ref: e3ad3d6968f4fd4cbb325e081ac9027d24f01316
dir: /sys/src/games/gba/mem.c/
#include <u.h> #include <libc.h> #include <thread.h> #include "../eui.h" #include "dat.h" #include "fns.h" uchar bios[16*KB], wram0[32*KB], wram1[256*KB]; uchar vram[96*KB]; u16int pram[512], oam[512]; uchar *rom, *back; int nrom, nback; u16int reg[512]; int dmaact; enum { DMASRC, DMADST, DMACNT }; u32int dmar[16]; u8int waitst[16] = {5, 5, 5, 5, 3, 5, 5, 9, 8, 10, 10, 14}; u32int eepstart; Var memvars[] = { ARR(wram0), ARR(wram1), ARR(vram), ARR(pram), ARR(oam), ARR(reg), VAR(dmaact), ARR(dmar), ARR(waitst), {nil, 0, 0}, }; extern int cyc; static int eepromread(void); static void eepromwrite(int); static u8int flashread(u16int); static void flashwrite(u16int, u8int); static u32int arread(uchar *c, int n) { switch(n){ default: return c[0]; case 2: return c[0] | c[1] << 8; case 4: return c[0] | c[1] << 8 | c[2] << 16 | c[3] << 24; } } static void arwrite(uchar *c, u32int v, int n) { switch(n){ case 4: c[3] = v >> 24; c[2] = v >> 16; case 2: c[1] = v >> 8; default: c[0] = v; } } static u32int ar16read(u16int *c, int h, int n) { switch(n){ case 1: return c[0] >> (h << 3); default: return c[0]; case 4: return c[0] | c[1] << 16; } } static void ar16write(u16int *c, int h, u32int v, int n) { switch(n){ case 1: if(h) c[0] = c[0] & 0xff | ((u8int)v) << 8; else c[0] = c[0] & 0xff00 | (u8int)v; break; case 2: c[0] = v; break; case 4: c[0] = v; c[1] = v >> 16; break; } } static u32int regread(u32int a) { u32int v; switch(a){ case DISPSTAT*2: v = reg[a/2] & ~7; if(ppuy >= 160 && ppuy != 227) v |= 1; if(hblank) v |= 2; if(ppuy == v >> 8) v |= 4; return v; case 0x006: return ppuy; case 0x100: case 0x104: case 0x108: case 0x10c: return timerget((a - 0x100) / 4); case 0x130: return keys ^ 0x3ff; default: return reg[a/2]; } } static void regwrite16(u32int a, u16int v) { u16int *p; int i; static u8int ws0[4] = {5,4,3,9}; if(a < 0x56) ppuwrite(a, v); else if(a < 0xa0) sndwrite(a, v); p = ®[a/2]; switch(a){ case IF*2: *p &= ~v; setif(0); return; case IME*2: case IE*2: *p = v; setif(0); return; case DMA0CNTH*2: case DMA1CNTH*2: case DMA2CNTH*2: case DMA3CNTH*2: i = (a - DMA0CNTH*2) / 12; if((v & DMAEN) != 0){ if((v >> DMAWHEN & 3) == 0) dmaact |= 1<<i; if(i == 3 && (v >> DMAWHEN & 3) == 3) print("DMA video capture mode\n"); dmar[4*i + DMASRC] = p[-5] | p[-4] << 16; dmar[4*i + DMADST] = p[-3] | p[-2] << 16; dmar[4*i + DMACNT] = p[-1]; }else dmaact &= ~1<<i; break; case SOUNDCNTH*2: soundcnth(v); break; case FIFOAH*2: case FIFOBH*2: fifoput(a >> 2 & 1, p[-1] | v << 16); break; case 0x102: case 0x106: case 0x10a: case 0x10e: timerset((a - 0x102) / 4, v); break; case WAITCNT*2: waitst[3] = waitst[7] = ws0[v & 3]; waitst[0] = ws0[v >> 2 & 3]; waitst[4] = ((v & 1<<4) == 0) + 2; waitst[1] = ws0[v >> 5 & 3]; waitst[5] = (v & 1<<7) == 0 ? 