/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include #include #include #include #include static unsigned int mtk_dsi_get_bits_per_pixel(u32 format) { switch (format) { case MIPI_DSI_FMT_RGB565: return 16; case MIPI_DSI_FMT_RGB666_PACKED: return 18; case MIPI_DSI_FMT_RGB666: case MIPI_DSI_FMT_RGB888: return 24; } printk(BIOS_WARNING, "%s: WARN: Unknown format %d, assuming 24 bpp\n", __func__, format); return 24; } static u32 mtk_dsi_get_data_rate(u32 bits_per_pixel, u32 lanes, const struct edid *edid) { /* data_rate = pixel_clock * bits_per_pixel * mipi_ratio / lanes * Note pixel_clock comes in kHz and returned data_rate is in bps. * mipi_ratio is the clk coefficient to balance the pixel clk in MIPI * for older platforms which do not have complete implementation in HFP. * Newer platforms should just set that to 1.0 (100 / 100). */ u32 data_rate = DIV_ROUND_UP((u64)edid->mode.pixel_clock * bits_per_pixel * 1000 * MTK_DSI_MIPI_RATIO_NUMERATOR, (u64)lanes * MTK_DSI_MIPI_RATIO_DENOMINATOR); printk(BIOS_INFO, "DSI data_rate: %u bps\n", data_rate); if (data_rate < MTK_DSI_DATA_RATE_MIN_MHZ * MHz) { printk(BIOS_ERR, "data rate (%ubps) must be >= %ubps. " "Please check the pixel clock (%u), " "bits per pixel (%u), " "mipi_ratio (%d%%) and number of lanes (%d)\n", data_rate, MTK_DSI_DATA_RATE_MIN_MHZ * MHz, edid->mode.pixel_clock, bits_per_pixel, (100 * MTK_DSI_MIPI_RATIO_NUMERATOR / MTK_DSI_MIPI_RATIO_DENOMINATOR), lanes); return 0; } return data_rate; } __weak void mtk_dsi_override_phy_timing(struct mtk_phy_timing *timing) { /* Do nothing. */ } static void mtk_dsi_phy_timing(u32 data_rate, struct mtk_phy_timing *timing) { u32 timcon0, timcon1, timcon2, timcon3; u32 data_rate_mhz = DIV_ROUND_UP(data_rate, MHz); memset(timing, 0, sizeof(*timing)); timing->lpx = (60 * data_rate_mhz / (8 * 1000)) + 1; timing->da_hs_prepare = (80 * data_rate_mhz + 4 * 1000) / 8000; timing->da_hs_zero = (170 * data_rate_mhz + 10 * 1000) / 8000 + 1 - timing->da_hs_prepare; timing->da_hs_trail = timing->da_hs_prepare + 1; timing->ta_go = 4 * timing->lpx - 2; timing->ta_sure = timing->lpx + 2; timing->ta_get = 4 * timing->lpx; timing->da_hs_exit = 2 * timing->lpx + 1; timing->da_hs_sync = 1; timing->clk_hs_prepare = 70 * data_rate_mhz / (8 * 1000); timing->clk_hs_post = timing->clk_hs_prepare + 8; timing->clk_hs_trail = timing->clk_hs_prepare; timing->clk_hs_zero = timing->clk_hs_trail * 4; timing->clk_hs_exit = 2 * timing->clk_hs_trail; /* Allow board-specific tuning. */ mtk_dsi_override_phy_timing(timing); timcon0 = timing->lpx | timing->da_hs_prepare << 8 | timing->da_hs_zero << 16 | timing->da_hs_trail << 24; timcon1 = timing->ta_go | timing->ta_sure << 8 | timing->ta_get << 16 | timing->da_hs_exit << 24; timcon2 = timing->da_hs_sync << 8 | timing->clk_hs_zero << 16 | timing->clk_hs_trail << 24; timcon3 = timing->clk_hs_prepare | timing->clk_hs_post << 8 | timing->clk_hs_exit << 16; write32(&dsi0->dsi_phy_timecon0, timcon0); write32(&dsi0->dsi_phy_timecon1, timcon1); write32(&dsi0->dsi_phy_timecon2, timcon2); write32(&dsi0->dsi_phy_timecon3, timcon3); } static void mtk_dsi_clk_hs_mode_enable(void) { setbits32(&dsi0->dsi_phy_lccon, LC_HS_TX_EN); } static void mtk_dsi_clk_hs_mode_disable(void) { clrbits32(&dsi0->dsi_phy_lccon, LC_HS_TX_EN); } static void mtk_dsi_set_mode(u32 mode_flags) { u32 tmp_reg1 = 