//
#include "rln.h"
+//#include <assert.h>
unsigned errflag = 0; // Error flag, goes TRUE on error
unsigned waitflag = 0; // Wait for any keypress flag
uint32_t arIndex = 0;
struct HREC * htable[NBUCKETS]; // Hash table
struct HREC * unresolved = NULL; // Pointer to unresolved hash list
-struct HREC * lookup(char *); // Hash lookup
char * ost; // Output symbol table
char * ost_ptr; // Output symbol table; current pointer
char * ost_end; // Output symbol table; end pointer
char * oststr_end; // Output string table; end pointer
int ost_index = 0; // Index of next ost addition
int endian; // Processor endianess
+uint8_t nullStr[1] = "\x00"; // Empty string
+struct HREC * arSymbol = NULL; // Pointer to AR symbol table
// Some human readable defines for endianess
#define ENDIANNESS_BIG 1
#define ENDIANNESS_LITTLE 0
+// Function prototypes
+struct HREC * LookupHREC(char *);
+char * path_tail(char *);
+void display_help(void);
+void display_version(void);
+
//
-// Get a Long Word from Memory
+// Get a long word from memory
//
uint32_t getlong(uint8_t * src)
{
uint32_t temp;
- uint8_t * out;
-
- out = (uint8_t *)&temp;
+ uint8_t * out = (uint8_t *)&temp;
if (endian == ENDIANNESS_BIG)
{
//
-// Put a Long Word into Memory
+// Put a long word into memory
//
void putlong(uint8_t * dest, uint32_t val)
{
//
-// Get a Word from Memory
+// Get a word from memory
//
uint16_t getword(uint8_t * src)
{
//
-// Put a Word into Memory
+// Put a word into memory
//
void putword(uint8_t * dest, uint16_t val)
{
//
// For this object file, add symbols to the output symbol table after
-// relocating them. Returns TRUE if ost_lookup returns an error (-1).
+// relocating them. Returns TRUE if OSTLookup returns an error (-1).
//
-int dosym(struct OFILE * ofile)
+int DoSymbol(struct OFILE * ofile)
{
- char * symptr; // Symbol pointer
- char * symend; // Symbol end pointer
- int type; // Symbol type
- long value; // Symbol value
- int index; // Symbol index
- int j; // Iterator
- int ssidx; // Segment size table index
- unsigned tsegoffset; // Cumulative TEXT segment offset
- unsigned dsegoffset; // Cumulative DATA segment offset
- unsigned bsegoffset; // Cumulative BSS segment offset
- struct HREC * hptr; // Hash table pointer for globl/extrn
- char sym[SYMLEN]; // String for symbol name/hash search
+ int type; // Symbol type
+ long value; // Symbol value
+ int index; // Symbol index
+ int j; // Iterator
+ struct HREC * hptr; // Hash table pointer for globl/extrn
// Point to first symbol record in the object file
- symptr = (ofile->o_image + 32
+ char * symptr = (ofile->o_image + 32
+ ofile->o_header.tsize
+ ofile->o_header.dsize
+ ofile->o_header.absrel.reloc.tsize
+ ofile->o_header.absrel.reloc.dsize);
// Point to end of symbol record in the object file
- symend = symptr + ofile->o_header.ssize;
+ char * symend = symptr + ofile->o_header.ssize;
// Search through object segment size table to accumulated segment sizes to
// ensure the correct offsets are used in the resulting COF file.
- ssidx = -1; // Initialise segment index
- tsegoffset = dsegoffset = bsegoffset = 0; // Initialise segment offsets
+ int ssidx = -1;
+ unsigned tsegoffset = 0, dsegoffset = 0, bsegoffset = 0;
// Search for object file name
for(j=0; j<(int)obj_index; j++)
{
if (!strcmp(ofile->o_name, obj_fname[j]))
{
- ssidx = j; // Object file name found
+ // Object file name found
+ ssidx = j;
break;
}
- tsegoffset += obj_segsize[j][0]; // Accumulate segment sizes
+ // Accumulate segment sizes
+ tsegoffset += obj_segsize[j][0];
dsegoffset += obj_segsize[j][1];
bsegoffset += obj_segsize[j][2];
}
if (ssidx == -1)
{
- printf("dosym() : Cannot get object file segment size : %s\n", ofile->o_name);
+ printf("DoSymbol(): Cannot get object file segment size: %s\n",
+ ofile->o_name);
return 1;
}
// Process each record in the symbol table
for(; symptr!=symend; symptr+=12)
{
- index = getlong(symptr + 0); // Obtain symbol string index
- type = getlong(symptr + 4); // Obtain symbol type
- value = getlong(symptr + 8); // Obtain symbol value
+ index = getlong(symptr + 0); // Obtain symbol string index
+ type = getlong(symptr + 4); // Obtain symbol type
+ value = getlong(symptr + 8); // Obtain symbol value
// Global/External symbols have a pre-processing stage
if (type & 0x01000000)
{
// Obtain the string table index for the relocation symbol, look
// for it in the globals hash table to obtain information on that
- // symbol. For the hash calculation to work correctly it must be
- // placed in a 'clean' string before looking it up.
- memset(sym, 0, SYMLEN);
- strcpy(sym, symend + index);
- hptr = lookup(sym);
+ // symbol.
+ hptr = LookupHREC(symend + index);
if (hptr == NULL)
{
- printf("dosym() : Cannot determine symbol : %s\n", sym);
+ printf("DoSymbol(): Cannot determine symbol: '%s' (%s)\n",
+ symend + index, ofile->o_name);
return 1;
}
// accumulated to ensure the correct offsets are used in the
// resulting COF file. This is effectively 'done again' only as we
// are working with a different object file.
- ssidx = -1; // Initialise segment index
- tsegoffset = dsegoffset = bsegoffset = 0; // Initialise segment offsets
+ ssidx = -1;
+ tsegoffset = dsegoffset = bsegoffset = 0;
+ // Search for object filename
for(j=0; j<(int)obj_index; j++)
- { // Search for object filename
- if (!strcmp((const char *)hptr->h_ofile, obj_fname[j]))
+ {
+ if (!strcmp(hptr->h_ofile->o_name, obj_fname[j]))
{
- ssidx = j; // Symbol object filename
+ ssidx = j; // Symbol object filename
break;
}
- tsegoffset += obj_segsize[j][0]; // Accumulate segment sizes
+ // Accumulate segment sizes
+ tsegoffset += obj_segsize[j][0];
dsegoffset += obj_segsize[j][1];
bsegoffset += obj_segsize[j][2];
}
if (ssidx == -1)
{
- printf("dosym() : Cannot get object file segment size : %s\n",
- ofile->o_name);
+ printf("DoSymbol(): Cannot get object file segment size: '%s:%s' symbol: '%s' (%s)\n",
+ hptr->h_ofile->o_name, hptr->h_ofile->o_arname,
+ symend + index, ofile->o_name);
return 1;
}
- type = hptr->h_type; // Update type with global type
+ // Update type with global type
+ type = hptr->h_type;
- if (type == 0x03000000)
- type = 0x02000000; // Reset external flag if absolute
+ // Remove external flag if absolute
+ if (type == (T_EXT | T_ABS))
+ type = T_ABS;
- // If the global/external has a value then update that vaule in
+ // If the global/external has a value then update that value in
// accordance with the segment sizes of the object file it
// originates from
if (hptr->h_value)
{
switch (hptr->h_type & 0x0E000000)
{
- case 0x02000000: // Absolute value
- case 0x04000000: // TEXT segment
+ case T_ABS:
+ case T_TEXT:
value = hptr->h_value;
break;
- case 0x06000000: // DATA segment
- value = hptr->h_value - (hptr->h_ofile->o_header.tsize);
+ case T_DATA:
+ value = hptr->h_value - hptr->h_ofile->o_header.tsize;
break;
- case 0x08000000: // BSS segment
+ case T_BSS:
value = hptr->h_value
- - (hptr->h_ofile->o_header.tsize + hptr->h_ofile->o_header.dsize);
- break;
+ - (hptr->h_ofile->o_header.tsize
+ + hptr->h_ofile->o_header.dsize);
+ break;
}
}
}
- // Process and update the value dependant on whether the symbol is a
+ // Process and update the value dependent on whether the symbol is a
// debug symbol or not
+ // N.B.: These are currently not supported
if (type & 0xF0000000)
{
// DEBUG SYMBOL
// processed.
switch (type & T_SEG)
{
- case 0x02000000: // Absolute value
+ case T_ABS:
break;
- case T_TEXT: // TEXT segment
- if (type & 0x01000000)
- value = tbase + tsegoffset + value;
- else
- value = tbase + tsegoffset + value;
-
+ case T_TEXT:
+ value = tbase + tsegoffset + value;
putlong(symptr + 8, value);
break;
- case T_DATA: // DATA segment
- if (type & 0x01000000)
+ case T_DATA:
+ if (type & T_EXT)
value = dbase + dsegoffset + value;
else
- value = dbase + dsegoffset + (value - ofile->o_header.tsize);
+ value = dbase + dsegoffset + (value
+ - ofile->o_header.tsize);
putlong(symptr + 8, value);
break;
- case T_BSS: // BSS segment
- if (type & 0x01000000)
+ case T_BSS:
+ if (type & T_EXT)
value = bbase + bsegoffset + value;
else
value = bbase + bsegoffset
- + (value - (ofile->o_header.tsize + ofile->o_header.dsize));
+ + (value - (ofile->o_header.tsize
+ + ofile->o_header.dsize));
putlong(symptr + 8, value);
break;
}
}
- // Add to output symbol table
+ // Add to output symbol table if global/extern, or local flag is set
if (lflag || !islocal(type))
{
- if (islocal(type) || isglobal(type))
- {
- if ((index = ost_add(symend + index, type, value)) == -1)
- return 1;
- }
- else
+ index = OSTAdd(symend + index, type, value);
+
+ if (index == -1)
{
- // Belongs in OST, but don't look it up yet
- index = -1;
+ printf("DoSymbol(): Failed to add symbol '%s' to OST!\n", symend + index);
+ return 1;
}
}
}
- // Increment dosym() processsing
+ // Increment dosymi processsing
dosymi++;
return 0;
//
// Free up hash memory
//
-void hash_free(void)
+void FreeHashes(void)
{
int i;
- struct HREC * htemp, * hptr;
for(i=0; i<NBUCKETS; i++)
{
- hptr = htable[i];
+ struct HREC * hptr = htable[i];
while (hptr)
{
- htemp = hptr->h_next;
+ struct HREC * htemp = hptr->h_next;
free(hptr);
hptr = htemp;
}
//
-// Add all Global and External Symbols to the Output Symbol Table
+// Add all global and external symbols to the output symbol table
+// [This is confusing--is it adding globals or locals? common == local!
