Android 8.1 关机充电动画(一)模式选择
system:Android 8.1
platform:RK3326/PX30
uboot
kernel
Android 8.1 关机充电动画(一)模式选择
Android 8.1 关机充电动画(二)Uboot模式
Android 8.1 关机充电动画(三)Android模式
前言
关机充电的动画可以在u-boot
或者Android
的charger
模式工作,这是两个相互独立的部分,RK平台上需要在设备树进行配置。顾名思义u-boot
下的charger
模式,系统仍然运行在loader
下,并未启动内核。
Android
的charger
模式下,在引导程序运行期间会传递参数给内核,则会启动内核并加载内核模块,同时安卓系统也不会启动,系统最终只工作charger
模式。这里简单记录一下,在uboot
中都做了哪些工作,根据什么条件选择工作的模式。
配置
设备树要增加节点charge-animation
,这个rk的文档里有相应的说明,在配置下面设备树的配置中,我已经加上了注释,对照这个看就行,不过所有属性只适用u-boot
下的关机充电,而不适用用Android
下的关机充电,这个具体会在后面加以说明。
这里暂时把已经启动内核之后再进入charger的模式称作Android下的关机充电,可能有些不妥,但是先这样区分吧
具体的配置如下;
rockchip,uboot-charge-on = <0>;
,rockchip,android-charge-on = <1>;
这两个属性用于选择后续的程序会进入到哪一种模式工作,后面在代码中会加以区分。
charge-animation {
compatible = "rockchip,uboot-charge";
rockchip,uboot-charge-on = <0>; // 是否在U-Boot进行充电
rockchip,android-charge-on = <1>; // 是否在Android进行充电
rockchip,uboot-exit-charge-level = <5>; // U-Boot充电时,允许开机的最低电量
rockchip,uboot-exit-charge-voltage = <3600>; // U-Boot充电时,允许开机的最低电压
rockchip,screen-on-voltage = <3400>; // U-Boot充电时,允许点亮屏幕的最低电压
rockchip,uboot-low-power-voltage = <3350>; // U-Boot无条件强制进入充电模式的最低电压
rockchip,system-suspend = <0>; // 灭屏时进入trust进行低功耗待机
rockchip,auto-off-screen-interval = <10>;// 亮屏超时后自动灭屏,单位秒。(如果没有这个属性,则默认15s)
rockchip,auto-wakeup-interval = <0>; // 休眠自动唤醒时间,单位秒。(如果值为0或没有这个属性,则禁止休眠自动唤醒)
rockchip,auto-wakeup-screen-invert = <0>; // 休眠自动唤醒的时候,是否让屏幕产生亮/灭效果
status = "okay";
};
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
- 14
代码分析
可以定位到u-boot/drivers/power/charge_animation.c,目前只分析一下函数static int charge_animation_show(struct udevice *dev)
,具体代码见最后的附录
这个函数会在启动内核之前进行一个简单的检测;
1. Extrem low power charge?
2. Preboot cmd?
3. Valid boot mode?
4. U-Boot charge enabled by dts config?
5. Screen off before charge?
6. Enter charge !
- 1
- 2
- 3
- 4
- 5
- 6
分别是1 检测低电量
,2 检测启动命令
,3 检测启动模式
,4 检测设备树配置
,这四项检测如果不符合会直接return
,然后无法成功进入6 Enter charge
的状态。具体的可以在代码里面慢慢看,至于第五点,不太清楚了。这里先把第四点的部分相关的代码抠出来,如下:
/* charge mode */
pdata->uboot_charge =
dev_read_u32_default(dev, "rockchip,uboot-charge-on", 0);
pdata->android_charge =
dev_read_u32_default(dev, "rockchip,android-charge-on", 0);
/* Enter android charge, set property for kernel */
if (pdata->android_charge) {
env_update("bootargs", "androidboot.mode=charger");
}
/* Not enable U-Boot charge, exit */
if (!pdata->uboot_charge) {
debug("exit charge, due to not enable uboot charge\n");
return 0;
}
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
- 14
- 15
可以看到这里有两种情况
uboot_charge
如果在设备树里配置为开启,则无法进入Android 关机充电模式了
,然后最终程序会进入到while(1)
不断循环显示充电动画,检测到相应事件动作之后才会退出充电进入系统
,或者掉电关机
;android_charge
在设备树中设置开启,并且uboot_charge
设置为关闭的情况下,会设置内核的启动参数env_update("bootargs", "androidboot.mode=charger")
,之后uboot
会启动内核,并传参数给内核,告诉他,要进入Android关机充电的模式
。
总结
这里篇幅较短,主要分析了在u-boot
下charge_animation_show
的部分工作流程即如何选择最终充电的模式,下面会简单介绍uboot下关机充电
和Android下关机充电
的动画定制。
附录
代码可能已经更新请参考u-boot/drivers/power/charge_animation.c
static int charge_animation_show(struct udevice *dev)
{
struct charge_animation_pdata *pdata = dev_get_platdata(dev);
struct charge_animation_priv *priv = dev_get_priv(dev);
const struct charge_image *image = priv->image;
struct udevice *pmic = priv->pmic;
struct udevice *fg = priv->fg;
const char *preboot = env_get("preboot");
int image_num = priv->image_num;
bool ever_lowpower_screen_off = false;
bool screen_on = true;
ulong show_start = 0, charge_start = 0, debug_start = 0;
ulong delta;
ulong ms = 0, sec = 0;
int start_idx = 0, show_idx = -1, old_show_idx = IMAGE_SHOW_RESET;
int soc, voltage, current, key_state;
int i, charging = 1, ret;
int boot_mode;
int first_poll_fg = 1;
/*
* Check sequence:
*
* 1. Extrem low power charge?
