建设工程交流网站,网络seo是什么意思,wordpress 的前端框架,东莞免费做网站#x1f347; 博主主页#xff1a; 【Systemcall小酒屋】#x1f347; 博主追寻#xff1a;热衷于用简单的案例讲述复杂的技术#xff0c;“假传万卷书#xff0c;真传一案例”#xff0c;这是林群院士说过的一句话#xff0c;另外“成就是最好的老师”#xff0c;技术… 博主主页 【Systemcall小酒屋】 博主追寻热衷于用简单的案例讲述复杂的技术“假传万卷书真传一案例”这是林群院士说过的一句话另外“成就是最好的老师”技术既要沉淀也得分享成就感的正反馈是支持我持续耕耘的动力 专栏目录 【Firefly-RK356x板卡】 专栏说明基于Firefly旗下的RK356x板卡进行入门篇讲述欢迎订阅博主会持续更新 文章目录一、内核Config配置二、MIPI配置2.1 引脚配置2.2 背光配置2.3 显示时序配置2.3.1 Power on/off sequence2.3.2 Display-Timings三、EDP配置3.1 引脚配置3.2 EDP背光配置一、内核Config配置
ROC-RK3568-PC的SDK下kernel/arch/arm64/configs/firefly_defconfig已经把LCD相关的配置好
CONFIG_DRM_ROCKCHIPy
CONFIG_ROCKCHIP_DW_MIPI_DSIy
CONFIG_DRM_PANEL_SIMPLEy二、MIPI配置
ROC-RK3568-PC的SDK有MIPI DSI的DTS文件 kernel/arch/arm64/boot/dts/rockchip/rk3568-firefly-roc-pc-mipi101_M101014_BE45_A1.dts此DTS文件为MIPI_DSI0HDMI屏配置MIPI_DSI1 默认关闭。
2.1 引脚配置
从DTS文件中可以看到以下语句
#include rk3568-firefly-roc-pc.dtsi/ {model ROC-RK3568-PC MIPI M101014_BE45_A1 HDMI(Android);compatible rockchip,rk3568-firefly-roc-pc-mipi, rockchip,rk3568;...
}route_dsi0 {status okay;logo,rotation logo_rotation_270; //support rotation 90,180,270connect vp1_out_dsi0;
};video_phy0 {status okay;
};dsi0_in_vp0 {status disabled;
};dsi0_in_vp1 {status okay;
};/** mipi_dphy0 needs to be enabled* when dsi0 is enabled*/
dsi0 {status okay;//rockchip,lane-rate 1000;dsi0_panel: panel0 {status okay;compatible simple-panel-dsi;reg 0;backlight backlight;enable-gpios gpio0 RK_PC7 GPIO_ACTIVE_HIGH;reset-gpios gpio3 RK_PB5 GPIO_ACTIVE_LOW;enable-delay-ms 35;prepare-delay-ms 6;reset-delay-ms 25;init-delay-ms 55;unprepare-delay-ms 0;disable-delay-ms 20;mipi-data-delay-ms 200;...panel-init-sequence [//39 00 04 B9 83 10 2E// 15 00 02 CF FF05 78 01 1105 32 01 29//15 00 02 35 00];panel-exit-sequence [05 00 01 2805 00 01 10];...};
};
...
route_hdmi {status okay;connect vp0_out_hdmi;
};hdmi {status okay;
};hdmi_in_vp0 {status okay;
};hdmi_in_vp1 {status disabled;
};
...这里定义了LCD的控制引脚
NAMEGPIOGPIO ACTIVELCD_ENGPIO0_C7GPIO_ACTIVE_HIGHLCD_RSTGPIO3_B5GPIO_ACTIVE_LOW
在硬件信号上 LCD_EN 引脚高电平有效而 LCD_RST 引脚是低电平有效。
2.2 背光配置
在DTS文件中配置了背光信息如下 backlight: backlight {status okay;compatible pwm-backlight;enable-gpios gpio3 RK_PB0 GPIO_ACTIVE_HIGH;pwms pwm4 0 50000 1;brightness-levels 60 60 60 61 61 61 62 6262 63 63 63 64 64 64 6565 65 66 66 66 67 67 6768 68 68 69 69 69 70 7070 71 71 71 72 72 72 7373 73 74 74 74 75 75 7576 76 76 77 77 77 78 7878 79 79 79 80 80 80 8181 81 82 82 82 83 83 8384 84 84 85 85 85 86 8686 87 87 87 88 88 88 8989 89 90 91 92 93 94 9596 97 98 99 100 101 102 103104 105 106 107 108 109 110 111112 113 114 115 116 117 118 119120 121 122 123 124 125 126 127128 129 130 131 132 133 134 135136 137 138 139 140 141 142 143144 145 146 147 148 149 150 151152 153 154 155 156 157 158 159160 161 162 163 164 165 166 167168 169 170 171 172 173 174 175176 177 178 179 180 181 182 183184 185 186 187 188 189 190 191192 193 194 195 196 197 198 199200 201 202 203 204 205 206 207208 209 210 211 212 213 214 215216 217 218 219 220 221 222 223224 225 226 227 228 229 230 231232 233 234 235 236 237 238 239240 241 242 243 244 245 246 247248 249 250 251 252 253 254 255;default-brightness-level 200;};enable-gpios背光使能脚高电平有效。 pwms属性配置PWM范例里面默认使用pwm450000ns是周期(20 KHz)pwm为负极性。 brightness-levels属性配置背光亮度数组一般以值 255 为一个 scale当 PWM 设置为正极性时从 0~255 表示背光为正极占空比从 0%~100% 变化255~0 为负极性占空比从 100%~0% 变化当 PWM 设置为负极性时反之。 default-brightness-level属性开机时默认背光亮度范围为0-255。
