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cvg, fxremap.c: make almost everything static.

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except for the two exported functions.
also replaced 'null' by 'NULL' (why that 'null' define I wonder..)
This commit is contained in:
sezero
2018-08-06 14:00:50 +03:00
parent 1f08466bc6
commit b33d69b0a3
2 changed files with 169 additions and 175 deletions
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172
glide2x/cvg/init/fxremap.c
View File

@@ -9,7 +9,6 @@
#define FX_DLL_DEFINITION
#include <fxdll.h>
#define null 0
#define SIZE_SST1_NEEDED 0x100000
#define END_ADDRESS 0x10000000
#define S3_SHIFT 0x400000
@@ -25,46 +24,49 @@ struct RangeSTRUCT
struct RangeSTRUCT *prev;
};
int silent = 1;
static int silent = 1;
typedef struct RangeSTRUCT RangeStruct;
void InitRemap(void);
void CloseRemap(void);
void GetMemoryMap(void);
void RemapVoodoo(RangeStruct *conflict);
void AdjustMapForS3(void);
RangeStruct *TestForConflicts(void);
void RemoveEntry(RangeStruct *del);
void InsertEntry(RangeStruct *ins);
FxBool FindHole(RangeStruct *conflict);
FxU32 SnapToDecentAddress(FxU32 address,RangeStruct *conflict);
FxBool fits_in_hole(RangeStruct *begin,FxU32 end,RangeStruct *hole,RangeStruct *conflict);
FxBool fits_under(RangeStruct *first,FxU32 minimum,RangeStruct *hole,RangeStruct *conflict);
FxU32 pciGetType(long i);
void pciGetRange(PciRegister reg,FxU32 device_number,FxU32 *data);
FxBool pciGetAddress(PciRegister reg,FxU32 device_number,FxU32 *data);
static void InitRemap(void);
static void CloseRemap(void);
static void GetMemoryMap(void);
static void RemapVoodoo(RangeStruct *conflict);
static void AdjustMapForS3(void);
static RangeStruct *TestForConflicts(void);
static void RemoveEntry(RangeStruct *del);
static void InsertEntry(RangeStruct *ins);
static FxBool FindHole(RangeStruct *conflict);
static FxU32 SnapToDecentAddress(FxU32 address,RangeStruct *conflict);
static FxBool fits_in_hole(RangeStruct *begin,FxU32 end,RangeStruct *hole,RangeStruct *conflict);
static FxBool fits_under(RangeStruct *first,FxU32 minimum,RangeStruct *hole,RangeStruct *conflict);
static FxU32 pciGetType(long i);
static void pciGetRange(PciRegister reg,FxU32 device_number,FxU32 *data);
static FxBool pciGetAddress(PciRegister reg,FxU32 device_number,FxU32 *data);
void ForceCleanUp(void);
FxBool FindNecessaryCards(void);
void ProcessCommandLine(char **argv,int argc);
FxBool IsCardVoodoo(long i);
FxBool IsCardS3(long i);
FxBool ReadHex(char *string,FxU32 *num);
void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3Card);
void HandleMemoryOverlap(void);
FxBool overlap_map(RangeStruct *begin,FxU32 end);
static void ForceCleanUp(void);
static FxBool FindNecessaryCards(void);
static void ProcessCommandLine(char **argv,int argc);
static FxBool IsCardVoodoo(long i);
static FxBool IsCardS3(long i);
static FxBool ReadHex(char *string,FxU32 *num);
static void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3Card);
#if 0 /* not used */
static void HandleMemoryOverlap(void);
static FxBool overlap_map(RangeStruct *begin,FxU32 end);
#endif
FxBool switch_S3_flag_ignore=FXFALSE;