+// but then again, we see this in the header:
+// #define T_COMMON (T_GLOBAL | T_EXTERN) but that could be just bullshit.]
//
-long docommon(void)
+long DoCommon(void)
{
- struct HREC * hptr; // Hash record pointer
- int i; // Iterator
+ struct HREC * hptr;
+ int i;
for(i=0; i<NBUCKETS; i++)
{
for(hptr=htable[i]; hptr!=NULL; hptr=hptr->h_next)
{
//NO! if (iscommon(hptr->h_type))
- if (isglobal(hptr->h_type) || isextern(hptr->h_type))
+ if (isglobal(hptr->h_type))// || isextern(hptr->h_type))
{
- if (hptr->h_type == 0x03000000)
- hptr->h_type = 0x02000000; // Absolutes can't be externals
+// Skip if in *.a file... (does nothing)
+//if (hptr->h_ofile->isArchiveFile)
+// continue;
- if (ost_add(hptr->h_sym, hptr->h_type, hptr->h_value) == -1)
+//Is this true? Couldn't an absolute be exported???
+ if (hptr->h_type == (T_EXT | T_ABS))
+ hptr->h_type = T_ABS; // Absolutes *can't* be externals
+
+ if (OSTAdd(hptr->h_sym, hptr->h_type, hptr->h_value) == -1)
return -1;
}
}
//
-// Add a Symbol's Name, Type, and Value to the OST.
-// Return the Index of the Symbol in OST, or -1 for Error.
+// Add a symbol's name, type, and value to the OST.
+// Returns the index of the symbol in OST, or -1 for error.
//
-int ost_add(char * name, int type, long value)
+int OSTAdd(char * name, int type, long value)
{
- int ost_offset_p, ost_offset_e = 0; // OST table offsets for position calcs
- int slen = 0; // Symbol string length
- int ostresult; // OST index result
-
- slen = strlen(name);
+ int ost_offset_p, ost_offset_e = 0; // OST table offsets for position calcs
+ int ostresult; // OST index result
+ int slen = strlen(name);
- // If the OST or OST String Table has not been initialised then do so
+ // If the OST or OST string table has not been initialised then do so
if (ost_index == 0)
{
- if ((ost = malloc(OST_BLOCK)) == NULL)
+ ost = malloc(OST_BLOCK);
+ oststr = malloc(OST_BLOCK);
+
+ if (ost == NULL)
{
- printf("OST memory allocation error (stringtable).\n");
+ printf("OST memory allocation error.\n");
return -1;
}
- ost_ptr = ost; // Set OST start pointer
- ost_end = ost + OST_BLOCK; // Set OST end pointer
-
- if ((oststr = malloc(OST_BLOCK)) == NULL)
+ if (oststr == NULL)
{
- printf("OST memory allocation error (string).\n");
+ printf("OSTSTR memory allocation error.\n");
return -1;
}
+ ost_ptr = ost; // Set OST start pointer
+ ost_end = ost + OST_BLOCK; // Set OST end pointer
+
putlong(oststr, 0x00000004); // Just null long for now
oststr_ptr = oststr + 4; // Skip size of str table long (incl null long)
putlong(oststr_ptr, 0x00000000); // Null terminating long
else
{
// If next symbol record exceeds current allocation then expand symbol
- // table.
+ // table and/or symbol string table.
ost_offset_p = (ost_ptr - ost);
ost_offset_e = (ost_end - ost);
- // 3 x int (12)
+ // 3 x uint32_t (12 bytes)
if ((ost_ptr + 12) > ost_end)
{
-#warning "!!! Bad logic in realloc call !!!"
- if ((ost = realloc(ost, (ost_end + OST_BLOCK))) == NULL)
+ // We want to allocate the current size of the OST + another block.
+ ost = realloc(ost, ost_offset_e + OST_BLOCK);
+
+ if (ost == NULL)
{
printf("OST memory reallocation error.\n");
return -1;
ost_offset_p = (oststr_ptr - oststr);
ost_offset_e = (oststr_end - oststr);
+ // string length + terminating NULL + uint32_t (terminal long)
if ((oststr_ptr + (slen + 1 + 4)) > oststr_end)
{
-#warning "!!! Bad logic in realloc call !!!"
- if ((oststr = realloc(oststr, (oststr_end + OST_BLOCK))) == NULL)
+ oststr = realloc(oststr, ost_offset_e + OST_BLOCK);
+
+ if (oststr == NULL)
{
printf("OSTSTR memory reallocation error.\n");
return -1;
if ((type & 0xF0000000) && !gflag)
{
// Do nothing
+ return 0;
}
- else
- {
- ostresult = ost_lookup(name); // Get symbol index in OST
- // If the symbol is in the output symbol table and the bflag is set
- // (don't remove multiply defined locals) and this is not an
- // external/global symbol *** OR *** the symbol is not in the output
- // symbol table then add it.
- if (((ostresult != -1) && bflag && !(type & 0x01000000))
- || ((ostresult != -1) && gflag && (type & 0xF0000000)) || (ostresult == -1))
- {
- if ((type & 0xF0000000) == 0x40000000)
- putlong(ost_ptr, 0x00000000); // Zero string table offset for dbg line
- else
- putlong(ost_ptr, (oststr_ptr - oststr)); // String table offset of symbol string
+ // Get symbol index in OST, if any (-1 if not found)
+ ostresult = OSTLookup(name);
- putlong(ost_ptr + 4, type );
- putlong(ost_ptr + 8, value);
- ost_ptr += 12;
+ // If the symbol is in the output symbol table and the bflag is set
+ // (don't remove multiply defined locals) and this is not an
+ // external/global symbol *** OR *** the symbol is not in the output
+ // symbol table then add it.
+ if (((ostresult != -1) && bflag && !(type & 0x01000000))
+ || ((ostresult != -1) && gflag && (type & 0xF0000000))
+ || (ostresult == -1))
+ {
+ if ((type & 0xF0000000) == 0x40000000)
+ putlong(ost_ptr, 0x00000000); // Zero string table offset for dbg line
+ else
+ putlong(ost_ptr, (oststr_ptr - oststr)); // String table offset of symbol string
- // If the symbol type is anything but a debug line information
- // symbol then write the symbol string to the string table
- if ((type & 0xF0000000) != 0x40000000)
- {
- strcpy(oststr_ptr, name); // Put symbol name in string table
- *(oststr_ptr + slen) = '\0'; // Add null terminating character
- oststr_ptr += (slen + 1);
- putlong(oststr_ptr, 0x00000000); // Null terminating long
- putlong(oststr, (oststr_ptr - oststr)); // Update size of string table
- }
+ putlong(ost_ptr + 4, type);
+ putlong(ost_ptr + 8, value);
+ ost_ptr += 12;
- if (vflag > 1)
- {
- printf("ost_add: (%s), type=$%08X, val=$%08X\n", name, type, value);
- }
+ // If the symbol type is anything but a debug line information
+ // symbol then write the symbol string to the string table
+ if ((type & 0xF0000000) != 0x40000000)
+ {
+ strcpy(oststr_ptr, name); // Put symbol name in string table
+ *(oststr_ptr + slen) = '\0'; // Add null terminating character
+ oststr_ptr += (slen + 1);
+ putlong(oststr_ptr, 0x00000000); // Null terminating long
+ putlong(oststr, (oststr_ptr - oststr)); // Update size of string table
+ }
- return ost_index++;
+ if (vflag > 1)
+ {
+ printf("OSTAdd: (%s), type=$%08X, val=$%08lX\n", name, type, value);
}
+
+// is ost_index pointing one past?
+// does this return the same regardless of if its ++n or n++?
+// no. it returns the value of ost_index *before* it's incremented.
+ return ++ost_index;
}
- // Not sure about this as it could affect return indices. Needed to stop
- // return error.
- return 0;
+ return ostresult;
}
//
-// Return the Index of a Symbol in the Output Symbol Table
+// Return the index of a symbol in the output symbol table
+// N.B.: This is a 1-based index! (though there's no real reason for it to be)
//
-int ost_lookup(char * sym)
+int OSTLookup(char * sym)
{
- int i; // Iterator
+ int i;
int stro = 4; // Offset in string table
for(i=0; i<ost_index; i++)
//
-// Add Unresolved Externs to the Output Symbol Table
+// Add unresolved externs to the output symbol table
//
-int dounresolved(void)
+int DoUnresolved(void)
{
- struct HREC * hptr, * htemp; // Hash record pointers
- hptr = unresolved; // Point to unresolved symbols list
+ struct HREC * hptr = unresolved;
- // While unresolved list is valid
+ // Add to OST while unresolved list is valid
while (hptr != NULL)
{
- if (ost_add(hptr->h_sym, T_EXT, 0L) == -1)
+ if (OSTAdd(hptr->h_sym, T_EXT, 0L) == -1)
return 1;
if (vflag > 1)
- printf("dounresolved(): added %s\n", hptr->h_sym);
+ printf("DoUnresolved(): added %s\n", hptr->h_sym);
- htemp = hptr->h_next; // Temporarily get ptr to next record
- free(hptr); // Free current record
- hptr = htemp; // Make next record ptr, current
+ struct HREC * htemp = hptr->h_next;
+ free(hptr);
+ hptr = htemp;
}
- unresolved = NULL; // Zero unresolved record list
+ unresolved = NULL;
return 0;
}
//
-// Update Object File TEXT and DATA Segments Based on Relocation Records. Take
+// Update object file TEXT and DATA segments based on relocation records. Take
// in an OFILE header and flag (T_TEXT, T_DATA) to process. Return (0) is
// successful or non-zero (1) if failed.
