/* * (C) Copyright 2010 * Dirk Eibach, Guntermann & Drunck GmbH, eibach@gdsys.de * * SPDX-License-Identifier: GPL-2.0+ */ #include #include #include #include "ch7301.h" #include "dp501.h" #include #define ICS8N3QV01_I2C_ADDR 0x6E #define ICS8N3QV01_FREF 114285000 #define ICS8N3QV01_FREF_LL 114285000LL #define ICS8N3QV01_F_DEFAULT_0 156250000LL #define ICS8N3QV01_F_DEFAULT_1 125000000LL #define ICS8N3QV01_F_DEFAULT_2 100000000LL #define ICS8N3QV01_F_DEFAULT_3 25175000LL #define SIL1178_MASTER_I2C_ADDRESS 0x38 #define SIL1178_SLAVE_I2C_ADDRESS 0x39 #define DP501_I2C_ADDR 0x08 #define PIXCLK_640_480_60 25180000 unsigned int base_width; unsigned int base_height; size_t bufsize; u16 *buf; unsigned int max_osd_screen = CONFIG_SYS_OSD_SCREENS - 1; #ifdef CONFIG_SYS_ICS8N3QV01_I2C int ics8n3qv01_i2c[] = CONFIG_SYS_ICS8N3QV01_I2C; #endif #ifdef CONFIG_SYS_SIL1178_I2C int sil1178_i2c[] = CONFIG_SYS_SIL1178_I2C; #endif #ifdef CONFIG_SYS_DP501_I2C int dp501_i2c[] = CONFIG_SYS_DP501_I2C; #endif #ifdef CONFIG_SYS_MPC92469AC static void mpc92469ac_calc_parameters(unsigned int fout, unsigned int *post_div, unsigned int *feedback_div) { unsigned int n = *post_div; unsigned int m = *feedback_div; unsigned int a; unsigned int b = 14745600 / 16; if (fout < 50169600) n = 8; else if (fout < 100339199) n = 4; else if (fout < 200678399) n = 2; else n = 1; a = fout * n + (b / 2); /* add b/2 for proper rounding */ m = a / b; *post_div = n; *feedback_div = m; } static void mpc92469ac_set(unsigned screen, unsigned int fout) { unsigned int n; unsigned int m; unsigned int bitval = 0; mpc92469ac_calc_parameters(fout, &n, &m); switch (n) { case 1: bitval = 0x00; break; case 2: bitval = 0x01; break; case 4: bitval = 0x02; break; case 8: bitval = 0x03; break; } FPGA_SET_REG(screen, mpc3w_control, (bitval << 9) | m); } #endif #ifdef CONFIG_SYS_ICS8N3QV01_I2C static unsigned int ics8n3qv01_get_fout_calc(unsigned index) { unsigned long long n; unsigned long long mint; unsigned long long mfrac; u8 reg_a, reg_b, reg_c, reg_d, reg_f; unsigned long long fout_calc; if (index > 3) return 0; reg_a = i2c_reg_read(ICS8N3QV01_I2C_ADDR, 0 + index); reg_b = i2c_reg_read(ICS8N3QV01_I2C_ADDR, 4 + index); reg_c = i2c_reg_read(ICS8N3QV01_I2C_ADDR, 8 + index); reg_d = i2c_reg_read(ICS8N3QV01_I2C_ADDR, 12 + index); reg_f = i2c_reg_read(ICS8N3QV01_I2C_ADDR, 20 + index); mint = ((reg_a >> 1) & 0x1f) | (reg_f & 0x20); mfrac = ((reg_a & 0x01) << 17) | (reg_b << 9) | (reg_c << 1) | (reg_d >> 7); n = reg_d & 0x7f; fout_calc = (mint * ICS8N3QV01_FREF_LL + mfrac * ICS8N3QV01_FREF_LL / 262144LL + ICS8N3QV01_FREF_LL / 524288LL + n / 2) / n * 1000000 / (1000000 - 100); return fout_calc; } static void ics8n3qv01_calc_parameters(unsigned int fout, unsigned int *_mint, unsigned int *_mfrac, unsigned int *_n) { unsigned int n; unsigned int foutiic; unsigned int fvcoiic; unsigned int mint; unsigned long long mfrac; n = (2215000000U + fout / 2) / fout; if ((n & 1) && (n > 5)) n -= 1; foutiic = fout - (fout / 10000); fvcoiic = foutiic * n; mint = fvcoiic / 114285000; if ((mint < 17) || (mint > 63)) printf("ics8n3qv01_calc_parameters: cannot determine mint\n"); mfrac = ((unsigned long long)fvcoiic % 114285000LL) * 262144LL / 114285000LL; *_mint = mint; *_mfrac = mfrac; *_n = n; } static void ics8n3qv01_set(unsigned int fout) { unsigned int n; unsigned int mint; unsigned int mfrac; unsigned int fout_calc; unsigned long long fout_prog; long long off_ppm; u8 reg0, reg4, reg8, reg12, reg18, reg20; fout_calc = ics8n3qv01_get_fout_calc(1); off_ppm = (fout_calc - ICS8N3QV01_F_DEFAULT_1) * 1000000 / ICS8N3QV01_F_DEFAULT_1; printf(" PLL is off by %lld ppm\n", off_ppm); fout_prog = (unsigned long long)fout * (unsigned long long)fout_calc / ICS8N3QV01_F_DEFAULT_1; ics8n3qv01_calc_parameters(fout_prog, &mint, &mfrac, &n); reg0 = i2c_reg_read(ICS8N3QV01_I2C_ADDR, 0) & 0xc0; reg0 |= (mint & 0x1f) << 1; reg0 |= (mfrac >> 17) & 0x01; i2c_reg_write(ICS8N3QV01_I2C_ADDR, 0, reg0); reg4 = mfrac >> 9; i2c_reg_write(ICS8N3QV01_I2C_ADDR, 4, reg4); reg8 = mfrac >> 1; i2c_reg_write(ICS8N3QV01_I2C_ADDR, 8, reg8); reg12 = mfrac << 7; reg12 |= n & 0x7f; i2c_reg_write(ICS8N3QV01_I2C_ADDR, 12, reg12); reg18 = i2c_reg_read(ICS8N3QV01_I2C_ADDR, 18) & 0x03; reg18 |= 0x20; i2c_reg_write(ICS8N3QV01_I2C_ADDR, 18, reg18); reg20 = i2c_reg_read(ICS8N3QV01_I2C_ADDR, 20) & 0x1f; reg20 |= mint & (1 << 5); i2c_reg_write(ICS8N3QV01_I2C_ADDR, 20, reg20); } #endif static int osd_write_videomem(unsigned screen, unsigned offset, u16 *data, size_t charcount) { unsigned int k; for (k = 0; k < charcount; ++k) { if (offset + k >= bufsize) return -1; FPGA_SET_REG(screen, videomem[offset + k], data[k]); } return charcount; } static int osd_print(cmd_tbl_t *cmdtp, int flag, int argc, char * const argv[]) { unsigned screen; for (screen = 0; screen <= max_osd_screen; ++screen) { unsigned x; unsigned y; unsigned charcount; unsigned len; u8 color; unsigned int k; char *text; int res; if (argc < 5) { cmd_usage(cmdtp); return 1; } x = simple_strtoul(argv[1], NULL, 16); y = simple_strtoul(argv[2], NULL, 16); color = simple_strtoul(argv[3], NULL, 16); text = argv[4]; charcount = strlen(text); len = (charcount > bufsize) ? bufsize : charcount; for (k = 0; k < len; ++k) buf[k] = (text[k] << 8) | color; res = osd_write_videomem(screen, y * base_width + x, buf, len); if (res < 0) return res; } return 0; } int osd_probe(unsigned screen) { u16 version; u16 features; int old_bus = i2c_get_bus_num(); bool pixclock_present = false; bool output_driver_present = false; FPGA_GET_REG(0, osd.version, &version); FPGA_GET_REG(0, osd.features, &features); base_width = ((features & 0x3f00) >> 8) + 1; base_height = (features & 0x001f) + 1; bufsize = base_width * base_height; buf = malloc(sizeof(u16) * bufsize); if (!buf) return -1; printf("OSD%d: Digital-OSD version %01d.