具体可参考kernel中的说明文档kernel/Documentation/devicetree/bindings/leds/backlight/pwm-backlight.txt
2.3 显示时序配置
2.3.1 Power on/off sequence
MIPI屏的上下电时序通常都在规格书的Power on/off sequence章节中可根据规格书的上下电时序修改dtspanel节点中有如下属性:
dsi0 {status okay;//rockchip,lane-rate 1000;dsi0_panel: panel0 {status okay;compatible simple-panel-dsi;...enable-delay-ms 35;prepare-delay-ms 6;reset-delay-ms 25;init-delay-ms 55;unprepare-delay-ms 0;disable-delay-ms 20;mipi-data-delay-ms 200;...};
};mipi-data-delay-ms为Firefly 10.1寸 M101014-BE45-A1 MIPI屏所需时序调试屏幕时可根据本身上下电时序是否需要再配置此属性。MIPI上下电后需要发送初始化或退出指令才能使之正常工作初始化和退出指令列表可以参考kernel/arch/arm64/boot/dts/rockchip/rk3568-firefly-roc-pc-mipi101_CZNB101862T.dts列表如下
dsi0 {status okay;//rockchip,lane-rate 1000;dsi0_panel: panel0 {...panel-init-sequence [15 00 02 E0 0015 00 02 E1 9315 00 02 E2 6515 00 02 E3 F815 00 02 E0 0415 00 02 2D 03 15 00 02 E0 0015 00 02 80 03 //15 00 02 4A 35 15 00 02 E0 0115 00 02 00 00 15 00 02 E0 0115 00 02 4B 04//15 00 02 4A 35 15 00 02 00 0015 00 02 01 66//15 00 02 03 00 //15 00 02 04 6D15 00 02 17 00 15 00 02 18 AF15 00 02 19 01...];panel-exit-sequence [05 05 01 2805 78 01 10];};
};dts中的init-sequence和panel-exit-sequence只是配置了上电和下电指令, 其他的初始化指令已经烧录在M101014-BE45-A1这款MIPI屏的IC里dts无需配置。接下来来看看上下电时序在驱动中的实现 具体实现在kernel/drivers/gpu/drm/panel/panel-simple.c中
static int panel_simple_disable(struct drm_panel *panel)
{...if (p-backlight) {p-backlight-props.power FB_BLANK_POWERDOWN;p-backlight-props.state | BL_CORE_FBBLANK;backlight_update_status(p-backlight);}if (p-desc-delay.disable)panel_simple_sleep(p-desc-delay.disable);if (p-cmd_type CMD_TYPE_MCU) {err panel_simple_xfer_mcu_cmd_seq(p, p-desc-exit_seq);if (err)dev_err(panel-dev, failed to send exit cmds seq\n);}...
}static int panel_simple_unprepare(struct drm_panel *panel)
{...if (p-desc-exit_seq) {if (p-dsi)panel_simple_xfer_dsi_cmd_seq(p, p-desc-exit_seq);else if (p-cmd_type CMD_TYPE_SPI)err panel_simple_xfer_spi_cmd_seq(p, p-desc-exit_seq);if (err)dev_err(panel-dev, failed to send exit cmds seq\n);}gpiod_direction_output(p-reset_gpio, 1);if(!p-enable_on_always){gpiod_direction_output(p-enable_gpio, 0);}...
}static int panel_simple_prepare(struct drm_panel *panel)
{...gpiod_direction_output(p-enable_gpio, 1);if (p-desc-delay.prepare)panel_simple_sleep(p-desc-delay.prepare);...gpiod_direction_output(p-reset_gpio, 1);if (p-desc-delay.reset)panel_simple_sleep(p-desc-delay.reset);gpiod_direction_output(p-reset_gpio, 0); //由于驱动在控制reset脚时序的时候使用了gpiod这类的API//如果在DTS配置了低电平有效那么这里就会将reset引脚拉高即取反。if (p-desc-delay.init)panel_simple_sleep(p-desc-delay.init);if (p-desc-init_seq) {if (p-dsi)panel_simple_xfer_dsi_cmd_seq(p, p-desc-init_seq);else if (p-cmd_type CMD_TYPE_SPI)err panel_simple_xfer_spi_cmd_seq(p, p-desc-init_seq);if (err)dev_err(panel-dev, failed to send init cmds seq\n);}if(p-desc-delay.mipi_data){panel_simple_sleep(p-desc-delay.mipi_data);}...