5 : 2; waitst[2] = ws0[v >> 8 & 3]; waitst[6] = (v & 1<<10) == 0 ? 9 : 2; for(i = 0; i < 8; i++) waitst[8 + i] = waitst[i] + waitst[i | 4]; break; case 0x301: cpuhalt = 1; break; } *p = v; } static void regwrite(u32int a, u32int v, int n) { u16int w; switch(n){ case 1: if((a & ~1) == IF) w = 0; else w = regread(a); if((a & 1) == 0) w = w & 0xff00 | (u8int)v; else w = w & 0xff | v << 8; regwrite16(a & ~1, w); break; default: regwrite16(a, v); break; case 4: regwrite16(a, v); regwrite16(a + 2, v >> 16); break; } } void setif(u16int v) { reg[IF] |= v; irq = (reg[IME] & 1) != 0 && (reg[IF] & reg[IE]) != 0; if(irq) cpuhalt = 0; } u32int memread(u32int a, int n, int seq) { u32int b; assert((a & n-1) == 0); switch(a >> 24){ case 0: b = a & sizeof(bios) - 1; cyc++; return arread(bios + b, n); case 2: b = a & sizeof(wram1) - 1; cyc += n > 2 ? 6 : 3; return arread(wram1 + b, n); case 3: b = a & sizeof(wram0) - 1; cyc++; return arread(wram0 + b, n); case 4: b = a & 0xffffff; if(b >= sizeof(reg)) goto fault; cyc++; if(n == 4) return regread(b) | regread(b+2) << 16; else if(n == 1) if((b & 1) != 0) return regread(b) >> 8; else return regread(b) & 0xff; return regread(b); case 5: b = a & sizeof(pram) - 1; cyc += (n+1) >> 1; return ar16read(pram + b/2, b & 1, n); case 6: b = a & 128*KB - 1; if(b >= 64*KB) b &= ~(32*KB); cyc += (n+1) >> 1; return arread(vram + b, n); case 7: b = a & sizeof(oam) - 1; cyc++; return ar16read(oam + b/2, b & 1, n); case 8: if(!gpiogame) goto Rom; b = a & 0xffffff; switch(b){ case 0xC4: return gpiordata(); case 0xC6: return gpiordir(); case 0xC8: return gpiorcontrol(); } /* fallthrough */ case 9: case 10: case 11: case 12: case 13: Rom: b = a & 0x1ffffff; cyc += waitst[(a >> 25) - 4 | seq << 2 | (n > 2) << 3]; if(b >= nrom){ if(b >= eepstart) return eepromread(); return 0; } return arread(rom + b, n); case 14: if(backup == SRAM){ b = a & nback - 1; return arread(back + b, n); } if(backup == FLASH) return flashread(a); return 0; default: fault: print("read from %#.8ux (pc=%#.8ux)\n", a, curpc); return 0; } } void memwrite(u32int a, u32int v, int n) { u32int b, t; assert((a & n-1) == 0); switch(a >> 24){ case 0: return; case 2: b = a & sizeof(wram1) - 1; cyc += n > 2 ? 6 : 3; arwrite(wram1 + b, v, n); return; case 3: b = a & sizeof(wram0) - 1; cyc++; arwrite(wram0 + b, v, n); return; case 4: cyc++; b = a & 0xffffff; if(b == 0x410) return; if(b >= sizeof(reg)) goto fault; regwrite(b, v, n); return; case 5: b = a & sizeof(pram) - 1; if(n == 1){ b &= ~1; n = 2; v |= v << 8; } cyc += (n+1) >> 1; ar16write(pram + b/2, b & 1, v, n); return; case 6: b = a & 128*KB - 1; if(b >= 64*KB) b &= ~(32*KB); if(n == 1 && ((reg[DISPCNT] & 