//
-// RMAC - Reboot's Macro Assembler for the Atari Jaguar Console System
+// RMAC - Reboot's Macro Assembler for all Atari computers
// MARK.C - A record of things that are defined relative to any of the sections
-// Copyright (C) 199x Landon Dyer, 2011-2012 Reboot and Friends
+// Copyright (C) 199x Landon Dyer, 2011-2019 Reboot and Friends
// RMAC derived from MADMAC v1.07 Written by Landon Dyer, 1986
// Source utilised with the kind permission of Landon Dyer
//
#include "error.h"
#include "object.h"
#include "riscasm.h"
+#include "sect.h"
+#define MARK_ALLOC_INCR 1024 // # bytes to alloc for more mark space
+#define MIN_MARK_MEM (3 * sizeof(uint16_t) + 1 * sizeof(uint32_t) + sizeof(SYM *))
+
MCHUNK * firstmch; // First mark chunk
MCHUNK * curmch; // Current mark chunk
PTR markptr; // Deposit point in current mark chunk
-LONG mcalloc; // #bytes alloc'd to current mark chunk
-LONG mcused; // #bytes used in current mark chunk
+uint32_t mcalloc; // # bytes alloc'd to current mark chunk
+uint32_t mcused; // # bytes used in current mark chunk
uint16_t curfrom; // Current "from" section
-//
-// Imports
-//
-extern int prg_flag; // 1, write ".PRG" relocatable executable
+// Table to convert from TDB to fixup triad
+static uint8_t mark_tr[] = {
+ 0, // (N/A)
+ 2, // TEXT relocatable
+ 1, 0, // DATA relocatable
+ 3 // BSS relocatable
+};
//#define DEBUG_IMAGE_MARKING
firstmch = curmch = NULL;
mcalloc = mcused = 0;
curfrom = 0;
+ sect[TEXT].relocs = sect[DATA].relocs = sect[BSS].relocs = 0;
}
if (curmch)
{
*markptr.wp = MCHEND; // Mark end of block
- curmch->mcused = mcused; // Update #used in mark block
+ curmch->mcused = mcused; // Update # used in mark block
}
}
//
-// Mark a word or longword relocatable
+// Mark a word or longword as relocatable
//
-int rmark(uint16_t from, uint32_t loc, uint16_t to, uint16_t size, SYM * symbol)
+// Record is either 2, 3, or 4 pieces of data long. A mark is of the form:
+// .W <to+flags> section mark is relative to, and flags in upper byte
+// .L <loc> location of mark in "from" section
+// .W [from] new from section (if different from current)
+// .L [symbol] symbol involved in external reference (if any)
+//
+uint32_t MarkRelocatable(uint16_t section, uint32_t loc, uint16_t to, uint16_t flags, SYM * symbol)
{
#ifdef DEBUG_IMAGE_MARKING
-printf("rmark: from=%i, loc=$%X, to=$%X, size=$%x, symbol=$%X\n", from, loc, to, size, symbol);
+printf("MarkRelocatable: section=%i, loc=$%X, to=$%X, flags=$%x, symbol=%p\n", section, loc, to, flags, symbol);
if (symbol)
- printf(" symbol->stype=$%02X, sattr=$%04X, sattre=$%08X, svalue=%i, sname=%s\n", symbol->stype, symbol->sattr, symbol->sattre, symbol->svalue, symbol->sname);
+ printf(" symbol->stype=$%02X, sattr=$%04X, sattre=$%08X, svalue=%li, sname=%s\n", symbol->stype, symbol->sattr, symbol->sattre, symbol->svalue, symbol->sname);
#endif
if ((mcalloc - mcused) < MIN_MARK_MEM)
- amark();
+ AllocateMark();
- uint16_t flags = (size | to);
+ // Set up flags
+ flags |= to;
- if (from != curfrom)
+ if (section != curfrom)
flags |= MCHFROM;
if (symbol != NULL)
flags |= MSYMBOL;
//
- // Complain about some things are not allowed in `-p' mode:
- // o marks that aren't to LONGs;
- // o external references.