//
-int reloc_segment(struct OFILE * ofile, int flag)
+int RelocateSegment(struct OFILE * ofile, int flag)
{
char * symtab; // Start of symbol table
char * symbols; // Start of symbols
textoffset += (ofile->o_header.tsize + (pad - ofile->o_header.tsize));
if (vflag > 1)
- printf("reloc_segment(%s, TEXT) : No Relocation Data\n", ofile->o_name);
+ printf("RelocateSegment(%s, TEXT) : No Relocation Data\n", ofile->o_name);
return 0;
}
bssoffset += (ofile->o_header.bsize + (pad - ofile->o_header.bsize));
if (vflag > 1)
- printf("reloc_segment(%s, DATA) : No Relocation Data\n", ofile->o_name);
+ printf("RelocateSegment(%s, DATA) : No Relocation Data\n", ofile->o_name);
return 0;
}
// Verbose mode information
if (vflag > 1)
{
- printf("reloc_segment(%s, %s) : Processing Relocation Data\n",
+ printf("RelocateSegment(%s, %s) : Processing Relocation Data\n",
ofile->o_name, flag == T_DATA ? "DATA" : "TEXT");
}
// Obtain pointer to start of symbol table
- symtab = (ofile->o_image + 32 + ofile->o_header.tsize + ofile->o_header.dsize
- + ofile->o_header.absrel.reloc.tsize + ofile->o_header.absrel.reloc.dsize);
+ symtab = (ofile->o_image + 32 + ofile->o_header.tsize
+ + ofile->o_header.dsize
+ + ofile->o_header.absrel.reloc.tsize
+ + ofile->o_header.absrel.reloc.dsize);
// Obtain pointer to start of symbols
symbols = symtab + ofile->o_header.ssize;
relocsize = ofile->o_header.absrel.reloc.tsize;
if (vflag)
- {
- printf("RELOCSIZE :: %d Records = %d\n",relocsize,relocsize/8);
- }
+ printf("RELOCSIZE :: %d Records = %d\n", relocsize, relocsize / 8);
// Update pointers if DATA relocation records are being processed
if (flag == T_DATA)
// object file image
addr = getlong(rptr);
rflg = getlong(rptr + 4);
- glblreloc = (rflg & 0x00000010 ? 1 : 0); // Set global relocation flag
- absreloc = (rflg & 0x00000040 ? 1 : 0); // Set absolute relocation flag
- relreloc = (rflg & 0x000000A0 ? 1 : 0); // Set relative relocation flag
+ glblreloc = (rflg & 0x00000010 ? 1 : 0);// Set global relocation flag
+ absreloc = (rflg & 0x00000040 ? 1 : 0); // Set absolute relocation flag
+ relreloc = (rflg & 0x000000A0 ? 1 : 0); // Set relative relocation flag
// Additional processing required for global relocations
if (glblreloc)
symidx = getlong(symtab + ((rflg >> 8) * 12));
memset(sym, 0, SYMLEN);
strcpy(sym, symbols + symidx);
- olddata = newdata = 0; // Initialise old and new segment data
- ssidx = ost_lookup(sym);
+ olddata = newdata = 0; // Initialise old and new segment data
+ ssidx = OSTLookup(sym);
newdata = getlong(ost + ((ssidx - 1) * 12) + 8);
}
// BSS. Construct a new relocated segment long word based on the
// required segment base address, the segment data offset in the
// resulting COF file and the offsets from the incoming object file.
- //swcond = glblreloc ? ((hptr->h_type & 0x0E000000) >> 16) : (rflg & 0xFFFFFF00);
swcond = (rflg & 0xFFFFFF00);
if (!glblreloc)
{
switch (swcond)
{
- case 0x00000200: // Absolute Value
+ case 0x00000200: // Absolute Value
break;
- case 0x00000400: // TEXT segment relocation record
-//AARRRGGGGHHHHH! does the else belong to the 1st 'if' or the 2nd?
-// can we trust the indention to tell the truth here???
-// Braces were not here, so if something breaks, try pairing the else to the 1st 'if'...
- if (!glblreloc)
- {
- if (flag == T_TEXT) // Is this a TEXT section record?
- newdata = tbase + textoffset + olddata;
- else
- newdata = tbase + dataoffset + olddata; // Nope, must be DATA section
- }
+ case 0x00000400: // TEXT segment relocation record
+ if (flag == T_TEXT) // Is this a TEXT section record?
+ newdata = tbase + textoffset + olddata;
+ else
+ newdata = tbase + dataoffset + olddata; // Nope, must be DATA section
break;
- case 0x00000600: // DATA segment relocation record
- if (!glblreloc)
- newdata = dbase + dataoffset + (olddata - ofile->o_header.tsize);
+ case 0x00000600: // DATA segment relocation record
+ newdata = dbase + dataoffset
+ + (olddata - ofile->o_header.tsize);
break;
- case 0x00000800: // BSS segment relocation record
- if (!glblreloc)
- newdata = bbase + bssoffset
- + (olddata - (ofile->o_header.tsize + ofile->o_header.dsize));
+ case 0x00000800: // BSS segment relocation record
+ newdata = bbase + bssoffset
+ + (olddata - (ofile->o_header.tsize
+ + ofile->o_header.dsize));
break;
}
if (glblreloc)
sprintf(ssiString, " [ssi:%i]", ssidx);
- printf("reloc_segment($%08X): %s, $%08X: $%08X => $%08X%s\n", rflg, (glblreloc ? sym : "(LOCAL)"), addr, olddata, getlong(sptr + addr), ssiString);
+ printf("RelocateSegment($%08X): %s, $%08X: $%08X => $%08X%s\n", rflg, (glblreloc ? sym : "(LOCAL)"), addr, olddata, getlong(sptr + addr), ssiString);
}
- rptr += 8; // Point to the next relocation record
+ rptr += 8; // Point to the next relocation record
}
// Update the COF segment offset allowing for the phrase padding.
//
// Add a path character to the end of string 's' if it doesn't already end with
-// one. The last occurrance of '/' or '\\' in the string is assumed to be the
+// one. The last occurrance of '/' or '\' in the string is assumed to be the
// path character.
//
-void pathadd(char * s)
+// This is fucking shit. We know what the path delimiter is, its FUCKING
+// DEFINED IN THE FUCKING HEADER. FOR FUCKS SAKE. AND YES, HOPE TO GOD THERE'S
+// ENOUGH SPACE IN THE PASSED IN BUFFER TO HOLD THE EXTRA CHARACTER!
+//
+void AppendPathDelimiter(char * s)
{
+#if 0
// And hope to God that there's enough space in the buffer...
char pathchar = 0;
*++s = pathchar;
*++s = 0;
+#else
+ int length = strlen(s);
+
+ if (s[length - 1] != PATH_DELIMITER)
+ {
+ s[length] = PATH_DELIMITER;
+ s[length + 1] = 0; // BUFFER OVERFLOW!!!! FFFFFFFFUUUUUUUUUUUU
+ }
+#endif
}
// malloc()'ed string which is the name which actually got opened. p_name will
// return unchanged if the file can't be found.
//
-int tryopen(char ** p_name)
+int TryOpenFile(char ** p_name)
{
- char * name = * p_name; // Filename
- char * tmpbuf, * lastdot; // Buffer and 'dot' pointers
- int fd, hasdot; // File descriptor and 'has dot' flag
+ char * name = *p_name;
// Note that libdir will be an empty string if there is none specified
- if ((tmpbuf = malloc((long)strlen(name) + strlen(libdir) + 3)) == NULL)
+ char * tmpbuf = malloc(strlen(name) + strlen(libdir) + 3);
+
+ if (tmpbuf == NULL)
{
- printf("tryopen() : out of memory\n");
+ printf("TryOpenFile() : out of memory\n");
return -1;
}
strcpy(tmpbuf, name);
- hasdot = ((lastdot = strrchr(tmpbuf, '.')) > strrchr(tmpbuf, '/'))
- && (lastdot > strrchr(tmpbuf, '\\'));
+ int hasdot = (strrchr(tmpbuf, '.') > strrchr(tmpbuf, PATH_DELIMITER));
+ // Try to open file as passed first
+ int fd = open(tmpbuf, _OPEN_FLAGS);
- if ((fd = open(tmpbuf, _OPEN_FLAGS)) >= 0)
- goto ok; // Try to open file as passed first
+ if (fd >= 0)
+ goto ok;
if (!hasdot)
{
- strcat(tmpbuf, ".o"); // Try to open file with '.o' added
+ // Try to open file with '.o' added
+ strcat(tmpbuf, ".o");
+ fd = open(tmpbuf, _OPEN_FLAGS);
- if ((fd = open(tmpbuf, _OPEN_FLAGS)) >= 0)
+ if (fd >= 0)
goto ok;
}
// Try the libdir only if the name isn't already anchored
- if (*name != '/' && *name != '\\' && !strchr(name, ':'))
+ // Shamus: WTH, this makes no sense... Why the ':'? Is this a Macintosh??
+// if (*name != '/' && *name != '\\' && !strchr(name, ':'))
+ if ((*name != PATH_DELIMITER) && (strchr(name, ':') == NULL))
{
strcpy(tmpbuf, libdir);
// Add a trailing path char if there isn't one already
- pathadd(tmpbuf);
+ AppendPathDelimiter(tmpbuf);
strcat(tmpbuf, name);
if ((fd = open(tmpbuf, _OPEN_FLAGS)) >= 0)
// There are worse things... :-P
ok:
- if ((tmpbuf = realloc(tmpbuf, (long)strlen(tmpbuf) + 1)) == NULL)
+ tmpbuf = realloc(tmpbuf, strlen(tmpbuf) + 1);
+
+ if (tmpbuf == NULL)
{
- printf("tryopen() : out of memory\n");
+ printf("TryOpenFile() : out of memory\n");
return -1;
}
*p_name = tmpbuf;
- return fd; // Return file descriptor
+ return fd;
}
//
-// Archive File Use, Needs to be Removed
+// Archive File Use, Needs to be Removed [Shamus: NON!]
//
void put_name(struct OFILE * p)
{
//
// Collect file names and handles in a buffer so there is less disk activity.
-// Call dofile with flag FALSE for normal object files and archives.
+// Call DoFile with flag FALSE for normal object files and archives.
// Call it with flag TRUE and a symbol name for include files (-i).