7) > 2 && b < 80*KB || b < 64*KB)){ b &= ~1; n = 2; v |= v << 8; } cyc += (n+1) >> 1; if(n != 1) arwrite(vram + b, v, n); return; case 7: b = a & sizeof(oam) - 1; cyc++; if(n != 1) ar16write(oam + b/2, b & 1, v, n); return; case 8: if(!gpiogame) goto Rom; b = a & 0xffffff; switch(b){ case 0xC4: t = v&0xFFFF; gpiowdata(t); if(n <= 2) return; v>>=16; case 0xC6: t = v&0xFFFF; gpiowdir(t); return; case 0xC8: t = v&0xFFFF; gpiowcontrol(t); return; } /* fallthrough */ case 9: case 10: case 11: case 12: case 13: Rom: if(backup == EEPROM){ b = a & 0x01ffffff; if(b >= eepstart) eepromwrite(v & 1); } return; case 14: if(backup == SRAM){ b = a & nback - 1; arwrite(back + b, v, n); writeback(); return; } if(backup == FLASH){ flashwrite(a, v); return; } return; default: fault: print("write to %#.8ux, value %#.8ux (pc=%#.8ux)\n", a, v, curpc); } } void memreset(void) { reg[0x88/2] = 0x200; reg[BG2PA] = reg[BG2PD] = 0x100; if(backup == EEPROM) if(nrom <= 16*KB*KB) eepstart = 0x1000000; else eepstart = 0x1ffff00; else eepstart = -1; } int dmastep(void) { int i; u16int *cntp, cnt; u32int *dr; u32int v; int sz, snd; cyc = 0; for(i = 0; i < 4; i++) if((dmaact & 1<<i) != 0) break; if(i == 4) return cyc; curpc = -1; cntp = reg + DMA0CNTH + i * 6; cnt = *cntp; dr = dmar + 4 * i; snd = (cnt >> DMAWHEN & 3) == 3 && (i == 1 || i == 2); if(snd) cnt = cnt & ~(3 << DMADCNT) | DMAFIX << DMADCNT | DMAWIDE; sz = (cnt & DMAWIDE) != 0 ? 4 : 2; if(i == 0) dr[DMASRC] &= 0x07FFFFFF; else dr[DMASRC] &= 0x0FFFFFFF; if(i != 3) dr[DMADST] &= 0x7FFFFFFF; else dr[DMADST] &= 0x0FFFFFFF; v = memread(dr[DMASRC] & -sz, sz, 1); memwrite(dr[DMADST] & -sz, v, sz); switch(cnt >> DMADCNT & 3){ case DMAINC: case DMAINCREL: dr[DMADST] += sz; break; case DMADEC: dr[DMADST] -= sz; break; } switch(cnt >> DMASCNT & 3){ case DMAINC: dr[DMASRC] += sz; break; case DMADEC: dr[DMASRC] -= sz; break; } if(dr[DMACNT] == 0) dr[DMACNT] = i != 3 ? 0x4000 : 0x10000; if(--dr[DMACNT] == 0){ dmaact &= ~(1<<i); if((cnt & DMAREP) != 0){ dr[DMACNT] = cntp[-1]; if((cnt >> DMADCNT & 3) == DMAINCREL) dr[DMADST] = cntp[-3] | cntp[-2] << 16; }else *cntp &= ~DMAEN; if((cnt & DMAIRQ) != 0) setif(IRQDMA0 << i); } return cyc; } void dmastart(int cond) { int i; u16int *cntp, cnt, c; cntp = reg + DMA0CNTH; for(i = 0; i < 4; i++, cntp += 6){ cnt = *cntp; if((cnt & DMAEN) == 0) continue; c = cnt >> DMAWHEN & 3; if(c == 3) c += (i + 1) / 2; if(c == cond){ dmaact |= 1<<i; if(c == DMASOUND) dmar[i * 4 + DMACNT] = 4; } } } int eepromstate, eeprompos, eepromaddr; u64int eepromdata; enum { EEPROMCMD, EEPROMRDCMD, EEPROMRDRESP, EEPROMWRCMD, EEPROMWRDATA, EEPROMWRRESP, }; static int eepromread(void) { int v; switch(eepromstate){ case EEPROMRDRESP: eeprompos++; if(eeprompos <= 4) return 