+ // Complain about some things are not allowed in '-p' (PRG) mode:
+ // o Marks that aren't to LONGs
+ // o External references
//
if (prg_flag)
{
- if ((flags & MLONG) == 0)
- error("illegal word relocatable (in .PRG mode)");
-
if (symbol != NULL)
- errors("illegal external reference (in .PRG mode) to '%s'",
- symbol->sname);
+ error("illegal external reference (in .PRG mode) to '%s'",
+ symbol->sname);
}
- mcused += sizeof(WORD) + sizeof(LONG);
+ // Dump crap into the mark
*markptr.wp++ = flags;
*markptr.lp++ = loc;
+ mcused += sizeof(uint16_t) + sizeof(uint32_t);
if (flags & MCHFROM)
{
- curfrom = from;
- *markptr.wp++ = from;
- mcused += sizeof(WORD);
+ curfrom = section;
+ *markptr.wp++ = section;
+ mcused += sizeof(uint16_t);
}
if (flags & MSYMBOL)
mcused += sizeof(SYM *);
}
+ // Increment # of relocs in this section
+ sect[section].relocs++;
+
+ // Not sure what this is about (making sure the next mark is clear until
+ // it's marked as the end--I think)...
*markptr.wp = 0x0000;
return 0;
//
// Allocate another chunk of mark space
//
-int amark(void)
+uint32_t AllocateMark(void)
{
-// MCHUNK * p;
-
// Alloc mark block header (and data) and set it up.
-// p = (MCHUNK *)amem((long)(sizeof(MCHUNK)) + MARK_ALLOC_INCR);
- MCHUNK * p = (MCHUNK *)malloc(sizeof(MCHUNK) + MARK_ALLOC_INCR);
+ MCHUNK * p = malloc(sizeof(MCHUNK) + MARK_ALLOC_INCR);
p->mcnext = NULL;
p->mcalloc = MARK_ALLOC_INCR;
- p->mcptr.cp = (char *)(((char *)p) + sizeof(MCHUNK));
+ p->mcptr.cp = (uint8_t *)p + sizeof(MCHUNK);
+ p->mcused = 0;
+
+ if (firstmch == NULL)
+ firstmch = p;
if (curmch)
{
- // Link onto previous chunk
- *markptr.wp++ = MCHEND; // Mark end of block
+ // Link onto previous chunk
+ *markptr.wp++ = MCHEND; // Mark end of block
curmch->mcused = mcused;
curmch->mcnext = p;
}
- if (!firstmch)
- firstmch = p;
-
- curmch = p; // Setup global vars
+ // Setup global vars
+ curmch = p;
markptr = p->mcptr;
mcalloc = MARK_ALLOC_INCR;
mcused = 0;
}
-/*
- * Table to convert from TDB to fixup triad
- *
- */
-static char mark_tr[] = {
- 0, /* (n/a) */
- 2, /* TEXT relocatable */
- 1, 0, /* DATA relocatable */
- 3 /* BSS relocatable */
-};
-
-
-/*
- * Make mark image for Alcyon .o file
- * okflag -- 1, ok to deposit reloc information
- */
-LONG markimg(register char * mp, LONG siz, LONG tsize, int okflag)
+//
+// Make mark image for Alcyon .o file
+// okflag: 1, ok to deposit reloc information
+//
+uint32_t MarkImage(register uint8_t * mp, uint32_t siz, uint32_t tsize, int okflag)
{
- MCHUNK * mch; /* -> mark chunk */
- register PTR p; /* source point from within mark chunk */
- WORD from; /* section fixups are currently FROM */
- register WORD w; /* a word (temp) */
- LONG loc; /* location (temp) */
- LONG lastloc; /* last location fixed up (RELMOD) */
- SYM * symbol; /* -> symbols (temp) */
- char * wp; /* pointer into raw relocation information */
- register char * dp; /* deposit point for RELMOD information */
- int firstp; /* 1, first relocation (RELMOD) */
- LONG diff; /* difference to relocate (RELMOD) */
+ uint16_t from = 0; // Section fixups are currently FROM
