Android Memories

Transcript

1. Memories of Android (based on a talk and articles by

   Dianne Hackborn) Romain Guy Chet Haase google.com/+RomainGuy google.com/+ChetHaase @romainguy @chethaase

2. Why? • Android is different • Mobile is different •

   Many small decisions can create large problems • We all want more. Always.

3. Mobile Dynamics “The hardware will be faster next year”

4. Mobile Dynamics “The hardware will be faster next year” vs.

   “This year’s hardware will be cheaper next year”

5. Mobile Dynamics

6. Mobile Dynamics •We want an experience better than desktop

7. Mobile Dynamics •We want an experience better than desktop •On

   much slower hardware

8. Mobile Dynamics •We want an experience better than desktop •On

   much slower hardware •With higher resolution displays

9. Mobile Dynamics •We want an experience better than desktop •On

   much slower hardware •With higher resolution displays •On battery

10. Mobile Dynamics •We want an experience better than desktop •On

    much slower hardware •With higher resolution displays •On battery •For as long as possible

11. Android 2.3 • Still ships with many new [low-end] devices

    - Because of RAM

12. Agenda • Android and RAM • Guidelines • Measurement

13. Android and RAM 7

14. No Swap • Clean RAM - Paging of mmap’d files

    as needed • Dirty RAM - Can't swap out - Relatively expensive • Especially in background processes

15. Zygote • Process from which your app is spawned •

    Preloads framework classes • Preloads common assets • Preloads native libraries

16. Zygote Framework Assets Libraries App1 Classes Assets Libraries Shared Shared

    App2 Classes Assets Libraries Shared

17. Types of memory Dirty Clean Private Shared Bad Okay Good

    Best

18. Overcommit • Reserve address space for an allocation • Only

    mapped when needed • Allocations generally don’t fail • What happens when no RAM is available?

19. Processes • Instead of swap, Android uses processes* - Running

    vs. cached - Cached processes can be killed - Order of killing is LRU • with other modifications • Cached processes help Android user experience *See “Processes and Threads” in API Guides documentation

20. zRAM • New in Android 4.4 • Enabled on low-memory

    devices • Type of swap - Swap to compressed RAM

21. Shared Memory • Extensively used - Requires care in determining

    RAM use • Helps minimize memory footprint

22. Shared Memory • mmap - dalvik code, apk resources, ...

    - Share across processes, allows paging • zygote - First Dalvik process, from which all others fork - Preloads commonly used classes, resources - Common RAM shared across forked processes • ashmem - Large allocations shared instead of copied - Cursors, some graphics resources

23. Kernel SamePage Merging • New in Android 4.4 • Share

    identical pages between processes - Copy-on-write • Really useful with bitmaps - Bitmaps allocated on the Dalvik heap - byte[] allocations are zeroed out by the VM

24. How big is an Object? overhead of Object + overhead

    of dlmalloc + data

25. How big is an Object? overhead of Object + overhead

    of dlmalloc + data 8 bytes

26. How big is an Object? overhead of Object + overhead

    of dlmalloc + data 8 bytes 4-8 bytes

27. How big is an Object? overhead of Object + overhead

    of dlmalloc + data 8 bytes 4-8 bytes n bytes

28. How big is an Object? overhead of Object + overhead

    of dlmalloc + data 8 bytes 4-8 bytes n bytes The result must be 8-byte aligned

29. Size of data Type Size as field/variable Size in array

    Object reference 4 4 boolean 4 1 byte 4 1 char 4 2 short 4 2 int 4 4 float 4 4 long 8 8 double 8 8 All sizes in bytes

30. Object size examples

31. Object size examples class Empty { }

32. Object size examples class Empty { } Allocation Size in

    bytes dlmalloc 4 Object overhead 8

33. Object size examples class Empty { } Allocation Size in

    bytes dlmalloc 4 Object overhead 8 Total = 4 + 8 = 12 bytes

34. Object size examples class Empty { } Allocation Size in

    bytes dlmalloc 4 Object overhead 8 Total = 4 + 8 = 12 bytes 8-byte aligned total = 16 bytes