%02d, %d" "x%d characters\n", screen, version/100, version%100, base_width, base_height); /* setup pixclock */ #ifdef CONFIG_SYS_MPC92469AC pixclock_present = true; mpc92469ac_set(screen, PIXCLK_640_480_60); #endif #ifdef CONFIG_SYS_ICS8N3QV01_I2C i2c_set_bus_num(ics8n3qv01_i2c[screen]); if (!i2c_probe(ICS8N3QV01_I2C_ADDR)) { ics8n3qv01_set(PIXCLK_640_480_60); pixclock_present = true; } #endif if (!pixclock_present) printf(" no pixelclock found\n"); /* setup output driver */ #ifdef CONFIG_SYS_CH7301_I2C if (!ch7301_probe(screen, true)) output_driver_present = true; #endif #ifdef CONFIG_SYS_SIL1178_I2C i2c_set_bus_num(sil1178_i2c[screen]); if (!i2c_probe(SIL1178_SLAVE_I2C_ADDRESS)) { if (i2c_reg_read(SIL1178_SLAVE_I2C_ADDRESS, 0x02) == 0x06) { /* * magic initialization sequence, * adapted from datasheet */ i2c_reg_write(SIL1178_SLAVE_I2C_ADDRESS, 0x08, 0x36); i2c_reg_write(SIL1178_MASTER_I2C_ADDRESS, 0x0f, 0x44); i2c_reg_write(SIL1178_MASTER_I2C_ADDRESS, 0x0f, 0x4c); i2c_reg_write(SIL1178_MASTER_I2C_ADDRESS, 0x0e, 0x10); i2c_reg_write(SIL1178_MASTER_I2C_ADDRESS, 0x0a, 0x80); i2c_reg_write(SIL1178_MASTER_I2C_ADDRESS, 0x09, 0x30); i2c_reg_write(SIL1178_MASTER_I2C_ADDRESS, 0x0c, 0x89); i2c_reg_write(SIL1178_MASTER_I2C_ADDRESS, 0x0d, 0x60); i2c_reg_write(SIL1178_MASTER_I2C_ADDRESS, 0x08, 0x36); i2c_reg_write(SIL1178_MASTER_I2C_ADDRESS, 0x08, 0x37); output_driver_present = true; } } #endif #ifdef CONFIG_SYS_DP501_I2C i2c_set_bus_num(dp501_i2c[screen]); if (!i2c_probe(DP501_I2C_ADDR)) { dp501_powerup(DP501_I2C_ADDR); output_driver_present = true; } #endif if (!output_driver_present) printf(" no output driver found\n"); FPGA_SET_REG(screen, osd.control, 0x0049); FPGA_SET_REG(screen, osd.xy_size, ((32 - 1) << 8) | (16 - 1)); FPGA_SET_REG(screen, osd.x_pos, 0x007f); FPGA_SET_REG(screen, osd.y_pos, 0x005f); if (screen > max_osd_screen) max_osd_screen = screen; i2c_set_bus_num(old_bus); return 0; } int osd_write(cmd_tbl_t *cmdtp, int flag, int argc, char * const argv[]) { unsigned screen; for (screen = 0; screen <= max_osd_screen; ++screen) { unsigned x; unsigned y; unsigned k; u16 buffer[base_width]; char *rp; u16 *wp = buffer; unsigned count = (argc > 4) ? simple_strtoul(argv[4], NULL, 16) : 1; if ((argc < 4) || (strlen(argv[3]) % 4)) { cmd_usage(cmdtp); return 1; } x = simple_strtoul(argv[1], NULL, 16); y = simple_strtoul(argv[2], NULL, 16); rp = argv[3]; while (*rp) { char substr[5]; memcpy(substr, rp, 4); substr[4] = 0; *wp = simple_strtoul(substr, NULL, 16); rp += 4; wp++; if (wp - buffer > base_width) break; } for (k = 0; k < count; ++k) { unsigned offset = y * base_width + x + k * (wp - buffer); osd_write_videomem(screen, offset, buffer, wp - buffer); } } return 0; } U_BOOT_CMD( osdw, 5, 0, osd_write, "write 16-bit hex encoded buffer to osd memory", "pos_x pos_y buffer count\n" ); U_BOOT_CMD( osdp, 5, 0, osd_print, "write ASCII buffer to osd memory", "pos_x pos_y color text\n" );