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高通sensor库和Linker的死锁问题分析报告

时间:2017-05-13 23:17:52      阅读:498      评论:0      收藏:0      [点我收藏+]

标签:alt   tor   intern   bin   libc   work   get   flags   array   

【问题描述】

调试NativeHeap泄露时,我们会用到Android Native Heap调试框架。

在push libc_malloc_debug_leak.so后重启zygote(adb shell stop + adb shell start),会发现系统一直起不来。

用debuggerd打印system_server的调用栈,可以发现system server的大部分线程都在malloc函数里卡死:

pid: 4918, tid: 4929, name: Binder_1  >>> system_server <<<
backtrace:
    #00 pc 00000000000178cc  /system/bin/linker64 (__dl_syscall+28)
    #01 pc 00000000000160c0  /system/bin/linker64 (__dl__ZL33__pthread_mutex_lock_with_timeoutP24pthread_mutex_internal_tPK8timespeci.constprop.0+260)
    #02 pc 00000000000163cc  /system/bin/linker64 (__dl_pthread_mutex_lock+36)
    #03 pc 0000000000003318  /system/bin/linker64 (__dl_dl_iterate_phdr+32)
    #04 pc 000000000003ca94  /system/lib64/libc_malloc_debug_leak.so (_Unwind_Find_FDE+368)
    #05 pc 0000000000039dd4  /system/lib64/libc_malloc_debug_leak.so
    #06 pc 000000000003a998  /system/lib64/libc_malloc_debug_leak.so
    #07 pc 000000000003b1fc  /system/lib64/libc_malloc_debug_leak.so (_Unwind_Backtrace+76)
    #08 pc 0000000000008808  /system/lib64/libc_malloc_debug_leak.so
    #09 pc 0000000000009e10  /system/lib64/libc_malloc_debug_leak.so (leak_malloc+404)
    #10 pc 000000000001bb9c  /system/lib64/libc.so (malloc+20)
    #11 pc 0000000000012770  /system/lib64/libutils.so (_ZN7android12SharedBuffer5allocEm+56)
    #12 pc 0000000000014108  /system/lib64/libutils.so (_ZN7android8String16C1EPKDsm+32)
    #13 pc 00000000000d356c  /system/lib64/libandroid_runtime.so
    #14 pc 0000000073b6286c  /data/dalvik-cache/arm64/system@framework@boot.oat (offset 0x248a000)

其中有两个线程发生死锁:

pid: 4918, tid: 4992, name: system_server  >>> system_server <<<
backtrace:
    #00 pc 000000000001bf9c  /system/lib64/libc.so (syscall+28)
    #01 pc 0000000000066bd4  /system/lib64/libc.so (_ZL33__pthread_mutex_lock_with_timeoutP24pthread_mutex_internal_tPK8timespeci.constprop.0+260)
    #02 pc 0000000000066f5c  /system/lib64/libc.so (pthread_mutex_lock+36)
    #03 pc 000000000000a414  /system/vendor/lib64/libsensor1.so 
    #04 pc 000000000000c774  /system/vendor/lib64/libsensor1.so (sensor1_open+1388)
    #05 pc 000000000002c6b0  /system/vendor/lib64/sensors.ssc.so (_ZN14SensorsContextC2Ev+252)
    #06 pc 0000000000013298  /system/vendor/lib64/sensors.ssc.so
    #07 pc 0000000000003c28  /system/bin/linker64 (__dl__ZN6soinfo13call_functionEPKcPFvvE+104)
    #08 pc 0000000000003d7c  /system/bin/linker64 (__dl__ZN6soinfo10call_arrayEPKcPPFvvEmb+248)
    #09 pc 000000000000a090  /system/bin/linker64 (__dl__Z9do_dlopenPKciPK17android_dlextinfo+436)
    #10 pc 00000000000033ac  /system/bin/linker64 (__dl_dlopen+44)
    #11 pc 0000000000006c70  /system/lib64/hw/sensors.msm8996.so (_ZL17lazy_init_modulesv.part.203+200)
    #12 pc 0000000000006f20  /system/lib64/hw/sensors.msm8996.so (_ZL12open_sensorsPK11hw_module_tPKcPP11hw_device_t+456)
    #13 pc 000000000000cdc0  /system/lib64/libsensorservice.so
    #14 pc 00000000000117bc  /system/lib64/libsensorservice.so
    #15 pc 0000000000012244  /system/lib64/libutils.so (_ZNK7android7RefBase9incStrongEPKv+112)
    #16 pc 000000000001fe90  /system/lib64/libandroid_servers.so (_ZN7android10sensorInitEPv+128)
    #17 pc 0000000000065ee4  /system/lib64/libc.so (_ZL15__pthread_startPv+52)
    #18 pc 000000000001ed44  /system/lib64/libc.so (__start_thread+16)

pid: 4918, tid: 4993, name: system_server  >>> system_server <<<
backtrace:
    #00 pc 00000000000178cc  /system/bin/linker64 (__dl_syscall+28)
    #01 pc 00000000000160c0  /system/bin/linker64 (__dl__ZL33__pthread_mutex_lock_with_timeoutP24pthread_mutex_internal_tPK8timespeci.constprop.0+260)
    #02 pc 00000000000163cc  /system/bin/linker64 (__dl_pthread_mutex_lock+36)
    #03 pc 0000000000003318  /system/bin/linker64 (__dl_dl_iterate_phdr+32) -linker
    #04 pc 000000000003ca94  /system/lib64/libc_malloc_debug_leak.so (_Unwind_Find_FDE+368)
    #05 pc 0000000000039dd4  /system/lib64/libc_malloc_debug_leak.so
    #06 pc 000000000003a998  /system/lib64/libc_malloc_debug_leak.so
    #07 pc 000000000003b1fc  /system/lib64/libc_malloc_debug_leak.so (_Unwind_Backtrace+76)
    #08 pc 0000000000008808  /system/lib64/libc_malloc_debug_leak.so
    #09 pc 0000000000009e10  /system/lib64/libc_malloc_debug_leak.so (leak_malloc+404)
    #10 pc 000000000001bb9c  /system/lib64/libc.so (malloc+20)
    #11 pc 000000000000bd80  /system/vendor/lib64/libsensor1.so
    #12 pc 0000000000065ee4  /system/lib64/libc.so (_ZL15__pthread_startPv+52)
    #13 pc 000000000001ed44  /system/lib64/libc.so (__start_thread+16)