35. Object size examples class Integer { private int value; }

36. Object size examples class Integer { private int value; }

    Allocation Size in bytes dlmalloc 4 Object overhead 8

37. Object size examples class Integer { private int value; }

    Allocation Size in bytes dlmalloc 4 Object overhead 8 int 4

38. Object size examples class Integer { private int value; }

    Allocation Size in bytes dlmalloc 4 Object overhead 8 int 4 Total = 4 + 8 + 4 = 16 bytes

39. Object size examples class HashMap$HashMapEntry<K, V> { final K key;

    V value; final int hash; HashMapEntry<K, V> next; }

40. Object size examples Allocation Size in bytes dlmalloc 4 Object

    overhead 8 class HashMap$HashMapEntry<K, V> { final K key; V value; final int hash; HashMapEntry<K, V> next; }

41. Object size examples Allocation Size in bytes dlmalloc 4 Object

    overhead 8 Reference 4 Reference 4 int 4 Reference 4 class HashMap$HashMapEntry<K, V> { final K key; V value; final int hash; HashMapEntry<K, V> next; }

42. Object size examples Allocation Size in bytes dlmalloc 4 Object

    overhead 8 Reference 4 Reference 4 int 4 Reference 4 Total = 4 + 8 + 4 * 4 = 28 bytes class HashMap$HashMapEntry<K, V> { final K key; V value; final int hash; HashMapEntry<K, V> next; } Aligned total = 32 bytes

43. How big is an array? overhead of Object + overhead

    of dlmalloc + width + padding + data

44. How big is an array? overhead of Object + overhead

    of dlmalloc + width + padding + data 8 bytes

45. How big is an array? overhead of Object + overhead

    of dlmalloc + width + padding + data 8 bytes 4-8 bytes

46. How big is an array? overhead of Object + overhead

    of dlmalloc + width + padding + data 8 bytes 4-8 bytes 4 bytes

47. How big is an array? overhead of Object + overhead

    of dlmalloc + width + padding + data 8 bytes 4-8 bytes 4 bytes 4 bytes

48. How big is an array? overhead of Object + overhead

    of dlmalloc + width + padding + data 8 bytes 4-8 bytes 4 bytes 4 bytes n bytes

49. How big is an array? overhead of Object + overhead

    of dlmalloc + width + padding + data 8 bytes 4-8 bytes 4 bytes The result must be 8-byte aligned 4 bytes n bytes

50. Array size examples

51. Array size examples new byte[1]

52. Object size examples Allocation Size in bytes dlmalloc 4 Object

    overhead 8 width & padding 8 new byte[1]

53. Object size examples Allocation Size in bytes dlmalloc 4 Object

    overhead 8 width & padding 8 data 1 new byte[1]

54. Object size examples Allocation Size in bytes dlmalloc 4 Object

    overhead 8 width & padding 8 data 1 new byte[1] Total = 4 + 8 + 8 + 1 = 21 bytes 8-byte aligned total = 24 bytes

55. Objects vs primitive types

56. Objects vs primitive types Integer 16 bytes

57. Objects vs primitive types Integer 16 bytes int 4 bytes

    vs.

58. Objects vs primitive types Integer 16 bytes Boolean 16 bytes

    int 4 bytes vs.

59. Objects vs primitive types Integer 16 bytes Boolean 16 bytes

    int 4 bytes vs. boolean 4 bytes vs.

60. Objects vs primitive types Integer 16 bytes Boolean 16 bytes

    int 4 bytes vs. boolean 4 bytes vs. 1 bit bit-field vs.

61. Primitive types vs primitive types private boolean mProperty1; private boolean

    mProperty1; // … private boolean mProperty32; Total = 32 * 4= 128 bytes

62. Primitive types vs primitive types private boolean mProperties = new

    boolean[32]; Total = 4 + 8 + 8 + 32 * 1= 52 bytes Aligned total = 56 bytes

63. Primitive types vs primitive types private int mProperties; Total =

    4 bytes // This is what we use in android.view.View

64. Classes • Inner class: ~500 bytes of code overhead button.setOnClickListener(new

    Runnable() { public void run() { // do stuff } });

65. Enums

66. Enums public static enum Things { THING_1, THING_2, }; +1,112

    bytes dex file size

67. Enums public static int THING_1 = 1; public static int

    THING_2 = 2; vs. +128 bytes public static enum Things { THING_1, THING_2, }; +1,112 bytes dex file size

