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author | Bertrik Sikken <bertrik@sikken.nl> | 2009-08-24 17:37:53 +0000 |
---|---|---|
committer | Bertrik Sikken <bertrik@sikken.nl> | 2009-08-24 17:37:53 +0000 |
commit | 400cd026f3267cff8b67d0bf0ab5f4645732cc5e (patch) | |
tree | b1422baebf25c072d5308bba44995ba87ce62eb7 | |
parent | 1747a33fcc9ceb8b78012d662086aeac51490812 (diff) | |
download | rockbox-400cd026f3267cff8b67d0bf0ab5f4645732cc5e.tar.gz rockbox-400cd026f3267cff8b67d0bf0ab5f4645732cc5e.zip |
Meizu M6SP: initial LCD driver (compiles but is untested)
git-svn-id: svn://svn.rockbox.org/rockbox/trunk@22500 a1c6a512-1295-4272-9138-f99709370657
-rw-r--r-- | firmware/target/arm/s5l8700/meizu-m6sp/lcd-m6sp.c | 514 |
1 files changed, 413 insertions, 101 deletions
diff --git a/firmware/target/arm/s5l8700/meizu-m6sp/lcd-m6sp.c b/firmware/target/arm/s5l8700/meizu-m6sp/lcd-m6sp.c index 1affab3b01..b6330406f2 100644 --- a/firmware/target/arm/s5l8700/meizu-m6sp/lcd-m6sp.c +++ b/firmware/target/arm/s5l8700/meizu-m6sp/lcd-m6sp.c @@ -7,7 +7,7 @@ * \/ \/ \/ \/ \/ * $Id$ * - * Copyright (C) 2002 by Alan Korr + * Copyright (C) 2009 Bertrik Sikken * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License @@ -18,118 +18,430 @@ * KIND, either express or implied. * ****************************************************************************/ -#include "config.h" + +#include <inttypes.h>
+
+#include "config.h"
+#include "s5l8700.h"
+#include "lcd.h"
+
+/* LCD driver for the Meizu M6 SP using the CLCD controller in the S5L8700 -#include "hwcompat.h" -#include "kernel.h" -#include "lcd.h" -#include "system.h" -#include "cpu.h" + The Meizu M6 SP can have two different LCDs, the S6D0139 and another + (yet unknown) type, the exact type is detected at run-time. -/*** definitions ***/ + Open issues: + * untested on actual hardware + * use 16-bit pixel format, currently pixels are converted to a 32-bit pixel + format in lcd_update_rect, that is not natively supported yet in Rockbox. + + */ +/* LCD SPI connections */
+#define LCD_SPI_SSn (1<<1) /* on PDAT7 */
+#define LCD_SPI_MISO (1<<2) /* on PDAT3 */
+#define LCD_SPI_MOSI (1<<6) /* on PDAT3 */
+#define LCD_SPI_SCLK (1<<7) /* on PDAT3 */
+
+#define LCD_TYPE1_ID 0x139 /* id for LCD type S6D0139 */
+
+static int lcd_type = 0; -/** globals **/ - -static int xoffset; /* needed for flip */ - -/*** hardware configuration ***/ - -int lcd_default_contrast(void) -{ - return 0x1f; -} - -void lcd_set_contrast(int val) -{ -} - -void lcd_set_invert_display(bool yesno) -{ -} - -/* turn the display upside down (call lcd_update() afterwards) */ -void lcd_set_flip(bool yesno) -{ - /* TODO: flip mode isn't working. The commands in the else part of - this function are how the original firmware inits the LCD */ - - if (yesno) - { - xoffset = 132 - LCD_WIDTH; /* 132 colums minus the 128 we have */ - } - else - { - xoffset = 0; - } -} - - -/* LCD init */ -void lcd_init_device(void) +/* local frame buffer, keeps pixels in 32-bit words in format 0x00RRGGBB */