+ uint32_t loc; // Location (temp)
+ uint32_t lastloc; // Last location fixed up (RELMOD)
+ uint8_t * wp; // Pointer into raw relocation information
+ register uint8_t * dp; // Deposit point for RELMOD information
if (okflag)
- //clear(mp, siz); /* zero relocation buffer */
- memset(mp, 0, siz); /* zero relocation buffer */
+ memset(mp, 0, siz); // zero relocation buffer
- from = 0;
-
- for(mch=firstmch; mch!=NULL; mch=mch->mcnext)
+ for(MCHUNK * mch=firstmch; mch!=NULL; mch=mch->mcnext)
{
- for(p=mch->mcptr;;)
+ for(PTR p=mch->mcptr;;)
{
- w = *p.wp++; /* w = next mark entry */
+ uint16_t w = *p.wp++;// w = next mark entry
- if (w & MCHEND) /* (end of mark chunk) */
+ if (w & MCHEND) // (end of mark chunk)
break;
- /*
- * Get mark record
- */
- symbol = NULL;
- loc = *p.lp++; /* mark location */
+ // Get mark record
+ SYM * symbol = NULL;
+ loc = *p.lp++; // mark location
- if (w & MCHFROM) /* maybe change "from" section */
+ if (w & MCHFROM) // maybe change "from" section
from = *p.wp++;
- if (w & MSYMBOL) /* maybe includes a symbol */
+ if (w & MSYMBOL) // maybe includes a symbol
symbol = *p.sy++;
- /*
- * Compute mark position in relocation information;
- * in RELMOD mode, get address of data to fix up.
- */
+ // Compute mark position in relocation information; in RELMOD mode,
+ // get address of data to fix up.
if (from == DATA)
loc += tsize;
- wp = (char *)(mp + loc);
+ wp = (uint8_t *)(mp + loc);
- if (okflag && (w & MLONG)) /* indicate first word of long */
+ if (okflag && (w & MLONG)) // indicate first word of long
{
wp[1] = 5;
wp += 2;
if (symbol)
{
- /*
- * Deposit external reference
- */
+ // Deposit external reference
if (okflag)
{
if (w & MPCREL)
- w = 6; /* pc-relative fixup */
+ w = 6; // PC-relative fixup
else
- w = 4; /* absolute fixup */
+ w = 4; // Absolute fixup
w |= symbol->senv << 3;
*wp++ = w >> 8;
- *wp = w;
+ *wp = (uint8_t)w;
}
}
else
{
- /*
- * Deposit section-relative mark;
- * in RELMOD mode, fix it up in the chunk,
- * kind of like a sleazoid linker.
- *
- * In RELMOD mode, marks to words (MWORDs) "cannot happen,"
- * checks are made when mark() is called, so we don't have
- * to check again here.
- */
+ // Deposit section-relative mark; in RELMOD mode, fix it up in
+ // the chunk, kind of like a sleazoid linker.
+ //
+ // In RELMOD mode, marks to words (MWORDs) "cannot happen,"
+ // checks are made when mark() is called, so we don't have to
+ // check again here.
w &= TDB;
if (okflag)
wp[1] = mark_tr[w];
else if (prg_flag && (w & (DATA | BSS)))
{
- dp = wp;
- diff = ((LONG)(*dp++ & 0xff)) << 24;
- diff |= ((LONG)(*dp++ & 0xff)) << 16;
- diff |= ((LONG)(*dp++ & 0xff)) << 8;
- diff |= (LONG)(*dp & 0xff);
-
+ uint32_t diff = GETBE32(wp, 0);
#ifdef DO_DEBUG
DEBUG printf("diff=%lx ==> ", diff);
#endif
if (w == BSS)
diff += sect[DATA].sloc;
- dp = wp;
- *dp++ = (char)(diff >> 24);
- *dp++ = (char)(diff >> 16);
- *dp++ = (char)(diff >> 8);
- *dp = (char)diff;
+ SETBE32(wp, 0, diff)
#ifdef DO_DEBUG
DEBUG printf("%lx\n", diff);
#endif
}
}
- /*
- * Generate ".PRG" relocation information in place in
- * the relocation words (the ``RELMOD'' operation).
