufferPrint(); *r_entry = (*r_entry)->next; return( 0 ); } continue; // Don't print addend break; case ORL_RELOC_TYPE_SEC_REL: referenceString( *r_entry, sec_size, "s^", "s^", "@s", buff, flags ); break; case ORL_RELOC_TYPE_HALF_HI: referenceString( *r_entry, sec_size, "h^", "h^", "@h", buff, flags ); break; case ORL_RELOC_TYPE_HALF_HA: referenceString( *r_entry, sec_size, "ha^", "ha^", "@ha", buff, flags ); break; case ORL_RELOC_TYPE_HALF_LO: referenceString( *r_entry, sec_size, "l^", "l^", "@l", buff, flags ); break; case ORL_RELOC_TYPE_REL_14: case ORL_RELOC_TYPE_REL_24: case ORL_RELOC_TYPE_WORD_14: case ORL_RELOC_TYPE_WORD_24: nvalue &= ~0x3; case ORL_RELOC_TYPE_WORD_16: case ORL_RELOC_TYPE_WORD_32: case ORL_RELOC_TYPE_WORD_64: if( ( (*r_entry)->label->type != LTYP_GROUP ) && ( flags & RFLAG_IS_IMMED ) && IsMasmOutput() ) { referenceString( *r_entry, sec_size, "offset ", "offset ", "", buff, flags ); } else { referenceString( *r_entry, sec_size, "", "", "", buff, flags ); } break; case ORL_RELOC_TYPE_REL_16: if( IsIntelx86() && !(*r_entry)->no_val ) { nvalue -= ins_size; } if( ( (*r_entry)->label->type != LTYP_GROUP ) && ( flags & RFLAG_IS_IMMED ) && IsMasmOutput() ) { referenceString( *r_entry, sec_size, "offset ", "offset ", "", buff, flags ); } else { referenceString( *r_entry, sec_size, "", "", "", buff, flags ); } break; case ORL_RELOC_TYPE_WORD_8: case ORL_RELOC_TYPE_WORD_16_SEG: case ORL_RELOC_TYPE_WORD_HI_8: case ORL_RELOC_TYPE_WORD_32_SEG: // Keep these seperate because they are OMF specific referenceString( *r_entry, sec_size, "", "", "", buff, flags ); break; case ORL_RELOC_TYPE_SEGMENT: if( ( (*r_entry)->label->type != LTYP_GROUP ) && ( (*r_entry)->label->type != LTYP_SECTION ) && ( flags & RFLAG_IS_IMMED ) && IsMasmOutput() ) { referenceString( *r_entry, sec_size, "seg ", "seg ", "", buff, flags ); } else { referenceString( *r_entry, sec_size, "", "", "", buff, flags ); } break; case ORL_RELOC_TYPE_REL_32_NOADJ: // this is a little kluge because Brian's ELF files seem to have // -4 in the implicit addend for calls and such BBB May 09, 1997 nvalue += 4; // fall through case ORL_RELOC_TYPE_REL_8: case ORL_RELOC_TYPE_REL_16_SEG: case ORL_RELOC_TYPE_REL_HI_8: case ORL_RELOC_TYPE_REL_32_SEG: case ORL_RELOC_TYPE_REL_32: case ORL_RELOC_TYPE_REL_32_ADJ5: case ORL_RELOC_TYPE_REL_32_ADJ4: case ORL_RELOC_TYPE_REL_32_ADJ3: case ORL_RELOC_TYPE_REL_32_ADJ2: case ORL_RELOC_TYPE_REL_32_ADJ1: // For some reason we add the instruction size to the value // of the displacement in a relative call and get a bad // offset, due to CORE implementation // // Main reason : // instruction size with displacement and with addend is correct for // relative addresses without relocate // // in amd64 code the instruction size will be added in pass1.c! if( (*r_entry)->no_val == 0 && !( GetMachineType() == ORL_MACHINE_TYPE_AMD64 ) ) { nvalue -= ins_size; } referenceString( *r_entry, sec_size, "", "", "", buff, flags ); break; case ORL_RELOC_TYPE_TOCREL_14: nvalue &= ~0x3; case ORL_RELOC_TYPE_TOCREL_16: referenceString( *r_entry, sec_size, "[toc]", "[toc]", "@toc", buff, flags ); break; case ORL_RELOC_TYPE_TOCVREL_14: nvalue &= ~0x3; case ORL_RELOC_TYPE_TOCVREL_16: referenceString( *r_entry, sec_size, "[tocv]", "[tocv]", "@tocv", buff, flags ); break; case ORL_RELOC_TYPE_GOT_16: referenceString( *r_entry, sec_size, "", "", "@got", buff, flags ); break; case ORL_RELOC_TYPE_GOT_16_HI: referenceString( *r_entry, sec_size, "", "", "@got@h", buff, flags ); break; case ORL_RELOC_TYPE_GOT_16_HA: referenceString( *r_entry, sec_size, "", "", "@got@ha", buff, flags ); break; case ORL_RELOC_TYPE_GOT_16_LO: referenceString( *r_entry, sec_size, "", "", "@got@l", buff, flags ); break; case ORL_RELOC_TYPE_PLTREL_24: case ORL_RELOC_TYPE_PLTREL_32: case ORL_RELOC_TYPE_PLT_32: referenceString( *r_entry, sec_size, "", "", "@plt", buff, flags ); break; case ORL_RELOC_TYPE_PLT_16_HI: referenceString( *r_entry, sec_size, "", "", "@plt@h", buff, flags ); break; case ORL_RELOC_TYPE_PLT_16_HA: referenceString( *r_entry, sec_size, "", "", "@plt@ha", buff, flags ); break; case ORL_RELOC_TYPE_PLT_16_LO: referenceString( *r_entry, sec_size, "", "", "@plt@l", buff, flags ); break; default: continue; } // LTYP_UNNAMED labels are always at the correct location // if( nvalue != 0 && (*r_entry)->label->type != LTYP_UNNAMED ) { // not so - BBB Oct 28, 1996 if(( (*r_entry)->no_val == 0 ) && ( nvalue != 0 )) { p = &buff[strlen(buff)]; if( nvalue < 0 ) { *p++ = '-'; nvalue = -nvalue; } else { *p++ = '+'; } FmtHexNum( p, 0, nvalue, FALSE ); } } return( strlen( buff ) ); }
static void printUnixHeader( section_ptr sec ) { orl_sec_alignment alignment; orl_sec_flags flags; orl_sec_type type; char attributes[10]; char * ca; alignment = ORLSecGetAlignment( sec->shnd ); type = ORLSecGetType( sec->shnd ); flags = ORLSecGetFlags( sec->shnd ); ca = attributes; if( !(Options & METAWARE_COMPATIBLE) ) { if( (flags & ORL_SEC_FLAG_EXEC) || sec->type == SECTION_TYPE_TEXT ) { *ca++ = 'c'; } if( (flags & ORL_SEC_FLAG_INITIALIZED_DATA) || sec->type == SECTION_TYPE_DATA || sec->type == SECTION_TYPE_PDATA ) { *ca++ = 'd'; } if( (flags & ORL_SEC_FLAG_UNINITIALIZED_DATA) || sec->type == SECTION_TYPE_BSS ) { *ca++ = 'u'; } if( (type == ORL_SEC_TYPE_NOTE) || sec->type == SECTION_TYPE_DRECTVE ) { *ca++ = 'i'; } if( flags & ORL_SEC_FLAG_DISCARDABLE ) { *ca++ = 'n'; } if( flags & ORL_SEC_FLAG_REMOVE ) { *ca++ = 'R'; } if( flags & ORL_SEC_FLAG_READ_PERMISSION ) { *ca++ = 'r'; } if( flags & ORL_SEC_FLAG_WRITE_PERMISSION ) { *ca++ = 'w'; } if( flags & ORL_SEC_FLAG_EXECUTE_PERMISSION ) { *ca++ = 'x'; } if( flags & ORL_SEC_FLAG_SHARED ) { *ca++ = 's'; } *ca++ = '0' + alignment; *ca = '\0'; if( !( DFormat & DFF_ASM ) ){ BufferConcat("\t\t\t\t"); } BufferStore(".new_section %s, \"%s\"", sec->name, attributes ); } else { if( !(flags & ORL_SEC_FLAG_REMOVE ) ) { *ca++ = 'a'; } if( flags & ORL_SEC_FLAG_EXEC ) { *ca++ = 'x'; } if( flags & ORL_SEC_FLAG_WRITE_PERMISSION ) { *ca++ = 'w'; } *ca++ = '\0'; if( !( DFormat & DFF_ASM ) ) { BufferConcat("\t\t\t\t"); } BufferStore(".section %s, \"%s\"", sec->name, attributes ); BufferConcatNL(); if( !( DFormat & DFF_ASM ) ) { BufferConcat("\t\t\t\t"); } BufferStore(".align %d", (int)alignment ); } BufferConcatNL(); BufferPrint(); }
return_val DumpPDataSection( section_ptr sec, unsigned_8 *contents, orl_sec_size size, unsigned pass ) { orl_sec_offset loop; hash_data * data_ptr; ref_list r_list; ref_entry r_entry; descriptor_struct descriptor; bool is32bit; if( pass == 1 ) return( OKAY ); if( size == 0 ) return( OKAY ); is32bit = ( size >= 0x10000 ); data_ptr = HashTableQuery( HandleToRefListTable, (hash_value)sec->shnd ); if( *data_ptr ) { r_list = (ref_list)*data_ptr; if( r_list ) { r_entry = r_list->first; } else { r_entry = NULL; } } BufferConcatNL(); PrintHeader( sec ); BufferConcatNL(); for( loop = 0; loop < size; loop += sizeof( descriptor_struct ) ) { if( r_entry == NULL ) break; memcpy( &descriptor, contents + loop, sizeof( descriptor_struct ) ); if( DFormat & DFF_ASM ) { BufferStore( "\t\t" ); BufferStore( "%s %04X\t\t", CommentString, loop ); } else { PrintLinePrefixAddress( loop, is32bit ); BufferAlignToTab( PREFIX_SIZE_TABS ); BufferStore( "%s ", CommentString ); } BufferMsg( PROCEDURE_DESCRIPTOR ); /* Skip over pair relocs */ while( r_entry && (r_entry->type == ORL_RELOC_TYPE_PAIR || r_entry->offset < loop) ) { r_entry = r_entry->next; } switch( r_entry->label->type ) { case LTYP_EXTERNAL_NAMED: BufferStore( "%s", r_entry->label->label.name ); break; case LTYP_NAMED: case LTYP_SECTION: case LTYP_GROUP: BufferStore( "%s", r_entry->label->label.name ); break; default: BufferStore( "%c$%d", LabelChar, r_entry->label->label.number ); break; } BufferConcatNL(); printDescriptor( loop, &descriptor, &r_entry ); } return( OKAY ); }