+static uint32_t lcd_local_fb[LCD_HEIGHT][LCD_WIDTH];
+
+
+/* simple and crude delay */
+static void lcd_delay(int count)
+{
+ volatile int i;
+ for (i = 0; i < count; i++);
+}
+
+/* write 'data_out' of length 'bits' over SPI and return received data */
+static unsigned int lcd_spi_transfer(int bits, unsigned int data_out)
+{
+ unsigned int data_in = 0;
+
+ /* SSn active */
+ PDAT7 &= ~LCD_SPI_SSn;
+ lcd_delay(10);
+
+ /* send and receive data */
+ while (bits--) {
+ /* CLK low */
+ PDAT3 &= ~LCD_SPI_SCLK;
+
+ /* set MOSI */
+ if (data_out & (1 << bits)) {
+ PDAT3 |= LCD_SPI_MOSI;
+ }
+ else {
+ PDAT3 &= ~LCD_SPI_MOSI;
+ }
+
+ /* delay */
+ lcd_delay(10);
+
+ /* sample MISO */
+ data_in <<= 1;
+ if (PDAT3 & LCD_SPI_MISO) {
+ data_in |= 1;
+ }
+
+ /* CLK high */
+ PDAT3 |= LCD_SPI_SCLK;
+
+ /* delay */
+ lcd_delay(10);
+ }
+
+ /* SSn inactive */
+ PDAT7 |= LCD_SPI_SSn;
+ lcd_delay(10);
+
+ return data_in;
+}
+
+/* initialize the lcd SPI port interface */ +static void lcd_spi_init(void)
+{
+ /* configure SSn (P7.1) as output */
+ PCON7 = (PCON7 & ~0x000000F0) | 0x00000010;
+
+ /* configure MISO (P3.2) input, MOSI (P3.6) output, SCLK (P3.7) output */
+ PCON3 = (PCON3 & ~0xFF000F00) | 0x11000000;
+
+ /* set all outputs high */
+ PDAT7 |= LCD_SPI_SSn;
+ PDAT3 |= (LCD_SPI_MOSI | LCD_SPI_SCLK);
+}
+
+/* read LCD identification word over SPI */
+static unsigned int lcd_read_reg(unsigned reg)
+{
+ unsigned int data;
+
+ lcd_spi_transfer(24, (0x74 << 16) | reg); //0111.0100
+ data = lcd_spi_transfer(24, (0x77 << 16)); //0111.0111
+ return data & 0xFFFF;
+}
+
+/* write LCD register over SPI */
+static void lcd_write_reg(unsigned char reg, unsigned int data)
+{
+ lcd_spi_transfer(24, (0x74 << 16) | reg); //0111.0100
+ lcd_spi_transfer(24, (0x76 << 16) | data); //0111.0110
+}
+
+/* enable/disable clock signals towards the lcd */
+static void lcd_controller_power(bool on)
{ -} + if (on) {
+ LCDCON1 |= 0x80003;
+ }
+ else {
+ LCDCON1 &= ~0x80003;
+ }
+}
+
+/* lcd init configuration for lcd type 1 */
+static void lcd_init1(void)
+{
+ lcd_write_reg(0x07, 0x0000); /* display control */
+ lcd_write_reg(0x13, 0x0000); /* power control 3 */
+ lcd_delay(166670);
+
+ lcd_write_reg(0x11, 0x3304); /* power control 2 */
+ lcd_write_reg(0x14, 0x1300); /* power control 4 */
+ lcd_write_reg(0x10, 0x1A20); /* power control 1 */
+ lcd_write_reg(0x13, 0x0040); /* power control 3 */
+ lcd_delay(833350);
+
+ lcd_write_reg(0x13, 0x0060); /* power control 3 */
+ lcd_write_reg(0x13, 0x0070); /* power control 3 */
+ lcd_delay(3333400);
+
+ lcd_write_reg(0x01, 0x0127); /* driver output control */
+ lcd_write_reg(0x02, 0x0700); /* lcd driving waveform control */