- */
+ // Generate ".PRG" relocation information in place in the relocation words
+ // (the "RELMOD" operation).
if (okflag && prg_flag)
{
- firstp = 1;
- wp = mp;
- dp = mp;
+ int firstp = 1;
+ wp = dp = mp;
for(loc=0; loc<siz;)
{
{
if (firstp)
{
- *dp++ = (char)(loc >> 24);
- *dp++ = (char)(loc >> 16);
- *dp++ = (char)(loc >> 8);
- *dp++ = (char)loc;
+ SETBE32(dp, 0, loc);
+ dp += 4;
firstp = 0;
}
else
{
- for(diff=loc-lastloc; diff>254; diff-= 254)
+ uint32_t diff;
+
+ for(diff=loc-lastloc; diff>254; diff-=254)
*dp++ = 1;
- *dp++ = (char)diff;
+ *dp++ = (uint8_t)diff;
}
- wp += 4;
lastloc = loc;
loc += 4;
+ wp += 4;
}
- else
+ else
{
loc += 2;
wp += 2;
}
}
- /*
- * Terminate relocation list with 0L (if there was no
- * relocation) or 0.B (if relocation information was
- * written).
- */
+ // Terminate relocation list with 0L (if there was no relocation) or
+ // 0.B (if relocation information was written).
if (!firstp)
*dp++ = 0;
- else for (firstp = 0; firstp < 4; ++firstp)
- *dp++ = 0;
+ else
+ for(firstp=0; firstp<4; firstp++)
+ *dp++ = 0;
- /*
- * Return size of relocation information
- */
+ // Return size of relocation information
loc = dp - mp;
return loc;
}
//
// Make mark image for BSD .o file
//
-uint32_t bsdmarkimg(char * mp, LONG siz, LONG tsize, int reqseg)
+// Assumptions about mark records (for BSD): if there is a symbol, the mark is
+// for an undefined symbol, otherwise it's just a normal TDB relocation.
+// N.B.: tsize is only used if reqseg is DATA
+//
+uint32_t MarkBSDImage(uint8_t * mp, uint32_t siz, uint32_t tsize, int reqseg)
{
- MCHUNK * mch; // Mark chunk
- PTR p; // Source point from within mark chunk
- uint16_t from; // Section fixups are currently FROM
- uint16_t w; // A word (temp)
- uint32_t loc; // Location (temp)
- SYM * symbol; // Symbols (temp)
- uint8_t * wp; // Pointer into raw relocation info
- uint8_t * dp; // Deposit point for RELMOD info
- uint32_t diff; // Difference to relocate (RELMOD)
- uint32_t raddr, rflag = 0; // BSD relocation address and flags
- uint32_t rsize; // Relocation size
- int validsegment = 0; // Valid segment being processed
+ uint16_t from = 0; // Section fixups are currently FROM
+ uint32_t rsize = 0; // Relocation table size (written to mp)
+ int validsegment = 0; // We are not yet in a valid segment...