}static int panel_simple_enable(struct drm_panel *panel)
{...if (p-cmd_type CMD_TYPE_MCU) {err panel_simple_xfer_mcu_cmd_seq(p, p-desc-init_seq);if (err)dev_err(panel-dev, failed to send init cmds seq\n);}if (p-desc-delay.enable)panel_simple_sleep(p-desc-delay.enable);if (p-backlight) {p-backlight-props.state ~BL_CORE_FBBLANK;p-backlight-props.power FB_BLANK_UNBLANK;backlight_update_status(p-backlight);}...
}2.3.2 Display-Timings
display_timings在dts中定义 disp_timings0: display-timings {native-mode dsi0_timing0;dsi0_timing0: timing0 {clock-frequency 72600000;//80000000;hactive 800;//768;vactive 1280;hsync-len 14; //20, 50,10hback-porch 26; //50, 56,10hfront-porch 32;//50, 30,180vsync-len 8;//4vback-porch 20;//4vfront-porch 80;//8hsync-active 0;vsync-active 0;de-active 0;pixelclk-active 0;};};相关的参数一般可以在屏的规格书中找到然后在kernel/drivers/gpu/drm/panel/panel-simple.c的panel_simple_probe中初始化了获取时序的函数。
static int panel_simple_probe(struct device *dev, const struct panel_desc *desc)
{...panel-base.funcs panel_simple_funcs;...
}
...
static const struct drm_panel_funcs panel_simple_funcs {.loader_protect panel_simple_loader_protect,.disable panel_simple_disable,.unprepare panel_simple_unprepare,.prepare panel_simple_prepare,.enable panel_simple_enable,.get_modes panel_simple_get_modes,.get_timings panel_simple_get_timings,
};
...该函数在kernel/drivers/gpu/drm/panel/panel-simple.c中定义
static int panel_simple_get_timings(struct drm_panel *panel, unsigned int num_timings, struct display_timing *timings)
{struct panel_simple *p to_panel_simple(panel);unsigned int i;if (p-desc-num_timings num_timings)num_timings p-desc-num_timings;if (timings)for (i 0; i num_timings; i)timings[i] p-desc-timings[i];return p-desc-num_timings;
}三、EDP配置
3.1 引脚配置
ROC-RK3568-PC的SDK有EDP的DTS文件kernel/arch/arm64/boot/dts/rockchip/rk3568-firefly-roc-pc-edp_M156X40.dts从该文件中我们可以看到以下语句 edp_panel: edp-panel {compatible simple-panel;status okay;power-supply vcc3v3_lcd_edp;enable-gpios gpio3 RK_PC3 GPIO_ACTIVE_HIGH;//bus-format MEDIA_BUS_FMT_RBG888_1X24; backlight backlight;...ports {panel_in_edp: endpoint {remote-endpoint edp_out_panel;};};};...
};edp {status okay;hpd-gpios gpio0 RK_PC2 GPIO_ACTIVE_HIGH;force-hpd;ports {edp_out: port1 {reg 1;#address-cells 1;#size-cells 0;edp_out_panel: endpoint0 {reg 0;remote-endpoint panel_in_edp;};};};
};这里定义了LCD的电源控制引脚
NAMEGPIOGPIO_ACTIVEBL_ENGPIO3_C3GPIO_ACTIVE_HIGHEDP_HPDGPIO0_C2GPIO_ACTIVE_HIGH
3.2 EDP背光配置
因为背光接口是公用的所以可以参考上述MIPI的配置方法。
4.3.3. EDP显示时序配置 不同于MIPI屏EDP屏对上下电时序没有那么高的要求当然还是要看调试屏幕的上下电时序图来配置 edp_panel: edp-panel {compatible simple-panel;status okay;...display-timings {native-mode timing0; timing0: timing0 {clock-frequency 140000000;hactive 1920;vactive 1080;hfront-porch 40;hsync-len 40;hback-porch 80;vfront-porch 16;vsync-len 8;vback-porch 16;hsync-active 0;vsync-active 0;de-active 0;pixelclk-active 0;};};...};display-timings同样在kernel/drivers/gpu/drm/panel/panel-simple.c中使用到
static int panel_simple_get_timings(struct drm_panel *panel, unsigned int num_timings, struct display_timing *timings)
{struct panel_simple *p to_panel_simple(panel);unsigned int i;if (p-desc-num_timings num_timings)num_timings p-desc-num_timings;if (timings)for (i 0; i num_timings; i)timings[i] p-desc-timings[i];return p-desc-num_timings;
}