//
-int dofile(char * fname, int flag, char * sym)
+int DoFile(char * fname, int incFlag, char * sym)
{
- int fd;
- int temp;
-
// Verbose information
if (vflag)
{
- printf("dofile() : `%s' %s", fname, flag ? "INCLUDE" : "NORMAL");
+ printf("DoFile() : `%s' %s", fname, incFlag ? "INCLUDE" : "NORMAL");
- if (flag)
+ if (incFlag)
printf(" symbol %s", sym);
printf("\n");
// Reached maximum file handles
if (hd == NHANDLES)
{
- if (ProcessObjectFiles())
+ if (ProcessFiles())
return 1;
}
// Attempt to open input file
- if ((fd = tryopen(&fname)) < 0)
+ int fd = TryOpenFile(&fname);
+
+ if (fd < 0)
{
printf("Cannot find input module %s\n", fname);
return 1;
// The file is open; save its info in the handle and name arrays
handle[hd] = fd;
- name[hd] = fname; // This is the name from tryopen()
- hflag[hd] = flag;
+ name[hd] = fname; // This is the name from TryOpenFile()
+ hflag[hd] = incFlag;
// Include files
- if (flag)
+ if (incFlag)
{
- temp = strlen(sym); // Get symbol length
+ int temp = strlen(sym); // Get symbol length
// 100 chars is max length of a symbol
if (temp > 99)
if ((hsym1[hd] = malloc((long)temp + 1)) == NULL
|| (hsym2[hd] = malloc((long)temp + 2)) == NULL)
{
- printf("dofile() : out of memory for include-file symbols\n");
+ printf("DoFile() : out of memory for include-file symbols\n");
return 1;
}
//
-// Pad TEXT or DATA Segment to the Requested Boundary
+// Pad TEXT or DATA segment to the requested boundary
//
int segmentpad(FILE * fd, long segsize, int value)
{
- long padsize; // Number of pad bytes needed
- int i; // Good 'ol iterator
- char padarray[32]; // Array of padding bytes
- char * padptr; // Pointer to array
+ int i;
+ char padarray[32];
+ char * padptr;
// Determine the number of padding bytes that are needed
- padsize = (segsize + secalign) & ~secalign;
+ long padsize = (segsize + secalign) & ~secalign;
padsize = padsize - segsize;
// Fill pad array if padding is required
symoffset += padsize;
- if (fwrite(padarray, padsize, 1, fd) != 1) // Write padding bytes
+ // Write padding bytes
+ if (fwrite(padarray, padsize, 1, fd) != 1)
return 1;
}
//
-// Write the Output File
+// Write the output file
//
int write_ofile(struct OHEADER * header)
{
- FILE * fd; // File descriptor
unsigned osize; // Object segment size
struct OFILE * otemp; // Object file pointer
int i, j; // Iterators
strcat(ofile, ".o"); // Object files (partial linking etc)
}
- fd = fopen(ofile, "wb"); // Attempt to open output file
+ FILE * fd = fopen(ofile, "wb"); // Attempt to open output file
if (!fd)
{
- printf("Can't open output file %s\n", ofile); // Error opening output file
+ printf("Can't open output file %s\n", ofile);
return 1;
}
// additional code will need to be added for ABS and partial linking.
// Build the COF_HDR
- putword(himage + 0, 0x0150 ); // Magic Number (0x0150)
- putword(himage + 2, 0x0003 ); // Sections Number (3)
- putlong(himage + 4, 0x00000000 ); // Date (0L)
- putlong(himage + 8, dsoff + header->dsize); // Offset to Symbols Section
- putlong(himage + 12, ost_index); // Number of Symbols
- putword(himage + 16, 0x001C ); // Size of RUN_HDR (0x1C)
- putword(himage + 18, 0x0003 ); // Executable Flags (3)
+ putword(himage + 0, 0x0150 ); // Magic Number (0x0150)
+ putword(himage + 2, 0x0003 ); // Sections Number (3)
+ putlong(himage + 4, 0x00000000 ); // Date (0L)
+ putlong(himage + 8, dsoff + header->dsize); // Offset to Symbols Section
+ putlong(himage + 12, ost_index); // Number of Symbols
+ putword(himage + 16, 0x001C ); // Size of RUN_HDR (0x1C)
+ putword(himage + 18, 0x0003 ); // Executable Flags (3)
// Build the RUN_HDR
- putlong(himage + 20, 0x00000107 ); // Magic/vstamp
- putlong(himage + 24, header->tsize ); // TEXT size in bytes
- putlong(himage + 28, header->dsize ); // DATA size in bytes
- putlong(himage + 32, header->bsize ); // BSS size in bytes
- putlong(himage + 36, tbase ); // Start of executable, normally @TEXT
- putlong(himage + 40, tbase ); // @TEXT
- putlong(himage + 44, dbase ); // @DATA
+ putlong(himage + 20, 0x00000107 ); // Magic/vstamp
+ putlong(himage + 24, header->tsize ); // TEXT size in bytes
+ putlong(himage + 28, header->dsize ); // DATA size in bytes
+ putlong(himage + 32, header->bsize ); // BSS size in bytes
+ putlong(himage + 36, tbase ); // Start of executable, normally @TEXT
+ putlong(himage + 40, tbase ); // @TEXT
+ putlong(himage + 44, dbase ); // @DATA
// Build the TEXT SEC_HDR
putlong(himage + 48, 0x2E746578 );
- putlong(himage + 52, 0x74000000 ); // ".text"
- putlong(himage + 56, tbase ); // TEXT START
- putlong(himage + 60, tbase ); // TEXT START
- putlong(himage + 64, header->tsize ); // TEXT size in bytes
- putlong(himage + 68, tsoff ); // Offset to section data in file
- putlong(himage + 72, 0x00000000 ); // Offset to section reloc in file (0L)
- putlong(himage + 76, 0x00000000 ); // Offset to debug lines structures (0L)
- putlong(himage + 80, 0x00000000 ); // Nreloc/nlnno (0L)
- putlong(himage + 84, 0x00000020 ); // SEC_FLAGS: STYP_TEXT
+ putlong(himage + 52, 0x74000000 ); // ".text"
+ putlong(himage + 56, tbase ); // TEXT START
+ putlong(himage + 60, tbase ); // TEXT START
+ putlong(himage + 64, header->tsize ); // TEXT size in bytes
+ putlong(himage + 68, tsoff ); // Offset to section data in file
+ putlong(himage + 72, 0x00000000 ); // Offset to section reloc in file (0L)
+ putlong(himage + 76, 0x00000000 ); // Offset to debug lines structures (0L)
+ putlong(himage + 80, 0x00000000 ); // Nreloc/nlnno (0L)
+ putlong(himage + 84, 0x00000020 ); // SEC_FLAGS: STYP_TEXT
// Build the DATA SEC_HDR
putlong(himage + 88, 0x2E646174 );
- putlong(himage + 92, 0x61000000 ); // ".data"
- putlong(himage + 96, dbase ); // DATA START
- putlong(himage + 100, dbase ); // DATA START
- putlong(himage + 104, header->dsize ); // DATA size in bytes
- putlong(himage + 108, dsoff ); // Offset to section data in file
- putlong(himage + 112, 0x00000000 ); // Offset to section reloc in file (0L)
- putlong(himage + 116, 0x00000000 ); // Offset to debugging lines structures (0L)
- putlong(himage + 120, 0x00000000 ); // Nreloc/nlnno (0L)
- putlong(himage + 124, 0x00000040 ); // SEC_FLAGS: STYP_DATA
+ putlong(himage + 92, 0x61000000 ); // ".data"
+ putlong(himage + 96, dbase ); // DATA START
+ putlong(himage + 100, dbase ); // DATA START
+ putlong(himage + 104, header->dsize ); // DATA size in bytes
+ putlong(himage + 108, dsoff ); // Offset to section data in file
+ putlong(himage + 112, 0x00000000 ); // Offset to section reloc in file (0L)
+ putlong(himage + 116, 0x00000000 ); // Offset to debugging lines structures (0L)
+ putlong(himage + 120, 0x00000000 ); // Nreloc/nlnno (0L)
+ putlong(himage + 124, 0x00000040 ); // SEC_FLAGS: STYP_DATA
// Build the BSS SEC_HDR
putlong(himage + 128, 0x2E627373 );
- putlong(himage + 132, 0x00000000 ); // ".bss"
- putlong(himage + 136, bbase ); // BSS START
- putlong(himage + 140, bbase ); // BSS START
- putlong(himage + 144, header->bsize ); // BSS size in bytes
- putlong(himage + 148, bsoff ); // Offset to section data in file
- putlong(himage + 152, 0x00000000 ); // Offset to section reloc in file (0L)
- putlong(himage + 156, 0x00000000 ); // Offset to debugging lines structures (0L)
- putlong(himage + 160, 0x00000000 ); // Nreloc/nlnno (0L)
- putlong(himage + 164, 0x00000080 ); // SEC_FLAGS: STYP_BSS
-
- symoffset = 168; // Update symbol offset
+ putlong(himage + 132, 0x00000000 ); // ".bss"
+ putlong(himage + 136, bbase ); // BSS START
+ putlong(himage + 140, bbase ); // BSS START
+ putlong(himage + 144, header->bsize ); // BSS size in bytes
+ putlong(himage + 148, bsoff ); // Offset to section data in file
+ putlong(himage + 152, 0x00000000 ); // Offset to section reloc in file (0L)
+ putlong(himage + 156, 0x00000000 ); // Offset to debugging lines structures (0L)
+ putlong(himage + 160, 0x00000000 ); // Nreloc/nlnno (0L)
+ putlong(himage + 164, 0x00000080 ); // SEC_FLAGS: STYP_BSS
+
+ symoffset = 168; // Update symbol offset
}
// Absolute (ABS) header
else
{
// Build the ABS header
- putword(himage + 0, 0x601B ); // Magic Number (0x601B)
- putlong(himage + 2, header->tsize ); // TEXT segment size
- putlong(himage + 6, header->dsize ); // DATA segment size
- putlong(himage + 10, header->bsize ); // BSS segment size
- putlong(himage + 14, ost_index * 14 ); // Symbol table size (?)
- putlong(himage + 18, 0x00000000 ); //
- putlong(himage + 22, tbase ); // TEXT base address
- putword(himage + 26, 0xFFFF ); // Flags (?)
- putlong(himage + 28, dbase ); // DATA base address
- putlong(himage + 32, bbase ); // BSS base address
+ putword(himage + 0, 0x601B ); // Magic Number (0x601B)
+ putlong(himage + 2, header->tsize ); // TEXT segment size
+ putlong(himage + 6, header->dsize ); // DATA segment size
+ putlong(himage + 10, header->bsize ); // BSS segment size
+ putlong(himage + 14, ost_index * 14 ); // Symbol table size (?)
+ putlong(himage + 18, 0x00000000 ); //
+ putlong(himage + 22, tbase ); // TEXT base address
+ putword(himage + 26, 0xFFFF ); // Flags (?)
+ putlong(himage + 28, dbase ); // DATA base address
+ putlong(himage + 32, bbase ); // BSS base address
- symoffset = 36; // Update symbol offset
+ symoffset = 36; // Update symbol offset
}
// Write the header, but not if noheaderflag
{
if (header->ssize)
{
- if (fwrite(ost, (ost_ptr - ost), 1, fd) != 1) goto werror;
- if (fwrite(oststr, (oststr_ptr - oststr), 1, fd) != 1) goto werror;
+ if (fwrite(ost, (ost_ptr - ost), 1, fd) != 1)
+ goto werror;
+
+ if (fwrite(oststr, (oststr_ptr - oststr), 1, fd) != 1)
+ goto werror;
}
}
// Absolute (ABS) symbol/string table
else
{
// The symbol and string table have been created as part of the
- // dosym() function and the output symbol and string tables are in
- // COF format. For an ABS file we need to process through this to
- // create the 14 character long combined symbol and string table.
