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Amiga Collections: Auge 4000
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Auge 4000 #73 (1993-11-10)(Amiga User Gruppe Einzugsgebiet 4000).zip
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Auge 4000 #73 (1993-11-10)(Amiga User Gruppe Einzugsgebiet 4000).adf
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RSysV1.3
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RSysV1_3.lha
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RSysSrc.lha
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RSysInitData.c
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C/C++ Source or Header
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1993-09-24
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25KB
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1,025 lines
/*
***************************************************************************
*
* Datei:
* RSysInitData.c
*
* Inhalt:
*
* --- Globale Routinen ---
*
* int ChooseNewFile ( char *oldfile , char *header );
* ValidMemoryNode *CheckNode ( ULONG memoryptr );
* void BuildAllDataEntries ( void );
* void BuildHardwareList ( void );
* void BuildHelpList ( void );
* void BuildLibOffsetList ( void );
* void BuildValidAddressList ( void );
* void FreeAmigaGuideContextMemory ( void );
* void FreeHardwareData ( void );
* void FreeLibOffData ( void );
* void FreeValidAddressList ( void );
* void SaveConfig ( void );
*
* --- Lokale Routinen ---
*
* static int AllocLineBuffer ( void );
* static int MarkAddress ( ULONG start , ULONG length , char type , char *comment );
* static int ReadCompanies ( BPTR hfile );
* static int ReadContextFile ( UBYTE *filename );
* static int ReadHardwareData ( BPTR hfile );
* static int ReadLibOff ( BPTR lofile );
* static int SplitFunction ( char *data , FUNCTION *func , LIBRARY *lib );
* static STRPTR CheckHardwareEntry ( STRPTR buffer , int *type );
* static STRPTR CheckLibOffEntry ( STRPTR buffer , int *type );
* static UBYTE *myFGets ( BPTR file , STRPTR buffer , long size );
* static void FreeLineBuffer ( void );
*
* Bemerkungen:
* Enthält die Routinen zur Initialisierung der externen Daten.
*
* Erstellungsdatum:
* 20-Jul-93 Rolf Böhme
*
* Änderungen:
* 20-Jul-93 Rolf Böhme Erstellung
*
***************************************************************************
*/
#include "RSys.h"
/*#include "I.c"*/
static struct Remember *HWKey = NULL;
static struct Remember *LOKey = NULL;
static struct Remember *VMKey = NULL;
static struct Remember *ContextKey = NULL;
char **company_str;
struct Manufacturer *manu;
static char *datatype[]=
{
"END", "MANUFACTURER", "PRODUCT", "TYPE", "NAME", "COMPANY", "UNKNOWN"
};
static char *libofftype[]=
{
"END", "LIBNAME", "TYP", "BASE", "FUNCTION"
};
UBYTE *context[MONITOR + 1];
int hardwarecnt = 0;
struct List Libraries;
struct List ValidMemoryList;
static UBYTE *filebuffer;
#define MAXLINE 256
static int
AllocLineBuffer(void)
{
if(filebuffer = MyAllocVec((MAXLINE+1) * sizeof(UBYTE), MEMF_CLEAR, NO_KILL))
return TRUE;
ErrorHandle("No file buffer for reading", MEMORY_ERR, ALLOC_FAIL, NO_KILL);
return FALSE;
}
static void
FreeLineBuffer(void)
{
MyFreeVec(filebuffer);
return;
}
int
ChooseNewFile(char *oldfile, char *header)
{
char dir[MAXFULLNAME], file[MAXFULLNAME];
/*
char *dir = NULL,
*file = NULL;
*/
int ok = TRUE;
if (!SysWnd) return ok;
/*
if ((dir = MyAllocVec(MAXFULLNAME, MEMF_CLEAR, NO_KILL)) &&
