#include #include #include #include #include #include #include #include #include #include "soc.h" #include "soc_mmsp2.h" #include "plat_gp2x.h" #include "../common/emu.h" #include "../common/arm_utils.h" #include "940ctl.h" volatile unsigned short *gp2x_memregs; volatile unsigned long *gp2x_memregl; extern void *gp2x_screens[4]; static int screensel = 0; int memdev = 0; /* used by code940 */ static int touchdev = -1; static int touchcal[7] = { 6203, 0, -1501397, 0, -4200, 16132680, 65536 }; #define FRAMEBUFF_SIZE 0x30000 #define FRAMEBUFF_WHOLESIZE (FRAMEBUFF_SIZE*4) // 320*240*2 + some more #define FRAMEBUFF_ADDR0 (0x4000000 - FRAMEBUFF_WHOLESIZE) #define FRAMEBUFF_ADDR1 (FRAMEBUFF_ADDR0 + FRAMEBUFF_SIZE) #define FRAMEBUFF_ADDR2 (FRAMEBUFF_ADDR1 + FRAMEBUFF_SIZE) #define FRAMEBUFF_ADDR3 (FRAMEBUFF_ADDR2 + FRAMEBUFF_SIZE) static const int gp2x_screenaddrs[4] = { FRAMEBUFF_ADDR0, FRAMEBUFF_ADDR1, FRAMEBUFF_ADDR2, FRAMEBUFF_ADDR3 }; static int gp2x_screenaddrs_use[4]; static unsigned short gp2x_screenaddr_old[4]; /* video stuff */ void gp2x_video_flip(void) { unsigned short lsw = (unsigned short) gp2x_screenaddrs_use[screensel&3]; unsigned short msw = (unsigned short)(gp2x_screenaddrs_use[screensel&3] >> 16); gp2x_memregs[0x2910>>1] = msw; gp2x_memregs[0x2914>>1] = msw; gp2x_memregs[0x290E>>1] = lsw; gp2x_memregs[0x2912>>1] = lsw; // jump to other buffer: g_screen_ptr = gp2x_screens[++screensel&3]; } /* doulblebuffered flip */ void gp2x_video_flip2(void) { unsigned short msw = (unsigned short)(gp2x_screenaddrs_use[screensel&1] >> 16); gp2x_memregs[0x2910>>1] = msw; gp2x_memregs[0x2914>>1] = msw; gp2x_memregs[0x290E>>1] = 0; gp2x_memregs[0x2912>>1] = 0; // jump to other buffer: g_screen_ptr = gp2x_screens[++screensel&1]; } void gp2x_video_changemode_ll(int bpp) { gp2x_memregs[0x28DA>>1] = (((bpp+1)/8)<<9)|0xAB; /*8/15/16/24bpp...*/ gp2x_memregs[0x290C>>1] = 320*((bpp+1)/8); /*line width in bytes*/ } void gp2x_video_setpalette(int *pal, int len) { unsigned short *g = (unsigned short *)pal; volatile unsigned short *memreg = &gp2x_memregs[0x295A>>1]; gp2x_memregs[0x2958>>1] = 0; len *= 2; while (len--) *memreg = *g++; } // TV Compatible function // void gp2x_video_RGB_setscaling(int ln_offs, int W, int H) { float escalaw, escalah; int bpp = (gp2x_memregs[0x28DA>>1]>>9)&0x3; unsigned short scalw; // set offset gp2x_screenaddrs_use[0] = gp2x_screenaddrs[0] + ln_offs * 320 * bpp; gp2x_screenaddrs_use[1] = gp2x_screenaddrs[1] + ln_offs * 320 * bpp; gp2x_screenaddrs_use[2] = gp2x_screenaddrs[2] + ln_offs * 320 * bpp; gp2x_screenaddrs_use[3] = gp2x_screenaddrs[3] + ln_offs * 320 * bpp; escalaw = 1024.0; // RGB Horiz LCD escalah = 320.0; // RGB Vert LCD if(gp2x_memregs[0x2800>>1]&0x100) //TV-Out { escalaw=489.0; // RGB Horiz TV (PAL, NTSC) if (gp2x_memregs[0x2818>>1] == 287) //PAL escalah=274.0; // RGB Vert TV PAL else if (gp2x_memregs[0x2818>>1] == 239) //NTSC escalah=331.0; // RGB Vert TV NTSC } // scale horizontal scalw = (unsigned short)((float)escalaw *(W/320.0)); /* if there is no horizontal scaling, vertical doesn't work. Here is a nasty wrokaround... */ if (H != 240 && W == 320) scalw--; gp2x_memregs[0x2906>>1]=scalw; // scale vertical gp2x_memregl[0x2908>>2]=(unsigned long)((float)escalah *bpp *(H/240.0)); } void gp2x_video_wait_vsync(void) { unsigned short v = gp2x_memregs[0x1182>>1]; while (!