//FxBool switch_force=FXFALSE;
FxBool switch_C0_bias=FXTRUE;
int switch_voodoo_loc = 0;
FxU32 num_voodoos=0;
static FxBool switch_S3_flag_ignore=FXFALSE;
//static FxBool switch_force=FXFALSE;
static FxBool switch_C0_bias=FXTRUE;
static int switch_voodoo_loc = 0;
static FxU32 num_voodoos=0;
//#define TESTING 1
#ifdef TESTING
RangeStruct test_data[6]= {{0xF0000000,0x100000,1,0,0,0,0},
static RangeStruct test_data[6]=
{{0xF0000000,0x100000,1,0,0,0,0},
{0xF3000000,0x200000,4,1,0,0,0},
{0xF3000000,0x200000,8,0,0,0,0},
{0xF5000000,0x200000,2,0,0,0,0},
@@ -72,17 +74,15 @@ RangeStruct test_data[6]= {{0xF0000000,0x100000,1,0,0,0,0},
{0xD3001000,0x200000,3,0,0,0,0}};
#endif
RangeStruct map[80];
RangeStruct hole[80];
long num_holes=0;
RangeStruct *first_entry;
RangeStruct *last_entry;
long entries=0;
RangeStruct master_hole;
long voodoo_loc;
FxU32 conflicts_found=0;
static RangeStruct map[80];
static RangeStruct hole[80];
static RangeStruct *first_entry;
static RangeStruct *last_entry;
static long entries=0;
static RangeStruct master_hole;
static FxU32 conflicts_found=0;
void fxremap_dowork(int argc,char **argv,int doit_silently)
static void fxremap_dowork(int argc,char **argv,int doit_silently)
{
RangeStruct *conflict;
@@ -90,9 +90,7 @@ void fxremap_dowork(int argc,char **argv,int doit_silently)
ProcessCommandLine(argv,argc);
#if !DIRECTX
InitRemap();
#endif
if (!FindNecessaryCards())
{
@@ -109,7 +107,7 @@ void fxremap_dowork(int argc,char **argv,int doit_silently)
/* expand region of mapping for S3 card */
AdjustMapForS3();
/* see if we find any conflicts with any voodoo card */
while (conflict=TestForConflicts())
while ((conflict=TestForConflicts()))
{
conflicts_found++;
/* since it is going to move */
@@ -138,7 +136,7 @@ void fxremap_dowork(int argc,char **argv,int doit_silently)
CloseRemap();
}
void fxremap() {
void fxremap(void) {
fxremap_dowork(0,NULL,1);
}
@@ -147,14 +145,14 @@ void fxremap_main(int argc,char **argv) {
}
void InitRemap(void)
static void InitRemap(void)
{
#if !DIRECTX
pciOpen();
#endif
}
void CloseRemap(void)
static void CloseRemap(void)
{
// pciClose();
}
@@ -172,7 +170,7 @@ FxU32 pciGetConfigData_R(PciRegister reg, FxU32 devNum) {
#define PCI_NORMAL_TYPE 0
#define PCI_BRIDGE_TYPE 1
void GetMemoryMap(void)
static void GetMemoryMap(void)
{
FxU32 temp,temp2;
FxU32 type;
@@ -207,7 +205,6 @@ void GetMemoryMap(void)
}
}
for(fn=0;fn<maxFnNumber;fn++) {
int i = devNum | (fn << 13); /* add function number */
@@ -256,7 +253,7 @@ void GetMemoryMap(void)
#endif
}
void AdjustMapForS3(void)
static void AdjustMapForS3(void)
{
RangeStruct *cur;
@@ -273,7 +270,7 @@ void AdjustMapForS3(void)
}
}
RangeStruct *TestForConflicts(void)
static RangeStruct *TestForConflicts(void)
{
RangeStruct *cur,*next;
@@ -315,10 +312,10 @@ RangeStruct *TestForConflicts(void)
}
cur=cur->next;
}
return null;
return NULL;
}
void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3Card)
static void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3Card)
{
RangeStruct *temp,*cur,*next;
@@ -327,7 +324,6 @@ void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3C
FxU32 tmp_address=0;
//END
#if 0