(file = MyAllocVec(MAXFULLNAME, MEMF_CLEAR, NO_KILL)))
{
*/
strncpy(file, (char *)FilePart((STRPTR) oldfile), MAXFULLNAME);
strncpy(dir, oldfile, (int)((ULONG) PathPart((STRPTR) oldfile) - (ULONG) oldfile));
if (GetFile(SysWnd, dir, file, "#?", header, "Load"))
strncpy(oldfile, _fullpath, MAXFULLNAME);
else ok = FALSE;
/*
}
else
{
ok = FALSE;
ErrorHandle(oldfile, MEMORY_ERR, ALLOC_FAIL, NO_KILL);
}
MyFreeVec(file);
MyFreeVec(dir);
*/
return ok;
}
void
FreeHardwareData(void)
{
FreeRemember(HWKEY, TRUE);
return;
}
static UBYTE *
myFGets(BPTR file, STRPTR buffer, long size)
{
UBYTE *retval = (UBYTE *) NULL;
char *nlpos;
retval = FGets(file, buffer, size);
if (retval && (nlpos = strchr((char *)retval, '\n'))) *nlpos = STRINGEND;
while (retval && strchr(";#\f\t\0", (int)(*retval)))
{
retval = FGets(file, buffer, size);
if (retval && (nlpos = strchr((char *)retval, '\n'))) *nlpos = STRINGEND;
}
return retval;
}
static int
ReadCompanies(BPTR hfile)
{
UBYTE *check;
int count,
loop = 0;
check = myFGets(hfile, filebuffer, MAXLINE);
if (check)
{
count = atoi((char *)check);
if (count == 0)
return FALSE;
if (company_str = (char **)ALLOCHW(count * sizeof(char *)))
{
check = myFGets(hfile, filebuffer, MAXLINE);
while ((loop < count) && check)
{
if (*check)
{
company_str[loop] = ALLOCHW(strlen((char *)check) + 1);
if (!company_str[loop]) return FALSE;
strcpy(company_str[loop++], (char *)check);
}
if (loop < count) check = myFGets(hfile, filebuffer, MAXLINE);
}
if ((loop < count) || (check == NULL)) return FALSE;
return TRUE;
}
}
return FALSE;
}
static STRPTR
CheckHardwareEntry(STRPTR buffer, int *type)
{
char *eqpos = NULL;
int i;
*type = END;
if (!strcmp((char *)buffer, datatype[END]))
return (STRPTR) eqpos;
*type = UNKNOWN;
for (i = MANU_NR; i < UNKNOWN; i++)
if (!strncmp((char *)buffer, datatype[i], strlen(datatype[i])))
{
eqpos = strchr((char *)buffer, '\=');
eqpos++;
while (*eqpos == ' ')
eqpos++;
*type = i;
return (STRPTR) eqpos;
}
return (STRPTR) eqpos;
}
static int
ReadHardwareData(BPTR hfile)
{
UBYTE *check,
*data;
int count = 0,
loop = 0;
int type,
err;
check = myFGets(hfile, filebuffer, MAXLINE);
if (check)
{
count = atoi((char *)check);
hardwarecnt = count;
if (count == 0)
return FALSE;
if (manu = ALLOCHW((count + 1) * sizeof(struct Manufacturer)))
{
err = FALSE;
check = myFGets(hfile, filebuffer, MAXLINE);
while (loop < count && check && !err)
{
data = CheckHardwareEntry(check, &type);
switch (type)
{
case MANU_NR:
manu[loop].manu_nr = (WORD) atoi((char *)data);
break;
case PROD_NR:
manu[loop].prod_nr = (WORD) atoi((char *)data);
break;
case TYPE_NR:
manu[loop].type_nr = (WORD) atoi((char *)data);
break;
case COMPANY:
manu[loop].company = atoi((char *)data);
break;
case NAME_STR:
manu[loop].name = ALLOCHW(strlen((char *)data)+1);
if (manu[loop].name)
strcpy(manu[loop].name, (char *)data);
else
{
ErrorHandle((char *)data, MEMORY_ERR, ALLOC_FAIL, NO_KILL);
err = TRUE;
}
break;
case END:
loop++;
break;
default:
ErrorHandle((char *)check, DATA_ENTRY_ERR, TYPE_FAIL, NO_KILL);
break;
}
if (!err) check = myFGets(hfile, filebuffer, MAXLINE);
}
if (err || loop < count) return FALSE;
return TRUE;
}
else
{
ErrorHandle((char *)RSysFiles.Hardware, MEMORY_ERR, ALLOC_FAIL, NO_KILL);
return FALSE;
}
}
return FALSE;
}
void
BuildHardwareList(void)
{
int ok;
BPTR hfile;
DPOS;
if (!ChooseNewFile((char *)RSysFiles.Hardware, "Select new Hardware data file..."))
