//
// RMAC - Reboot's Macro Assembler for all Atari computers
// OBJECT.C - Writing Object Files
-// Copyright (C) 199x Landon Dyer, 2011-2017 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 "object.h"
#include "6502.h"
#include "direct.h"
+#include "dsp56k.h"
#include "error.h"
#include "mark.h"
#include "riscasm.h"
#include "sect.h"
#include "symbol.h"
+#include "version.h"
//#define DEBUG_ELF
- 6-15 Currently unused
*/
+// Internal function prototypes
+static void WriteLOD(void);
+static void WriteP56(void);
+
//
// Add entry to symbol table (in ALCYON mode)
}
}
-
//
// Construct and deposit flag word
//
uint8_t * buf; // Scratch area
uint8_t * p; // Temporary ptr
LONG trsize, drsize; // Size of relocations
- long unused; // For supressing 'write' warnings
+ uint32_t unused; // For supressing 'write' warnings
if (verb_flag)
{
if (strtable == NULL)
{
+ free(buf);
error("cannot allocate string table memory (in BSD mode)");
return ERROR;
}
// Build object file header
chptr = buf; // Base of header (for D_foo macros)
+ ch_size = 0;
+ challoc = 0x800000;
D_long(0x00000107); // Magic number
D_long(sect[TEXT].sloc); // TEXT size
D_long(sect[DATA].sloc); // DATA size
}
else if (obj_format == ALCYON)
{
- uint32_t symbolmaxsize = 0;
-
if (verb_flag)
{
if (prg_flag)
- {
printf("TOS header : 28 bytes\n");
- printf("Total : %d bytes\n", 28 + sect[TEXT].sloc + sect[DATA].sloc + sect[BSS].sloc);
- }
- else
- {
- printf("Total : %d bytes\n", sect[TEXT].sloc + sect[DATA].sloc + sect[BSS].sloc);
- }
+
+ printf("Total : %d bytes\n", sect[TEXT].sloc + sect[DATA].sloc + sect[BSS].sloc + (prg_flag ? 28 : 0));
}
- if (prg_flag != 1)
- symbolmaxsize = sy_assign(NULL, NULL) * 28; // Assign index numbers to the symbols
+ // Assign index numbers to the symbols, get # of symbols (we assume
+ // that all symbols can potentially be extended, hence the x28)
+ uint32_t symbolMaxSize = sy_assign(NULL, NULL) * 28;
// Alloc memory for header + text + data, symbol and relocation
// information construction.
- t = tds = sect[TEXT].sloc + sect[DATA].sloc;
-
- if (t < symbolmaxsize)
- t = symbolmaxsize;
-
- // Is there any reason to do this this way???
- buf = malloc(t + HDRSIZE);
- buf += HDRSIZE;
+ tds = sect[TEXT].sloc + sect[DATA].sloc;
+ buf = malloc(HDRSIZE + tds + symbolMaxSize);
// Build object file header just before the text+data image
- chptr = buf - HDRSIZE; // -> base of header
+ chptr = buf; // -> base of header
+ ch_size = 0;
+ challoc = HDRSIZE + tds + symbolMaxSize;
D_word(0x601A); // 00 - magic number
D_long(sect[TEXT].sloc); // 02 - TEXT size
D_long(sect[DATA].sloc); // 06 - DATA size
D_long(sect[BSS].sloc); // 0A - BSS size
- D_long(0); // 0E - symbol table size (will be filled later if non zero)
+ D_long(0); // 0E - symbol table size (filled later)
D_long(0); // 12 - stack size (unused)
D_long(PRGFLAGS); // 16 - PRGFLAGS
D_word(0); // 1A - relocation information exists
// Construct text and data segments; fixup relocatable longs in .PRG
// mode; finally write the header + text + data
- p = buf;
+ p = buf + HDRSIZE;
for(i=TEXT; i<=DATA; i++)
{
// Do a first pass on the Alcyon image, if in PRG mode
if (prg_flag)
- MarkImage(buf, tds, sect[TEXT].sloc, 0);
-
- unused = write(fd, buf - HDRSIZE, tds + HDRSIZE);
+ MarkImage(buf + HDRSIZE, tds, sect[TEXT].sloc, 0);
- // Construct and write symbol table
- if (prg_flag != 1)
+ // Construct symbol table and update the header entry, if necessary
+ if (prg_flag > 1)
{
- sy_assign(buf, AddSymEntry);
- unused = write(fd, buf, symsize);
+ // sy_assign with AddSymEntry updates symsize (stays 0 otherwise)
+ sy_assign(buf + HDRSIZE + tds, AddSymEntry);
+ chptr = buf + 0x0E; // Point to symbol table size entry
+ D_long(symsize);
}
+ // Write out the header + text & data + symbol table (if any)
+ unused = write(fd, buf, HDRSIZE + tds + symsize);
+
// Construct and write relocation information; the size of it changes if
- // we're writing a RELMODed executable.