static long test_entry=0;
@@ -336,7 +332,6 @@ void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3C
#endif
/* only if address != 0 */
//jcochrane@3dfx.com
//check for duplicate entries in the map table,ignore if there is
@@ -348,7 +343,6 @@ void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3C
}
//END
if(address)
{
map[entries].address=address>>4;
@@ -363,13 +357,13 @@ void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3C
{
first_entry=temp;
last_entry=temp;
temp->next=null;
temp->prev=null;
temp->next=NULL;
temp->prev=NULL;
return;
}
cur=first_entry;
next=null;
next=NULL;
while(cur)
{
if (temp->address < cur->address)
@@ -394,12 +388,12 @@ void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3C
last_entry->next=temp;
temp->prev=last_entry;
last_entry=temp;
temp->next=null;
temp->next=NULL;
}
}
}
void RemoveEntry(RangeStruct *del)
static void RemoveEntry(RangeStruct *del)
{
RangeStruct *prev;
@@ -416,15 +410,15 @@ void RemoveEntry(RangeStruct *del)
prev=del->prev;
last_entry=prev;
prev->next=null;
del->prev=null;
del->next=null;
prev->next=NULL;
del->prev=NULL;
del->next=NULL;
}
else
{
if (!(del->prev))
{
del->next->prev=null;
del->next->prev=NULL;
first_entry=del->next;
}
else
@@ -432,19 +426,19 @@ void RemoveEntry(RangeStruct *del)
del->next->prev=del->prev;
del->prev->next=del->next;
}
del->next=null;
del->prev=null;
del->next=NULL;
del->prev=NULL;
}
}
void InsertEntry(RangeStruct *ins)
static void InsertEntry(RangeStruct *ins)
{
RangeStruct *cur;
cur=first_entry;
ins->next=null;
ins->prev=null;
ins->next=NULL;
ins->prev=NULL;
if (!first_entry)
{
@@ -479,7 +473,7 @@ void InsertEntry(RangeStruct *ins)
last_entry=ins;
}
FxU32 SnapToDecentAddress(FxU32 address,RangeStruct *conflict)
static FxU32 SnapToDecentAddress(FxU32 address,RangeStruct *conflict)
{
FxU32 range;
FxU32 mask;
@@ -499,7 +493,7 @@ FxU32 SnapToDecentAddress(FxU32 address,RangeStruct *conflict)
return address;
}
FxBool fits_in_hole(RangeStruct *begin,FxU32 end,RangeStruct *hole,RangeStruct *conflict)
static FxBool fits_in_hole(RangeStruct *begin,FxU32 end,RangeStruct *hole,RangeStruct *conflict)
{
FxU32 address;
@@ -518,7 +512,7 @@ FxBool fits_in_hole(RangeStruct *begin,FxU32 end,RangeStruct *hole,RangeStruct *
return FXFALSE;
}
FxBool fits_under(RangeStruct *first,FxU32 minimum,RangeStruct *hole,RangeStruct *conflict)
static FxBool fits_under(RangeStruct *first,FxU32 minimum,RangeStruct *hole,RangeStruct *conflict)
{
FxU32 address;
@@ -535,7 +529,7 @@ FxBool fits_under(RangeStruct *first,FxU32 minimum,RangeStruct *hole,RangeStruct
}
FxBool FindHole(RangeStruct *conflict)
static FxBool FindHole(RangeStruct *conflict)
{
RangeStruct *cur;
@@ -570,7 +564,7 @@ FxBool FindHole(RangeStruct *conflict)
return FXFALSE;
}
void RemapVoodoo(RangeStruct *conflict)
static void RemapVoodoo(RangeStruct *conflict)
{
FxU32 address;
@@ -586,7 +580,7 @@ void RemapVoodoo(RangeStruct *conflict)
}
}
void pciGetRange(PciRegister reg,FxU32 device_number,FxU32 *data)
static void pciGetRange(PciRegister reg,FxU32 device_number,FxU32 *data)
{
FxU32 temp=0xFFFFFFFF;
FxU32 size,save;
