原文 http://elinux.org/Android_Booting#Bootloader
Android 系统的启动过程分为若干个阶段,本文主要介绍一下内容
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The first program which runs on any Android system is the bootloader. Technically, the bootloader is outside the realm of Android itself, and is used to do very low-level system initialization, before loading the Linux kernel. The kernel then does the bulk of hardware, driver and file system initialization, before starting up the user-space programs and applications that make up Android.
Often, the first-stage bootloader will provide support for loading recovery images to the system flash, or performing other recovery, update, or debugging tasks.
The bootloader on the ADP1 detects certain keypresses, which can be used to make it load a 'recovery' image (second instance of the kernel and system), or put the phone into a mode where the developer can perform development tasks ('fastboot' mode), such as re-writing flash images, directly downloading and executing an alternate kernel image, etc.
A key component of the Android bootup sequence is the program 'init', which is a specialized program for initializing elements of the Android system. Unlike other Linux systems (embedded or otherwise), Android uses its own initialization program. (Linux desktop systems have historically used some combination of /etc/inittab and sysV init levels - e.g. /etc/rc.d/init.d with symlinks in /etc/rc.d/rc.[2345]). Some embedded Linux systems use simplified forms of these -- such as the init program included in busybox, which processes a limited form of /etc/inittab, or a direct invocation of a shell script or small program to do fixed initialization steps.
The Android 'init' program processes two files, executing the commands it finds in them, called 'init.rc' and 'init.<machine_name>.rc', where <machine_name> is the name of the hardware that Android is running on. (Usually, this is a code word. The name of the HTC1 hardware for the ADP1 is 'trout', and the name of the emulator is 'goldfish'.
The 'init.rc' file is intended to provide the generic initialization instructions, while the 'init.<machine_name>.rc' file is intended to provide the machine-specific initialization instructions.
The syntax for these .rc files is documented in a readme file in the source tree. See the Android init language reference
Or, see also: http://www.kandroid.org/android_pdk/bring_up.html
See also http://www.androidenea.com/2009/08/init-process-and-initrc.html
01-01 00:00:08.396 I/boot_progress_start( 754): 12559 01-01 00:00:13.716 I/boot_progress_preload_start( 754): 17879 01-01 00:00:24.380 I/boot_progress_preload_end( 754): 28546 01-01 00:00:25.068 I/boot_progress_system_run( 768): 29230 01-01 00:00:25.536 I/boot_progress_pms_start( 768): 29697 01-01 00:00:25.958 I/boot_progress_pms_system_scan_start( 768): 30117 01-01 00:00:40.005 I/boot_progress_pms_data_scan_start( 768): 44171 01-01 00:00:45.841 I/boot_progress_pms_scan_end( 768): 50006 01-01 00:00:46.341 I/boot_progress_pms_ready( 768): 50505 01-01 00:00:49.005 I/boot_progress_ams_ready( 768): 53166 01-01 00:00:52.630 I/boot_progress_enable_screen( 768): 56793
10-15 00:00:17.748 I/Zygote ( 535): ...preloaded 1873 classes in 2438ms. 10-15 00:00:17.764 I/Zygote ( 535): ...preloaded 0 resources in 0ms. 10-15 00:00:17.772 I/Zygote ( 535): ...preloaded 15 resources in 7ms.
Here is an example of using strace to follow the startup of zygote, and the apps that are forked from it.
Replace:
service zygote /system/bin/app_process -Xzygote /system/bin --zygote --start-system-server
with
service zygote /system/xbin/strace -f -tt -o /cache/debug/boot.strace /system/bin/app_process -Xzygote /system/bin --zygote --start-system-server
Here is some sample data:
$ head boot.strace 571 00:00:11.389939 execve("/system/bin/app_process", ["/system/bin/app_process", "-Xzygote", "/system/bin", "--zygote", "--start-system-server"], [/* 15 vars */]) = 0 571 00:00:11.658878 brk(0) = 0x804b000 571 00:00:11.659048 mmap2(NULL, 4096, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_ANONYMOUS, -1, 0) = 0x77f9a000 571 00:00:11.659169 readlink("/proc/self/exe", "/system/bin/app_process", 4096) = 23 571 00:00:11.659339 access("/etc/ld.so.preload", R_OK) = 0 571 00:00:11.659440 open("/etc/ld.so.preload", O_RDONLY) = 3 571 00:00:11.659548 fstat64(0x3, 0x7fa76650) = 0 571 00:00:11.659887 mmap2(NULL, 36, PROT_READ|PROT_WRITE, MAP_PRIVATE, 3, 0) = 0x77f99000 571 00:00:11.659970 close(3) = 0 571 00:00:11.660071 open("/lib/libc_sse.so", O_RDONLY) = 3
Please note that writing the strace data takes extra time. For long sequences of very fast syscalls (such as when the timezone file is being read) the overhead of strace itself exaggerates the timings in the trace. Use the timing information with caution.
See "Android Initialization Process" at: http://blog.chinaunix.net/u2/85805/showart_1421736.html (this address is not work), usinghttp://blog.chinaunix.net/space.php?uid=7788581&do=blog&id=2558375 instead.
http://benno.id.au/blog/2007/11/18/android-runtime-strace
Talking about Android Process - http://blog.csdn.net/mawl2002/archive/2009/06/24/4295905.aspx
See Improving Android Boot Time - notes and material for a talk at LinuxCon North America, 2010 by Tim Bird
Ubiquitous Corporation has announced boot of ARM-based Android system in 1 second. Actually, it's more like a suspend and resume than a boot. Seehttp://www.linuxfordevices.com/c/a/News/Ubiquitous-QuickBoot/?kc=LNXDEVNL032410 [March, 2010]