死锁过程如下:

4992线程在加载sensor模块时,由于sensors.ssc.so中定义了全局静态对象SensorsContext SensorsContext::self;

因此dlopen(4992#10)时,加载完sensors.ssc.so后就会调用SensorsContext的构造函数(4992#05)。

这个构造函数会创建线程4993,并等待4993线程唤醒自己。

而dlopen函数会持一个全局锁g_dl_mutex

void* dlopen(const char* filename, int flags) {
  return dlopen_ext(filename, flags, nullptr);
}

static void* dlopen_ext(const char* filename, int flags, const android_dlextinfo* extinfo) {
  ScopedPthreadMutexLocker locker(&g_dl_mutex);
  soinfo* result = do_dlopen(filename, flags, extinfo);  
  return result;
}

4993线程在运行过程中,会获取一个sensor模块的全局锁libsensor_cli_data_mutex,然后再调用malloc()函数。

static sensor1_error_e
libsensor_read_socket( int fd )
{
  ...
  pthread_mutex_lock( &libsensor_cli_data_mutex );
  if( (cli_idx = libsensor_get_client_by_fd( fd )) < 0 ) {
    pthread_mutex_unlock( &libsensor_cli_data_mutex );
    return SENSOR1_EBUFFER;
  }
  rx_msg_p = malloc( SENSOR_MAX_MSG_SIZE + sizeof(libsensor_ctl_read_s) -1 );
  ...

由于打开了HeapLeak调试开关,所以malloc时,会记录当前的调用栈。

而获取调用栈的unwind方法需要用到linker的dl_iterate_phdr()方法(4993#3)

int dl_iterate_phdr(int (*cb)(dl_phdr_info* info, size_t size, void* data), void* data) {
  ScopedPthreadMutexLocker locker(&g_dl_mutex);
  return do_dl_iterate_phdr(cb, data);
}

这个方法会申请g_dl_mutex锁,而这个锁此时已经被4992线程拿着了,所以4993会卡在dl_iterate_phdr()中。

此时4992线程还在等待4993线程:

 

sensor1_error_e
sensor1_open( sensor1_handle_s **hndl,
              sensor1_notify_data_cb_t data_cbf,
              intptr_t cb_data )
{
  ...
  if( -1 == ( err = clock_gettime (CLOCK_REALTIME, &open_timeout ) ) ) {
    ...
  } else {
    open_timeout.tv_sec += 1;
    err = sem_timedwait( &open_sem, &open_timeout );   //这里等现线程4993
  }
  if( 0 != err && ETIMEDOUT == errno ) {
    libsensor_client_data_s cli_data;
    LOG_ERROR( "%s: Sem wait timed-out for socket %i", __func__, sockfd );
    libsensor_del_client( sockfd );
    ...

 

sem_timedwait()在等待1秒后超时,会调用libsensor_del_client(),

而这个函数又申请4993线程持有的libsensor_cli_data_mutex锁。

 

 

static int
libsensor_add_client( libsensor_client_data_s const *cli_data, bool is_wait_clnt )
{
  ...
  pthread_mutex_lock( &libsensor_cli_data_mutex );

 

这样就产生了死锁。

 

这个概率看起来是必现的,而由于这两个锁又不是同一个模块的,所以不太好解决。

似乎无论是HeapLeak机制还是Sensor代码,各自的处理都没有问题。

由于HeapLeak是Debug机制,所以在HeapLeak中做出让步,更合理一些。

 

 

【解决方案】

 

 

1、获取调用栈时,不用unwind方法:

 

在64位下,MTK对获取backtrace的方法做了优化,

 

可以参考MTK版本里的@bionic/libc/bionic/debug_stacktrace.cpp中的get_backtrace()的实现。

 

这个方法通过fp来查找lr,可以大大提高效率,且不会调用unwind,也不会有死锁了。

 

 

2、调用so的构造函数前释放 g_dl_mutex锁:

 

@bionic/linker/dlfcn.cpp
/*static*/ pthread_mutex_t g_dl_mutex = PTHREAD_RECURSIVE_MUTEX_INITIALIZER_NP;
static void* dlopen_ext(const char* filename, int flags, const android_dlextinfo* extinfo) {
  //ScopedPthreadMutexLocker locker(&g_dl_mutex);
  soinfo* result = do_dlopen(filename, flags, extinfo);
  return result;
}

@bionic/linker/linker.cpp
extern pthread_mutex_t g_dl_mutex;
soinfo* do_dlopen(const char* name, int flags, const android_dlextinfo* extinfo) {
  ...
  {
       ScopedPthreadMutexLocker locker(&g_dl_mutex);
       soinfo* si = find_library(name, flags, extinfo);
  }
  if (si != nullptr) {
    si->call_constructors();  //这里是so的构造函数
  }
  return si;
}

 

高通sensor库和Linker的死锁问题分析报告

标签:alt   tor   intern   bin   libc   work   get   flags   array   

原文地址:http://www.cnblogs.com/YYPapa/p/6850532.html

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