@@ -605,7 +599,7 @@ void pciGetRange(PciRegister reg,FxU32 device_number,FxU32 *data)
*data=size;
}
FxBool pciGetAddress(PciRegister reg,FxU32 device_number,FxU32 *data)
static FxBool pciGetAddress(PciRegister reg,FxU32 device_number,FxU32 *data)
{
pciGetConfigData(reg,device_number,data);
if ((*data)==0)
@@ -615,13 +609,13 @@ FxBool pciGetAddress(PciRegister reg,FxU32 device_number,FxU32 *data)
return FXTRUE;
}
void ForceCleanUp(void)
static void ForceCleanUp(void)
{
// pciClose();
// exit(1);
}
FxBool FindNecessaryCards(void)
static FxBool FindNecessaryCards(void)
{
FxBool voodoo_found=FXFALSE;
long i;
@@ -647,7 +641,7 @@ FxBool FindNecessaryCards(void)
return FXTRUE;
}
void ProcessCommandLine(char **argv,int argc)
static void ProcessCommandLine(char **argv,int argc)
{
long i;
FxU32 temp,temp2;
@@ -756,7 +750,7 @@ void ProcessCommandLine(char **argv,int argc)
}
}
FxU32 pciGetType(long i)
static FxU32 pciGetType(long i)
{
FxU32 header_type;
@@ -765,7 +759,7 @@ FxU32 pciGetType(long i)
return header_type;
}
FxBool IsCardVoodoo(long i)
static FxBool IsCardVoodoo(long i)
{
FxU32 vendor,dev_id;
FxU32 fn_num = (i >> 13) & 0x7;
@@ -796,7 +790,7 @@ FxBool IsCardVoodoo(long i)
return FXFALSE;
}
FxBool IsCardS3(long i)
static FxBool IsCardS3(long i)
{
FxU32 vendor,dev_id;
@@ -808,7 +802,7 @@ FxBool IsCardS3(long i)
return FXFALSE;
}
FxBool ReadHex(char *string,FxU32 *num)
static FxBool ReadHex(char *string,FxU32 *num)
{
long i=0;
FxU32 temp=0,temp2;
@@ -848,7 +842,8 @@ FxBool ReadHex(char *string,FxU32 *num)
return FXTRUE;
}
void HandleMemoryOverlap(void)
#if 0 /* not used */
static void HandleMemoryOverlap(void)
{
RangeStruct *cur;
@@ -864,7 +859,7 @@ void HandleMemoryOverlap(void)
if (cur->next==last_entry)
{
last_entry=cur;
cur->next=null;
cur->next=NULL;
}
else
{
@@ -880,9 +875,10 @@ void HandleMemoryOverlap(void)
}
}
FxBool overlap_map(RangeStruct *begin,FxU32 end)
static FxBool overlap_map(RangeStruct *begin,FxU32 end)
{
if ((begin->address+begin->range)>end)
return FXTRUE;
return FXFALSE;
}
#endif

166
glide3x/cvg/init/fxremap.c
View File

@@ -9,7 +9,6 @@
#define FX_DLL_DEFINITION
#include <fxdll.h>
#define null 0
#define SIZE_SST1_NEEDED 0x100000
#define END_ADDRESS 0x10000000
#define S3_SHIFT 0x400000
@@ -25,46 +24,49 @@ struct RangeSTRUCT
struct RangeSTRUCT *prev;
};
int silent = 1;
static int silent = 1;
typedef struct RangeSTRUCT RangeStruct;
void InitRemap(void);
void CloseRemap(void);
void GetMemoryMap(void);
void RemapVoodoo(RangeStruct *conflict);
void AdjustMapForS3(void);
RangeStruct *TestForConflicts(void);
void RemoveEntry(RangeStruct *del);
void InsertEntry(RangeStruct *ins);
FxBool FindHole(RangeStruct *conflict);
FxU32 SnapToDecentAddress(FxU32 address,RangeStruct *conflict);
FxBool fits_in_hole(RangeStruct *begin,FxU32 end,RangeStruct *hole,RangeStruct *conflict);
FxBool fits_under(RangeStruct *first,FxU32 minimum,RangeStruct *hole,RangeStruct *conflict);
FxU32 pciGetType(int i);
void pciGetRange(PciRegister reg,FxU32 device_number,FxU32 *data);
FxBool pciGetAddress(PciRegister reg,FxU32 device_number,FxU32 *data);
static void InitRemap(void);
static void CloseRemap(void);
static void GetMemoryMap(void);
