FreeCalypso > hg > freecalypso-tools
view target-utils/pirexplore/lcd.c @ 1014:961efadd530a default tip
fc-shell TCH DL handler: add support for CSD modes
TCH DL capture mechanism in FC Tourmaline firmware has been extended
to support CSD modes in addition to speech - add the necessary support
on the host tools side.
It needs to be noted that this mechanism in its present state does NOT
provide the debug utility value that was sought: as we learned only
after the code was implemented, TI's DSP has a misfeature in that the
buffer we are reading (a_dd_0[]) is zeroed out when the IDS block
is enabled, i.e., we are reading all zeros and not the real DL bits
we were after. But since the code has already been written, we are
keeping it - perhaps we can do some tests with IDS disabled.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Tue, 26 Nov 2024 06:27:43 +0000 |
| parents | cb33d81f1386 |
| children |
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/* * Almost all of this Pirelli LCD black magic has been lifted from OsmocomBB. */ #include <sys/types.h> #include "types.h" #define GPIO_OUT_REG (*(volatile u16 *)0xFFFE4802) #define nCS4_ADDR0 (*(volatile u16 *)0x02800000) #define nCS4_ADDR2 (*(volatile u16 *)0x02800002) #define DELAY_1MS 13000 fb_spca_write(addr, data) { GPIO_OUT_REG &= 0xFF7F; nCS4_ADDR0 = addr; nCS4_ADDR2 = data; } void cmd_spca(argbulk) char *argbulk; { char *argv[3]; u_long addr, data; if (parse_args(argbulk, 2, 2, argv, 0) < 0) return; if (parse_hexarg(argv[0], 4, &addr) < 0) { printf("ERROR: arg1 must be a valid 16-bit hex value\n"); return; } if (parse_hexarg(argv[1], 4, &data) < 0) { printf("ERROR: arg2 must be a valid 16-bit hex value\n"); return; } fb_spca_write(addr, data); } void cmd_spcainit() { /* * Apparently we have to give it a reset pulse, then immediately * do the black magic register write sequence. */ GPIO_OUT_REG = 0x0000; GPIO_OUT_REG = 0x0012; /* * The non-understandable voodoo that follows has been copied from * OsmocomBB, and more recently has been updated to use true ms * delays instead of bogo-ms. OBB's original code used their * delay_ms() function, but the latter implements a delay in * bogo-milliseconds instead of true ms, with 1 bogo-ms equal to * 400 us in actual physical time. */ fb_spca_write(0x7e, 0x00); /* internal register access */ wait_ARM_cycles(DELAY_1MS * 4); /* 10 bogo-ms = 4 ms */ fb_spca_write(0x7a, 0x00); /* keep CPU in reset state */ wait_ARM_cycles(DELAY_1MS * 4); /* 10 bogo-ms = 4 ms */ fb_spca_write(0x7f, 0x00); /* select main page */ wait_ARM_cycles(DELAY_1MS * 2); /* 5 bogo-ms = 2 ms */ fb_spca_write(0x72, 0x07); /* don't reshape timing, 16 bit mode */ fb_spca_write(0x14, 0x03); fb_spca_write(0x7f, 0x00); /* select main page */ wait_ARM_cycles(DELAY_1MS * 2); /* 5 bogo-ms = 2 ms */ fb_spca_write(0x06, 0xff); fb_spca_write(0x7f, 0x09); fb_spca_write(0x19, 0x08); /* backlight: 0x08 is on, 0x0c is off */ fb_spca_write(0x23, 0x18); } enum s6b33b1x_cmdflag { CMD, DATA, END }; struct s6b33b1x_cmdlist { enum s6b33b1x_cmdflag is_cmd:8; /* 1: is a command, 0: is data, 2: end marker! */ u_char data; /* 8 bit to send to LC display */ }; static const struct s6b33b1x_cmdlist s6b33b1x_initdata[] = { { CMD, 0x26 }, /* CMD DCDC and AMP ON/OFF set */ { DATA, 0x00 }, /* DATA: everything off */ { CMD, 0x02 }, /* CMD Oscillation Mode Set */ { DATA, 0x00 }, /* DATA: oscillator off */ { CMD, 0x2c }, /* CMD Standby Mode off */ { CMD, 0x50 }, /* CMD Display off */ { CMD, 0x02 }, /* CMD Oscillation Mode Set */ { DATA, 0x01 }, /* DATA: oscillator on */ { CMD, 0x26 }, /* CMD DCDC and AMP ON/OFF set */ { DATA, 0x01 }, /* DATA: Booster 1 on */ { CMD, 0x26 }, /* CMD DCDC and AMP ON/OFF set */ { DATA, 0x09 }, /* DATA: Booster 1 on, OP-AMP on */ { CMD, 0x26 }, /* CMD DCDC and AMP ON/OFF set */ { DATA, 0x0b }, /* DATA: Booster 1 + 2 on, OP-AMP on */ { CMD, 0x26 }, /* CMD DCDC and AMP ON/OFF set */ { DATA, 0x0f }, /* DATA: Booster 1 + 2 + 3 on, OP-AMP