1
0
mirror of https://github.com/cc65/cc65.git synced 2024-11-19 06:31:31 +00:00
cc65/src/ld65/segments.c

668 lines
17 KiB
C
Raw Normal View History

/*****************************************************************************/
/* */
/* segments.c */
/* */
/* Segment handling for the ld65 linker */
/* */
/* */
/* */
/* (C) 1998-2003 Ullrich von Bassewitz */
/* R<>merstra<72>e 52 */
/* D-70794 Filderstadt */
/* EMail: uz@cc65.org */
/* */
/* */
/* This software is provided 'as-is', without any expressed or implied */
/* warranty. In no event will the authors be held liable for any damages */
/* arising from the use of this software. */
/* */
/* Permission is granted to anyone to use this software for any purpose, */
/* including commercial applications, and to alter it and redistribute it */
/* freely, subject to the following restrictions: */
/* */
/* 1. The origin of this software must not be misrepresented; you must not */
/* claim that you wrote the original software. If you use this software */
/* in a product, an acknowledgment in the product documentation would be */
/* appreciated but is not required. */
/* 2. Altered source versions must be plainly marked as such, and must not */
/* be misrepresented as being the original software. */
/* 3. This notice may not be removed or altered from any source */
/* distribution. */
/* */
/*****************************************************************************/
#include <stdlib.h>
#include <string.h>
/* common */
#include "check.h"
#include "exprdefs.h"
#include "fragdefs.h"
#include "hashstr.h"
#include "print.h"
#include "segdefs.h"
#include "symdefs.h"
#include "xmalloc.h"
/* ld65 */
#include "error.h"
#include "expr.h"
#include "fileio.h"
#include "fragment.h"
#include "global.h"
#include "lineinfo.h"
#include "segments.h"
#include "spool.h"
/*****************************************************************************/
/* Data */
/*****************************************************************************/
/* Hash table */
#define HASHTAB_MASK 0x3FU
#define HASHTAB_SIZE (HASHTAB_MASK + 1)
static Segment* HashTab [HASHTAB_SIZE];
static unsigned SegCount = 0; /* Segment count */
static Segment* SegRoot = 0; /* List of all segments */
/*****************************************************************************/
/* Code */
/*****************************************************************************/
static Segment* NewSegment (unsigned Name, unsigned char AddrSize)
/* Create a new segment and initialize it */
{
unsigned Hash;
/* Allocate memory */
Segment* S = xmalloc (sizeof (Segment));
/* Initialize the fields */
S->Name = Name;
S->Next = 0;
S->SecRoot = 0;
S->SecLast = 0;
S->PC = 0;
S->Size = 0;
S->AlignObj = 0;
S->Align = 0;
S->FillVal = 0;
S->AddrSize = AddrSize;
S->ReadOnly = 0;
S->Relocatable = 0;
S->Dumped = 0;
/* Insert the segment into the segment list */
S->List = SegRoot;
SegRoot = S;
++SegCount;
/* Insert the segment into the segment hash list */
Hash = (S->Name & HASHTAB_MASK);
S->Next = HashTab[Hash];
HashTab[Hash] = S;
/* Return the new entry */
return S;
}
Segment* GetSegment (unsigned Name, unsigned char AddrSize, const char* ObjName)
/* Search for a segment and return an existing one. If the segment does not
* exist, create a new one and return that. ObjName is only used for the error
* message and may be NULL if the segment is linker generated.
*/
{
/* Try to locate the segment in the table */
Segment* S = SegFind (Name);
/* If we don't have that segment already, allocate it using the type of
* the first section.