0; if(eeprompos == 68){ eepromstate = EEPROMCMD; eeprompos = 0; } v = eepromdata >> 63; eepromdata <<= 1; return v; case EEPROMWRRESP: if(++eeprompos == 1000){ eepromstate = EEPROMCMD; eeprompos = 0; return 1; } return 0; default: return 0; } } static void eepromwrite(int n) { uchar *p; switch(eepromstate){ case EEPROMCMD: eepromaddr = eepromaddr << 1 | n; if(++eeprompos >= 2){ switch(eepromaddr & 3){ case 2: eepromstate = EEPROMWRCMD; break; case 3: eepromstate = EEPROMRDCMD; break; } eeprompos = 0; } break; case EEPROMRDCMD: case EEPROMWRCMD: eepromaddr = eepromaddr << 1 | n; eeprompos++; if(nback == 512){ if(eeprompos >= 7) eepromaddr = eepromaddr >> 1 & 0x3f; else break; }else{ if(eeprompos >= 15) eepromaddr = eepromaddr >> 1 & 0x3fff; else break; } if(eepromstate == EEPROMRDCMD){ p = back + eepromaddr * 8; eepromdata = p[0] | p[1] << 8 | p[2] << 16 | p[3] << 24 | (u64int)p[4] << 32 | (u64int)p[5] << 40 | (u64int)p[6] << 48 | (u64int)p[7] << 56; eeprompos = 0; eepromstate = EEPROMRDRESP; break; }else{ eepromdata = n; eeprompos = 1; eepromstate = EEPROMWRDATA; break; } case EEPROMWRDATA: if(eeprompos == 64){ p = back + eepromaddr * 8; p[0] = eepromdata; p[1] = eepromdata >> 8; p[2] = eepromdata >> 16; p[3] = eepromdata >> 24; p[4] = eepromdata >> 32; p[5] = eepromdata >> 40; p[6] = eepromdata >> 48; p[7] = eepromdata >> 56; eepromstate = EEPROMWRRESP; eeprompos = 0; writeback(); break; } eepromdata = eepromdata << 1 | n; eeprompos++; break; } } int flashstate, flashmode, flashbank, flashid; enum { FLASHCMD0, FLASHCMD1, FLASHCMD2, FLASHBANK, FLASHWRITE, FLASHID = 1, FLASHERASE = 2, }; static u8int flashread(u16int a) { if((flashmode & FLASHID) != 0) return (a & 1) != 0 ? flashid >> 8 : flashid; return back[(flashbank << 16) + a]; } static void flashwrite(u16int a, u8int v) { int erase; switch(flashstate){ case FLASHCMD0: if(a == 0x5555 && v == 0xaa) flashstate = FLASHCMD1; break; case FLASHCMD1: if(a == 0x2aaa && v == 0x55) flashstate = FLASHCMD2; else flashstate = FLASHCMD0; break; case FLASHCMD2: flashstate = FLASHCMD0; erase = flashmode & FLASHERASE; flashmode &= ~FLASHERASE; switch(v){ case 0x90: flashmode |= FLASHID; break; case 0xF0: flashmode &= ~FLASHID; break; case 0x80: flashmode |= FLASHERASE; break; case 0x10: if(erase){ memset(back, 0xff, nback); writeback(); } break; case 0x30: if(erase){ memset(back + (a & 0xf000) + (flashbank << 16), 0xff, 4096); writeback(); } break; case 0xA0: writeback(); flashstate = FLASHWRITE; break; case 0xB0: flashstate = FLASHBANK; break; default: print("unknown flash cmd %x\n", v); } break; case FLASHBANK: flashbank = v % (nback >> 16); flashstate = FLASHCMD0; break; case FLASHWRITE: back[(flashbank << 16) + a] &= v; writeback(); flashstate = FLASHCMD0; break; } }