return;
DPOS;
if (Flags.dummy1) FreeHardwareData();
DPOS;
Flags.dummy1 = 0;
DPOS;
if (!exist((char *)RSysFiles.Hardware)) return;
DPOS;
if(!AllocLineBuffer()) return;
DPOS;
if (hfile = Open(RSysFiles.Hardware, MODE_OLDFILE))
{
PrintInfo("Read hardware datas...", SPEAK, NULL);
DPOS;
ok = ReadCompanies(hfile);
if (ok)
{
DPOS;
ok = ReadHardwareData(hfile);
if (ok) Flags.dummy1 = 1;
else
ErrorHandle((char *)RSysFiles.Hardware, FILE_ERR, READ_FAIL, NO_KILL);
}
else ErrorHandle((char *)RSysFiles.Hardware, FILE_ERR, READ_FAIL, NO_KILL);
DPOS;
Close(hfile);
DPOS;
if (Flags.dummy1) PrintInfo("Hardware Datas updated", SPEAK, SEC);
}
else ErrorHandle((char *)RSysFiles.Hardware, FILE_ERR, OPEN_FAIL, NO_KILL);
DPOS;
FreeLineBuffer();
DPOS;
PrintStatistics();
return;
}
void
FreeLibOffData(void)
{
FreeRemember(LOKEY, TRUE);
return;
}
static STRPTR
CheckLibOffEntry(STRPTR buffer, int *type)
{
char *eqpos = NULL;
int i;
*type = LO_END;
if (!strcmp((char *)buffer, libofftype[LO_END]))
return (STRPTR) eqpos;
*type = LO_UNKNOWN;
for (i = LO_LIBNAME; i <= LO_FUNCTION; i++)
if (!strncmp((char *)buffer, libofftype[i], strlen(libofftype[i])))
{
eqpos = strchr((char *)buffer, '\=');
eqpos++;
while (*eqpos == ' ')
eqpos++;
*type = i;
return (STRPTR) eqpos;
}
return (STRPTR) eqpos;
}
static int
SplitFunction(char *data, FUNCTION * func, LIBRARY * lib)
{
char f[BUFSIZE],
b[5],
*dptr = data;
int fc = 0,
bc = 0,
dc = 0,
public,
ok = TRUE;
while ((fc < BUFSIZE - 1) && (((f[fc++] = *(dptr++))) != ',')) ;
f[fc - 1] = STRINGEND;
while ((bc < 5) && ((b[bc++] = (char)(*(dptr++))) != ',')) ;
b[bc - 1] = STRINGEND;
public = atoi(dptr);
if (!(func->f_name = ALLOCLO(strlen(f) + 1)))
ok = FALSE;
else
{
strcpy(func->f_name, f);
func->f_bias = atoi(b);
func->f_public = (char)((public == 1) ? 1 : 0);
AddTail(&(lib->l_functions), &(func->f_node));
}
return ok;
}
static int
ReadLibOff(BPTR lofile)
{
UBYTE *check,
*data;
int ok = TRUE;
FUNCTION *func = NULL;
LIBRARY *lib = NULL;
int type;
check = myFGets(lofile, filebuffer, MAXLINE);
while (check && ok != FALSE)
{
data = CheckLibOffEntry(check, &type);
switch (type)
{
case LO_END:
AddTail(&Libraries, &(lib->l_node));
break;
case LO_LIBNAME:
lib = ALLOCLO(sizeof(LIBRARY));
if (!lib)
ok = FALSE;
else
{
NewList(&(lib->l_functions));
lib->l_name = ALLOCLO(strlen((char *)data) + 1);
if (!lib->l_name)
ok = FALSE;
else
{
strcpy((char *)lib->l_name, (char *)data);
lib->l_node.ln_Name = (char *)lib->l_name;
}
}
break;
case LO_TYP:
lib->l_typ = (*data == 'L') ? 1 : 0;
break;
case LO_BASE:
lib->l_base = ALLOCLO(strlen((char *)data) + 1);
if (!lib->l_base)
ok = FALSE;
else
strcpy(lib->l_base, (char *)data);
break;
case LO_FUNCTION:
func = ALLOCLO(sizeof(LIBRARY));
if (func)
ok = SplitFunction((char *)data, func, lib);
else
ok = FALSE;
break;
default:
ErrorHandle((char *)check, DATA_ENTRY_ERR, TYPE_FAIL, NO_KILL);
break;
}
if (ok == TRUE) check = myFGets(lofile, filebuffer, MAXLINE);
else
ErrorHandle((char *)RSysFiles.LibOffsets, FILE_ERR, READ_FAIL, NO_KILL);
}
return ok;
}
void
BuildLibOffsetList(void)
{
int ok;
BPTR lofile;
if (!ChooseNewFile((char *)RSysFiles.LibOffsets, "Select new Library offsets file..."))