((v ^ gp2x_memregs[0x1182>>1]) & 0x10)) spend_cycles(1024); } /* 940 */ void pause940(int yes) { if (yes) gp2x_memregs[0x0904>>1] &= 0xFFFE; else gp2x_memregs[0x0904>>1] |= 1; } void reset940(int yes, int bank) { gp2x_memregs[0x3B48>>1] = ((yes&1) << 7) | (bank & 0x03); } /* * CPU clock * Fout = (m * Fin) / (p * 2^s) * m = MDIV+8, p = PDIV+2, s = SDIV * * m = (Fout * p * 2^s) / Fin */ #define SYS_CLK_FREQ 7372800 void gp2x_set_cpuclk(unsigned int mhz) { unsigned int mdiv, pdiv, sdiv = 0; unsigned int v; int i; pdiv = 3; mdiv = (mhz * pdiv * 1000000) / SYS_CLK_FREQ; if (mdiv & ~0xff) { fprintf(stderr, "invalid cpuclk MHz: %u\n", mhz); return; } v = ((mdiv-8)<<8) | ((pdiv-2)<<2) | sdiv; gp2x_memregs[0x910>>1] = v; for (i = 0; i < 10000; i++) if (!(gp2x_memregs[0x902>>1] & 1)) break; } /* RAM timings */ static unsigned short memtimex[2]; #define TIMING_CHECK(t, adj, mask) \ t += adj; \ if (t & ~mask) \ goto bad void set_ram_timings(int tCAS, int tRC, int tRAS, int tWR, int tMRD, int tRFC, int tRP, int tRCD) { int i; TIMING_CHECK(tCAS, -2, 0x1); TIMING_CHECK(tRC, -1, 0xf); TIMING_CHECK(tRAS, -1, 0xf); TIMING_CHECK(tWR, -1, 0xf); TIMING_CHECK(tMRD, -1, 0xf); TIMING_CHECK(tRFC, -1, 0xf); TIMING_CHECK(tRP, -1, 0xf); TIMING_CHECK(tRCD, -1, 0xf); /* get spend_cycles() into cache */ spend_cycles(1); gp2x_memregs[0x3802>>1] = ((tMRD & 0xF) << 12) | ((tRFC & 0xF) << 8) | ((tRP & 0xF) << 4) | (tRCD & 0xF); gp2x_memregs[0x3804>>1] = 0x8000 | ((tCAS & 1) << 12) | ((tRC & 0xF) << 8) | ((tRAS & 0xF) << 4) | (tWR & 0xF); /* be sure we don't access the mem while it's being reprogrammed */ spend_cycles(128*1024); for (i = 0; i < 8*1024; i++) if (!(gp2x_memregs[0x3804>>1] & 0x8000)) break; printf("RAM timings set.\n"); return; bad: fprintf(stderr, "RAM timings invalid.\n"); } void unset_ram_timings(void) { gp2x_memregs[0x3802>>1] = memtimex[0]; gp2x_memregs[0x3804>>1] = memtimex[1] | 0x8000; printf("RAM timings reset to startup values.\n"); } /* LCD refresh */ typedef struct { unsigned short reg, valmask, val; } reg_setting; /* 120.00 97/0/2/7|25/ 7/ 7/11/37 */ static const reg_setting lcd_rate_120[] = { { 0x0914, 0xffff, (97<<8)|(0<<2)|2 }, /* UPLLSETVREG */ { 0x0924, 0xff00, (2<<14)|(7<<8) }, /* DISPCSETREG */ { 0x281A, 0x00ff, 25 }, /* .HSWID(T2) */ { 0x281C, 0x00ff, 7 }, /* .HSSTR(T8) */ { 0x281E, 0x00ff, 7 }, /* .HSEND(T7) */ { 0x2822, 0x01ff, 11 }, /* .VSEND (T9) */ { 0x2826, 0x0ff0, 37<<4 }, /* .DESTR(T3) */ { 0, 0, 0 } }; /* 100.00 96/0/2/7|29/25/53/15/37 */ static const reg_setting lcd_rate_100[] = { { 0x0914, 0xffff, (96<<8)|(0<<2)|2 }, /* UPLLSETVREG */ { 0x0924, 0xff00, (2<<14)|(7<<8) }, /* DISPCSETREG */ { 0x281A, 0x00ff, 29 }, /* .HSWID(T2) */ { 0x281C, 0x00ff, 25 }, /* .HSSTR(T8) */ { 0x281E, 0x00ff, 53 }, /* .HSEND(T7) */ { 0x2822, 0x01ff, 15 }, /* .VSEND (T9) */ { 0x2826, 0x0ff0, 37<<4 }, /* .DESTR(T3) */ { 0, 0, 0 } }; static reg_setting lcd_rate_defaults[] = { { 0x0914, 0xffff, 0 }, { 0x0924, 0xff00, 0 }, { 0x281A, 0x00ff, 0 }, { 0x281C, 0x00ff, 0 }, { 0x281E, 0x00ff, 0 }, { 0x2822, 0x01ff, 0 }, { 0x2826, 0x0ff0, 0 }, { 0, 0, 0 } }; static void get_reg_setting(reg_setting *set) { for (; set->reg; set++) { unsigned short val = gp2x_memregs[set->reg >> 1]; val &= set->valmask; set->val = val; } } static void set_reg_setting(const reg_setting *set) { for (; set->reg; set++) { unsigned short val = gp2x_memregs[set->reg >> 1]; val &= ~set->valmask; val |= set->val; gp2x_memregs[set->reg >> 1] = val; } } void set_lcd_custom_rate(int is_pal) { if (gp2x_memregs[0x2800>>1] & 0x100) // tv-out return; printf("setting custom LCD refresh (%d Hz)... ", is_pal ? 100 : 120); fflush(stdout); set_reg_setting(is_pal ? lcd_rate_100 : lcd_rate_120); printf("done.\n"); } void unset_lcd_custom_rate(void) { printf("reset to prev LCD refresh.\n"); set_reg_setting(lcd_rate_defaults); } void set_lcd_gamma(int g100, int A_SNs_curve) { float gamma = (float) g100 / 100; int i; gamma = 1 / gamma; /* enable gamma */ gp2x_memregs[0x2880>>1] &= ~(1<<12); gp2x_memregs[0x295C>>1] = 0; for (i = 0; i < 256; i++) { unsigned char g; unsigned short s; const unsigned short grey50=143, grey75=177, grey25=97; double blah; if (A_SNs_curve) { // The next formula is all about gaussian interpolation blah = (( -128 * exp(-powf((float) i/64.0f + 2.0f , 2.0f))) + ( -64 * exp(-powf((float) i/64.0f + 1.0f , 2.0f))) + (grey25 * exp(-powf((float) i/64.0f - 1.0f , 2.0f))) + (grey50 * exp(-powf((float) i/64.0f - 2.0f , 2.0f))) + (grey75 * exp(-powf((float) i/64.0f - 3.0f , 2.0f))) + ( 256 * exp(-powf((float) i/64.0f - 4.0f , 2.0f))) + ( 320 * exp(-powf((float) i/64.0f - 5.0f , 2.0f))) + ( 384 * exp(-powf((float) i/64.0f - 6.0f , 2.0f)))) / 1.772637; blah += 0.5; } else { blah = i; } g = (unsigned char)(255.0 * pow(blah/255.0, gamma)); //printf("%d : %d\n", i, g); s = (g<<8) | g; gp2x_memregs[0x295E>>1]= s; gp2x_memregs[0x295E>>1]= g; } } /* these are not quite MMSP2 related, * more to GP2X F100/F200 consoles themselves. */ typedef struct ucb1x00_ts_event { unsigned short pressure; unsigned short x; unsigned short y; unsigned short pad; struct timeval stamp; } UCB1X00_TS_EVENT; int gp2x_touchpad_read(int *x, int *y) { UCB1X00_TS_EVENT event; static int zero_seen = 0; int retval; if (touchdev < 0) return -1; retval = read(touchdev, &event, sizeof(event)); if (retval <= 0) { perror("touch read failed"); return -1; } // this is to ignore the messed-up 