68. Enums vs. ints

69. Enums vs. ints public static enum Things { THING_1, THING_2,

    };

70. Enums vs. ints .class public final enum LThings; .super Ljava/lang/Enum;

    .source "Things.java" .annotation system Ldalvik/annotation/Signature; value = { "Ljava/lang/Enum", "<", "LThings;", ">;" } .end annotation .field private static final synthetic $VALUES:[LThings; .field public static final enum THING_1:LThings; .field public static final enum THING_2:LThings; .method static constructor <clinit>()V .registers 4 const/4 v3, 0x1 const/4 v2, 0x0 new-instance v0, LThings; const-string v1, "THING_1" invoke-direct {v0, v1, v2}, LThings;-><init>(Ljava/lang/String;I)V sput-object v0, LThings;->THING_1:LThings; new-instance v0, LThings; const-string v1, "THING_2" invoke-direct {v0, v1, v3}, LThings;-><init>(Ljava/lang/String;I)V sput-object v0, LThings;->THING_2:LThings; const/4 v0, 0x2 new-array v0, v0, [LThings; sget-object v1, LThings;->THING_1:LThings; aput-object v1, v0, v2 sget-object v1, LThings;->THING_2:LThings; aput-object v1, v0, v3 sput-object v0, LThings;->$VALUES:[LThings; return-void .end method .method private constructor <init>(Ljava/lang/String;I)V .registers 3 .annotation system Ldalvik/annotation/Signature; value = { "()V" } .end annotation invoke-direct {p0, p1, p2}, Ljava/lang/Enum;-><init>(Ljava/lang/String;I)V return-void .end method .method public static valueOf(Ljava/lang/String;)LThings; .registers 2 .param p0 # Ljava/lang/String; const-class v0, LThings; invoke-static {v0, p0}, Ljava/lang/Enum;->valueOf(Ljava/lang/Class;Ljava/lang/String;)Ljava/lang/Enum; move-result-object v0 check-cast v0, LThings; return-object v0 .end method .method public static values()[LThings; .registers 1 sget-object v0, LThings;->$VALUES:[LThings; invoke-virtual {v0}, [LThings;->clone()Ljava/lang/Object; move-result-object v0 check-cast v0, [LThings; return-object v0 .end method

71. Enums vs. ints .class public final enum LThings; .super Ljava/lang/Enum;

    .source "Things.java" .annotation system Ldalvik/annotation/Signature; value = { "Ljava/lang/Enum", "<", "LThings;", ">;" } .end annotation .field private static final synthetic $VALUES:[LThings; .field public static final enum THING_1:LThings; .field public static final enum THING_2:LThings; .method static constructor <clinit>()V .registers 4 const/4 v3, 0x1 const/4 v2, 0x0 new-instance v0, LThings; const-string v1, "THING_1" invoke-direct {v0, v1, v2}, LThings;-><init>(Ljava/lang/String;I)V sput-object v0, LThings;->THING_1:LThings; new-instance v0, LThings; const-string v1, "THING_2" invoke-direct {v0, v1, v3}, LThings;-><init>(Ljava/lang/String;I)V sput-object v0, LThings;->THING_2:LThings; const/4 v0, 0x2 new-array v0, v0, [LThings; sget-object v1, LThings;->THING_1:LThings; aput-object v1, v0, v2 sget-object v1, LThings;->THING_2:LThings; aput-object v1, v0, v3 sput-object v0, LThings;->$VALUES:[LThings; return-void .end method .method private constructor <init>(Ljava/lang/String;I)V .registers 3 .annotation system Ldalvik/annotation/Signature; value = { "()V" } .end annotation invoke-direct {p0, p1, p2}, Ljava/lang/Enum;-><init>(Ljava/lang/String;I)V return-void .end method .method public static valueOf(Ljava/lang/String;)LThings; .registers 2 .param p0 # Ljava/lang/String; const-class v0, LThings; invoke-static {v0, p0}, Ljava/lang/Enum;->valueOf(Ljava/lang/Class;Ljava/lang/String;)Ljava/lang/Enum; move-result-object v0 check-cast v0, LThings; return-object v0 .end method .method public static values()[LThings; .registers 1 sget-object v0, LThings;->$VALUES:[LThings; invoke-virtual {v0}, [LThings;->clone()Ljava/lang/Object; move-result-object v0 check-cast v0, [LThings; return-object v0 .end method public static int THING_1 = 1; public static int THING_2 = 2;