- // Format of symbol table in ABS: AAAAAAAATTVVVV, where (A)=STRING,
- // (T)=TYPE & (V)=VALUE
+ // DoSymbol() function and the output symbol and string tables are
+ // in COF format. For an ABS file we need to process through this
+ // to create the 14 character long combined symbol and string
+ // table. Format of symbol table in ABS: AAAAAAAATTVVVV, where
+ // (A)=STRING, (T)=TYPE & (V)=VALUE
for(i=0; i<ost_index; i++)
{
- memset(symbol, 0, 14); // Initialise symbol record
- abstype = 0; // Initialise ABS symbol type
- slen = 0; // Initialise symbol string length
+ memset(symbol, 0, 14); // Initialise symbol record
+ abstype = 0; // Initialise ABS symbol type
+ slen = 0; // Initialise symbol string length
index = getlong(ost + (i * 12)); // Get symbol index
type = getlong((ost + (i * 12)) + 4); // Get symbol type
+ // Skip debug symbols
if (type & 0xF0000000)
- continue; // Not doing debug symbols
+ continue;
- value = getlong((ost + (i * 12)) + 8); // Get symbol value
+ // Get symbol value
+ value = getlong((ost + (i * 12)) + 8);
slen = strlen(oststr + index);
// Get symbol string (maximum 8 chars)
break;
}
- putword(symbol + 8, abstype); // Write back new ABS type
- putlong(symbol + 10, value); // Write back value
+ putword(symbol + 8, abstype); // Write back new ABS type
+ putlong(symbol + 10, value); // Write back value
- if (fwrite(symbol, 14, 1, fd) != 1) goto werror; // Write symbol record
+ // Write symbol record
+ if (fwrite(symbol, 14, 1, fd) != 1)
+ goto werror;
}
}
}
//
-// Convert ASCII to Hexadecimal
+// Stuff the (long) value of a string into the value argument. RETURNS TRUE if
+// the string doesn't parse. Parses only as a hexadecimal string.
//
-//int atolx(char * string, long * value)
-int atolx(char * string, int * value)
+int GetHexValue(char * string, int * value)
{
*value = 0;
}
-//
-// Stuff the (long) value of a string into the value argument. RETURNS TRUE if
-// the string doesn't parse. Parses only as a hex string.
-//
-int getval(char * string, int * value)
-{
- return atolx(string, value);
-}
-
-
//
// Create one big .o file from the images already in memory, returning a
// pointer to an OHEADER. Note that the oheader is just the header for the
{
unsigned tptr, dptr, bptr; // Bases in runtime model
int ret = 0; // Return value
- struct OFILE * otemp, * oprev, * ohold; // Object file list pointers
struct OHEADER * header; // Output header pointer
// Initialize cumulative segment sizes
// For each object file, accumulate the sizes of the segments but remove
// those object files which are unused
- oprev = NULL; // Init previous obj file list ptr
- otemp = olist; // Set temp pointer to object file list
+ struct OFILE * oprev = NULL; // Init previous obj file list ptr
+ struct OFILE * otemp = olist; // Set temp pointer to object file list
+ int i = 0;
while (otemp != NULL)
{
- // UNUSED !!!!!
+ // UNUSED !!!!! (it's !O_ARCHIVE, so this code executes.)
if (!(otemp->o_flags & O_ARCHIVE))
{
if ((otemp->o_flags & O_USED) == 0)
}
if (oprev == NULL)
- {
olist = otemp->o_next;
- }
else
- {
oprev->o_next = otemp->o_next;
- }
- ohold = otemp;
+ struct OFILE * ohold = otemp;
if (!ohold->isArchiveFile)
free(ohold->o_image);
- free(ohold);
+// free(ohold);
+
+ // Also need to remove them from the obj_* tables too :-P
+ // N.B.: Would probably be worthwhile to remove crap like this
+ // and stuff it into the OFILE structure...
+ if (wflag)
+ printf("»-> removing %s... (index == %i, len == %i)\n", obj_fname[i], i, obj_index - 1);
+
+ int k;
+
+ for(k=i; k<obj_index-1; k++)
+ {
+ memcpy(obj_fname[k], obj_fname[k + 1], FNLEN);
+ obj_segsize[k][0] = obj_segsize[k + 1][0];
+ obj_segsize[k][1] = obj_segsize[k + 1][1];
+ obj_segsize[k][2] = obj_segsize[k + 1][2];
+ }
+
+ obj_index--;
+ i--;
}
else
{
- // Increment total of segment sizes ensuring requested alignment
+ // Increment total of segment sizes ensuring requested
+ // alignment
textsize += (otemp->o_header.tsize + secalign) & ~secalign;
datasize += (otemp->o_header.dsize + secalign) & ~secalign;
bsssize += (otemp->o_header.bsize + secalign) & ~secalign;
// Go to next object file list pointer
otemp = otemp->o_next;
+ i++;
}
// Update base addresses and create symbols _TEXT_E, _DATA_E and _BSS_E
tbase = tval;
- ost_add("_TEXT_E", 0x05000000, tval + textsize);
+ OSTAdd("_TEXT_E", 0x05000000, tval + textsize);
if (!dval)
{
// DATA follows TEXT
dbase = tval + textsize;
- ost_add("_DATA_E", 0x07000000, tval + textsize + datasize);
+ OSTAdd("_DATA_E", 0x07000000, tval + textsize + datasize);
if (!bval)
{
// BSS follows DATA
bbase = tval + textsize + datasize;
- ost_add("_BSS_E", 0x09000000, tval + textsize + datasize + bsssize);
+ OSTAdd("_BSS_E", 0x09000000, tval + textsize + datasize + bsssize);
}
else
{
- // BSS is independant of DATA
+ // BSS is independent of DATA
bbase = bval;
- ost_add("_BSS_E", 0x09000000, bval + bsssize);
+ OSTAdd("_BSS_E", 0x09000000, bval + bsssize);
}
}
else
{
// DATA is independant of TEXT
dbase = dval;
- ost_add("_DATA_E", 0x07000000, dval + datasize);
+ OSTAdd("_DATA_E", 0x07000000, dval + datasize);
if (!bval)
{
// BSS follows DATA
bbase = dval + datasize;
- ost_add("_BSS_E", 0x09000000, dval + datasize + bsssize);
+ OSTAdd("_BSS_E", 0x09000000, dval + datasize + bsssize);
}
else
{
- // BSS is independant of DATA
+ // BSS is independent of DATA
bbase = bval;
- ost_add("_BSS_E", 0x09000000, bval + bsssize);
+ OSTAdd("_BSS_E", 0x09000000, bval + bsssize);
}
}
// Place each unresolved symbol in the output symbol table
- if (dounresolved())
+ if (DoUnresolved())
return NULL;
- tptr = 0; // Initialise base addresses
- dptr = 0;
- bptr = 0;
+ // Initialise base addresses
+ tptr = dptr = bptr = 0;
- // For each file, relocate its symbols and add them to the output symbol table
+ // For each file, relocate its symbols and add them to the output symbol
+ // table
otemp = olist;
oprev = NULL;
// For each symbol, (conditionally) add it to the ost
// For ARCHIVE markers, this adds the symbol for the file & returns
- if (dosym(otemp))
+ // (Shamus: N.B. it does no such thing ATM)
+ if (DoSymbol(otemp))
return NULL;
if (otemp->o_flags & O_ARCHIVE)
else
oprev->o_next = otemp->o_next;
- ohold = otemp;
+ struct OFILE * ohold = otemp;
if (ohold->o_image)
if (!ohold->isArchiveFile)
}
// Places all the externs, globals etc into the output symbol table
- if (docommon() == -1)
+ if (DoCommon() == -1)
return NULL;
// Create a new output file header
- if ((header = new_oheader()) == NULL)
+ header = new_oheader();
+
+ if (header == NULL)
{
printf("make_ofile: out of memory!\n");
return NULL;
// Fill in the output header. Does not match the actual output but values
// used as reference
- header->magic = 0x0150; // COF magic number
- header->tsize = textsize; // TEXT segment size
- header->dsize = datasize; // DATA segment size
- header->bsize = bsssize; // BSS segment size
- header->ssize = (ost_ptr - ost); // Symbol table size
- header->ostbase = ost; // Output symbol table base address
+ header->magic = 0x0150; // COF magic number
+ header->tsize = textsize; // TEXT segment size
+ header->dsize = datasize; // DATA segment size
+ header->bsize = bsssize; // BSS segment size
+ header->ssize = (ost_ptr - ost); // Symbol table size
+ header->ostbase = ost; // Output symbol table base address
// For each object file, relocate its TEXT and DATA segments. OR the result
// into ret so all files get moved (and errors reported) before returning
{
if (!(otemp->o_flags & O_ARCHIVE))
{
- ret |= reloc_segment(otemp, T_TEXT); // TEXT segment relocations
- ret |= reloc_segment(otemp, T_DATA); // DATA segment relocations
+ ret |= RelocateSegment(otemp, T_TEXT); // TEXT segment relocations
+ ret |= RelocateSegment(otemp, T_DATA); // DATA segment relocations
}
}
- hash_free(); // Done with global symbol hash tables
+ // Done with global symbol hash tables
+ FreeHashes();
return (ret ? (struct OHEADER *)NULL : header);
}
//
-// Add Symbol to Hash List
+// Add symbol to hash list
//
-int add_to_hlist(struct HREC ** hptr, char * sym, struct OFILE * ofile, long value, int type)
+int AddSymbolToHashList(struct HREC ** hptr, char * sym, struct OFILE * ofile,
+ long value, int type)
{
- struct HREC * htemp; // Temporary hash record pointer
- int i;
+ struct HREC * htemp = new_hrec();
- // Attempt to allocate new hash record
- if ((htemp = new_hrec()) == NULL)
+ if (htemp == NULL)
{
printf("Out of memory\n");
return 1;
// Shamus: Moar testing...
if (vflag > 1)
{
- printf("add_to_hlist(): hptr=$%08X, sym=\"%s\", ofile=$%08X, value=$%X, type=$%X\n", hptr, sym, ofile, value, type);
+ printf("AddSymbolToHashList(): hptr=$%08X, sym=\"%s\", ofile=$%08X, value=$%X, type=$%X\n", hptr, sym, ofile, value, type);
}
- for(i=0; i<SYMLEN; i++)
- htemp->h_sym[i] = '\0';
-
- strcpy(htemp->h_sym, sym); // Populate hash record
+ // Populate hash record
+ memset(htemp->h_sym, 0, SYMLEN);
+ strcpy(htemp->h_sym, sym);
htemp->h_ofile = ofile;
htemp->h_value = value;
htemp->h_type = type;
- htemp->h_next = *hptr; // Update hash record pointers
+ // Add new hash to the front of the list (hence the ** for hptr)
+ htemp->h_next = *hptr;
*hptr = htemp;
return 0;
//
-// Add Symbol to the Unresolved Symbols Hash Table
+// Add symbol to the unresolved symbols hash table (really, it's a linked list)
//
-add_unresolved(char * sym, struct OFILE * ofile)
+int AddUnresolvedSymbol(char * sym, struct OFILE * ofile)
{
if (vflag > 1)
- printf("add_unresolved(%s, %s)\n", sym, ofile->o_name);
+ printf("AddUnresolvedSymbol(%s, %s)\n", sym, ofile->o_name);
- return add_to_hlist(&unresolved, sym, ofile, 0L, 0);
+ return AddSymbolToHashList(&unresolved, sym, ofile, 0L, 0);
}
//
-// Generate hash value
+// Remove the HREC from the unresolved symbol list, and pass back a pointer
+// to the spot where the HREC was.