on */ { CMD, 0x20 }, /* CMD DC-DC Select */ { DATA, 0x01 }, /* DATA: step up x1.5 */ { CMD, 0x24 }, /* CMD DCDC Clock Division Set */ { DATA, 0x0a }, /* DATA: fPCK = fOSC/6 */ { CMD, 0x2a }, /* CMD Contrast Control */ { DATA, 0x2d }, /* DATA: default contrast */ { CMD, 0x30 }, /* CMD Adressing mode set */ { DATA, 0x0b }, /* DATA: 65536 color mode */ { CMD, 0x10 }, /* CMD Driver output mode set */ { DATA, 0x03 }, /* DATA: Display duty: 1/132 */ { CMD, 0x34 }, /* CMD N-line inversion set */ { DATA, 0x88 }, /* DATA: inversion on, one frame, every 8 blocks */ { CMD, 0x40 }, /* CMD Entry mode set */ { DATA, 0x00 }, /* DATA: Y address counter mode */ { CMD, 0x28 }, /* CMD Temperature Compensation set */ { DATA, 0x01 }, /* DATA: slope -0.05%/degC */ { CMD, 0x32 }, /* CMD ROW vector mode set */ { DATA, 0x01 }, /* DATA: every 2 subgroup */ { CMD, 0x51 }, /* CMD Display on */ { END, 0x00 }, /* MARKER: end of list */ }; static void fb_s6b33b1x_send_cmdlist(p) struct s6b33b1x_cmdlist *p; { while(p->is_cmd != END) { nCS4_ADDR0 = p->data; p++; } } void cmd_lcdinit() { GPIO_OUT_REG |= 0x0080; fb_s6b33b1x_send_cmdlist(s6b33b1x_initdata); } set_lcd_addr_region(xstart, xend, ystart, yend) { GPIO_OUT_REG |= 0x0080; nCS4_ADDR0 = 0x42; nCS4_ADDR0 = ystart + 4; nCS4_ADDR0 = yend + 4; nCS4_ADDR0 = 0x43; nCS4_ADDR0 = xstart; nCS4_ADDR0 = xend; } void cmd_lcdfill(argbulk) char *argbulk; { int argc; char *argv[6]; u_long pixval; int xstart, xend, ystart, yend; int npix; if (parse_args(argbulk, 1, 5, argv, &argc) < 0) return; if (parse_hexarg(argv[0], 4, &pixval) < 0) { printf("ERROR: arg1 must be a valid 16-bit hex value\n"); return; } switch (argc) { case 1: xstart = ystart = 0; xend = yend = 127; break; case 5: xstart = atoi(argv[1]); if (xstart < 0 || xstart > 127) { range_err: printf("ERROR: coordinate arg out of range\n"); return; } xend = atoi(argv[2]); if (xend < 0 || xend > 127) goto range_err; ystart = atoi(argv[3]); if (ystart < 0 || ystart > 127) goto range_err; yend = atoi(argv[4]); if (yend < 0 || yend > 127) goto range_err; if (xend < xstart || yend < ystart) { printf("ERROR: negative range\n"); return; } break; default: printf("ERROR: wrong number of arguments\n"); return; } set_lcd_addr_region(xstart, xend, ystart, yend); npix = (xend + 1 - xstart) * (yend + 1 - ystart); while (npix--) nCS4_ADDR2 = pixval; } void cmd_lcdtest() { int i, j, k, p; /* * The result of this command should be 8 vertical bars * in the natural RGB order. */ set_lcd_addr_region(10, 89, 10, 89); for (i = 0; i < 80; i++) { for (j = 0; j < 8; j++) { p = 0; if (j & 4) p |= 0xF800; if (j & 2) p |= 0x07E0; if (j & 1) p |= 0x001F; for (k = 0; k < 10; k++) nCS4_ADDR2 = p; } } } void cmd_blit(argbulk) char *argbulk; { int argc; char *argv[6]; u16 imgbuf[16384]; size_t img_file_size; int xstart, ystart, width, height; int npix, i; if (parse_args(argbulk, 1, 5, argv, &argc) < 0) return; if (tiffs_read_into_ram(argv[0], imgbuf, 32768, &img_file_size) < 0) return; switch (argc) { case 1: xstart = ystart = 0; width = height = 128; break; case 3: xstart = ystart = 0; goto widthheight; case 5: xstart = atoi(argv[3]); if (xstart < 0 || xstart > 127) { range_err: printf("ERROR: coordinate arg out of range\n"); return; } ystart = atoi(argv[4]); if (ystart < 0 || ystart > 127) goto range_err; /* FALL THRU */ widthheight: width = atoi(argv[1]); if (width < 1 || width > 128) goto range_err; height = atoi(argv[2]); if (height < 1 || height > 128) goto range_err; if (xstart + width > 128) goto range_err; if (ystart + height > 128) goto range_err; break; default: printf("ERROR: wrong number of arguments\n"); return; } npix = width * height; if (img_file_size != npix * 2) { printf("ERROR: image file size (%u bytes) does not match WxH\n", img_file_size); return; } set_lcd_addr_region(xstart, xstart + width - 1, ystart, ystart + height - 1); /* the artwork images in Pirelli's FFS appear to be inverted */ for (i = 0; i < npix; i++) nCS4_ADDR2 = ~imgbuf[i]; }