72. Enums vs. ints .class public final enum LThings; .super Ljava/lang/Enum;

    .source "Things.java" .annotation system Ldalvik/annotation/Signature; value = { "Ljava/lang/Enum", "<", "LThings;", ">;" } .end annotation .field private static final synthetic $VALUES:[LThings; .field public static final enum THING_1:LThings; .field public static final enum THING_2:LThings; .method static constructor <clinit>()V .registers 4 const/4 v3, 0x1 const/4 v2, 0x0 new-instance v0, LThings; const-string v1, "THING_1" invoke-direct {v0, v1, v2}, LThings;-><init>(Ljava/lang/String;I)V sput-object v0, LThings;->THING_1:LThings; new-instance v0, LThings; const-string v1, "THING_2" invoke-direct {v0, v1, v3}, LThings;-><init>(Ljava/lang/String;I)V sput-object v0, LThings;->THING_2:LThings; const/4 v0, 0x2 new-array v0, v0, [LThings; sget-object v1, LThings;->THING_1:LThings; aput-object v1, v0, v2 sget-object v1, LThings;->THING_2:LThings; aput-object v1, v0, v3 sput-object v0, LThings;->$VALUES:[LThings; return-void .end method .method private constructor <init>(Ljava/lang/String;I)V .registers 3 .annotation system Ldalvik/annotation/Signature; value = { "()V" } .end annotation invoke-direct {p0, p1, p2}, Ljava/lang/Enum;-><init>(Ljava/lang/String;I)V return-void .end method .method public static valueOf(Ljava/lang/String;)LThings; .registers 2 .param p0 # Ljava/lang/String; const-class v0, LThings; invoke-static {v0, p0}, Ljava/lang/Enum;->valueOf(Ljava/lang/Class;Ljava/lang/String;)Ljava/lang/Enum; move-result-object v0 check-cast v0, LThings; return-object v0 .end method .method public static values()[LThings; .registers 1 sget-object v0, LThings;->$VALUES:[LThings; invoke-virtual {v0}, [LThings;->clone()Ljava/lang/Object; move-result-object v0 check-cast v0, [LThings; return-object v0 .end method const/4 v0, 0x0 sput v0, LThings;->THING_1:I sput v0, LThings;->THING_2:I

73. Enums • Allocate more memory - Each value is an

    instance of the enum class • Execute more code - Class initializer runs when enum is loaded - Instantiates each value

74. Garbage isn’t Free • Temporary objects can also hurt

75. Garbage isn’t Free • Temporary objects can also hurt Integer

    width = view.getWidth();

76. Garbage isn’t Free • Temporary objects can also hurt Integer

    width = view.getWidth(); Autoboxing

77. Garbage isn’t Free • Temporary objects can also hurt Integer

    width = view.getWidth(); Autoboxing for (MyListener listener : mListeners) { // ... }

78. Garbage isn’t Free • Temporary objects can also hurt Integer

    width = view.getWidth(); Autoboxing for (MyListener listener : mListeners) { // ... } Iterator created

79. Guidelines 48

80. Beware Services • Very expensive • Need to stay running

    • Directly reduce available cached processes • Remember, no swap • Services should have well-defined durations • Services left running is a common application problem

81. Release your RAM public void onTrimMemory(int level) { // cached

    activity if (level >= TRIM_MEMORY_COMPLETE) { // ... } else if (level >= TRIM_MEMORY_MODERATE) { // ... } else if (level >= TRIM_MEMORY_BACKGROUND) { // ... } else if (level >= TRIM_MEMORY_UI_HIDDEN) { // ... } else if (level >= TRIM_MEMORY_RUNNING_CRITICAL) { // ... } else if (level >= TRIM_MEMORY_RUNNING_LOW) { // ... } else if (level >= TRIM_MEMORY_RUNNING_MODERATE) { // ... } } Cached Running

82. Memory Class ActivityManager.getMemoryClass(); ActivityManager.getLargeMemoryClass();

83. Bitmaps • Often largest RAM user • RAM size =

    width * height * depth - Optimize for size • Take care with caches of bitmaps • Android 3.0: bitmaps in Dalvik heap - Reuse when possible • See: http://developer.android.com/training/displaying-bitmaps/ manage-memory.html