* 2. Preboot cmd?
* 3. Valid boot mode?
* 4. U-Boot charge enabled by dts config?
* 5. Screen off before charge?
* 6. Enter charge !
*
*/
if (!fuel_gauge_bat_is_exist(fg)) {
printf("Exit charge: battery is not exist\n");
return 0;
}
/* Extrem low power charge */
ret = charge_extrem_low_power(dev);
if (ret < 0) {
printf("extrem low power charge failed, ret=%d\n", ret);
return ret;
}
/* If there is preboot command, exit */
if (preboot && !strstr(preboot, "dvfs")) {
printf("Exit charge: due to preboot cmd '%s'\n", preboot);
return 0;
}
/* Not valid charge mode, exit */
#ifdef CONFIG_RKIMG_BOOTLOADER
boot_mode = rockchip_get_boot_mode();
if ((boot_mode != BOOT_MODE_CHARGING) &&
(boot_mode != BOOT_MODE_UNDEFINE)) {
printf("Exit charge: due to boot mode\n");
return 0;
}
#endif
/* Not charger online, exit */
charging = fuel_gauge_get_chrg_online(fg);
if (charging <= 0) {
printf("Exit charge: due to charger offline\n");
return 0;
}
/* Enter android charge, set property for kernel */
if (pdata->android_charge) {
env_update("bootargs", "androidboot.mode=charger");
printf("Android charge mode\n");
}
/* Not enable U-Boot charge, exit */
if (!pdata->uboot_charge) {
printf("Exit charge: due to not enable uboot charge\n");
return 0;
}
voltage = fuel_gauge_get_voltage(fg);
if (voltage < 0) {
printf("get voltage failed: %d\n", voltage);
return -EINVAL;
}
/* If low power, turn off screen */
if (voltage <= pdata->screen_on_voltage + 50) {
screen_on = false;
ever_lowpower_screen_off = true;
charge_show_bmp(NULL);
}
/* Auto wakeup */
if (pdata->auto_wakeup_interval) {
printf("Auto wakeup: %dS\n", pdata->auto_wakeup_interval);
autowakeup_timer_init(dev, pdata->auto_wakeup_interval);
}
/* Give a message warning when CONFIG_IRQ is not enabled */
#ifdef CONFIG_IRQ
printf("Enter U-Boot charging mode\n");
#else
printf("Enter U-Boot charging mode(without IRQ)\n");
#endif
charge_start = get_timer(0);
delta = get_timer(0);
/* Charging ! */
while (1) {
/*
* At the most time, fuel gauge is usually a i2c device, we
* should avoid read/write all the time. We had better set
* poll seconds to update fuel gauge info.
*/
if (!first_poll_fg && get_timer(delta) < FUEL_GAUGE_POLL_MS)
goto show_images;
delta = get_timer(0);
debug("step1 (%d)... \n", screen_on);
/*
* Most fuel gauge is I2C interface, it shouldn't be interrupted
* during tansfer. The power key event depends on interrupt, so
* so we should disable local irq when update fuel gauge.