+ lcd_write_reg(0x03, 0x1030); /* entry mode */
+ lcd_write_reg(0x08, 0x0208); /* blank period control 1 */
+ lcd_write_reg(0x0B, 0x0620); /* frame cycle control */
+ lcd_write_reg(0x0C, 0x0110); /* external interface control */
+ lcd_write_reg(0x30, 0x0120); /* gamma control 1 */
+ lcd_write_reg(0x31, 0x0117); /* gamma control 2 */
+ lcd_write_reg(0x32, 0x0000); /* gamma control 3 */
+ lcd_write_reg(0x33, 0x0305); /* gamma control 4 */
+ lcd_write_reg(0x34, 0x0717); /* gamma control 5 */
+ lcd_write_reg(0x35, 0x0124); /* gamma control 6 */
+ lcd_write_reg(0x36, 0x0706); /* gamma control 7 */
+ lcd_write_reg(0x37, 0x0503); /* gamma control 8 */
+ lcd_write_reg(0x38, 0x1F03); /* gamma control 9 */
+ lcd_write_reg(0x39, 0x0009); /* gamma control 10 */
+ lcd_write_reg(0x40, 0x0000); /* gate scan position */
+ lcd_write_reg(0x41, 0x0000); /* vertical scroll control */
+ lcd_write_reg(0x42, 0x013F); /* 1st screen driving position (end) */
+ lcd_write_reg(0x43, 0x0000); /* 1st screen driving position (start) */
+ lcd_write_reg(0x44, 0x013F); /* 2nd screen driving position (end) */
+ lcd_write_reg(0x45, 0x0000); /* 2nd screen driving position (start) */
+ lcd_write_reg(0x46, 0xEF00); /* horizontal window address */
+ lcd_write_reg(0x47, 0x013F); /* vertical window address (end) */
+ lcd_write_reg(0x48, 0x0000); /* vertical window address (start) */
+
+ lcd_write_reg(0x07, 0x0015); /* display control */
+ lcd_delay(500000);
+ lcd_write_reg(0x07, 0x0017); /* display control */
+
+ lcd_write_reg(0x20, 0x0000); /* RAM address set (low part) */
+ lcd_write_reg(0x21, 0x0000); /* RAM address set (high part) */
+ lcd_write_reg(0x22, 0x0000); /* write data to GRAM */
+}
+
+/* lcd init configuration for lcd type 2 */
+static void lcd_init2(void)
+{
+ lcd_write_reg(0x07, 0x0000);
+ lcd_write_reg(0x12, 0x0000);
+ lcd_delay(166670);
+
+ lcd_write_reg(0x11, 0x000C);
+ lcd_write_reg(0x12, 0x0A1C);
+ lcd_write_reg(0x13, 0x0022);
+ lcd_write_reg(0x14, 0x0000);
+
+ lcd_write_reg(0x10, 0x7404);
+ lcd_write_reg(0x11, 0x0738);
+ lcd_write_reg(0x10, 0x7404);
+ lcd_delay(833350);
+
+ lcd_write_reg(0x07, 0x0009);
+ lcd_write_reg(0x12, 0x065C);
+ lcd_delay(3333400);
+
+ lcd_write_reg(0x01, 0xE127);
+ lcd_write_reg(0x02, 0x0300);
+ lcd_write_reg(0x03, 0x1100);
+ lcd_write_reg(0x08, 0x0008);
+ lcd_write_reg(0x0B, 0x0000);
+ lcd_write_reg(0x0C, 0x0000);
+ lcd_write_reg(0x0D, 0x0007);
+ lcd_write_reg(0x15, 0x0003);
+
+ lcd_write_reg(0x16, 0x0014);
+ lcd_write_reg(0x17, 0x0000);
+ lcd_write_reg(0x30, 0x0503);
+ lcd_write_reg(0x31, 0x0303);
+ lcd_write_reg(0x32, 0x0305);
+ lcd_write_reg(0x33, 0x0202);
+ lcd_write_reg(0x34, 0x0204);
+ lcd_write_reg(0x35, 0x0404);
+ lcd_write_reg(0x36, 0x0402);
+ lcd_write_reg(0x37, 0x0202);
+ lcd_write_reg(0x38, 0x1000);
+ lcd_write_reg(0x39, 0x1000);
+