#ifdef DEBUG_IMAGE_MARKING
-printf("bsdmarkimg():\n");
+printf("MarkBSDImage():\n");
#endif
- // Initialise relocation size
- rsize = 0;
+ // Initialize relocation table point (for D_foo macros)
chptr = mp;
- from = 0;
- for(mch=firstmch; mch!=NULL; mch=mch->mcnext)
+ // Run through all the relocation mark chunks
+ for(MCHUNK * mch=firstmch; mch!=NULL; mch=mch->mcnext)
{
- for(p=mch->mcptr;;)
+ for(PTR p=mch->mcptr;;)
{
- w = *p.wp++; // Next mark entry
+ SYM * symbol = NULL;
+ uint16_t w = *p.wp++; // Next mark entry
+ // If we hit the end of a chunk, go get the next one
if (w & MCHEND)
- break; // End of mark chunk
+ break;
- // Get mark record
- symbol = NULL;
- loc = *p.lp++; // Mark location
+ // Get the rest of the mark record
+ uint32_t loc = *p.lp++; // Mark location
+ // Maybe change "from" section
if (w & MCHFROM)
{
- // Maybe change "from" section
from = *p.wp++;
- if (obj_format == BSD)
- {
- if (reqseg == TEXT)
- {
- // Requested segment is TEXT
- if (from == TEXT)
- validsegment = 1;
- else
- validsegment = 0;
- }
- else
- {
- // Requested segment is DATA
- if (from == DATA)
- validsegment = 1;
- else
- validsegment = 0;
- }
- }
+ if (((reqseg == TEXT) && (from == TEXT))
+ || ((reqseg == DATA) && (from == DATA)))
+ validsegment = 1;
+ else
+ validsegment = 0;
}
- if (w & MSYMBOL) // Maybe includes a symbol
+ // Maybe includes a symbol
+ if (w & MSYMBOL)
symbol = *p.sy++;
- if (obj_format == BSD)
- {
- raddr = loc; // Set relocation address
+ if (!validsegment)
+ continue;
- if (validsegment)
#ifdef DEBUG_IMAGE_MARKING
-{
-printf(" validsegment: raddr = $%08X\n", raddr);
-#endif
- D_long(raddr); // Write relocation address
-#ifdef DEBUG_IMAGE_MARKING
-}
+printf(" validsegment: raddr = $%08X\n", loc);
#endif
+ uint32_t rflag = 0x00000040; // Absolute relocation
- if (w & MPCREL)
- rflag = 0x000000A0; // PC-relative fixup
- else
- rflag = 0x00000040; // Absolute fixup
-
-// This flag tells the linker to WORD swap the LONG when doing the fixup.
- if (w & MMOVEI)
-//{
-//printf("bsdmarkimg: ORing $01 to rflag (MMOVEI) [symbol=%s]...\n", symbol->sname);
- rflag |= 0x00000001;
-//}
- }
+ if (w & MPCREL)
+ rflag = 0x000000A0; // PC-relative relocation
- // Compute mark position in relocation information;
- // in RELMOD mode, get address of data to fix up.
- if (from == DATA)
- loc += tsize;
+ // This flag tells the linker to WORD swap the LONG when doing the
+ // relocation.
+ if (w & MMOVEI)
+ rflag |= 0x00000001;
- wp = (uint8_t *)(mp + loc);
+ // This tells the linker to do a WORD relocation (otherwise it
+ // defaults to doing a LONG, throwing things off for WORD sized
+ // fixups)
+ if (!(w & (MLONG | MQUAD)))
+ rflag |= 0x00000002;
- if (symbol)
+ // Tell the linker that the fixup is an OL QUAD data address
+ if (w & MQUAD)
+ rflag |= 0x00000004;
+
+ if (symbol != NULL)
{
// Deposit external reference
- if (obj_format == BSD)
- {
- rflag |= 0x00000010; // Set external reloc flag bit
- rflag |= (symbol->senv << 8); // Put symbol index in flags
+ rflag |= 0x00000010; // Set external reloc flag bit
+ rflag |= (symbol->senv << 8); // Put symbol index in flags
-// Looks like this is completely unnecessary (considering it does the wrong thing!)
-#if 0
- if (symbol->sattre & RISCSYM)
-{
-printf("bsdmarkimg: ORing $01 to rflag (RISCSYM) [symbol=%s]...\n", symbol->sname);
- rflag |= 0x00000001;
-}
-#endif
-
- if (validsegment)
- {
#ifdef DEBUG_IMAGE_MARKING
printf(" validsegment(2): rflag = $%08X\n", rflag);
#endif
- D_long(rflag); // Write relocation flags
- rsize += 8; // Increment relocation size
- }
- }
}
else
{
- if (obj_format == BSD)
- {
#ifdef DEBUG_IMAGE_MARKING
printf(" w = $%04X\n", w);
#endif
- w &= TDB; // Set reloc flags to segment
+ w &= TDB; // Set reloc flags to segment
- switch (w)
- {
- case TEXT: rflag |= 0x00000400; break;
- case DATA: rflag |= 0x00000600; break;
- case BSS: rflag |= 0x00000800; break;
- }
+ switch (w)
+ {
+ case TEXT: rflag |= 0x00000400; break;
+ case DATA: rflag |= 0x00000600; break;
+ case BSS: rflag |= 0x00000800; break;
+ }
- if (validsegment)
- {
#ifdef DEBUG_IMAGE_MARKING
printf(" validsegment(3): rflag = $%08X\n", rflag);
#endif
- D_long(rflag); // Write relocation flags
- rsize += 8; // Increment relocation size
- }
+ // Fix relocation by adding in start of TEXT segment, since it's
+ // currently relative to the start of the DATA (or BSS) segment
+ if (w & (DATA | BSS))
+ {
+ uint8_t * dp = objImage + BSDHDRSIZE + loc;
+ uint32_t olBitsSave = 0;
- w &= TDB;
+ // Bump the start of the section if it's DATA (& not TEXT)
+ if (from == DATA)
+ dp += tsize;
- if (validsegment)
+ uint32_t diff = (rflag & 0x02 ? GETBE16(dp, 0) : GETBE32(dp, 0));
+
+ // Special handling for OP (data addr) relocation...
