Malloc Debug ============ Malloc debug is a method of debugging native memory problems. It can help detect memory corruption, memory leaks, and use after free issues. This documentation describes how to enable this feature on versions of the Android OS, Marshmallow or older. Note: malloc debug was full of bugs and was not fully functional until KitKat, so using it on a version older than that is not guaranteed to work at all. The documentation for malloc debug on newer versions of Android is [here](README.md). On these old versions of the OS, you must be able to set system properties using the setprop command from the shell. This requires the ability to run as root on the device. When malloc debug is enabled, it works by adding a shim layer that replaces the normal allocation calls. The replaced calls are: * `malloc` * `free` * `calloc` * `realloc` * `posix_memalign` * `memalign` * `malloc_usable_size` On 32 bit systems, these two deprecated functions are also replaced: * `pvalloc` * `valloc` Any errors detected by the library are reported in the log. Controlling Malloc Debug Behavior --------------------------------- Malloc debug is controlled by a system property that takes a numeric value named libc.debug.malloc. It has only a few distinct modes that enables a set of different malloc debug checks at once. Value 1 -------- When enabled, this value creates a special header to all allocations that contains information about the allocation. ### Backtrace at Allocation Creation Enable capturing the backtrace of each allocation site. Only the first 16 frames of the backtrace will be captured. This option will slow down allocations by an order of magnitude, and might cause timeouts when trying to start a device. ### Track Live Allocations All of the currently live allocations will be tracked and can be retrieved by a call to get\_malloc\_leak\_info (see README\_api.md for details). Note: If multiple allocations have the same exact backtrace, then only one entry is returned in the list. Value 5 ------- When enabled, this value does not create a special header. It only modifies the content of allocations. Whenever an allocation is created, initialize the data with a known pattern (0xeb). This does not happen for the calloc calls. Whenever an allocation is freed, write a known pattern over the data (0xef). Value 10 -------- When enabled, this value creates a special header to all allocations that contains information about the allocation. This value enables everything enabled with value 1 plus these other options. ### Allocation Guards A 32 byte buffer is placed before the returned allocation (known as a front guard). This buffer is filled with the pattern (0xaa). In addition, a 32 byte buffer is placed after the data for the returned allocation (known as a rear guard). This buffer is filled with the pattern (0xbb). When the allocation is freed, both of these guards are verified to contain the expected patterns. If not, then an error message is printed to the log. ### Free Memory Tracking When a pointer is freed, do not free the memory right away, but add it to a list of freed allocations. In addition to being added to the list, the entire allocation is filled with the value 0xef, and the backtrace at the time of the free is recorded. As with the backtrace on allocation, only up to 16 frames will be recorded. When the list of freed allocations reaches 100, the oldest allocation on the list is removed and verified that it still contains the pattern 0xef. If the entire allocation is not filled with this value, an error is printed to the log. ### Log Leaks When the program completes, all of the allocations that are still live are printed to the log as leaks. This isn't very useful since it tends to display a lot of false positive because many programs do not free everything before terminating. Option 20 --------- Do not use this option value, it only works on the emulator. It has not been verified, so it may or may not work. Enable on Certain Processes --------------------------- Using the special system property, libc.debug.malloc.program, will cause malloc debug to only be used on processes with that name. For example, if the property is set to ls, then only the program named ls will have malloc debug enabled. Examples ======== Enable malloc debug for all allocations for all processes: adb shell stop adb shell setprop libc.debug.malloc 1 adb shell start Enable malloc debug for a particular process: adb shell setprop libc.debug.malloc.program ls adb shell setprop libc.debug.malloc 10 adb shell ls /data/local/tmp