//
-int DoHash(char * s)
+struct HREC * RemoveUnresolvedSymbol(struct HREC * hrec)
{
- int i = (s[0] + s[1] + s[2] + s[3] + s[4] + s[5] + s[6] + s[7] + s[8]
- + s[9] + s[10] + s[11] + s[12] + s[13] + s[14]) % NBUCKETS;
- return i;
+ struct HREC * ptr = unresolved;
+ struct HREC * previous = NULL;
+
+ while ((ptr != hrec) && (ptr != NULL))
+ {
+ previous = ptr;
+ ptr = ptr->h_next;
+ }
+
+ // Not found...!
+ if (ptr == NULL)
+ return NULL;
+
+ struct HREC * next = ptr->h_next;
+
+ // Remove the head if nothing previous, otherwise, remove what we found
+ if (previous == NULL)
+ unresolved = next;
+ else
+ previous->h_next = next;
+
+ free(ptr);
+ return next;
}
//
-// Lookup a symbol in the hash table
+// Add symbol to the unresolved symbols hash table
//
-struct HREC * lookup(char * sym)
+int AddARSymbol(char * sym, struct OFILE * ofile)
{
- struct HREC * hptr = htable[DoHash(sym)]; // Hash index to record based on sym
- char symbol[SYMLEN]; // Temporary symbol storage
+ if (vflag > 1)
+ printf("AddARSymbol(%s, %s)\n", sym, ofile->o_name);
+
+ return AddSymbolToHashList(&arSymbol, sym, ofile, 0L, 0);
+}
- memset(symbol, 0, SYMLEN); // Clean string for comparison
- strcpy(symbol, sym);
+
+//
+// Generate hash value from the 1st 15 characters of the symbol modulo the
+// number of buckets in the hash.
+//
+int GetHash(char * s)
+{
+ // For this to be consistent, the symbol MUST be zeroed out beforehand!
+ // N.B.: strncpy() pads zeroes for us, if the symbol is less than 15 chars.
+ char c[15];
+ strncpy(c, s, 15);
+
+ int i = (c[0] + c[1] + c[2] + c[3] + c[4] + c[5] + c[6] + c[7] + c[8]
+ + c[9] + c[10] + c[11] + c[12] + c[13] + c[14]) % NBUCKETS;
+ return i;
+}
+
+
+//
+// Lookup a symbol in the hash table.
+// Returns either a pointer to the HREC or NULL if not found.
+//
+struct HREC * LookupHREC(char * symbol)
+{
+ struct HREC * hptr = htable[GetHash(symbol)];
while (hptr != NULL)
{
//This is utter failure...
// if (symcmp(symbol, hptr->h_sym)) <-- left here for giggles :D - LinkoVitch
- // Return hash pointer if found
+ // Return hash record pointer if found
if (strcmp(symbol, hptr->h_sym) == 0)
return hptr;
hptr = hptr->h_next;
}
- // Symbol was not found in hash table
return NULL;
}
//
-// Add symbol to the hash table
+// Lookup a symbol in the AR symbol table.
+// Returns either a pointer to the HREC or NULL if not found.
//
-int hash_add(char * sym, long type, long value, struct OFILE * ofile)
+struct HREC * LookupARHREC(char * symbol)
{
- struct HREC * hptr;
- int flag = !iscommon(type);
+ struct HREC * hptr = arSymbol;//htable[GetHash(symbol)];
- if (vflag > 1)
+ while (hptr != NULL)
{
- printf("hash_add(%s,%s,%lx,", sym, ofile->o_name, value);
- printf("%x,%s)\n", (unsigned int)type, (flag ? "GLOBAL" : "COMMON"));
+ // Return hash record pointer if found
+ if (strcmp(symbol, hptr->h_sym) == 0)
+ return hptr;
+
+ hptr = hptr->h_next;
}
- if ((hptr = lookup(sym)) == NULL)
+ return NULL;
+}
+
+
+#if 0
+//
+// Add symbol to the hash table if it doesn't already exist, otherwise decide
+// what to do since it's already defined in another unit.
+//
+int DealWithSymbol(char * sym, long type, long value, struct OFILE * ofile)
+{
+ // Make sure we have a filename...
+ assert(ofile->o_name[0] != 0);
+
+ if (vflag > 1)
{
- return add_to_hlist(&htable[DoHash(sym)], sym, ofile, value, type);
+ printf("DealWithSymbol(%s,%s,%lx,", sym, ofile->o_name, value);
+ printf("%x,%s)\n", (unsigned int)type, (isglobal(type) ? "GLOBAL" : "COMMON"));
}
- // Already there!
+ // See if the symbol is already in the symbol table...
+ struct HREC * hptr = LookupHREC(sym);
+
+ if (hptr == NULL)
+ return AddSymbolToHashList(&htable[GetHash(sym)], sym, ofile, value, type);
+
+ // N.B.: The symbol being passed in is *already* been vetted as an
+ // external, so we have only *two* cases to look for here.
+#if 0
+ // Symbol is already in table... Figure out how to handle!
if (iscommon(type) && !iscommon(hptr->h_type))
{
// Mismatch: global came first; warn and keep the global one
printf(" discarded.\n");
}
+#if 0
+#warning "!!! WHERE THE FUCK IS THIS WRITING TO?? !!!"
+// Wow, just wow. This is writing to the symbol string table when it apparently
+// it thinks it's writing to an ABS symbol. This is so wrong, I don't even know
+// where to begin...
putword(sym + 8, ABST_EXTERN);
putlong(sym + 10, 0L);
+#else
+ // ??? write what to where?
+#endif
}
else if (iscommon(hptr->h_type) && !iscommon(type))
{
hptr->h_ofile = ofile;
hptr->h_value = value;
}
- // They're both global
- else if (flag)
+ // They're both global [WRONG! Passed in one is global]
+ // [technically, this is correct, as it failed the 1st two checks...
+ // but it is unclear, so the latter is preferable.]
+// else if (!iscommon(type))
+//is this now right?? [YES, see above]
+ else if (!iscommon(type) && !iscommon(hptr->h_type))
{
// Global exported by another ofile; warn and make this one extern
if (wflag)
printf(" discarded\n");
}
+#if 0
+#warning "!!! WHERE THE FUCK IS THIS WRITING TO?? !!!"
putword(sym + 8, ABST_EXTERN);
+#else
+ // ??? write what to where?
+#endif
}
// They're both common
else
hptr->h_ofile = ofile;
}
}
+#else
+ if (iscommon(hptr->h_type))
+ {
+ // Mismatch: common came first; warn and keep the global one
+ if (wflag)
+ {
+ printf("Warning: %s: global from ", sym);
+ put_name(ofile);
+ printf(" used, common from ");
+ put_name(hptr->h_ofile);
+ printf(" discarded.\n");
+ }
+
+ hptr->h_type = type;
+ hptr->h_ofile = ofile;
+ hptr->h_value = value;
+ }
+ else
+ {
+ // Global exported by another ofile; warn and make this one extern
+ if (wflag)
+ {
+ printf("Duplicate symbol %s: ", sym);
+ put_name(hptr->h_ofile);
+ printf(" used, ");
+ put_name(ofile);
+ printf(" discarded\n");
+ }
+
+#if 0
+#warning "!!! WHERE THE FUCK IS THIS WRITING TO?? !!!"
+ putword(sym + 8, ABST_EXTERN);
+#else
+ // ??? write what to where?
+#endif
+ }
+#endif
return 0;
}
+#endif
//
// Add the imported symbols from this file to unresolved, and the global and
-// common symbols to the exported hash table.
+// common (???) symbols to the exported hash table.
//
// Change old-style commons (type == T_EXTERN, value != 0) to new-style ones
-// (type == (T_GLOBAL | T_EXTERN)).
+// (type == (T_GLOBAL | T_EXTERN)). [??? O_o]
//
-int add_symbols(struct OFILE * Ofile)
+int AddSymbols(struct OFILE * Ofile)
{
- long nsymbols; // Number of symbols in object file
- char * ptr; // Object data base pointer
- char * sfix; // Symbol fixup table pointer
- char * sstr; // Symbol string table pointer
- long index; // String index
- long type; // Symbol type
- long value; // Symbol value
struct HREC * hptr; // Hash record pointer
- char symbol[SYMLEN];
if (vflag > 1)
printf("Add symbols for file %s\n", Ofile->o_name);
- ptr = Ofile->o_image + 32 // Get base pointer, start of sym fixups
+ // Get base pointer, start of sym fixups
+ char * ptr = Ofile->o_image + 32
+ Ofile->o_header.tsize
+ Ofile->o_header.dsize
+ Ofile->o_header.absrel.reloc.tsize
+ Ofile->o_header.absrel.reloc.dsize;
- sfix = ptr; // Set symbol fixup pointer
- sstr = sfix + Ofile->o_header.ssize; // Set symbol table pointer
- nsymbols = Ofile->o_header.ssize / 12; // Obtain number of symbols
+ char * sfix = ptr; // Set symbol fixup pointer
+ char * sstr = sfix + Ofile->o_header.ssize; // Set symbol table pointer
+ long nsymbols = Ofile->o_header.ssize / 12; // Obtain number of symbols
while (nsymbols)
{
- index = getlong(sfix); // Get symbol string index
- type = getlong(sfix + 4); // Get symbol type
- value = getlong(sfix + 8); // Get symbol value
- memset(symbol, 0, SYMLEN);
- strcpy(symbol, sstr + index);
+ long index = getlong(sfix); // Get symbol string index
+ long type = getlong(sfix + 4); // Get symbol type
+ long value = getlong(sfix + 8); // Get symbol value
- // If this is a global/external
- if (type & T_EXT)
+ if ((Ofile->isArchiveFile) && !(Ofile->o_flags & O_USED))
{
- if ((type - T_EXT))
+ if ((type & T_EXT) && (type & (T_SEG | T_ABS)))
+ if (AddARSymbol(sstr + index, Ofile))
+ return 1;
+ }
+ else if (type == T_EXT)
+ {
+ // External symbol that is *not* in the current unit
+ hptr = LookupHREC(sstr + index);
+
+ if (hptr != NULL)
+ hptr->h_ofile->o_flags |= O_USED; // Mark .o file as used
+ // Otherwise add to unresolved list
+ else if (AddUnresolvedSymbol(sstr + index, Ofile))
+ return 1; // Error if addition failed
+ }
+ else if ((type & T_EXT) && (type & (T_SEG | T_ABS)))
+ {
+#if 0
+ // Symbol in the current unit that is also EXPORTED
+ if (DealWithSymbol(sstr + index, type, value, Ofile))
+ return 1; // Error if addition failed
+#else
+ hptr = LookupHREC(sstr + index);
+
+ // Symbol isn't in the table, so try to add it:
+ if (hptr == NULL)
{
- // Then add to hash table
- if (hash_add(symbol, type, value, Ofile))
- {
- return 1; // Error if addition failed
- }
+ if (AddSymbolToHashList(&htable[GetHash(sstr + index)],
+ sstr + index, Ofile, value, type))
+ return 1;
}
else
{
- // If value is zero and in hash table
- if ((hptr = lookup(symbol)) != NULL)
+ // Symbol already exists, decide what to do about it
+ if (iscommon(hptr->h_type))
{
- hptr->h_ofile->o_flags |= O_USED; // Mark symbol as used
+ // Mismatch: common came first; warn and keep the global
+ if (wflag)
+ {
+ printf("Warning: %s: global from ", sstr + index);
+ put_name(Ofile);
+ printf(" used, common from ");
+ put_name(hptr->h_ofile);
+ printf(" discarded.\n");
+ }
+
+ hptr->h_ofile = Ofile;
+ hptr->h_type = type;
+ hptr->h_value = value;
}
- // Otherwise add to unresolved list
- else if (add_unresolved(symbol, Ofile))
+ else
{
- return 1; // Error if addition failed
+ // Global exported by another ofile; warn and make this one
+ // extern
+ if (wflag)
+ {
+ printf("Duplicate symbol %s: ", sstr + index);
+ put_name(hptr->h_ofile);
+ printf(" used, ");
+ put_name(Ofile);
+ printf(" discarded\n");
+ }
+
+ // Set the global in this unit to pure external
+ // (is this a good idea? what if the other one is a ref to
+ // this one???)