84. ProGuard and Zipalign • Part of standard build tools •

    Use them

85. Design Guidelines • App design affects RAM usage • Harder

    to fix later • Common programming practices can be less memory efficient

86. Know your (Java) programming language • Java has many challenges

    for memory use • Have a general sense of the overhead of language features • Easier to write efficiently the first time

87. Abstractions • Hidden costs

88. External Libraries • Not necessarily written for Android • Potentially

    large expensive for small benefit

89. Android Libraries • Still significant overhead, duplication

90. Use Optimized Containers • Sparse arrays - Replace hash maps

    when the key is a primitive type - Variants for different key/value types • Benefits - Allocation-free - No boxing

91. Sparse arrays HashMap Array class <Integer, Object> SparseArray <Integer, Boolean>

    SparseBooleanArray <Integer, Integer> SparseIntArray <Integer, Long> SparseLongArray <Long, Object> LongSparseArray <Long, Long> LongSparseLongArray* * Not a public class, copy from Android’s source code

92. Sparse arrays vs HashMap • SparseIntArray vs HashMap<Integer, Integer> for

    1,000 elements

93. Sparse arrays vs HashMap • SparseIntArray vs HashMap<Integer, Integer> for

    1,000 elements class SparseIntArray { int[] keys; int[] values; int size; }

94. Sparse arrays vs HashMap • SparseIntArray vs HashMap<Integer, Integer> for

    1,000 elements class SparseIntArray { int[] keys; int[] values; int size; } Class = 12 + 3 * 4 = 24 bytes Array = 20 + 1000 * 4 = 4024 bytes Total = 8,072 bytes

95. Sparse arrays vs HashMap • SparseIntArray vs HashMap<Integer, Integer> for

    1,000 elements

96. Sparse arrays vs HashMap • SparseIntArray vs HashMap<Integer, Integer> for

    1,000 elements class HashMap<K, V> { Entry<K, V>[] table; Entry<K, V> forNull; int size; int modCount; int threshold; Set<K> keys; Set<Entry<K, V>> entries; Collection<V> values; }

97. Sparse arrays vs HashMap • SparseIntArray vs HashMap<Integer, Integer> for

    1,000 elements class HashMap<K, V> { Entry<K, V>[] table; Entry<K, V> forNull; int size; int modCount; int threshold; Set<K> keys; Set<Entry<K, V>> entries; Collection<V> values; } Class = 12 + 8 * 4 = 48 bytes Array = 20 + 1000 * 64 = 64024 bytes Total = 64,136 bytes Entry = 32 + 16 + 16 = 64 bytes

98. Use Optimized Containers • ArrayMap - Replaces HashMap • Benefit

    - Allocation-free - Same API as HashMap (implements Map interface) - Available in support library • Drawback - Slower than HashMap, don’t use for large collections

99. Use Optimized Containers • Raw arrays - When it makes

    sense • android.view.ViewGroup - Children stored in a View[]

100. Measurement 65

101. Process Memory • USS (Unique Set Size) - Private Clean

     + Private Dirty - RAM committed to only that process • PSS (Proportional Set Size) - USS + memory shared with other processes

102. Meminfo Applications Memory Usage (kB): Uptime: 27233364 Realtime: 252885787 **

     MEMINFO in pid 15976 [com.android.systemui] ** Pss Private Private Swapped Heap Heap Heap Total Dirty Clean Dirty Size Alloc Free ------ ------ ------ ------ ------ ------ ------ Native Heap 5308 5280 0 0 16172 7658 741 Dalvik Heap 7015 6684 0 0 19288 13124 6164 Dalvik Other 3328 3184 0 0 Stack 188 188 0 0 Ashmem 2 0 0 0 Other dev 4648 4356 4 0 .so mmap 1296 404 20 0 .apk mmap 1014 0 564 0 .ttf mmap 299 0 200 0 .dex mmap 1904 60 1132 0 Other mmap 100 4 44 0 Graphics 7904 7904 0 0 GL 15916 15916 0 0 Unknown 120 120 0 0 TOTAL 49042 44100 1964 0 35460 20782 6905

