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cc65/targettest/em-test.c

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#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <conio.h>
#include <em.h>
#define FORCE_ERROR1 0
#define FORCE_ERROR2 0
#define PAGE_SIZE 128 /* Size in words */
#define BUF_SIZE (PAGE_SIZE + PAGE_SIZE/2)
static unsigned buf[BUF_SIZE];
static void cleanup (void)
/* Remove the driver on exit */
{
em_unload ();
}
static void fill (register unsigned* page, register unsigned char count, register unsigned num)
{
register unsigned char i;
for (i = 0; i < count; ++i, ++page) {
*page = num;
}
}
static void cmp (unsigned page, register const unsigned* buf,
register unsigned char count, register unsigned num)
{
register unsigned char i;
for (i = 0; i < count; ++i, ++buf) {
if (*buf != num) {
cprintf ("\r\nData mismatch in page $%04X at $%04X\r\n"
"Data is $%04X (should be $%04X)\r\n",
page, buf, *buf, num);
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#ifdef __ATARI__
cgetc ();
#endif
exit (EXIT_FAILURE);
}
}
}
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static const char* em_error (int e)
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{
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switch (e) {
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case EM_ERR_OK: return "ok";
case EM_ERR_NO_DRIVER: return "no driver";
case EM_ERR_CANNOT_LOAD: return "cannot load";
case EM_ERR_INV_DRIVER: return "invalid driver";
case EM_ERR_NO_DEVICE: return "no device";
case EM_ERR_INSTALLED: return "already installed";
}
return "unknown";
}
typedef struct emd_test_s {
char key;
char *displayname;
char *drivername;
} emd_test_t;
static emd_test_t drivers[] = {
#if defined(__APPLE2__)
{ '0', "Apple II auxiliary memory", "a2.auxmem.emd" },
#endif
#if defined(__APPLE2ENH__)
{ '0', "Apple II auxiliary memory", "a2e.auxmem.emd" },
#endif
#if defined(__ATARI__)
{ '0', "Atari 130XE memory", "atr130.emd" },
#endif
#if defined(__ATARIXL__)
{ '0', "Atari 130XE memory", "atrx130.emd" },
#endif
#if defined(__C16__)
{ '0', "C16 RAM above $8000", "c16-ram.emd" },
#endif
#if defined(__C64__)
{ '0', "C64 RAM above $D000", "c64-ram.emd" },
{ '1', "C64 256K", "c64-c256k.emd" },
{ '2', "Double Quick Brown Box", "c64-dqbb.emd" },
{ '3', "GEORAM", "c64-georam.emd" },
{ '4', "Isepic", "c64-isepic.emd" },
{ '5', "RamCart", "c64-ramcart.emd" },
{ '6', "REU", "c64-reu.emd" },
{ '7', "C128 VDC (in C64 mode)", "c64-vdc.emd" },
{ '8', "C64DTV himem", "dtv-himem.emd" },
{ '9', "65816 extra banks", "c64-65816.emd" },
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{ 'k', "Kerberos", "c64-kerberos.emd" },
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{ 'r', "Retro Replay RAM", "c64-rrr.emd" },
#endif
#if defined(__C128__)
{ '0', "C128 RAM in bank 1", "c128-ram.emd" },
{ '1', "C128 RAM in banks 1, 2 & 3", "c128-ram2.emd" },
{ '2', "GEORAM", "c128-georam.emd" },
{ '3', "RamCart", "c128-ramcart.emd" },
{ '4', "REU", "c128-reu.emd" },
{ '5', "VDC", "c128-vdc.emd" },
{ '6', "Internal Function RAM", "c128-ifnram.emd" },
{ '7', "External Function RAM", "c128-efnram.emd" },
#endif
#if defined(__CBM510__)
{ '0', "CBM5x0 RAM in bank 2", "cbm510-ram.emd" },
#endif
#if defined(__CBM610__)