+ putlong(sfix + 4, T_EXT);
}
}
+#endif
}
- sfix += 12; // Increment symbol fixup pointer
- nsymbols--; // Decrement num of symbols to process
+ sfix += 12; // Increment symbol fixup pointer
+ nsymbols--; // Decrement num of symbols to process
}
// Success loading symbols
//
// Process object file for symbols
//
-int doobj(char * fname, char * ptr, char * aname, int flags)
+int DoItem(struct OFILE * obj)
{
- struct OFILE * Ofile; // Object record pointer
- char * temp; // Temporary data pointer
-
// Allocate memory for object record ptr
- if ((Ofile = new_ofile()) == NULL)
+ struct OFILE * Ofile = new_ofile();
+
+ if (Ofile == NULL)
{
- printf("Out of memory processing %s\n",fname);
+ printf("Out of memory while processing %s\n", obj->o_name);
return 1;
}
// Starting after all pathnames, etc., copy .o file name to Ofile
- temp = path_tail(fname);
+ char * temp = path_tail(obj->o_name);
// Check filename length
if (strlen(temp) > FNLEN - 1)
}
// Check archive name length
- if (strlen(aname) > FNLEN - 1)
+ if (strlen(obj->o_arname) > FNLEN - 1)
{
- printf("Archive name too long: %s\n", aname);
+ printf("Archive name too long: %s\n", obj->o_arname);
return 1;
}
strcpy(Ofile->o_name, temp); // Store filename
- strcpy(Ofile->o_arname, aname); // Store archive name
+ strcpy(Ofile->o_arname, obj->o_arname); // Store archive name
- Ofile->o_next = NULL; // Initialise object record information
+ // Initialise object record information
+ Ofile->o_next = NULL;
Ofile->o_tbase = 0;
Ofile->o_dbase = 0;
Ofile->o_bbase = 0;
- Ofile->o_flags = flags;
- Ofile->o_image = ptr;
- Ofile->isArchiveFile = 0;
+ Ofile->o_flags = obj->o_flags;
+ Ofile->o_image = obj->o_image;
+ Ofile->isArchiveFile = obj->isArchiveFile;
+ char * ptr = obj->o_image;
// Don't do anything if this is just an ARCHIVE marker, just add the file
// to the olist
- if (!(flags & O_ARCHIVE))
+ // (Shamus: N.B.: it does no such ARCHIVE thing ATM)
+ if (!(obj->o_flags & O_ARCHIVE))
{
Ofile->o_header.magic = getlong(ptr);
- Ofile->o_header.tsize = getlong(ptr+4);
- Ofile->o_header.dsize = getlong(ptr+8);
- Ofile->o_header.bsize = getlong(ptr+12);
- Ofile->o_header.ssize = getlong(ptr+16);
- Ofile->o_header.absrel.reloc.tsize = getlong(ptr+24);
- Ofile->o_header.absrel.reloc.dsize = getlong(ptr+28);
+ Ofile->o_header.tsize = getlong(ptr + 4);
+ Ofile->o_header.dsize = getlong(ptr + 8);
+ Ofile->o_header.bsize = getlong(ptr + 12);
+ Ofile->o_header.ssize = getlong(ptr + 16);
+ Ofile->o_header.absrel.reloc.tsize = getlong(ptr + 24);
+ Ofile->o_header.absrel.reloc.dsize = getlong(ptr + 28);
// Round BSS off to alignment boundary
Ofile->o_header.bsize = (Ofile->o_header.bsize + secalign) & ~secalign;
return 1;
}
- if (add_symbols(Ofile))
+ if (AddSymbols(Ofile))
return 1;
}
//
-// Remove elements from unresolved list which are resolvable
+// Handle items in processing list.
//
-int dolist(void)
+// After loading all objects, archives & include files, we now go and process
+// each item on the processing list (plist). Once this is done, we go through
+// any unresolved symbols left and see if they have shown up.
+//
+int ProcessLists(void)
{
- struct HREC * uptr; // Unresolved hash record pointer
- struct HREC * prev = NULL; // Previous hash record pointer
- struct HREC * htemp; // Temporary hash record pointer
- struct OFILE * ptemp; // Temporary object file record pointer
-
- // Process object file list
+ // Process object file list first (adds symbols from each unit & creates
+ // the olist)
while (plist != NULL)
{
- if (doobj(plist->o_name, plist->o_image, plist->o_arname, plist->o_flags))
+ if (DoItem(plist))
return 1;
- ptemp = plist;
+ struct OFILE * ptemp = plist;
plist = plist->o_next;
free(ptemp);
}
- // Process unresolved list
+ struct HREC * uptr;
+
+ // Process the unresolved symbols list. This may involve pulling in symbols
+ // from any included .a units. Such units are lazy linked by default; we
+ // generally don't want everything they provide, just what's referenced.
for(uptr=unresolved; uptr!=NULL; )
{
if (vflag > 1)
- printf("lookup(%s) => ", uptr->h_sym);
+ printf("LookupHREC(%s) => ", uptr->h_sym);
+
+ struct HREC * htemp = LookupHREC(uptr->h_sym);
- if ((htemp = lookup(uptr->h_sym)) != NULL)
+ if (htemp != NULL)
{
+ // Found it in the symbol table!
if (vflag > 1)
printf("%s in %s (=$%06X)\n", (isglobal(htemp->h_type) ? "global" : "common"), htemp->h_ofile->o_name, htemp->h_value);
+ // Mark the .o unit that the symbol is in as seen & remove from the
+ // unresolved list
htemp->h_ofile->o_flags |= O_USED;
+ uptr = RemoveUnresolvedSymbol(uptr);
+ }
+ else
+ {
+ if (vflag > 1)
+ printf("NULL\n");
- if (prev == NULL)
- {
- unresolved = uptr->h_next;
- free(uptr);
- uptr = unresolved;
- }
+ // Check to see if the unresolved symbol is on the AR symbol list.
+ htemp = LookupARHREC(uptr->h_sym);
+
+ // If the unresolved symbol is in a .o unit that is unused, we can
+ // drop it; same if the unresolved symbol is in the exported AR
+ // symbol list. Otherwise, go to the next unresolved symbol.
+ if (!(uptr->h_ofile->o_flags & O_USED) || (htemp != NULL))
+ uptr = RemoveUnresolvedSymbol(uptr);
else
+ uptr = uptr->h_next;
+
+ // Now that we've possibly deleted the symbol from unresolved list
+ // that was also in the AR list, we add the symbols from this .o
+ // unit to the symbol table, mark the .o unit as used, and restart
+ // scanning the unresolved list as there is a good possibility that
+ // the symbols in the unit we're adding has unresolved symbols as
+ // well.
+ if (htemp != NULL)
{
- prev->h_next = uptr->h_next;
- free(uptr);
- uptr = prev->h_next;
+ htemp->h_ofile->o_flags |= O_USED;
+ AddSymbols(htemp->h_ofile);
+ uptr = unresolved;
}
}
- else
+ }
+
+ // Show files used if the user requests it.
+ if (vflag > 1)
+ {
+ printf("Files used:\n");
+ struct OFILE * filePtr = olist;
+
+ while (filePtr != NULL)
{
- if (vflag > 1)
- printf("NULL\n");
+ if (filePtr->o_flags & O_USED)
+ {
+ printf(" %s%s%s\n", filePtr->o_name, (filePtr->isArchiveFile ? ":" : ""), (filePtr->isArchiveFile ? filePtr->o_arname : nullStr));
+ }
- prev = uptr;
- uptr = uptr->h_next;
+ filePtr = filePtr->o_next;
}
}
//
char * path_tail(char * name)
{
+ // Find last occurance of PATH_DELIMETER
char * temp = strrchr(name, PATH_DELIMITER);
// Return what was passed in if path delimiter was not found
//
// Add input file to processing list
//
-int AddToProcessingList(char * ptr, char * fname, uint8_t arFile)
+int AddToProcessingList(char * ptr, char * fname, char * arname, uint8_t arFile)
{
if (plist == NULL)
{
- plist = new_ofile(); // First time object record allocation
- plast = plist; // Update last object record pointer
+ // First time object record allocation
+ plist = new_ofile();
+ plast = plist;
}
else
{
- plast->o_next = new_ofile(); // Next object record allocation
- plast = plast->o_next; // Update last object record pointer
+ // Next object record allocation
+ plast->o_next = new_ofile();
+ plast = plast->o_next;
}
if (plast == NULL)
return 1;
}
- if (strlen(path_tail(fname)) > FNLEN - 1)
+ fname = path_tail(fname);
+ arname = path_tail(arname);
+
+ if (strlen(fname) > FNLEN - 1)
{
// Error on excessive filename length
printf("File name too long: %s (sorry!)\n", fname);
return 1;
}
- strcpy(plast->o_name, path_tail(fname)); // Store filename, not path
- *plast->o_arname = 0; // No archive name for this file
+ if (strlen(arname) > FNLEN - 1)
+ {
+ // Error on excessive filename length
+ printf("AR file name too long: %s (sorry!)\n", arname);
+ return 1;
+ }
+
+ strcpy(plast->o_name, fname); // Store filename sans path
+ strcpy(plast->o_arname, arname); // Store archive name sans path
plast->o_image = ptr; // Store data pointer
- plast->o_flags = O_USED; // File is used
+ plast->o_flags = (arFile ? 0 : O_USED); // File is used if NOT in archive
plast->o_next = NULL; // Initialise next record pointer
- plast->isArchiveFile = arFile; // Shamus: Temp until can sort out
+ plast->isArchiveFile = arFile; // Shamus: Temp until can sort it out
return 0; // Return without errors
}
//
-// Process in Binary Include Files and Add them to the Processing List. This
+// Process in binary include files and add them to the processing list. This
// routine takes in the binary file and creates an 'object' file in memory.