103. Meminfo Applications Memory Usage (kB): Uptime: 27233364 Realtime: 252885787 **

     MEMINFO in pid 15976 [com.android.systemui] ** Pss Private Private Swapped Heap Heap Heap Total Dirty Clean Dirty Size Alloc Free ------ ------ ------ ------ ------ ------ ------ Native Heap 5308 5280 0 0 16172 7658 741 Dalvik Heap 7015 6684 0 0 19288 13124 6164 Dalvik Other 3328 3184 0 0 Stack 188 188 0 0 Ashmem 2 0 0 0 Other dev 4648 4356 4 0 .so mmap 1296 404 20 0 .apk mmap 1014 0 564 0 .ttf mmap 299 0 200 0 .dex mmap 1904 60 1132 0 Other mmap 100 4 44 0 Graphics 7904 7904 0 0 GL 15916 15916 0 0 Unknown 120 120 0 0 TOTAL 49042 44100 1964 0 35460 20782 6905

104. Meminfo Applications Memory Usage (kB): Uptime: 27233364 Realtime: 252885787 **

     MEMINFO in pid 15976 [com.android.systemui] ** Pss Private Private Swapped Heap Heap Heap Total Dirty Clean Dirty Size Alloc Free ------ ------ ------ ------ ------ ------ ------ Native Heap 5308 5280 0 0 16172 7658 741 Dalvik Heap 7015 6684 0 0 19288 13124 6164 Dalvik Other 3328 3184 0 0 Stack 188 188 0 0 Ashmem 2 0 0 0 Other dev 4648 4356 4 0 .so mmap 1296 404 20 0 .apk mmap 1014 0 564 0 .ttf mmap 299 0 200 0 .dex mmap 1904 60 1132 0 Other mmap 100 4 44 0 Graphics 7904 7904 0 0 GL 15916 15916 0 0 Unknown 120 120 0 0 TOTAL 49042 44100 1964 0 35460 20782 6905

105. Meminfo Applications Memory Usage (kB): Uptime: 27233364 Realtime: 252885787 **

     MEMINFO in pid 15976 [com.android.systemui] ** Pss Private Private Swapped Heap Heap Heap Total Dirty Clean Dirty Size Alloc Free ------ ------ ------ ------ ------ ------ ------ Native Heap 5308 5280 0 0 16172 7658 741 Dalvik Heap 7015 6684 0 0 19288 13124 6164 Dalvik Other 3328 3184 0 0 Stack 188 188 0 0 Ashmem 2 0 0 0 Other dev 4648 4356 4 0 .so mmap 1296 404 20 0 .apk mmap 1014 0 564 0 .ttf mmap 299 0 200 0 .dex mmap 1904 60 1132 0 Other mmap 100 4 44 0 Graphics 7904 7904 0 0 GL 15916 15916 0 0 Unknown 120 120 0 0 TOTAL 49042 44100 1964 0 35460 20782 6905

106. Meminfo Applications Memory Usage (kB): Uptime: 27233364 Realtime: 252885787 **

     MEMINFO in pid 15976 [com.android.systemui] ** Pss Private Private Swapped Heap Heap Heap Total Dirty Clean Dirty Size Alloc Free ------ ------ ------ ------ ------ ------ ------ Native Heap 5308 5280 0 0 16172 7658 741 Dalvik Heap 7015 6684 0 0 19288 13124 6164 Dalvik Other 3328 3184 0 0 Stack 188 188 0 0 Ashmem 2 0 0 0 Other dev 4648 4356 4 0 .so mmap 1296 404 20 0 .apk mmap 1014 0 564 0 .ttf mmap 299 0 200 0 .dex mmap 1904 60 1132 0 Other mmap 100 4 44 0 Graphics 7904 7904 0 0 GL 15916 15916 0 0 Unknown 120 120 0 0 TOTAL 49042 44100 1964 0 35460 20782 6905

107. Meminfo Applications Memory Usage (kB): Uptime: 27233364 Realtime: 252885787 **

     MEMINFO in pid 15976 [com.android.systemui] ** Pss Private Private Swapped Heap Heap Heap Total Dirty Clean Dirty Size Alloc Free ------ ------ ------ ------ ------ ------ ------ Native Heap 5308 5280 0 0 16172 7658 741 Dalvik Heap 7015 6684 0 0 19288 13124 6164 Dalvik Other 3328 3184 0 0 Stack 188 188 0 0 Ashmem 2 0 0 0 Other dev 4648 4356 4 0 .so mmap 1296 404 20 0 .apk mmap 1014 0 564 0 .ttf mmap 299 0 200 0 .dex mmap 1904 60 1132 0 Other mmap 100 4 44 0 Graphics 7904 7904 0 0 GL 15916 15916 0 0 Unknown 120 120 0 0 TOTAL 49042 44100 1964 0 35460 20782 6905