4.1.x driver if (event.pressure == 0) zero_seen = 1; if (x) *x = (event.x * touchcal[0] + touchcal[2]) >> 16; if (y) *y = (event.y * touchcal[4] + touchcal[5]) >> 16; // printf("read %i %i %i\n", event.pressure, *x, *y); return zero_seen ? event.pressure : 0; } static void proc_set(const char *path, const char *val) { FILE *f; char tmp[16]; f = fopen(path, "w"); if (f == NULL) { printf("failed to open: %s\n", path); return; } fprintf(f, "0\n"); fclose(f); printf("\"%s\" is set to: ", path); f = fopen(path, "r"); if (f == NULL) { printf("(open failed)\n"); return; } fgets(tmp, sizeof(tmp), f); printf("%s", tmp); fclose(f); } void mmsp2_init(void) { int i; memdev = open("/dev/mem", O_RDWR); if (memdev == -1) { perror("open(\"/dev/mem\")"); exit(1); } gp2x_memregs = mmap(0, 0x10000, PROT_READ|PROT_WRITE, MAP_SHARED, memdev, 0xc0000000); if (gp2x_memregs == MAP_FAILED) { perror("mmap(memregs)"); exit(1); } gp2x_memregl = (unsigned long *) gp2x_memregs; gp2x_memregs[0x2880>>1] &= ~0x383; // disable cursor, subpict, osd, video layers gp2x_screens[0] = mmap(0, FRAMEBUFF_WHOLESIZE, PROT_WRITE, MAP_SHARED, memdev, gp2x_screenaddrs[0]); if (gp2x_screens[0] == MAP_FAILED) { perror("mmap(g_screen_ptr)"); exit(1); } printf("framebuffers:\n"); printf(" %08x -> %p\n", gp2x_screenaddrs[0], gp2x_screens[0]); for (i = 1; i < 4; i++) { gp2x_screens[i] = (char *) gp2x_screens[i - 1] + FRAMEBUFF_SIZE; printf(" %08x -> %p\n", gp2x_screenaddrs[i], gp2x_screens[i]); } g_screen_ptr = gp2x_screens[0]; screensel = 0; gp2x_screenaddr_old[0] = gp2x_memregs[0x290E>>1]; gp2x_screenaddr_old[1] = gp2x_memregs[0x2910>>1]; gp2x_screenaddr_old[2] = gp2x_memregs[0x2912>>1]; gp2x_screenaddr_old[3] = gp2x_memregs[0x2914>>1]; memcpy(gp2x_screenaddrs_use, gp2x_screenaddrs, sizeof(gp2x_screenaddrs)); /* default LCD refresh */ get_reg_setting(lcd_rate_defaults); /* RAM timings */ memtimex[0] = gp2x_memregs[0x3802>>1]; memtimex[1] = gp2x_memregs[0x3804>>1]; /* touchscreen */ touchdev = open("/dev/touchscreen/wm97xx", O_RDONLY); if (touchdev >= 0) { FILE *pcf = fopen("/etc/pointercal", "r"); if (pcf) { fscanf(pcf, "%d %d %d %d %d %d %d", &touchcal[0], &touchcal[1], &touchcal[2], &touchcal[3], &touchcal[4], &touchcal[5], &touchcal[6]); fclose(pcf); } printf("found touchscreen/wm97xx\n"); } /* disable Linux read-ahead */ proc_set("/proc/sys/vm/max-readahead", "0\n"); proc_set("/proc/sys/vm/min-readahead", "0\n"); /* code940 portion */ sharedmem940_init(); } void mmsp2_finish(void) { reset940(1, 3); pause940(1); sharedmem940_finish(); gp2x_memregs[0x290E>>1] = gp2x_screenaddr_old[0]; gp2x_memregs[0x2910>>1] = gp2x_screenaddr_old[1]; gp2x_memregs[0x2912>>1] = gp2x_screenaddr_old[2]; gp2x_memregs[0x2914>>1] = gp2x_screenaddr_old[3]; unset_ram_timings(); unset_lcd_custom_rate(); munmap(gp2x_screens[0], FRAMEBUFF_WHOLESIZE); munmap((void *)gp2x_memregs, 0x10000); close(memdev); if (touchdev >= 0) close(touchdev); }