*/
local_irq_disable();
/* Step1: Is charging now ? */
charging = fuel_gauge_get_chrg_online(fg);
if (charging <= 0) {
printf("Not charging, online=%d. Shutdown...\n",
charging);
/* wait uart flush before shutdown */
mdelay(5);
/* PMIC shutdown */
pmic_shutdown(pmic);
printf("Cpu should never reach here, shutdown failed !\n");
continue;
}
debug("step2 (%d)... show_idx=%d\n", screen_on, show_idx);
/* Step2: get soc and voltage */
soc = fuel_gauge_get_soc(fg);
if (soc < 0 || soc > 100) {
printf("get soc failed: %d\n", soc);
continue;
}
voltage = fuel_gauge_get_voltage(fg);
if (voltage < 0) {
printf("get voltage failed: %d\n", voltage);
continue;
}
current = fuel_gauge_get_current(fg);
if (current == -ENOSYS) {
printf("get current failed: %d\n", current);
continue;
}
first_poll_fg = 0;
local_irq_enable();
show_images:
/*
* Just for debug, otherwise there will be nothing output which
* is not good to know what happen.
*/
if (!debug_start)
debug_start = get_timer(0);
if (get_timer(debug_start) > 20000) {
debug_start = get_timer(0);
printf("[%8ld]: soc=%d%%, vol=%dmv, c=%dma, online=%d, screen_on=%d\n",
get_timer(0)/1000, soc, voltage,
current, charging, screen_on);
}
/*
* If ever lowpower screen off, force screen_on=false, which
* means key event can't modify screen_on, only voltage higher
* then threshold can update screen_on=true;
*/
if (ever_lowpower_screen_off)
screen_on = false;
/*
* Auto turn on screen when voltage higher than Vol screen on.
* 'ever_lowpower_screen_off' means enter while loop with
* screen off.
*/
if ((ever_lowpower_screen_off) &&
(voltage > pdata->screen_on_voltage)) {
ever_lowpower_screen_off = false;
screen_on = true;
show_idx = IMAGE_SHOW_RESET;
}
/*
* IMAGE_SHOW_RESET means show_idx show be update by start_idx.
* When short key pressed event trigged, we will set show_idx
* as IMAGE_SHOW_RESET which updates images index from start_idx
* that calculate by current soc.
*/
if (show_idx == IMAGE_SHOW_RESET) {
for (i = 0; i < image_num - 2; i++) {
/* Find out which image we start to show */
if ((soc >= image[i].soc) &&
(soc < image[i + 1].soc)) {
start_idx = i;
break;
}
if (soc >= 100) {
start_idx = image_num - 2;
break;
}
}
debug("%s: show_idx=%d, screen_on=%d\n",
__func__, show_idx, screen_on);
/* Mark start index and start time */
show_idx = start_idx;
show_start = get_timer(0);
}
debug("step3 (%d)... show_idx=%d\n", screen_on, show_idx);
/* Step3: show images */
if (screen_on) {
/* Don't call 'charge_show_bmp' unless image changed */
if (old_show_idx != show_idx) {
old_show_idx = show_idx;
debug("SHOW: %s\n", image[show_idx].name);
charge_show_bmp(image[show_idx].name);
}
/* Re calculate timeout to off screen */
if (priv->auto_screen_off_timeout == 0)
priv->auto_screen_off_timeout = get_timer(0);
} else {
priv->auto_screen_off_timeout = 0;
system_suspend_enter(pdata);
}
mdelay(5);
/* Every image shows period */
if (get_timer(show_start) > image[show_idx].period) {
show_start = get_timer(0);
/* Update to next image */
show_idx++;
if (show_idx > (image_num - 2))
show_idx = IMAGE_SHOW_RESET;
}
debug("step4 (%d)... \n", screen_on);
/*
* Step4: check key event.
*
* Short key event: turn on/off screen;
* Long key event: show logo and boot system or still charging.
*/
key_state = check_key_press(dev);
if (key_state == KEY_PRESS_DOWN) {
old_show_idx = IMAGE_SHOW_RESET;
/* NULL means show nothing, ie. turn off screen */
if (screen_on)
charge_show_bmp(NULL);
/*
* Clear current image index, and show image
* from start_idx
*/
show_idx = IMAGE_SHOW_RESET;
/*
* We turn off screen by charge_show_bmp(NULL), so we
* should tell while loop to stop show images any more.
*
* If screen_on=false, means this short key pressed
* event turn on the screen and we need show images.
*
* If screen_on=true, means this short key pressed
* event turn off the screen and we never show images.