static void RemapVoodoo(RangeStruct *conflict);
static void AdjustMapForS3(void);
static RangeStruct *TestForConflicts(void);
static void RemoveEntry(RangeStruct *del);
static void InsertEntry(RangeStruct *ins);
static FxBool FindHole(RangeStruct *conflict);
static FxU32 SnapToDecentAddress(FxU32 address,RangeStruct *conflict);
static FxBool fits_in_hole(RangeStruct *begin,FxU32 end,RangeStruct *hole,RangeStruct *conflict);
static FxBool fits_under(RangeStruct *first,FxU32 minimum,RangeStruct *hole,RangeStruct *conflict);
static FxU32 pciGetType(int i);
static void pciGetRange(PciRegister reg,FxU32 device_number,FxU32 *data);
static FxBool pciGetAddress(PciRegister reg,FxU32 device_number,FxU32 *data);
void ForceCleanUp(void);
FxBool FindNecessaryCards(void);
void ProcessCommandLine(char **argv,int argc);
FxBool IsCardVoodoo(int i);
FxBool IsCardS3(int i);
FxBool ReadHex(char *string,FxU32 *num);
void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3Card);
void HandleMemoryOverlap(void);
FxBool overlap_map(RangeStruct *begin,FxU32 end);
static void ForceCleanUp(void);
static FxBool FindNecessaryCards(void);
static void ProcessCommandLine(char **argv,int argc);
static FxBool IsCardVoodoo(int i);
static FxBool IsCardS3(int i);
static FxBool ReadHex(char *string,FxU32 *num);
static void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3Card);
#if 0 /* not used */
static void HandleMemoryOverlap(void);
static FxBool overlap_map(RangeStruct *begin,FxU32 end);
#endif
FxBool switch_S3_flag_ignore=FXFALSE;
//FxBool switch_force=FXFALSE;
FxBool switch_C0_bias=FXTRUE;
int switch_voodoo_loc = 0;
FxU32 num_voodoos=0;
static FxBool switch_S3_flag_ignore=FXFALSE;
//static FxBool switch_force=FXFALSE;
static FxBool switch_C0_bias=FXTRUE;
static int switch_voodoo_loc = 0;
static FxU32 num_voodoos=0;
//#define TESTING 1
#ifdef TESTING
RangeStruct test_data[6]= {{0xF0000000,0x100000,1,0,0,0,0},
static RangeStruct test_data[6]=
{{0xF0000000,0x100000,1,0,0,0,0},
{0xF3000000,0x200000,4,1,0,0,0},
{0xF3000000,0x200000,8,0,0,0,0},
{0xF5000000,0x200000,2,0,0,0,0},
@@ -72,15 +74,15 @@ RangeStruct test_data[6]= {{0xF0000000,0x100000,1,0,0,0,0},
{0xD3001000,0x200000,3,0,0,0,0}};
#endif
RangeStruct map[80];
RangeStruct hole[80];
RangeStruct *first_entry;
RangeStruct *last_entry;
static RangeStruct map[80];
static RangeStruct hole[80];
static RangeStruct *first_entry;
static RangeStruct *last_entry;
static int entries=0;
RangeStruct master_hole;
FxU32 conflicts_found=0;
static RangeStruct master_hole;
static FxU32 conflicts_found=0;
void fxremap_dowork(int argc,char **argv,int doit_silently)
static void fxremap_dowork(int argc,char **argv,int doit_silently)
{
RangeStruct *conflict;
@@ -88,9 +90,7 @@ void fxremap_dowork(int argc,char **argv,int doit_silently)
ProcessCommandLine(argv,argc);
#if !DIRECTX
InitRemap();
#endif
if (!FindNecessaryCards())
{
@@ -136,7 +136,7 @@ void fxremap_dowork(int argc,char **argv,int doit_silently)
CloseRemap();
}
void fxremap() {
void fxremap(void) {
fxremap_dowork(0,NULL,1);
}
@@ -145,14 +145,14 @@ void fxremap_main(int argc,char **argv) {
}
void InitRemap(void)
static void InitRemap(void)