return;
if (Flags.dummy2) FreeLibOffData();
NewList(&Libraries);
Flags.dummy2 = 0;
if(!exist((char *)RSysFiles.LibOffsets)) return;
if(!AllocLineBuffer()) return;
if (lofile = Open(RSysFiles.LibOffsets, MODE_OLDFILE))
{
PrintInfo("Read library offsets...", SPEAK, NULL);
ok = ReadLibOff(lofile);
if (ok == TRUE)
{
Flags.dummy2 = 1;
PrintInfo("Library offsets updated", SPEAK, SEC);
}
else ErrorHandle((char *)RSysFiles.LibOffsets, FILE_ERR, READ_FAIL, NO_KILL);
Close(lofile);
}
else ErrorHandle((char *)RSysFiles.LibOffsets, FILE_ERR, OPEN_FAIL, NO_KILL);
FreeLineBuffer();
PrintStatistics();
return;
}
void
FreeAmigaGuideContextMemory(void)
{
FreeRemember((struct Remember **) & ContextKey, TRUE);
return;
}
static int
ReadContextFile(UBYTE * filename)
{
BPTR file;
UBYTE *check;
int i = 0,
noerror = TRUE,
retval = TRUE;
if (exist((char *)filename))
{
if (file = Open(filename, MODE_OLDFILE))
{
check = myFGets(file, filebuffer, MAXLINE);
while ((i < MAXENTRY) && check && noerror)
{
if (context[i] = AllocRemember((struct Remember **) & ContextKey,
strlen((char *)check) + 1,
MEMF_CLEAR | MEMF_PUBLIC))
{
strcpy((char *)(context[i++]), (char *)check);
check = myFGets(file, filebuffer, MAXLINE);
}
else noerror = FALSE;
}
Close(file);
if (!noerror)
{
ErrorHandle("AGuide nodes", MEMORY_ERR, ALLOC_FAIL, NO_KILL);
retval = FALSE;
}
if (!check && (i < MAXENTRY))
{
ErrorHandle((char *)filename, DATA_ENTRY_ERR, SIZE_FAIL, NO_KILL);
retval = FALSE;
}
context[MAXENTRY] = (UBYTE *) NULL;
return retval;
}
else ErrorHandle((char *)filename, FILE_ERR, OPEN_FAIL, NO_KILL);
}
return FALSE;
}
void
BuildHelpList(void)
{
if (Flags.helpmode) return;
if (!ChooseNewFile((char *)RSysFiles.Guide, "Select AGuide documentation...") ||
!ChooseNewFile((char *)RSysFiles.GuideContext, "Select new Context nodes file..."))