+ // we're writing a RELMODed executable. N.B.: Destroys buffer!
tds = MarkImage(buf, tds, sect[TEXT].sloc, 1);
unused = write(fd, buf, tds);
-
- // If we generated a symbol table we need to update the placeholder value
- // we wrote above in the header
- lseek(fd, 0xE, 0);
- symsize = BYTESWAP32(symsize);
- unused = write(fd, &symsize, 4);
-
}
else if (obj_format == ELF)
{
// If you want to make any sense out of this you'd better take a look
// at Executable and Linkable Format on Wikipedia.
chptr = buf;
+ ch_size = 0;
+ challoc = 0x600000;
D_long(0x7F454C46); // 00 - "<7F>ELF" Magic Number
D_byte(0x01); // 04 - 32 vs 64 (1 = 32, 2 = 64)
D_byte(0x02); // 05 - Endianness (1 = LE, 2 = BE)
// Just write the object file
m6502obj(fd);
}
+ else if (obj_format == P56 || obj_format == LOD)
+ {
+ // Allocate 6MB object file image memory
+ uint8_t * buf = malloc(0x600000);
+
+ if (buf == NULL)
+ return error("cannot allocate object file memory (in P56/LOD mode)");
+
+// objImage = buf; // Set global object image pointer
+
+ memset(buf, 0, 0x600000); // Clear allocated memory
+
+ // Iterate through DSP ram buffers
+ chptr = buf; // -> base of header
+ ch_size = 0;
+ challoc = 0x600000;
+
+ if (obj_format == LOD)
+ WriteLOD();
+ else
+ WriteP56();
+
+ // Write all the things |o/
+ unused = write(fd, buf, chptr - buf);
+
+ if (buf)
+ free(buf);
+ }
return 0;
}
+
+static void WriteLOD(void)
+{
+ D_printf("_START %s 0000 0000 0000 RMAC %01i.%01i.%01i\n\n", firstfname, MAJOR, MINOR, PATCH);
+
+ for(DSP_ORG * l=&dsp_orgmap[0]; l<dsp_currentorg; l++)
+ {
+ if (l->end != l->start)
+ {
+ switch (l->memtype)
+ {
+ case ORG_P: D_printf("_DATA P %.4X\n", l->orgadr); break;
+ case ORG_X: D_printf("_DATA X %.4X\n", l->orgadr); break;
+ case ORG_Y: D_printf("_DATA Y %.4X\n", l->orgadr); break;
+ case ORG_L: D_printf("_DATA L %.4X\n", l->orgadr); break;
+ default:
+ error("Internal error: unknown DSP56001 org'd section");
+ return;
+ }
+
+ CHUNK * cp = l->chunk;
+ uint8_t * p_chunk = l->start;
+ uint8_t * p_chunk_end = p_chunk;
+ uint32_t j = 0;
+
+ while (p_chunk_end != l->end)
+ {
+ if (l->end < (cp->chptr + cp->ch_size) && l->end > cp->chptr)
+ {
+ // If the end of the section is inside the current chunk, just dump everything and stop
+ p_chunk_end = l->end;
+ }
+ else
+ {
+ // If the end of the section is not inside the current chunk, just dump everything from the current chunk and move on to the next
+ p_chunk_end = cp->chptr + cp->ch_size;
+ }
+
+ uint32_t count = (uint32_t)(p_chunk_end - p_chunk);
+
+ for(uint32_t i=0; i<count; i+=3)
+ {
+ if ((j & 7) != 7)
+ {
+ D_printf("%.6X ", (((p_chunk[0] << 8) | p_chunk[1]) << 8) | p_chunk[2]);
+ }
+ else
+ {
+ D_printf("%.6X\n", (((p_chunk[0] << 8) | p_chunk[1]) << 8) | p_chunk[2]);
+ }
+
+ p_chunk += 3;
+ j++;
+ }
+
+ cp = cp->chnext; // Advance chunk
+
+ if (cp != NULL)
+ p_chunk = cp->chptr; // Set dump pointer to start of this chunk
+ }
+
+ if ((j & 7) != 0)
+ D_printf("\n");
+ }
+ }
+
+ // Dump the symbol table into the buf
+ DumpLODSymbols();
+
+ D_printf("\n_END %.4X\n", dsp_orgmap[0].orgadr);
+}
+
+
+static void WriteP56(void)
+{
+ for(DSP_ORG * l=&dsp_orgmap[0]; l<dsp_currentorg; l++)
+ {
+ if (l->end == l->start)
+ continue;
+
+ if ((l->memtype < ORG_P) || (l->memtype > ORG_L))
+ {
+ error("Internal error: unknown DSP56001 org'd section");
+ return;
+ }
+
+ CHUNK * cp = l->chunk;
+ uint8_t * p_chunk = l->start;
+ uint8_t * p_chunk_end = p_chunk;
+
+ // Memory type (P, X, Y or L)
+ D_dsp(l->memtype);
+
+ // Chunk start address (in DSP words)
+ D_dsp(l->orgadr);
+
+ // Chunk length (in DSP words)
+ // We'll fill this field after we write the chunk so we can calculate
+ // how long it is (so if the chunk is split into different CHUNKs we
+ // can deal with this during copy)
+ uint8_t * p_buf_len = chptr;
+ chptr += 3;
+
+ // The chunk itself
+ uint32_t chunk_size = 0;
+
+ while (p_chunk_end != l->end)
+ {
+ if (l->end < (cp->chptr + cp->ch_size) && l->end > cp->chptr)
+ {
+ // If the end of the section is inside the current chunk, just
+ // dump everything and stop
+ p_chunk_end = l->end;
+ }
+ else
+ {
+ // If the end of the section is not inside the current chunk,
+ // just dump everything from the current chunk and move on to
+ // the next
+ p_chunk_end = cp->chptr + cp->ch_size;
+ }
+
+ uint32_t current_chunk_size = p_chunk_end - p_chunk;
+ chunk_size += current_chunk_size;
+ memcpy(chptr, p_chunk, current_chunk_size);
+ chptr += current_chunk_size;
+
+ cp = cp->chnext; // Advance chunk
+
+ if (cp != NULL)
+ p_chunk = cp->chptr; // Set dump pointer to start of this chunk
+ }
+
+ // Now we can mark the chunk's length (DSP word size is 24-bits, so
+ // the byte count needs to be divided by 3)
+ SETBE24(p_buf_len, chunk_size / 3);
+ }
+}
+