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in <code root>/dalvik/vm/Sync.cpp, there is a struct Monitor:

struct Monitor {
    Thread*     owner;          /* which thread currently owns the lock? */
    int         lockCount;      /* owner's recursive lock depth */
    Object*     obj;            /* what object are we part of [debug only] */

    Thread*     waitSet;    /* threads currently waiting on this monitor */

    pthread_mutex_t lock;

    Monitor*    next;

     * Who last acquired this monitor, when lock sampling is enabled.
     * Even when enabled, ownerMethod may be NULL.
    const Method* ownerMethod;
    u4 ownerPc;

I cannot understand why Monitor is aligned by 8 bytes. I think it should align by 4 bytes, because all members in it (i.e. pointer, int & pthread_mutex_t) are 4 bytes in length.

share|improve this question

The question didn't explicitly show it but by 8-byte alignment you probably mean this part of the code, with the Misaligned monitor check:

Monitor* dvmCreateMonitor(Object* obj)
    Monitor* mon;
    mon = (Monitor*) calloc(1, sizeof(Monitor));
    if (mon == NULL) {
        ALOGE("Unable to allocate monitor");
    if (((u4)mon & 7) != 0) {
        ALOGE("Misaligned monitor: %p", mon);

The reason is that Dalvik uses thin locking. The lock is a 32-bit value of an object and the bottom 3 bits are used for encoding lock state: one bit for thin/fat lock state and two bits for hash state. Only 29 bits are remaining for the pointer to the Monitor itself.

From the same source:

The lock value itself is stored in Object.lock. The LSB of the lock encodes its state. When cleared, the lock is in the "thin" state and its bits are formatted as follows:

[31 ---- 19] [18 ---- 3] [2 ---- 1] [0]
 lock count   thread id  hash state  0

When set, the lock is in the "fat" state and its bits are formatted as follows:

 [31 ---- 3] [2 ---- 1] [0]
   pointer   hash state  1

For reference, here's the paper describing thin locking: Thin Locks: Featherweight Synchronization for Java

In the comments you ask how the alignment is done. The C standard just requires the allocators to return an address that can be used in any type of assignment. From C99 §7.20.3 (Memory management functions):

The pointer returned if the allocation succeeds is suitably aligned so that it may be assigned to a pointer to any type of object and then used to access such an object or an array of such objects in the space allocated (until the space is explicitly deallocated).

By default, malloc/calloc/realloc on a 32-bit ARM system return 8-byte aligned blocks. I believe the Misaligned monitor check is there just as defensive code to fail fast in case the allocator is replaced with a version that does not return 8-byte aligned blocks.

share|improve this answer
Thanks for your reply ! But all the member of Monitor is 4 byte, so Monitor should by align by 4 byte, Why the dalvik make sure the address of Monitor can mode by 8 ? – Ray Sep 26 '13 at 9:22
@Ray My guess is that the compiler is adding padding bytes. – 0x499602D2 Sep 26 '13 at 13:16
@0x499602D2 Nothing to do with member padding – laalto Sep 26 '13 at 13:26
Yes, I do can not understand the Misaligned monitor. because of the thin locking, dalvik should make sure Monitor is alignment with 8 byte, but how dalvik make it ? – Ray Sep 27 '13 at 2:16
@laalto I have search some information about allignment in C/C++. Struct show align with Math.min(the alignment specified by cmopiler, the length of max length member in strut). Beacause all the member in Monitor has a length of 4 byte, so I think Monitor should align with 4 byte – Ray Sep 27 '13 at 2:18

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