return;
if (Flags.dummy3) FreeAmigaGuideContextMemory();
Flags.dummy3 = 0;
if(!AllocLineBuffer()) return;
PrintInfo("Read context nodes...", SPEAK, NULL);
if (!exist((char *)RSysFiles.GuideContext) || !ReadContextFile(RSysFiles.GuideContext))
{
if (SysWnd) OffMenu(SysWnd, FULLMENUNUM(0, 1, 0));
Flags.nohelp = 1;
}
else
{
if (SysWnd) OnMenu(SysWnd, FULLMENUNUM(0, 1, 0));
Flags.dummy3 = 1;
PrintInfo("Context nodes updated", SPEAK, SEC);
}
FreeLineBuffer();
PrintStatistics();
return;
}
void
SaveConfig(void)
{
register struct DiskObject *dop;
char **NewToolTypes,
**OldToolTypes;
char *ToolTypes[]=
{
/* 00 */ "DONOTWAIT",
/* 01 */ "CX_HOTKEY=",
/* 02 */ "CX_CRYPT=",
/* 03 */ "CX_FINDFILE=",
/* 04 */ "CX_FORMAT=",
/* 05 */ "CX_HUNKLIST=",
/* 06 */ "CX_CRC=",
/* 07 */ "CX_SAVEWINDOW=",
/* 08 */ "CX_FILEREQUEST=",
/* 09 */ "NOFASTMODE",
/* 10 */ "NOSORT",
/* 11 */ "WORKINGBAR",
/* 12 */ "AUTOFRONT",
/* 13 */ "MOUSEWINDOW",
/* 14 */ "TOPAZFONT",
/* 15 */ "NOSAVEASKING",
/* 16 */ "NOAPPICON",
/* 17 */ "BACKPATTERNCOL=",
/* 18 */ "BACKGROUNDCOL=",
/* 19 */ "BACKPATTERN=",
/* 20 */ "DETAILPEN=",
/* 21 */ "BLOCKPEN=",
/* 22 */ "MENUPEN=",
/* 23 */ "HARDWAREDATA=",
/* 24 */ "LIBOFFDATA=",
/* 25 */ "AGUIDEDOC=",
/* 26 */ "AGUIDECONTEXT=",
/* 27 */ "ACTIONFILE=",
/* 28 */ "OUTWINDOW=",
/* 29 */ "LISTHEIGHT=",
/* 30 */ "TEXTFORMATTER",
/* 31 */ "ICONX=",
/* 32 */ "ICONY=",
/* 33 */ NULL,
};
int i;
struct Remember *ToolTypeKey = NULL;
if (dop = GetProgramIcon())
{
PrintInfo("Write Info file...", SPEAK, NULL);
NewToolTypes = (char **)AllocRemember(&ToolTypeKey, 35 * sizeof(char *), MEMF_CLEAR | MEMF_PUBLIC);
if (NewToolTypes)
{
for (i = 0; i < 33; i++)
{
NewToolTypes[i] = AllocRemember(&ToolTypeKey, 60, MEMF_CLEAR | MEMF_PUBLIC);
if (!NewToolTypes[i])
{
FreeDiskObject(dop);
FreeRemember(&ToolTypeKey, TRUE);
ErrorHandle("AllocRemember()", MEMORY_ERR, ALLOC_FAIL, KILL);
}
}
strcpy(NewToolTypes[0], ToolTypes[0]);
for (i = 1; i < 9; i++)
sprintf(NewToolTypes[i], "%s%s", ToolTypes[i], hotkey[i - 1]);
#define NEXT 9
if (!Flags.fastmode)
strcpy(NewToolTypes[NEXT + 0], ToolTypes[NEXT + 0]);
else
sprintf(NewToolTypes[NEXT + 0], "(%s)", ToolTypes[NEXT + 0]);
if (!Flags.sortmode)
strcpy(NewToolTypes[NEXT + 1], ToolTypes[NEXT + 1]);
else
sprintf(NewToolTypes[NEXT + 1], "(%s)", ToolTypes[NEXT + 1]);
if (Flags.workingbar)
strcpy(NewToolTypes[NEXT + 2], ToolTypes[NEXT + 2]);
else
sprintf(NewToolTypes[NEXT + 2], "(%s)", ToolTypes[NEXT + 2]);
if (Flags.autofront)
strcpy(NewToolTypes[NEXT + 3], ToolTypes[NEXT + 3]);
else
sprintf(NewToolTypes[NEXT + 3], "(%s)", ToolTypes[NEXT + 3]);
if (Flags.mousewindow)
strcpy(NewToolTypes[NEXT + 4], ToolTypes[NEXT + 4]);
else
sprintf(NewToolTypes[NEXT + 4], "(%s)", ToolTypes[NEXT + 4]);
if (Flags.sysfont)
strcpy(NewToolTypes[NEXT + 5], ToolTypes[NEXT + 5]);
else
sprintf(NewToolTypes[NEXT + 5], "(%s)", ToolTypes[NEXT + 5]);
if (!Flags.saveasking)