+ lcd_write_reg(0x07, 0x0009);
+ lcd_delay(666680);
+
+ lcd_write_reg(0x07, 0x0109);
+ lcd_delay(666680);
+
+ lcd_write_reg(0x07, 0x010B);
+}
+
+/* lcd enable for lcd type 1 */
+static void lcd_enable1(bool on)
+{
+ if (on) {
+ lcd_write_reg(0x00, 0x0001); /* start oscillation */
+ lcd_delay(166670);
+ lcd_write_reg(0x10, 0x0000); /* power control 1 */
+ lcd_delay(166670);
+
+ lcd_write_reg(0x11, 0x3304); /* power control 2 */
+ lcd_write_reg(0x14, 0x1300); /* power control 4 */
+ lcd_write_reg(0x10, 0x1A20); /* power control 1 */
+ lcd_write_reg(0x07, 0x0015); /* display control */
+ lcd_delay(500000);
+
+ lcd_write_reg(0x20, 0x0000); /* RAM address set (low part) */
+ lcd_write_reg(0x21, 0x0000); /* RAM address set (high part) */
+ lcd_write_reg(0x22, 0x0000); /* write data to GRAM */
+ }
+ else {
+ lcd_write_reg(0x07, 0x0016); /* display control */
+ lcd_delay(166670 * 4);
+ lcd_write_reg(0x07, 0x0004); /* display control */
+ lcd_delay(166670 * 4);
+
+ lcd_write_reg(0x10, 0x1E21); /* power control 1 */
+ lcd_delay(166670);
+ }
+}
+
+/* lcd enable for lcd type 2 */
+static void lcd_enable2(bool on)
+{
+ if (on) {
+ lcd_write_reg(0x10, 0x0400);
+ lcd_delay(666680);
+
+ lcd_write_reg(0x07, 0x0000);
+ lcd_write_reg(0x12, 0x0000);
+ lcd_delay(166670);
+
+ lcd_write_reg(0x11, 0x000C);
+ lcd_write_reg(0x12, 0x0A1C);
+ lcd_write_reg(0x13, 0x0022);
+ lcd_write_reg(0x14, 0x0000);
+ lcd_write_reg(0x10, 0x7404);
+ lcd_delay(833350);
+
+ lcd_write_reg(0x07, 0x0009);
+ lcd_write_reg(0x12, 0x065C);
+ lcd_delay(3333400);
+
+ lcd_write_reg(0x0B, 0x0000);
+ lcd_write_reg(0x07, 0x0009);
+ lcd_delay(666680);
+
+ lcd_write_reg(0x07, 0x0109);
+ lcd_delay(666680);
+
+ lcd_write_reg(0x07, 0x010B);
+ }
+ else {
+ lcd_write_reg(0x0B, 0x0000);
+ lcd_write_reg(0x07, 0x0009);
+ lcd_delay(666680);
+
+ lcd_write_reg(0x07, 0x0008);
+ lcd_delay(666680);
+
+ lcd_write_reg(0x10, 0x0400);
+ lcd_write_reg(0x10, 0x0401);
+ lcd_delay(166670);
+ }
+}
+
+/* turn both the lcd controller and the lcd itself on or off */
+void lcd_enable(bool on)
+{
+ if (on) {
+ /* enable controller clock */
+ PWRCON &= ~(1 << 18);
+
+ lcd_controller_power(true);
+ lcd_delay(166670);
+ }
+
+ /* call type specific power function */
+ if (lcd_type == 1) {
+ lcd_enable1(on);
+ }
+ else {
+ lcd_enable2(on);
+ }
+
+ if (!on) {
+ lcd_controller_power(false);
+
+ /* disable controller clock */
+ PWRCON |= (1 << 18);
+ }
+}
-/*** Update functions ***/ +/* initialise the lcd controller inside the s5l8700 */
+static void lcd_controller_init(void)
+{
+ PWRCON &= ~(1 << 18);
+
+ LCDCON1 = 0x991DC;
+ LCDCON2 = 0xE8;
+ LCDTCON1 = (lcd_type == 1) ? 0x70103 : 0x30303;
+ LCDTCON2 = (lcd_type == 1) ? 0x70103 : 0x30703;
+ LCDTCON3 = 0x9F8EF;
+ LCDOSD1 = 0;
+ LCDOSD2 = 0;
+ LCDOSD3 = 0;
+ LCDB1SADDR1 = 0;
+ LCDB2SADDR1 = 0;
+ LCDF1SADDR1 = 0;
+ LCDF2SADDR1 = 0;