*/
if (S == 0) {
/* Create a new segment */
S = NewSegment (Name, AddrSize);
} else {
/* Check if the existing segment has the requested address size */
if (S->AddrSize != AddrSize) {
/* Allow an empty object name */
if (ObjName == 0) {
ObjName = "[linker generated]";
}
Error ("Module `%s': Type mismatch for segment `%s'", ObjName,
GetString (Name));
}
}
/* Return the segment */
return S;
}
Section* NewSection (Segment* Seg, unsigned char Align, unsigned char AddrSize)
/* Create a new section for the given segment */
{
unsigned long V;
/* Allocate memory */
Section* S = xmalloc (sizeof (Section));
/* Initialize the data */
S->Next = 0;
S->Seg = Seg;
S->FragRoot = 0;
S->FragLast = 0;
S->Size = 0;
S->Align = Align;
S->AddrSize = AddrSize;
/* Calculate the alignment bytes needed for the section */
V = (0x01UL << S->Align) - 1;
S->Fill = (unsigned char) (((Seg->Size + V) & ~V) - Seg->Size);
/* Adjust the segment size and set the section offset */
Seg->Size += S->Fill;
S->Offs = Seg->Size; /* Current size is offset */
/* Insert the section into the segment */
if (Seg->SecRoot == 0) {
/* First section in this segment */
Seg->SecRoot = S;
} else {
Seg->SecLast->Next = S;
}
Seg->SecLast = S;
/* Return the struct */
return S;
}
Section* ReadSection (FILE* F, ObjData* O)
/* Read a section from a file */
{
unsigned Name;
unsigned Size;
unsigned char Align;
unsigned char Type;
unsigned FragCount;
Segment* S;
Section* Sec;
/* Read the segment data */
(void) Read32 (F); /* File size of data */
Name = MakeGlobalStringId (O, ReadVar (F)); /* Segment name */
Size = Read32 (F); /* Size of data */
Align = Read8 (F); /* Alignment */
Type = Read8 (F); /* Segment type */
FragCount = ReadVar (F); /* Number of fragments */
/* Print some data */
Print (stdout, 2, "Module `%s': Found segment `%s', size = %u, align = %u, type = %u\n",
GetObjFileName (O), GetString (Name), Size, Align, Type);
/* Get the segment for this section */
S = GetSegment (Name, Type, GetObjFileName (O));
/* Allocate the section we will return later */
Sec = NewSection (S, Align, Type);
/* Set up the minimum segment alignment */
if (Sec->Align > S->Align) {
/* Section needs larger alignment, use this one */
S->Align = Sec->Align;
S->AlignObj = O;
}
/* Start reading fragments from the file and insert them into the section . */
while (FragCount--) {
Fragment* Frag;
unsigned LineInfoIndex;
/* Read the fragment type */
unsigned char Type = Read8 (F);
/* Extract the check mask from the type */
unsigned char Bytes = Type & FRAG_BYTEMASK;
Type &= FRAG_TYPEMASK;
/* Handle the different fragment types */
switch (Type) {
case FRAG_LITERAL:
Frag = NewFragment (Type, ReadVar (F), Sec);
ReadData (F, Frag->LitBuf, Frag->Size);
break;
case FRAG_EXPR:
case FRAG_SEXPR:
Frag = NewFragment (Type, Bytes, Sec);
Frag->Expr = ReadExpr (F, O);
break;
case FRAG_FILL:
/* Will allocate memory, but we don't care... */
Frag = NewFragment (Type, ReadVar (F), Sec);
break;
default:
Error ("Unknown fragment type in module `%s', segment `%s': %02X",
GetObjFileName (O), GetString (S->Name), Type);
/* NOTREACHED */
return 0;
}
/* Read the file position of the fragment */
ReadFilePos (F, &Frag->Pos);
/* Read the additional line info and resolve it */
LineInfoIndex = ReadVar (F);
if (LineInfoIndex) {
--LineInfoIndex;
if (LineInfoIndex >= O->LineInfoCount) {
Internal ("In module `%s', file `%s', line %lu: Invalid line "
"info with index %u (max count %u)",
GetObjFileName (O),
GetSourceFileName (O, Frag->Pos.Name),
Frag->Pos.Line, LineInfoIndex, O->LineInfoCount);
}
/* Point from the fragment to the line info... */
Frag->LI = O->LineInfos[LineInfoIndex];
/* ...and back from the line info to the fragment */
CollAppend (&Frag->LI->Fragments, Frag);
}
/* Remember the module we had this fragment from */
Frag->Obj = O;
}
/* Return the section */
return Sec;
}
Segment* SegFind (unsigned Name)
/* Return the given segment or NULL if not found. */
{
Segment* S = HashTab[Name & HASHTAB_MASK];
while (S) {
if (Name == S->Name) {
/* Found */
break;
}
S = S->Next;
}
/* Not found */
return S;
}
int IsBSSType (Segment* S)
/* Check if the given segment is a BSS style segment, that is, it does not
* contain non-zero data.