+ if (rflag & 0x04)
{
- if (w & (DATA|BSS))
- {
- dp = objImage + BSDHDRSIZE + loc;
- diff = ((LONG)(*dp++ & 0xFF)) << 24;
- diff |= ((LONG)(*dp++ & 0xFF)) << 16;
- diff |= ((LONG)(*dp++ & 0xFF)) << 8;
- diff |= (LONG)(*dp & 0xFF);
- DEBUG printf("diff=%ux ==> ", diff);
+ olBitsSave = diff & 0x7FF;
+ diff = (diff & 0xFFFFF800) >> 8;
+ }
+
+ DEBUG printf("diff=%uX ==> ", diff);
#ifdef DEBUG_IMAGE_MARKING
-printf(" validsegment(4): diff = $%08X --> ", diff);
+printf(" validsegment(4): diff = $%08X ", diff);
#endif
-
- if (rflag & 0x01)
- diff = ((diff >> 16) & 0x0000FFFF) | ((diff << 16) & 0xFFFF0000);
+ if (rflag & 0x01)
+ diff = WORDSWAP32(diff);
- diff += sect[TEXT].sloc;
+#ifdef DEBUG_IMAGE_MARKING
+printf("(sect[TEXT].sloc=$%X) --> ", sect[TEXT].sloc);
+#endif
+ diff += sect[TEXT].sloc;
- if (w == BSS)
- diff += sect[DATA].sloc;
+ if (w == BSS)
+ diff += sect[DATA].sloc;
+
+ if (rflag & 0x01)
+ diff = WORDSWAP32(diff);
- if (rflag & 0x01)
- diff = ((diff >> 16) & 0x0000FFFF) | ((diff << 16) & 0xFFFF0000);
+ // Make sure to deposit the correct size payload
+ // N.B.: The braces around the SETBExx macros are needed
+ // because the macro supplies its own set of braces,
+ // thus leaving a naked semicolon afterwards to
+ // screw up the if/else structure. This is the price
+ // you pay when using macros pretending to be code.
+ if (rflag & 0x02) // WORD relocation
+ {
+ SETBE16(dp, 0, diff);
+ }
+ else if (rflag & 0x04) // OP data address relocation
+ {
+ // We do it this way because we might have an offset
+ // that is not a multiple of 8 and thus we need this in
+ // place to prevent a bad address at link time. :-P As
+ // a consequence of this, the highest address we can
+ // have here is $1FFFF8.
+ uint32_t diffsave = diff;
+ diff = ((diff & 0x001FFFFF) << 11) | olBitsSave;
+ SETBE32(dp, 0, diff);
+ // But we need those 3 bits, otherwise we can get in
+ // trouble with things like OL data that is in the cart
+ // space, and BOOM! So the 2nd phrase of the fixup (it
+ // will *always* have a 2nd phrase) has a few spare
+ // bits, we chuck them in there.