strcpy(NewToolTypes[NEXT + 6], ToolTypes[NEXT + 6]);
else
sprintf(NewToolTypes[NEXT + 6], "(%s)", ToolTypes[NEXT + 6]);
if (!Flags.appicon)
strcpy(NewToolTypes[NEXT + 7], ToolTypes[NEXT + 7]);
else
sprintf(NewToolTypes[NEXT + 7], "(%s)", ToolTypes[NEXT + 7]);
if (bpc)
sprintf(NewToolTypes[NEXT + 8], "%s%ld", ToolTypes[NEXT + 8], bpc);
else
sprintf(NewToolTypes[NEXT + 8], "(%s)", ToolTypes[NEXT + 8]);
if (bgc)
sprintf(NewToolTypes[NEXT + 9], "%s%ld", ToolTypes[NEXT + 9], bgc);
else
sprintf(NewToolTypes[NEXT + 9], "(%s)", ToolTypes[NEXT + 9]);
if (bpp)
sprintf(NewToolTypes[NEXT + 10], "%s%08lx", ToolTypes[NEXT + 10], bpp);
else
sprintf(NewToolTypes[NEXT + 10], "(%s)", ToolTypes[NEXT + 10]);
if (winddetail)
sprintf(NewToolTypes[NEXT + 11], "%s%ld", ToolTypes[NEXT + 11], winddetail);
else
sprintf(NewToolTypes[NEXT + 11], "(%s)", ToolTypes[NEXT + 11]);
if (windblock)
sprintf(NewToolTypes[NEXT + 12], "%s%ld", ToolTypes[NEXT + 12], windblock);
else
sprintf(NewToolTypes[NEXT + 12], "(%s)", ToolTypes[NEXT + 12]);
if (menudetail)
sprintf(NewToolTypes[NEXT + 13], "%s%ld", ToolTypes[NEXT + 13], menudetail);
else
sprintf(NewToolTypes[NEXT + 13], "(%s)", ToolTypes[NEXT + 13]);
sprintf(NewToolTypes[NEXT + 14], "%s%s", ToolTypes[NEXT + 14], RSysFiles.Hardware);
sprintf(NewToolTypes[NEXT + 15], "%s%s", ToolTypes[NEXT + 15], RSysFiles.LibOffsets);
sprintf(NewToolTypes[NEXT + 16], "%s%s", ToolTypes[NEXT + 16], RSysFiles.Guide);
sprintf(NewToolTypes[NEXT + 17], "%s%s", ToolTypes[NEXT + 17], RSysFiles.GuideContext);
sprintf(NewToolTypes[NEXT + 18], "%s%s", ToolTypes[NEXT + 18], RSysFiles.ActionFile);
sprintf(NewToolTypes[NEXT + 19], "%s%s", ToolTypes[NEXT + 19], autocon);
sprintf(NewToolTypes[NEXT + 20], "%s%ld", ToolTypes[NEXT + 20], newlvh);
if (!Flags.textformat)
strcpy(NewToolTypes[NEXT + 21], ToolTypes[NEXT + 21]);
else
sprintf(NewToolTypes[NEXT + 21], "(%s)", ToolTypes[NEXT + 21]);
if(iconx != NO_ICON_POSITION)
sprintf(NewToolTypes[NEXT + 22], "%s%ld", ToolTypes[NEXT + 22], iconx);
else
sprintf(NewToolTypes[NEXT + 22], "(%s)", ToolTypes[NEXT + 22]);
if(icony != NO_ICON_POSITION)
sprintf(NewToolTypes[NEXT + 23], "%s%ld", ToolTypes[NEXT + 23], icony);
else
sprintf(NewToolTypes[NEXT + 23], "(%s)", ToolTypes[NEXT + 23]);
NewToolTypes[NEXT + 24] = NULL;
OldToolTypes = dop->do_ToolTypes;
dop->do_ToolTypes = NewToolTypes;
if (!PutDiskObject((STRPTR) RSysName, dop))
ErrorHandle(RSysName, FILE_ERR, WRITE_FAIL, NO_KILL);
else
{
dop->do_ToolTypes = OldToolTypes;
FreeRemember(&ToolTypeKey, TRUE);
PrintInfo("Info file written...", SPEAK, SEC);
}
}
else
{
FreeDiskObject(dop);
FreeRemember(&ToolTypeKey, TRUE);
ErrorHandle("AllocRemember()", MEMORY_ERR, ALLOC_FAIL, KILL);
}
FreeDiskObject(dop);
}
PrintStatistics();
return;
}
void
FreeValidAddressList(void)
{
FreeRemember(VMKEY, TRUE);
return;
}
ValidMemoryNode *
CheckNode(ULONG memoryptr)
{
struct Node *node;
ValidMemoryNode *vmnode;