0; if (mode_flags & MIPI_DSI_MODE_VIDEO) { tmp_reg1 = SYNC_PULSE_MODE; if (mode_flags & MIPI_DSI_MODE_VIDEO_BURST) tmp_reg1 = BURST_MODE; if (mode_flags & MIPI_DSI_MODE_VIDEO_SYNC_PULSE) tmp_reg1 = SYNC_PULSE_MODE; } write32(&dsi0->dsi_mode_ctrl, tmp_reg1); } static void mtk_dsi_rxtx_control(u32 mode_flags, u32 lanes) { u32 tmp_reg = 0; switch (lanes) { case 1: tmp_reg = 1 << 2; break; case 2: tmp_reg = 3 << 2; break; case 3: tmp_reg = 7 << 2; break; case 4: default: tmp_reg = 0xf << 2; break; } tmp_reg |= (mode_flags & MIPI_DSI_CLOCK_NON_CONTINUOUS) << 6; tmp_reg |= (mode_flags & MIPI_DSI_MODE_EOT_PACKET) >> 3; write32(&dsi0->dsi_txrx_ctrl, tmp_reg); } static void mtk_dsi_config_vdo_timing(u32 mode_flags, u32 format, u32 lanes, const struct edid *edid, const struct mtk_phy_timing *phy_timing) { u32 hsync_active_byte; u32 hbp; u32 hfp; u32 hbp_byte; u32 hfp_byte; u32 vbp_byte; u32 vfp_byte; u32 bytes_per_pixel; u32 packet_fmt; u32 hactive; u32 data_phy_cycles; bytes_per_pixel = DIV_ROUND_UP(mtk_dsi_get_bits_per_pixel(format), 8); vbp_byte = edid->mode.vbl - edid->mode.vso - edid->mode.vspw - edid->mode.vborder; vfp_byte = edid->mode.vso - edid->mode.vborder; write32(&dsi0->dsi_vsa_nl, edid->mode.vspw); write32(&dsi0->dsi_vbp_nl, vbp_byte); write32(&dsi0->dsi_vfp_nl, vfp_byte); write32(&dsi0->dsi_vact_nl, edid->mode.va); hsync_active_byte = edid->mode.hspw * bytes_per_pixel - 10; hbp = edid->mode.hbl - edid->mode.hso - edid->mode.hspw - edid->mode.hborder; hfp = edid->mode.hso - edid->mode.hborder; if (mode_flags & MIPI_DSI_MODE_VIDEO_SYNC_PULSE) hbp_byte = hbp * bytes_per_pixel - 10; else hbp_byte = (hbp + edid->mode.hspw) * bytes_per_pixel - 10; hfp_byte = hfp * bytes_per_pixel; data_phy_cycles = phy_timing->lpx + phy_timing->da_hs_prepare + phy_timing->da_hs_zero + phy_timing->da_hs_exit + 3; u32 delta = 12; if (mode_flags & MIPI_DSI_MODE_VIDEO_BURST) delta += 6; u32 d_phy = phy_timing->d_phy; if (d_phy == 0) d_phy = data_phy_cycles * lanes + delta; if ((hfp + hbp) * bytes_per_pixel > d_phy) { hfp_byte -= d_phy * hfp / (hfp + hbp); hbp_byte -= d_phy * hbp / (hfp + hbp); } else { printk(BIOS_ERR, "HFP plus HBP is not greater than d_phy, " "the panel may not work properly.\n"); } write32(&dsi0->dsi_hsa_wc, hsync_active_byte); write32(&dsi0->dsi_hbp_wc, hbp_byte); write32(&dsi0->dsi_hfp_wc, hfp_byte); switch (format) { case MIPI_DSI_FMT_RGB888: packet_fmt = PACKED_PS_24BIT_RGB888; break; case MIPI_DSI_FMT_RGB666: packet_fmt = LOOSELY_PS_18BIT_RGB666; break; case MIPI_DSI_FMT_RGB666_PACKED: packet_fmt = PACKED_PS_18BIT_RGB666; break; case MIPI_DSI_FMT_RGB565: packet_fmt = PACKED_PS_16BIT_RGB565; break; default: packet_fmt = PACKED_PS_24BIT_RGB888; break; } hactive = edid->mode.ha; packet_fmt |= (hactive * bytes_per_pixel) & DSI_PS_WC; write32(&dsi0->dsi_psctrl, PIXEL_STREAM_CUSTOM_HEADER << DSI_PSCON_CUSTOM_HEADER_SHIFT | packet_fmt); /* Older systems like MT8173 do not support size_con. */ if (MTK_DSI_HAVE_SIZE_CON) write32(&dsi0->dsi_size_con, edid->mode.va << DSI_SIZE_CON_HEIGHT_SHIFT | hactive << DSI_SIZE_CON_WIDTH_SHIFT); } static void mtk_dsi_start(void) { write32(&dsi0->dsi_start, 0); /* Only start master DSI */ write32(&dsi0->dsi_start, 1); } static bool mtk_dsi_is_read_command(u32 type) { switch (type) { case MIPI_DSI_GENERIC_READ_REQUEST_0_PARAM: case MIPI_DSI_GENERIC_READ_REQUEST_1_PARAM: case MIPI_DSI_GENERIC_READ_REQUEST_2_PARAM: case MIPI_DSI_DCS_READ: return true; } return false; } static void mtk_dsi_cmdq(const u8 *data, u8 len, u32 type) { const u8 *tx_buf = data; u32 config; int i, j; if (!wait_ms(20, !