+ LCDB1SADDR2 = 0;
+ LCDB2SADDR2 = 0;
+ LCDF1SADDR2 = 0;
+ LCDF2SADDR2 = 0;
+ LCDB1SADDR3 = 0;
+ LCDB2SADDR3 = 0;
+ LCDF1SADDR3 = 0;
+ LCDF2SADDR3 = 0;
+ LCDKEYCON = 0;
+ LCDCOLVAL = 0;
+ LCDBGCON = 0;
+ LCDFGCON = 0;
+ LCDDITHMODE = 0;
+
+ LCDINTCON = 0;
+}
+
+void lcd_init_device(void)
+{
+ unsigned int lcd_id;
+
+ /* configure LCD SPI pins */
+ lcd_spi_init();
+
+ /* identify display through SPI */
+ lcd_id = lcd_read_reg(0);
+ lcd_type = (lcd_id == LCD_TYPE1_ID) ? 1 : 2;
+
+ /* configure LCD pins */
+ PCON_ASRAM = 1;
+
+ /* init LCD controller */
+ lcd_controller_init();
+
+ /* display specific init sequence */
+ if (lcd_type == 1) {
+ lcd_init1();
+ }
+ else {
+ lcd_init2();
+ }
+
+ /* set active background buffer */
+ LCDCON1 &= ~(1 << 21); /* clear BDBCON */
+
+ /* set background buffer address */
+ LCDB1SADDR1 = (uint32_t) &lcd_local_fb[0][0];
+ LCDB1SADDR2 = (uint32_t) &lcd_local_fb[LCD_HEIGHT][0];
+
+ lcd_enable(true);
+}
-/* Performance function that works with an external buffer - note that by and bheight are in 8-pixel units! */ -void lcd_blit_mono(const unsigned char *data, int x, int by, int width, - int bheight, int stride) +void lcd_update_rect(int x, int y, int width, int height) { - /* Copy display bitmap to hardware */ - while (bheight--) - { + fb_data *src; + uint32_t *dst; + fb_data pixel; + int h, w; + + for (h = 0; h < height; h++) { + src = &lcd_framebuffer[y][x]; + dst = &lcd_local_fb[y][x]; + for (w = 0; w < width; w++) { + pixel = src[w]; + dst[w] = (RGB_UNPACK_RED(pixel) << 16) | + (RGB_UNPACK_GREEN(pixel) << 8) | + (RGB_UNPACK_BLUE(pixel) << 0); + } + y++; } } - -/* Performance function that works with an external buffer - note that by and bheight are in 8-pixel units! */ -void lcd_blit_grey_phase_blit(unsigned char *values, unsigned char *phases, - int x, int by, int width, int bheight, int stride) -{ - (void)values; - (void)phases; - (void)x; - (void)by; - (void)width; - (void)bheight; - (void)stride; -} - -/* Update the display. - This must be called after all other LCD functions that change the display. */ -void lcd_update(void) ICODE_ATTR; void lcd_update(void) { - int y; - - /* Copy display bitmap to hardware */ - for (y = 0; y < LCD_FBHEIGHT; y++) - { - } + lcd_update_rect(0, 0, LCD_WIDTH, LCD_HEIGHT); } -/* Update a fraction of the display. */ -void lcd_update_rect(int, int, int, int) ICODE_ATTR; -void lcd_update_rect(int x, int y, int width, int height) -{ - int ymax; - - /* The Y coordinates have to work on even 8 pixel rows */ - ymax = (y + height-1) >> 3; - y >>= 3; - - if(x + width > LCD_WIDTH) - width = LCD_WIDTH - x; - if (width <= 0) - return; /* nothing left to do, 0 is harmful to lcd_write_data() */ - if(ymax >= LCD_FBHEIGHT) - ymax = LCD_FBHEIGHT-1; - - /* Copy specified rectange bitmap to hardware */ - for (; y <= ymax; y++) - { - } -} |