2009-05-18 14:37:41 +02:00
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Android Dynamic Linker Design Notes
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===================================
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Introduction:
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-------------
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This document provides several notes related to the design of the Android
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dynamic linker.
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Prelinking:
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-----------
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System libraries in Android are internally prelinked, which means that
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any internal relocations within them are stripped from the corresponding
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shared object, in order to reduce size and speed up loading.
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Such libraries can only be loaded at the very specific virtual memory address
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they have been prelinked to (during the build process). The list of prelinked
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system libraries and their corresponding virtual memory address is found in
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the file:
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build/core/prelink-linux-<arch>.map
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It should be updated each time a new system library is added to the
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system.
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The prelink step happens at build time, and uses the 'soslim' and 'apriori'
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tools:
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- 'apriori' is the real prelink tool which removes relocations from the
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shared object, however, it must be given a list of symbols to remove
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from the file.
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- 'soslim' is used to find symbols in an executable ELF file
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and generate a list that can be passed to 'apriori'.
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By default, these tools are only used to remove internal symbols from
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libraries, though they have been designed to allow more aggressive
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optimizations (e.g. 'global' prelinking and symbol stripping, which
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prevent replacing individual system libraries though).
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You can disable prelinking at build time by modifying your Android.mk with
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a line like:
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LOCAL_PRELINK_MODULE := false
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Initialization and Termination functions:
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-----------------------------------------
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The Unix Sys V Binary Interface standard states that an
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executable can have the following entries in its .dynamic
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section:
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DT_INIT
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Points to the address of an initialization function
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that must be called when the file is loaded.
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DT_INIT_ARRAY
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Points to an array of function addresses that must be
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called, in-order, to perform initialization. Some of
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the entries in the array can be 0 or -1, and should
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be ignored.
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Note: this is generally stored in a .init_array section
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DT_INIT_ARRAYSZ
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The size of the DT_INITARRAY, if any
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DT_FINI
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Points to the address of a finalization function which
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must be called when the file is unloaded or the process
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terminated.
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DT_FINI_ARRAY
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Same as DT_INITARRAY but for finalizers. Note that the
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functions must be called in reverse-order though
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Note: this is generally stroed in a .fini_array section
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DT_FINI_ARRAYSZ
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Size of FT_FINIARRAY
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DT_PREINIT_ARRAY
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An array similar to DT_INIT_ARRAY which must *only* be
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present in executables, not shared libraries, which contains
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a list of functions that need to be called before any other
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initialization function (i.e. DT_INIT and/or DT_INIT_ARRAY)
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Note: this is generally stroed in a .preinit_array section
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DT_PREINIT_ARRAYSZ
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The size of DT_PREINIT_ARRAY
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If both a DT_INIT and DT_INITARRAY entry are present, the DT_INIT
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function must be called before the DT_INITARRAY functions.
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Consequently, the DT_FINIARRAY must be parsed in reverse order before
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the DT_FINI function, if both are available.
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Note that the implementation of static C++ constructors is very
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much processor dependent, and may use different ELF sections.
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On the ARM (see "C++ ABI for ARM" document), the static constructors
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must be called explicitely from the DT_INIT_ARRAY, and each one of them
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shall register a destructor by calling the special __eabi_atexit()
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function (provided by the C library). The DT_FINI_ARRAY is not used
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by static C++ destructors.
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On x86, the lists of constructors and destructors are placed in special
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sections named ".ctors" and ".dtors", and the DT_INIT / DT_FINI functions
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are in charge of calling them explicitely.
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2010-01-20 21:36:51 +01:00
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Debugging:
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----------
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It is possible to enable debug output in the dynamic linker. To do so,
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follow these steps:
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1/ Modify the line in Android.mk that says:
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LOCAL_CFLAGS += -DLINKER_DEBUG=0
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Into the following:
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LOCAL_CFLAGS += -DLINKER_DEBUG=1
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2/ Force-rebuild the dynamic linker:
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cd bionic/linker
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mm -B
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3/ Rebuild a new system image.
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You can increase the verbosity of debug traces by defining the DEBUG
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environment variable to a numeric value from 0 to 2. This will only
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affect new processes being launched.
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By default, traces are sent to logcat, with the "linker" tag. You can
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change this to go to stdout instead by setting the definition of
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LINKER_DEBUG_TO_LOG to 0 in "linker_debug.h"
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