*/
{
/* Loop over all sections */
Section* Sec = S->SecRoot;
while (Sec) {
/* Loop over all fragments */
Fragment* F = Sec->FragRoot;
while (F) {
if (F->Type == FRAG_LITERAL) {
unsigned char* Data = F->LitBuf;
unsigned long Count = F->Size;
while (Count--) {
if (*Data++ != 0) {
return 0;
}
}
} else if (F->Type == FRAG_EXPR || F->Type == FRAG_SEXPR) {
if (GetExprVal (F->Expr) != 0) {
return 0;
}
}
F = F->Next;
}
Sec = Sec->Next;
}
return 1;
}
void SegDump (void)
/* Dump the segments and it's contents */
{
unsigned I;
unsigned long Count;
unsigned char* Data;
Segment* Seg = SegRoot;
while (Seg) {
Section* S = Seg->SecRoot;
printf ("Segment: %s (%lu)\n", GetString (Seg->Name), Seg->Size);
while (S) {
Fragment* F = S->FragRoot;
printf (" Section:\n");
while (F) {
switch (F->Type) {
case FRAG_LITERAL:
printf (" Literal (%u bytes):", F->Size);
Count = F->Size;
Data = F->LitBuf;
I = 100;
while (Count--) {
if (I > 75) {
printf ("\n ");
I = 3;
}
printf (" %02X", *Data++);
I += 3;
}
printf ("\n");
break;
case FRAG_EXPR:
printf (" Expression (%u bytes):\n", F->Size);
printf (" ");
DumpExpr (F->Expr);
break;
case FRAG_SEXPR:
printf (" Signed expression (%u bytes):\n", F->Size);
printf (" ");
DumpExpr (F->Expr);
break;
case FRAG_FILL:
printf (" Empty space (%u bytes)\n", F->Size);
break;
default:
Internal ("Invalid fragment type: %02X", F->Type);
}
F = F->Next;
}
S = S->Next;
}
Seg = Seg->List;
}
}
unsigned SegWriteConstExpr (FILE* F, ExprNode* E, int Signed, unsigned Size)
/* Write a supposedly constant expression to the target file. Do a range
* check and return one of the SEG_EXPR_xxx codes.
*/
{
static const unsigned long U_HighRange [4] = {
0x000000FF, 0x0000FFFF, 0x00FFFFFF, 0xFFFFFFFF
};
static const long S_HighRange [4] = {
0x0000007F, 0x00007FFF, 0x007FFFFF, 0x7FFFFFFF
};
static const long S_LowRange [4] = {
0xFFFFFF80, 0xFFFF8000, 0xFF800000, 0x80000000
};
/* Get the expression value */
long Val = GetExprVal (E);
/* Check the size */
CHECK (Size >= 1 && Size <= 4);
/* Check for a range error */
if (Signed) {
if (Val > S_HighRange [Size-1] || Val < S_LowRange [Size-1]) {
/* Range error */
return SEG_EXPR_RANGE_ERROR;
}
} else {
if (((unsigned long)Val) > U_HighRange [Size-1]) {
/* Range error */
return SEG_EXPR_RANGE_ERROR;
}
}
/* Write the value to the file */
WriteVal (F, Val, Size);
/* Success */
return SEG_EXPR_OK;
}
void SegWrite (FILE* Tgt, Segment* S, SegWriteFunc F, void* Data)
/* Write the data from the given segment to a file. For expressions, F is
* called (see description of SegWriteFunc above).