+ uint32_t p2 = GETBE32(dp, 8);
+ p2 &= 0x1FFFFFFF;
+ p2 |= (diffsave & 0x00E00000) << 8;
+ SETBE32(dp, 8, p2);
+ }
+ else // LONG relocation
+ {
+ SETBE32(dp, 0, diff);
+ }
- dp = objImage + BSDHDRSIZE + loc;
- *dp++ = (char)(diff >> 24);
- *dp++ = (char)(diff >> 16);
- *dp++ = (char)(diff >> 8);
- *dp = (char)diff;
- DEBUG printf("%ux\n", diff);
+ DEBUG printf("%uX\n", diff);
#ifdef DEBUG_IMAGE_MARKING
printf("$%08X\n", diff);
#endif
- }
- }
}
}
+
+ D_long(loc); // Write relocation address
+ D_long(rflag); // Write relocation flags
+ rsize += 0x08; // Increment relocation size
}
}
- // Return relocation size
- if (obj_format == BSD)
+ // Return relocation table's size
#ifdef DEBUG_IMAGE_MARKING
-{
printf(" rsize = $%X\n", rsize);
#endif
- return rsize;
-#ifdef DEBUG_IMAGE_MARKING
+ return rsize;
}
-#endif
- return siz;
+
+//
+// Make relocation record for ELF .o file.
+// Returns the size of the relocation record.
+//
+uint32_t CreateELFRelocationRecord(uint8_t * buf, uint8_t * secBuf, uint16_t section)
+{
+ uint16_t from = 0; // Section fixups are currently FROM
+ uint32_t rsize = 0; // Size of the relocation table
+
+ // Setup pointer for D_long/word/byte macros
+ chptr = buf;
+ ch_size = 0;
+
+ for(MCHUNK * mch=firstmch; mch!=NULL; mch=mch->mcnext)
+ {
+ for(register PTR p=mch->mcptr;;)
+ {
+ register uint16_t w = *p.wp++; // w = next mark entry
+
+ if (w & MCHEND) // (end of mark chunk)
+ break;
+
+ // Get mark record
+ SYM * symbol = NULL;
+ uint16_t symFlags = 0;
+ uint32_t r_offset = *p.lp++; // Mark's location
+
+ if (w & MCHFROM) // Maybe change "from" section
+ from = *p.wp++;
+
+ if (w & MSYMBOL) // Maybe includes a symbol
+ {
+ symbol = *p.sy++;
+
+ if (symbol)
+ symFlags = symbol->sattr;
+ }
+
+ // Create relocation record for ELF object, if the mark is in the
+ // current section.
+ if (from & section)
+ {
+ uint32_t r_sym = 0;
+ uint32_t r_type = 0;
+ uint32_t r_addend = 0;
+
+ // Since we're chucking all symbols here for ELF objects by
+ // default (cf. sect.c), we discriminate here (normally, if
+ // there is a symbol in the mark record, it means an undefined
+ // symbol) :-P
+ if (symbol && !(symFlags & DEFINED) && (symFlags & GLOBAL))
+ r_sym = symbol->senv + extraSyms;
+ else if (w & TEXT)
+ r_sym = elfHdrNum[ES_TEXT]; // Mark TEXT segment
+ else if (w & DATA)
+ r_sym = elfHdrNum[ES_DATA]; // Mark DATA segment
+ else if (w & BSS)
+ r_sym = elfHdrNum[ES_BSS]; // Mark BSS segment
+
+ // Set the relocation type next
+ if (w & MPCREL)
+ r_type = 5; // R_68K_PC16
+ // N.B.: Since we've established that (from & section) is non-
+ // zero, this condition will *never* be satisfied... :-P
+ // It might be better to check the symbol's senv; that is,
+ // if this is a real problem that needs addressing...
+ else if ((from & section) == 0)
+ // In the case of a section referring to a label in another
+ // section (for example text->data) use a R_68K_PC32 mark.
+ r_type = 4; // R_68K_PC32
+ else
+ r_type = 1; // R_68K_32
+
+ r_addend = GETBE32(secBuf + r_offset, 0);
+
+ // Deposit the relocation record
+ D_long(r_offset);
+ D_long(((r_sym << 8) | r_type));
+ D_long(r_addend);
+ rsize += 0x0C;
+ }
+ }
+ }
+
+ return rsize;
}