for (node = ValidMemoryList.lh_Head; node->ln_Succ; node = node->ln_Succ)
{
vmnode = (ValidMemoryNode *) node;
if (vmnode->vm_startaddress <= memoryptr && memoryptr <= vmnode->vm_endaddress)
return vmnode;
}
return NULL;
}
static int
MarkAddress(ULONG start, ULONG length, char type, char *comment)
{
ValidMemoryNode *VMNode;
if (VMNode = ALLOCVM(sizeof(ValidMemoryNode)))
{
VMNode->vm_node.ln_Type = NT_USER;
VMNode->vm_node.ln_Pri = 0;
VMNode->vm_startaddress = start;
VMNode->vm_endaddress = start + length;
VMNode->vm_type = type;
strncpy(VMNode->vm_comment, comment, BUFSIZE);
AddTail(&ValidMemoryList, &(VMNode->vm_node));
return TRUE;
}
else ErrorHandle("ValidMemoryNode", MEMORY_ERR, ALLOC_FAIL, NO_KILL);
return FALSE;
}
void
BuildValidAddressList(void)
{
struct MemHeader *mem;
int ok;
NewList(&ValidMemoryList);
/*
* Special case the first page of CHIP RAM
*/
ok = MarkAddress(0, 0x1000, (char)NULL, "First page CHIP-RAM");
/*
* Map in the free memory
*/
Forbid();
mem = (struct MemHeader *) SysBase->MemList.lh_Head;
while (mem->mh_Node.ln_Succ && ok)
{
ok = MarkAddress((ULONG) (mem->mh_Lower),
(ULONG) (mem->mh_Upper) - (ULONG) (mem->mh_Lower),
((MEMF_CHIP & TypeOfMem(mem->mh_Lower)) ?
(char)(VALID) : (char)(CACHEABLE | VALID)),
"Memory list entry");
mem = ok ? (struct MemHeader *) (mem->mh_Node.ln_Succ) : NULL;
}
Permit();
/*
* Map in the autoconfig boards
*/
if (ok && (ExpansionBase = (struct ExpansionBase *)OpenLibrary((STRPTR) "expansion.library", 0)))
{
struct ConfigDev *cd = NULL;
while ((cd = FindConfigDev(cd, (long)(-1L), (long)(-1L))) != NULL && ok)
{
/* Skip memory boards... */
if (!(cd->cd_Rom.er_Type & ERTF_MEMLIST))
ok = MarkAddress((ULONG) (cd->cd_BoardAddr),
cd->cd_BoardSize,
(char)VALID, "Expansion memory");
}
CloseLibrary((struct Library *)ExpansionBase);
}
/*
* Now for the control areas...
*/
if (ok) ok = MarkAddress(0x00BC0000, 0x00040000, (char)VALID, "Control area 1");
if (ok) ok = MarkAddress(0x00D80000, 0x00080000, (char)VALID, "Control area 2");
/*
* and the ROM...
*/
if (ok) ok = MarkAddress(0x00F80000, 0x00080000,
(char)(CACHEABLE | WRITEPROTECT), "ROM-address");
/*
* If the credit card resource, make the addresses valid...
*/
if (ok && OpenResource((STRPTR) "card.resource"))
ok = MarkAddress(0x00600000, 0x00440002, (char)VALID, "Card resource range");
/*
* If CD-based Amiga (CDTV, A570, etc.)
*/
if (ok && FindResident((STRPTR)"cdstrap"))
{
ok = MarkAddress(0x00E00000,0x00080000,(char)VALID, "CDTV-RAM");
if(ok) ok = MarkAddress(0x00B80000,0x00040000,(char)VALID, "CDTV-RAM");
}
/*
* Check for ReKick/ZKick/KickIt
*/
if (ok && ((((ULONG) (SysBase->LibNode.lib_Node.ln_Name)) >> 16) == 0x20))
ok = MarkAddress((ULONG)0x00200000, (ULONG)0x00080000,
(char)(VALID | CACHEABLE | WRITEPROTECT),
"KickMem-range for ZKick");
Flags.dummy4 = (ok ? 1 : 0);
return;
}
void
BuildAllDataEntries(void)
{
BuildActionList();
BuildHelpList();
BuildHardwareList();
BuildLibOffsetList();
return;
}