// Sym1/Sym2 point to the start and end of data.
//
// Symbols ...... (strlen(sym1) + 1) + (strlen(sym2) + 1)
// Terminate .... 4 bytes (0x00000000)
//
-int doinclude(char * fname, int handle, char * sym1, char * sym2, int segment)
+int LoadInclude(char * fname, int handle, char * sym1, char * sym2, int segment)
{
long fsize, dsize, size; // File, DATA segment and image sizes
char * ptr, * sptr; // Data pointers
// Use calloc so the header & fixups initialize to zero
// Allocate object image memory
- if ((ptr = calloc(size, 1L)) == NULL)
+ if ((ptr = calloc(size, 1)) == NULL)
{
printf("Out of memory while including %s\n", fname);
close(handle);
putlong(sptr, 0L); // Terminating long for object file
- return AddToProcessingList(ptr, fname, 0);
+ return AddToProcessingList(ptr, fname, nullStr, 0);
}
//
// Takes a file name, gets in its image, puts it on plist. The image may
// already be in memory: If so, the ptr arg is non-null. If so, the file is
-// already closed. Note that the file is already open (from dofile()). RETURNS
+// already closed. Note that the file is already open (from DoFile()). RETURNS
// a pointer to the OFILE structure for this file, so you can diddle its flags
-// (dofile sets O_USED for files on the command line).
+// (DoFile sets O_USED for files on the command line).
//
-int DoObject(char * fname, int fd, char * ptr)
+int LoadObject(char * fname, int fd, char * ptr)
{
if (ptr == NULL)
{
long size = FileSize(fd);
// Allocate memory for file data
- if ((ptr = malloc(size)) == NULL)
+ ptr = malloc(size);
+
+ if (ptr == NULL)
{
printf("Out of memory while processing %s\n", fname);
close(fd);
return 1;
}
- // SCPCD : get the name of the file instead of all pathname
+ // SCPCD: get the name of the file instead of all pathname
strcpy(obj_fname[obj_index], path_tail(fname));
obj_segsize[obj_index][0] = (getlong(ptr + 4) + secalign) & ~secalign;
obj_segsize[obj_index][1] = (getlong(ptr + 8) + secalign) & ~secalign;
}
// Now add this image to the list of pending ofiles (plist)
- // This routine is shared by doinclude after it builds the image
- return AddToProcessingList(ptr, fname, 0);
+ // This routine is shared by LoadInclude after it builds the image
+ return AddToProcessingList(ptr, fname, nullStr, 0);
}
//
// Process an ar archive file (*.a)
//
-int DoArchive(char * fname, int fd)
+int LoadArchive(char * fname, int fd)
{
// Read in the archive file to memory and process
long size = FileSize(fd);
char * ptr = malloc(size);
char * endPtr = ptr + size;
+ char * longFilenames = NULL;
if (ptr == NULL)
{
// Save the pointer for later...
arPtr[arIndex++] = ptr;
- char objName[17];
+ char objName[FNLEN];
char objSize[11];
int i;
//printf("\nProcessing AR file \"%s\"...\n", fname);
for(i=0; i<16; i++)
{
- if ((ptr[i] == '/') || (ptr[i] == ' '))
+// if ((ptr[i] == '/') || (ptr[i] == ' '))
+ if ((ptr[i] == ' ') && (i != 0))
{
objName[i] = 0;
break;
objSize[i] = ptr[48 + i];
}
- // Need to fix this so that the " <number>" files are properly
- // expanded to their filenames (seems to be either "//" or
- // "ARFILENAMES/")
- if ((HasDotOSuffix(objName)) || (strlen(objName) == 0))
+ // Check to see if a long filename was requested
+ if (objName[0] == 0x20)
{
+ uint32_t fnSize = atoi(objName + 1);
+
+ if (longFilenames != NULL)
+ {
+ i = 0;
+ char * currentFilename = longFilenames + fnSize;
+
+ while (*currentFilename != 0x0A)
+ objName[i++] = *currentFilename++;
+
+ objName[i] = 0;
+ }
+ }
+
+ if ((strncmp(objName, "ARFILENAMES/", 12) == 0) || (strncmp(objName, "//", 2) == 0))
+ {
+ longFilenames = ptr + 60;
+ }
+ else if (HasDotOSuffix(objName))
+ {
+
+ // Strip off any trailing forward slash at end of object name
+ int lastChar = strlen(objName) - 1;
+
+ if (objName[lastChar] == '/')
+ objName[lastChar] = 0;
+
//printf("Processing object \"%s\" (size == %i, obj_index == %i)...\n", objName, atoi(objSize), obj_index);
strcpy(obj_fname[obj_index], objName);
obj_segsize[obj_index][0] = (getlong(ptr + 60 + 4) + secalign) & ~secalign;
obj_segsize[obj_index][2] = (getlong(ptr + 60 + 12) + secalign) & ~secalign;
obj_index++;
- if (AddToProcessingList(ptr + 60, objName, 1))
+ if (AddToProcessingList(ptr + 60, objName, fname, 1))
return 1;
}
//
// Process files (*.o, *.a) passed in on the command line
//
-int ProcessObjectFiles(void)
+int ProcessFiles(void)
{
- int i; // Iterator
- char magic[8]; // Magic header number
+ int i;
+ char magic[8]; // Magic header number (4 bytes for *.o, 8 for *.a)
- // Process all handles
+ // Process all file handles
for(i=0; i<(int)hd; i++)
{
// Verbose mode information
if (vflag == 1)
- {
- printf("Read file %s%s\n", name[i], hflag[i] ? " (include)" : "");
- }
+ printf("Read file %s%s\n", name[i], (hflag[i] ? " (include)" : ""));
if (!hflag[i])
{
- // Attempt to read file magic number
- // OBJECT/ARCHIVE FILES
+ // Attempt to read file magic number (OBJECT/ARCHIVE FILES)
if (read(handle[i], magic, 8) != 8)
{
printf("Error reading file %s\n", name[i]);
lseek(handle[i], 0L, 0); // Reset to start of input file
- // Look for RMAC/MAC/GCC ($20107) object files
- if ((getlong(magic) == 0x00000107) || (getlong(magic) == 0x00020107))
+ // Look for RMAC/MAC/GCC (a.out) object files
+ if ((getlong(magic) & 0xFFFF) == 0x0107)
{
// Process input object file
- if (DoObject(name[i], handle[i], 0L))
+ if (LoadObject(name[i], handle[i], 0L))
return 1;
}
// Otherwise, look for an object archive file
else if (strncmp(magic, "!<arch>\x0A", 8) == 0)
{
- if (DoArchive(name[i], handle[i]))
+ if (LoadArchive(name[i], handle[i]))
return 1;
}
else
{
// Close file and error
printf("%s is not a supported object or archive file\n", name[i]);
-#if 0
-printf("Magic number: [ ");
-for(i=0; i<8; i++)
- printf("%02X ", (uint8_t)magic[i]);
-printf("]\n");
-#endif
+ printf("Magic == [%02X][%02X][%02X][%02X]\n", magic[0], magic[1], magic[2], magic[3]);
close(handle[i]);
return 1;
}
// INCLUDE FILES
// If hflag[i] is 1, include this in the data segment; if 2, put it
// in text segment
- if (doinclude(name[i], handle[i], hsym1[i], hsym2[i], hflag[i] - 1))
+ if (LoadInclude(name[i], handle[i], hsym1[i], hsym2[i], hflag[i] - 1))
return 1;
}
}
printf("Error in text-segment address: cannot be contiguous\n");
return 1;
}
- else if ((ttype = 0), getval(argv[i], &tval))
+ else if ((ttype = 0), GetHexValue(argv[i], &tval))
{
printf("Error in text-segment address: %s is not 'r', 'x' or an address.", argv[i]);
return 1;
{
dtype = -2; // DATA follows TEXT
}
- else if ((dtype = 0), getval(argv[i],&dval))
+ else if ((dtype = 0), GetHexValue(argv[i], &dval))
{
printf("Error in data-segment address: %s is not 'r', 'x' or an address.", argv[i]);
return 1;
{
btype = -3; // BSS follows DATA
}
- else if ((btype = 0), getval(argv[i],&bval))
+ else if ((btype = 0), GetHexValue(argv[i], &bval))
{
printf("Error in bss-segment address: %s is not 'r', 'x[td]', or an address.", argv[i]);
return 1;
}
// Place include files in the DATA segment only
- if (dofile(ifile, DSTSEG_D, isym))
+ if (DoFile(ifile, DSTSEG_D, isym))
return 1;
break;
else
{
// Not a switch, then process as a file
- if (dofile(argv[i++], 0, NULL))
+ if (DoFile(argv[i++], 0, NULL))
return 1;
}
}
void rln_exit(void)
{
char tempbuf[128];
+ char * c;
// Display link status if verbose mode
if (vflag)
if (waitflag)
{
printf("\nPress the [RETURN] key to continue. ");
- fgets(tempbuf, 128, stdin);
+ c = fgets(tempbuf, 128, stdin);
}
exit(errflag);
versflag = 1; // We've dumped the version banner
}
- // Process in specified files/objects
- if (ProcessObjectFiles())
+ // Load in specified files/objects and add to processing list
+ if (ProcessFiles())
{
errflag = 1;
rln_exit();
}
- // Remove elements from unresolved list
- if (dolist())
+ // Work in items in processing list & deal with unresolved list
+ if (ProcessLists())
{
errflag = 1;
rln_exit();
}
// Make one output file from input objs
- if ((header = make_ofile()) == NULL)
+ header = make_ofile();
+
+ if (header == NULL)
{
errflag = 1;
rln_exit();