*/
{
int Sign;
unsigned long Offs = 0;
/* Loop over all sections in this segment */
Section* Sec = S->SecRoot;
while (Sec) {
Fragment* Frag;
/* If we have fill bytes, write them now */
WriteMult (Tgt, S->FillVal, Sec->Fill);
Offs += Sec->Fill;
/* Loop over all fragments in this section */
Frag = Sec->FragRoot;
while (Frag) {
/* Do fragment alignment checks */
/* Output fragment data */
switch (Frag->Type) {
case FRAG_LITERAL:
WriteData (Tgt, Frag->LitBuf, Frag->Size);
break;
case FRAG_EXPR:
case FRAG_SEXPR:
Sign = (Frag->Type == FRAG_SEXPR);
/* Call the users function and evaluate the result */
switch (F (Frag->Expr, Sign, Frag->Size, Offs, Data)) {
case SEG_EXPR_OK:
break;
case SEG_EXPR_RANGE_ERROR:
Error ("Range error in module `%s', line %lu",
GetSourceFileName (Frag->Obj, Frag->Pos.Name),
Frag->Pos.Line);
break;
case SEG_EXPR_TOO_COMPLEX:
Error ("Expression too complex in module `%s', line %lu",
GetSourceFileName (Frag->Obj, Frag->Pos.Name),
Frag->Pos.Line);
break;
case SEG_EXPR_INVALID:
Error ("Invalid expression in module `%s', line %lu",
GetSourceFileName (Frag->Obj, Frag->Pos.Name),
Frag->Pos.Line);
break;
default:
Internal ("Invalid return code from SegWriteFunc");
}
break;
case FRAG_FILL:
WriteMult (Tgt, S->FillVal, Frag->Size);
break;
default:
Internal ("Invalid fragment type: %02X", Frag->Type);
}
/* Update the offset */
Offs += Frag->Size;
/* Next fragment */
Frag = Frag->Next;
}
/* Next section */
Sec = Sec->Next;
}
}
static int CmpSegStart (const void* K1, const void* K2)
/* Compare function for qsort */
{
/* Get the real segment pointers */
const Segment* S1 = *(const Segment**)K1;
const Segment* S2 = *(const Segment**)K2;
/* Compare the start addresses */
if (S1->PC > S2->PC) {
return 1;
} else if (S1->PC < S2->PC) {
return -1;
} else {
/* Sort segments with equal starts by name */
return strcmp (GetString (S1->Name), GetString (S2->Name));
}
}
void PrintSegmentMap (FILE* F)
/* Print a segment map to the given file */
{
unsigned I;
Segment* S;
Segment** SegPool;
/* Allocate memory for the segment pool */
SegPool = xmalloc (SegCount * sizeof (Segment*));
/* Collect pointers to the segments */
I = 0;
S = SegRoot;
while (S) {
/* Check the count for safety */
CHECK (I < SegCount);
/* Remember the pointer */
SegPool [I] = S;
/* Follow the linked list */
S = S->List;
/* Next array index */
++I;
}
CHECK (I == SegCount);
/* Sort the array by increasing start addresses */
qsort (SegPool, SegCount, sizeof (Segment*), CmpSegStart);
/* Print a header */
fprintf (F, "Name Start End Size\n"
"--------------------------------------------\n");
/* Print the segments */
for (I = 0; I < SegCount; ++I) {
/* Get a pointer to the segment */
S = SegPool [I];
/* Print empty segments only if explicitly requested */
if (VerboseMap || S->Size > 0) {
/* Print the segment data */
long End = S->PC + S->Size;
if (S->Size > 0) {
/* Point to last element addressed */
--End;
}
fprintf (F, "%-20s %06lX %06lX %06lX\n",
GetString (S->Name), S->PC, End, S->Size);
}
}
/* Free the segment pool */
xfree (SegPool);
}
void PrintDbgSegments (FILE* F)
/* Output the segments to the debug file */
{
Segment* S;
/* Walk over all segments */
S = SegRoot;
while (S) {
/* Ignore empty segments */
if (S->Size > 0) {
/* Print the segment data */
fprintf (F, "segment\t\"%s\", 0x%06lX, 0x%04lX, %s, %s\n",
GetString (S->Name), S->PC, S->Size,
AddrSizeToStr (S->AddrSize),
S->ReadOnly? "ro" : "rw");
}
/* Follow the linked list */
S = S->List;
}
}
void CheckSegments (void)
/* Walk through the segment list and check if there are segments that were
* not written to the output file. Output an error if this is the case.
*/
{
Segment* S = SegRoot;
while (S) {
if (S->Size > 0 && S->Dumped == 0) {
Error ("Missing memory area assignment for segment `%s'",
GetString (S->Name));
}
S = S->List;
}
}