*/
if (screen_on)
screen_on = false;
else
screen_on = true;
} else if (key_state == KEY_PRESS_LONG_DOWN) {
/* Only long pressed while screen off needs screen_on true */
if (!screen_on)
screen_on = true;
/* Is able to boot now ? */
if (soc < pdata->exit_charge_level) {
printf("soc=%d%%, threshold soc=%d%%\n",
soc, pdata->exit_charge_level);
printf("Low power, unable to boot, charging...\n");
show_idx = image_num - 1;
continue;
}
if (voltage < pdata->exit_charge_voltage) {
printf("voltage=%dmv, threshold voltage=%dmv\n",
voltage, pdata->exit_charge_voltage);
printf("Low power, unable to boot, charging...\n");
show_idx = image_num - 1;
continue;
}
/* Success exit charging */
printf("Exit charge animation...\n");
charge_show_logo();
break;
} else {
/* Do nothing */
}
debug("step5 (%d)... \n", screen_on);
/* Step5: Exit by ctrl+c */
if (ctrlc()) {
if (voltage >= pdata->screen_on_voltage)
charge_show_logo();
printf("Exit charge, due to ctrl+c\n");
break;
}
}
if (pdata->auto_wakeup_interval)
autowakeup_timer_uninit();
ms = get_timer(charge_start);
if (ms >= 1000) {
sec = ms / 1000;
ms = ms % 1000;
}
printf("charging time total: %lu.%lus, soc=%d%%, vol=%dmv\n",
sec, ms, soc, voltage);
return 0;
}
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
- 14
- 15
- 16
- 17
- 18
- 19
- 20
- 21
- 22
- 23
- 24
- 25
- 26
- 27
- 28
- 29
- 30
- 31
- 32
- 33
- 34
- 35
- 36
- 37
- 38
- 39
- 40
- 41
- 42
- 43
- 44
- 45
- 46
- 47
- 48
- 49
- 50
- 51
- 52
- 53
- 54
- 55
- 56
- 57
- 58
- 59
- 60
- 61
- 62
- 63
- 64
- 65
- 66
- 67
- 68
- 69
- 70
- 71
- 72
- 73
- 74
- 75
- 76
- 77
- 78
- 79
- 80
- 81
- 82
- 83
- 84
- 85
- 86
- 87
- 88
- 89
- 90
- 91
- 92
- 93
- 94
- 95
- 96
- 97
- 98
- 99
- 100
- 101
- 102
- 103
- 104
- 105
- 106
- 107
- 108
- 109
- 110
- 111
- 112
- 113
- 114
- 115
- 116
- 117
- 118
- 119
- 120
- 121
- 122
- 123
- 124
- 125
- 126
- 127
- 128
- 129
- 130
- 131
- 132
- 133
- 134
- 135
- 136
- 137
- 138
- 139
- 140
- 141
- 142
- 143
- 144
- 145
- 146
- 147
- 148
- 149
- 150
- 151
- 152
- 153
- 154
- 155
- 156
- 157
- 158
- 159
- 160
- 161
- 162
- 163
- 164
- 165
- 166
- 167
- 168
- 169
- 170
- 171
- 172
- 173
- 174
- 175
- 176
- 177
- 178
- 179
- 180
- 181
- 182
- 183
- 184
- 185
- 186
- 187
- 188
- 189
- 190
- 191
- 192
- 193
- 194
- 195
- 196
- 197
- 198
- 199
- 200
- 201
- 202
- 203
- 204
- 205
- 206
- 207
- 208
- 209
- 210
- 211
- 212
- 213
- 214
- 215
- 216
- 217
- 218
- 219
- 220
- 221
- 222
- 223
- 224
- 225
- 226
- 227
- 228
- 229
- 230
- 231
- 232
- 233
- 234
- 235
- 236
- 237
- 238
- 239
- 240
- 241
- 242
- 243
- 244
- 245
- 246
- 247
- 248
- 249
- 250
- 251
- 252
- 253
- 254
- 255
- 256
- 257
- 258
- 259
- 260
- 261
- 262
- 263
- 264
- 265
- 266
- 267
- 268
- 269
- 270
- 271
- 272
- 273
- 274
- 275
- 276
- 277
- 278
- 279
- 280
- 281
- 282
- 283
- 284
- 285
- 286
- 287
- 288
- 289
- 290
- 291
- 292
- 293
- 294
- 295
- 296
- 297
- 298
- 299
- 300
- 301
- 302
- 303
- 304
- 305
- 306
- 307
- 308
- 309
- 310
- 311
- 312
- 313
- 314
- 315
- 316
- 317
- 318
- 319
- 320
- 321
- 322
- 323
- 324
- 325
- 326
- 327
- 328
- 329
- 330
- 331
- 332
- 333
- 334
- 335
- 336
- 337
- 338
- 339
- 340
- 341
- 342
- 343
- 344
- 345
- 346
- 347
- 348
- 349
- 350
- 351
- 352
文章来源: great.blog.csdn.net,作者:小麦大叔,版权归原作者所有,如需转载,请联系作者。
原文链接:great.blog.csdn.net/article/details/89192015
- 点赞
- 收藏
- 关注作者
评论(0)