{
#if !DIRECTX
pciOpen();
#endif
}
void CloseRemap(void)
static void CloseRemap(void)
{
// pciClose();
}
@@ -170,7 +170,7 @@ FxU32 pciGetConfigData_R(PciRegister reg, FxU32 devNum) {
#define PCI_NORMAL_TYPE 0
#define PCI_BRIDGE_TYPE 1
void GetMemoryMap(void)
static void GetMemoryMap(void)
{
FxU32 temp,temp2;
FxU32 type;
@@ -205,7 +205,6 @@ void GetMemoryMap(void)
}
}
for(fn=0;fn<maxFnNumber;fn++) {
int i = devNum | (fn << 13); /* add function number */
@@ -254,7 +253,7 @@ void GetMemoryMap(void)
#endif
}
void AdjustMapForS3(void)
static void AdjustMapForS3(void)
{
RangeStruct *cur;
@@ -271,7 +270,7 @@ void AdjustMapForS3(void)
}
}
RangeStruct *TestForConflicts(void)
static RangeStruct *TestForConflicts(void)
{
RangeStruct *cur,*next;
@@ -313,10 +312,10 @@ RangeStruct *TestForConflicts(void)
}
cur=cur->next;
}
return null;
return NULL;
}
void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3Card)
static void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3Card)
{
RangeStruct *temp,*cur,*next;
@@ -325,7 +324,6 @@ void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3C
FxU32 tmp_address=0;
//END
#if 0
static int test_entry=0;
@@ -334,7 +332,6 @@ void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3C
#endif
/* only if address != 0 */
//jcochrane@3dfx.com
//check for duplicate entries in the map table,ignore if there is
@@ -346,7 +343,6 @@ void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3C
}
//END
if(address)
{
map[entries].address=address>>4;
@@ -361,13 +357,13 @@ void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3C
{
first_entry=temp;
last_entry=temp;
temp->next=null;
temp->prev=null;
temp->next=NULL;
temp->prev=NULL;
return;
}
cur=first_entry;
next=null;
next=NULL;
while(cur)
{
if (temp->address < cur->address)
@@ -392,12 +388,12 @@ void AddMapEntry(FxU32 address,FxU32 range,FxU32 id,FxBool VoodooCard,FxBool S3C
last_entry->next=temp;
temp->prev=last_entry;
last_entry=temp;
temp->next=null;
temp->next=NULL;
}
}
}
void RemoveEntry(RangeStruct *del)
static void RemoveEntry(RangeStruct *del)
{
RangeStruct *prev;
@@ -414,15 +410,15 @@ void RemoveEntry(RangeStruct *del)
prev=del->prev;
last_entry=prev;
prev->next=null;
del->prev=null;
del->next=null;
prev->next=NULL;
del->prev=NULL;
del->next=NULL;
}
else
{
if (!(del->prev))
{
del->next->prev=null;
del->next->prev=NULL;
first_entry=del->next;
}
else
@@ -430,19 +426,19 @@ void RemoveEntry(RangeStruct *del)
del->next->prev=del->prev;
del->prev->next=del->next;
}
del->next=null;
del->prev=null;
del->next=NULL;
del->prev=NULL;
}
}
void InsertEntry(RangeStruct *ins)
static void InsertEntry(RangeStruct *ins)
{
RangeStruct *cur;
cur=first_entry;
ins->next=null;
ins->prev=null;
ins->next=NULL;
ins->prev=NULL;
if (!first_entry)
{
@@ -477,7 +473,7 @@ void InsertEntry(RangeStruct *ins)
last_entry=ins;
}
FxU32 SnapToDecentAddress(FxU32 address,RangeStruct *conflict)
static FxU32 SnapToDecentAddress(FxU32 address,RangeStruct *conflict)
{
FxU32 range;
FxU32 mask;
@@ -497,7 +493,7 @@ FxU32 SnapToDecentAddress(FxU32 address,RangeStruct *conflict)
return address;
}