(read32(&dsi0->dsi_intsta) & DSI_BUSY))) { printk(BIOS_ERR, "%s: cannot get DSI ready for sending commands" " after 20ms and the panel may not work properly.\n", __func__); return; } write32(&dsi0->dsi_intsta, 0); if (mtk_dsi_is_read_command(type)) config = BTA; else config = (len > 2) ? LONG_PACKET : SHORT_PACKET; if (len <= 2) { uint32_t val = (type << 8) | config; for (i = 0; i < len; i++) val |= tx_buf[i] << (i + 2) * 8; write32(&dsi0->dsi_cmdq[0], val); write32(&dsi0->dsi_cmdq_size, 1); } else { /* TODO(hungte) Replace by buffer_to_fifo32_prefix */ write32(&dsi0->dsi_cmdq[0], (len << 16) | (type << 8) | config); for (i = 0; i < len; i += 4) { uint32_t val = 0; for (j = 0; j < MIN(len - i, 4); j++) val |= tx_buf[i + j] << j * 8; write32(&dsi0->dsi_cmdq[i / 4 + 1], val); } write32(&dsi0->dsi_cmdq_size, 1 + DIV_ROUND_UP(len, 4)); } mtk_dsi_start(); if (!wait_us(400, read32(&dsi0->dsi_intsta) & CMD_DONE_INT_FLAG)) { printk(BIOS_ERR, "%s: failed sending DSI command, " "panel may not work.\n", __func__); return; } } static void mtk_dsi_send_init_commands(const u8 *buf) { if (!buf) return; const struct lcm_init_command *init = (const void *)buf; /* * The given commands should be in a buffer containing a packed array of * lcm_init_command and each element may be in variable size so we have * to parse and scan. */ for (; init->cmd != LCM_END_CMD; init = (const void *)buf) { /* * For some commands like DELAY, the init->len should not be * counted for buf. */ buf += sizeof(*init); u32 cmd = init->cmd, len = init->len; u32 type; switch (cmd) { case LCM_DELAY_CMD: mdelay(len); continue; case LCM_DCS_CMD: switch (len) { case 0: return; case 1: type = MIPI_DSI_DCS_SHORT_WRITE; break; case 2: type = MIPI_DSI_DCS_SHORT_WRITE_PARAM; break; default: type = MIPI_DSI_DCS_LONG_WRITE; break; } break; case LCM_GENERIC_CMD: switch (len) { case 0: type = MIPI_DSI_GENERIC_SHORT_WRITE_0_PARAM; break; case 1: type = MIPI_DSI_GENERIC_SHORT_WRITE_1_PARAM; break; case 2: type = MIPI_DSI_GENERIC_SHORT_WRITE_2_PARAM; break; default: type = MIPI_DSI_GENERIC_LONG_WRITE; break; } break; default: printk(BIOS_ERR, "%s: Unknown cmd: %d, " "abort panel initialization.\n", __func__, cmd); return; } buf += len; mtk_dsi_cmdq(init->data, len, type); } } static void mtk_dsi_reset_dphy(void) { setbits32(&dsi0->dsi_con_ctrl, DPHY_RESET); clrbits32(&dsi0->dsi_con_ctrl, DPHY_RESET); } int mtk_dsi_init(u32 mode_flags, u32 format, u32 lanes, const struct edid *edid, const u8 *init_commands) { u32 data_rate; u32 bits_per_pixel = mtk_dsi_get_bits_per_pixel(format); data_rate = mtk_dsi_get_data_rate(bits_per_pixel, lanes, edid); if (!data_rate) return -1; mtk_dsi_configure_mipi_tx(data_rate, lanes); mtk_dsi_reset(); struct mtk_phy_timing phy_timing; mtk_dsi_phy_timing(data_rate, &phy_timing); mtk_dsi_rxtx_control(mode_flags, lanes); mdelay(1); mtk_dsi_reset_dphy(); mtk_dsi_clk_hs_mode_disable(); mtk_dsi_config_vdo_timing(mode_flags, format, lanes, edid, &phy_timing); mtk_dsi_clk_hs_mode_enable(); mtk_dsi_send_init_commands(init_commands); mtk_dsi_set_mode(mode_flags); mtk_dsi_start(); return 0; }