{ '0', "CBM6x0/7x0 RAM in bank 2", "cbm610-ram.emd" },
#endif
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{ 0, NULL, NULL }
};
int main (void)
{
unsigned char Res;
unsigned I;
unsigned Offs;
unsigned PageCount;
unsigned char X, Y;
struct em_copy c;
unsigned index;
signed char valid_key = -1;
char key;
clrscr ();
cputs ("Which RAM exp to test?\r\n\r\n");
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for (index = 0; drivers[index].key; ++index) {
cprintf("%c: %s\r\n", drivers[index].key, drivers[index].displayname);
}
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while (valid_key < 0) {
key = cgetc();
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for (index = 0; drivers[index].key && valid_key < 0; ++index) {
if (key == drivers[index].key) {
valid_key = index;
}
}
}
clrscr ();
Res = em_load_driver (drivers[valid_key].drivername);
if (Res != EM_ERR_OK) {
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cprintf ("Error in em_load_driver: %u\r\n%s\r\n", Res, em_error(Res));
cprintf ("os: %u, %s\r\n", _oserror, _stroserror (_oserror));
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#ifdef __ATARI__
cgetc ();
#endif
exit (EXIT_FAILURE);
}
atexit (cleanup);
/* Get the number of available pages */
PageCount = em_pagecount ();
cprintf ("Loaded ok, page count = $%04X\r\n", PageCount);
/* TEST #1: em_map/em_use/em_commit */
cputs ("Testing em_map/em_use/em_commit");
/* Fill all pages */
cputs ("\r\n Filling ");
X = wherex ();
Y = wherey ();
for (I = 0; I < PageCount; ++I) {
/* Fill the buffer and copy it to em */
fill (em_use (I), PAGE_SIZE, I);
em_commit ();
/* Keep the user happy */
gotoxy (X, Y);
cputhex16 (I);
}
#if FORCE_ERROR1
((unsigned*) em_map (0x03))[0x73] = 0xFFFF;
em_commit ();
#endif
/* Check all pages */
cputs ("\r\n Comparing ");
X = wherex ();
Y = wherey ();
for (I = 0; I < PageCount; ++I) {
/* Get the buffer and compare it */
cmp (I, em_map (I), PAGE_SIZE, I);
/* Keep the user happy */
gotoxy (X, Y);
cputhex16 (I);
}
/* TEST #2: em_copyfrom/em_copyto. */
cputs ("\r\nTesting em_copyfrom/em_copyto");
/* We're filling now 384 bytes per run to test the copy routines with
** other sizes.
*/
PageCount = (PageCount * 2) / 3;
/* Setup the copy structure */
c.buf = buf;
c.count = sizeof (buf);
/* Fill again all pages */
cputs ("\r\n Filling ");
X = wherex ();
Y = wherey ();
c.page = 0;
c.offs = 0;
for (I = 0; I < PageCount; ++I) {
/* Fill the buffer and copy it to em */
fill (buf, BUF_SIZE, I ^ 0xFFFF);
em_copyto (&c);
/* Adjust the em offset */
Offs = c.offs + sizeof (buf);
c.offs = (unsigned char) Offs;
c.page += (Offs >> 8);
/* Keep the user happy */
gotoxy (X, Y);
cputhex16 (I);
}
#if FORCE_ERROR2
c.page = 0x03;
em_copyfrom (&c);
buf[0x73] = 0xFFFF;
em_copyto (&c);
#endif
/* Check all pages */
cputs ("\r\n Comparing ");
X = wherex ();
Y = wherey ();
c.page = 0;
c.offs = 0;
for (I = 0; I < PageCount; ++I) {
/* Get the buffer and compare it */
em_copyfrom (&c);
cmp (I, buf, BUF_SIZE, I ^ 0xFFFF);
/* Adjust the em offset */
Offs = c.offs + sizeof (buf);
c.offs = (unsigned char) Offs;
c.page += (Offs >> 8);
/* Keep the user happy */
gotoxy (X, Y);
cputhex16 (I);
}
/* Success */
cprintf ("\r\nPassed!\r\n");
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#ifdef __ATARI__
cgetc ();
#endif
return 0;
}