static struct {
u32 reg0;
u32 reg1;
- u16 * rl;
- u16 * rl_end;
+ const u16 * rl;
+ const u16 * rl_end;
u8 * block_buffer_pos;
u8 block_buffer[16*16*3];
struct _pending_dma1 pending_dma1;
289301, 401273, 377991, 340183, 289301, 227303, 156569, 79818
};
-static void iqtab_init(int *iqtab, unsigned char *iq_y) {
+static void iqtab_init(int *iqtab, const unsigned char *iq_y) {
int i;
for (i = 0; i < DSIZE2; i++) {
#define MDEC_END_OF_DATA 0xfe00
-static unsigned short *rl2blk(int *blk, unsigned short *mdec_rl) {
+static const unsigned short *rl2blk(int *blk, const unsigned short *mdec_rl) {
int i, k, q_scale, rl, used_col;
int *iqtab;
}
void psxDma0(u32 adr, u32 bcr, u32 chcr) {
- int cmd = mdec.reg0;
+ u32 cmd = mdec.reg0, words_max = 0;
+ const void *mem;
int size;
if (chcr != 0x01000201) {
size = (bcr >> 16) * (bcr & 0xffff);
+ adr &= ~3;
+ mem = getDmaRam(adr, &words_max);
+ if (mem == INVALID_PTR || size > words_max) {
+ log_unhandled("bad dma0 madr %x\n", adr);
+ HW_DMA0_CHCR &= SWAP32(~0x01000000);
+ return;
+ }
+
switch (cmd >> 28) {
case 0x3: // decode 15/24bpp
- mdec.rl = (u16 *) PSXM(adr);
+ mdec.rl = mem;
/* now the mdec is busy till all data are decoded */
mdec.reg1 |= MDEC1_BUSY;
/* detect the end of decoding */
case 0x4: // quantization table upload
{
- u8 *p = (u8 *)PSXM(adr);
+ const u8 *p = mem;
// printf("uploading new quantization table\n");
// printmatrixu8(p);
// printmatrixu8(p + 64);
break;
}
- MDECINDMA_INT(size);
+ set_event(PSXINT_MDECINDMA, size);
}
void mdec0Interrupt()
#define SIZE_OF_16B_BLOCK (16*16*2)
void psxDma1(u32 adr, u32 bcr, u32 chcr) {
+ u32 words, words_max = 0;
int blk[DSIZE2 * 6];
u8 * image;
int size;
- u32 words;
if (chcr != 0x01000200) {
log_unhandled("mdec1: invalid dma %08x\n", chcr);
mdec.pending_dma1.bcr = bcr;
mdec.pending_dma1.chcr = chcr;
/* do not free the dma */
- } else {
+ return;
+ }
- image = (u8 *)PSXM(adr);
+ adr &= ~3;
+ image = getDmaRam(adr, &words_max);
+ if (image == INVALID_PTR || words > words_max) {
+ log_unhandled("bad dma1 madr %x\n", adr);
+ HW_DMA1_CHCR &= SWAP32(~0x01000000);
+ return;
+ }
if (mdec.reg0 & MDEC0_RGB24) {
/* 16 bits decoding
mdec.block_buffer_pos = mdec.block_buffer + size;
}
}
+ if (size < 0)
+ log_unhandled("mdec: bork\n");
- /* define the power of mdec */
- MDECOUTDMA_INT(words * MDEC_BIAS);
- /* some CPU stalling */
- psxRegs.cycle += words;
- }
+ /* define the power of mdec */
+ set_event(PSXINT_MDECOUTDMA, words * MDEC_BIAS);
+ /* some CPU stalling */
+ psxRegs.cycle += words;
}
void mdec1Interrupt() {
*/
/* MDEC_END_OF_DATA avoids read outside memory */
+ //printf("mdec left %zd, v=%04x\n", mdec.rl_end - mdec.rl, *(mdec.rl));
if (mdec.rl >= mdec.rl_end || SWAP16(*(mdec.rl)) == MDEC_END_OF_DATA) {
mdec.reg1 &= ~(MDEC1_STP|MDEC1_BUSY);
if (HW_DMA0_CHCR & SWAP32(0x01000000))
}
int mdecFreeze(void *f, int Mode) {
- u8 *base = (u8 *)&psxM[0x100000];
+ u8 *base = (u8 *)psxM;
u32 v;
gzfreeze(&mdec.reg0, sizeof(mdec.reg0));
gzfreeze(&mdec.reg1, sizeof(mdec.reg1));
- // old code used to save raw pointers..
v = (u8 *)mdec.rl - base;
gzfreeze(&v, sizeof(v));
- mdec.rl = (u16 *)(base + (v & 0xffffe));
+ mdec.rl = (u16 *)(base + (v & 0x1ffffe));
v = (u8 *)mdec.rl_end - base;
gzfreeze(&v, sizeof(v));
- mdec.rl_end = (u16 *)(base + (v & 0xffffe));
+ mdec.rl_end = (u16 *)(base + (v & 0x1ffffe));
v = 0;
if (mdec.block_buffer_pos)
- v = mdec.block_buffer_pos - base;
+ v = mdec.block_buffer_pos - mdec.block_buffer;
gzfreeze(&v, sizeof(v));
mdec.block_buffer_pos = 0;
- if (v)
- mdec.block_buffer_pos = base + (v & 0xfffff);
+ if (v && v < sizeof(mdec.block_buffer))
+ mdec.block_buffer_pos = mdec.block_buffer;
gzfreeze(&mdec.block_buffer, sizeof(mdec.block_buffer));
gzfreeze(&mdec.pending_dma1, sizeof(mdec.pending_dma1));