FxBool fits_in_hole(RangeStruct *begin,FxU32 end,RangeStruct *hole,RangeStruct *conflict)
static FxBool fits_in_hole(RangeStruct *begin,FxU32 end,RangeStruct *hole,RangeStruct *conflict)
{
FxU32 address;
@@ -517,7 +513,7 @@ FxBool fits_in_hole(RangeStruct *begin,FxU32 end,RangeStruct *hole,RangeStruct *
return FXFALSE;
}
FxBool fits_under(RangeStruct *first,FxU32 minimum,RangeStruct *hole,RangeStruct *conflict)
static FxBool fits_under(RangeStruct *first,FxU32 minimum,RangeStruct *hole,RangeStruct *conflict)
{
FxU32 address;
@@ -535,7 +531,7 @@ FxBool fits_under(RangeStruct *first,FxU32 minimum,RangeStruct *hole,RangeStruct
}
FxBool FindHole(RangeStruct *conflict)
static FxBool FindHole(RangeStruct *conflict)
{
RangeStruct *cur;
@@ -570,7 +566,7 @@ FxBool FindHole(RangeStruct *conflict)
return FXFALSE;
}
void RemapVoodoo(RangeStruct *conflict)
static void RemapVoodoo(RangeStruct *conflict)
{
FxU32 address;
@@ -586,7 +582,7 @@ void RemapVoodoo(RangeStruct *conflict)
}
}
void pciGetRange(PciRegister reg,FxU32 device_number,FxU32 *data)
static void pciGetRange(PciRegister reg,FxU32 device_number,FxU32 *data)
{
FxU32 temp=0xFFFFFFFF;
FxU32 size,save;
@@ -605,7 +601,7 @@ void pciGetRange(PciRegister reg,FxU32 device_number,FxU32 *data)
*data=size;
}
FxBool pciGetAddress(PciRegister reg,FxU32 device_number,FxU32 *data)
static FxBool pciGetAddress(PciRegister reg,FxU32 device_number,FxU32 *data)
{
pciGetConfigData(reg,device_number,data);
if ((*data)==0)
@@ -615,13 +611,13 @@ FxBool pciGetAddress(PciRegister reg,FxU32 device_number,FxU32 *data)
return FXTRUE;
}
void ForceCleanUp(void)
static void ForceCleanUp(void)
{
// pciClose();
// exit(1);
}
FxBool FindNecessaryCards(void)
static FxBool FindNecessaryCards(void)
{
FxBool voodoo_found=FXFALSE;
int i;
@@ -647,7 +643,7 @@ FxBool FindNecessaryCards(void)
return FXTRUE;
}
void ProcessCommandLine(char **argv,int argc)
static void ProcessCommandLine(char **argv,int argc)
{
int i;
FxU32 temp,temp2;
@@ -756,7 +752,7 @@ void ProcessCommandLine(char **argv,int argc)
}
}
FxU32 pciGetType(int i)
static FxU32 pciGetType(int i)
{
FxU32 header_type;
@@ -765,7 +761,7 @@ FxU32 pciGetType(int i)
return header_type;
}
FxBool IsCardVoodoo(int i)
static FxBool IsCardVoodoo(int i)
{
FxU32 vendor,dev_id;
FxU32 fn_num = (i >> 13) & 0x7;
@@ -796,7 +792,7 @@ FxBool IsCardVoodoo(int i)
return FXFALSE;
}
FxBool IsCardS3(int i)
static FxBool IsCardS3(int i)
{
FxU32 vendor,dev_id;
@@ -808,7 +804,7 @@ FxBool IsCardS3(int i)
return FXFALSE;
}
FxBool ReadHex(char *string,FxU32 *num)
static FxBool ReadHex(char *string,FxU32 *num)
{
int i=0;
FxU32 temp=0,temp2;
@@ -850,7 +846,8 @@ FxBool ReadHex(char *string,FxU32 *num)
return FXTRUE;
}
void HandleMemoryOverlap(void)
#if 0 /* not used */
static void HandleMemoryOverlap(void)
{
RangeStruct *cur;
@@ -866,7 +863,7 @@ void HandleMemoryOverlap(void)
if (cur->next==last_entry)
{
last_entry=cur;
cur->next=null;
cur->next=NULL;
}
else
{
@@ -882,9 +879,10 @@ void HandleMemoryOverlap(void)
}
}
FxBool overlap_map(RangeStruct *begin,FxU32 end)
static FxBool overlap_map(RangeStruct *begin,FxU32 end)
{
if ((begin->address+begin->range)>end)
return FXTRUE;
return FXFALSE;
}
#endif