108. Meminfo (2) Objects Views: 288 ViewRootImpl: 5 AppContexts: 12 Activities:

     1 Assets: 6 AssetManagers: 6 Local Binders: 66 Proxy Binders: 47 Death Recipients: 2 OpenSSL Sockets: 0

109. Meminfo (2) Objects Views: 288 ViewRootImpl: 5 AppContexts: 12 Activities:

     1 Assets: 6 AssetManagers: 6 Local Binders: 66 Proxy Binders: 47 Death Recipients: 2 OpenSSL Sockets: 0

110. Meminfo (2) Objects Views: 288 ViewRootImpl: 5 AppContexts: 12 Activities:

     1 Assets: 6 AssetManagers: 6 Local Binders: 66 Proxy Binders: 47 Death Recipients: 2 OpenSSL Sockets: 0

111. Meminfo (2) Objects Views: 288 ViewRootImpl: 5 AppContexts: 12 Activities:

     1 Assets: 6 AssetManagers: 6 Local Binders: 66 Proxy Binders: 47 Death Recipients: 2 OpenSSL Sockets: 0

112. Meminfo (3) -a ** MEMINFO in pid 15976 [com.android.systemui] **

     Pss Pss Shared Private Shared Private Swapped Total Clean Dirty Dirty Clean Clean Dirty ------ ------ ------ ------ ------ ------ ------ Native Heap 5308 0 780 5280 0 0 0 Dalvik Heap 7031 0 7484 6700 0 0 0 Dalvik Other 3332 0 3204 3188 0 0 0 Stack 188 0 8 188 0 0 0 Ashmem 2 0 4 0 0 0 0 Other dev 4648 0 604 4356 0 4 0 .so mmap 1296 20 2692 404 6620 20 0 .apk mmap 1014 564 0 0 1536 564 0 .ttf mmap 299 200 0 0 388 200 0 .dex mmap 1904 1132 416 60 8304 1132 0 Other mmap 100 0 12 4 332 44 0 Graphics 7904 0 0 7904 0 0 0 GL 15916 0 0 15916 0 0 0 Unknown 120 0 4 120 0 0 0 TOTAL 49062 1916 15208 44120 17180 1964 0

113. Meminfo (3) -a ** MEMINFO in pid 15976 [com.android.systemui] **

     Pss Pss Shared Private Shared Private Swapped Total Clean Dirty Dirty Clean Clean Dirty ------ ------ ------ ------ ------ ------ ------ Native Heap 5308 0 780 5280 0 0 0 Dalvik Heap 7031 0 7484 6700 0 0 0 Dalvik Other 3332 0 3204 3188 0 0 0 Stack 188 0 8 188 0 0 0 Ashmem 2 0 4 0 0 0 0 Other dev 4648 0 604 4356 0 4 0 .so mmap 1296 20 2692 404 6620 20 0 .apk mmap 1014 564 0 0 1536 564 0 .ttf mmap 299 200 0 0 388 200 0 .dex mmap 1904 1132 416 60 8304 1132 0 Other mmap 100 0 12 4 332 44 0 Graphics 7904 0 0 7904 0 0 0 GL 15916 0 0 15916 0 0 0 Unknown 120 0 4 120 0 0 0 TOTAL 49062 1916 15208 44120 17180 1964 0

114. Exercise // 1MB + some overhead class Chunk { byte[]

     padding = new byte[1024 * 1024]; }

115. Exercise List<Chunk> mRetainedChunks = new ArrayList<Chunk>(); List<Chunk> mTempChunks = new

     ArrayList<Chunk>(); int i = 0; Runtime runtime = Runtime.getRuntime(); long max = runtime.maxMemory() - 1024 * 1024; while (runtime.totalMemory() < max) { ((i++ % 2 == 0) ? mRetainedChunks : mTempChunks) .add(new Chunk()); }

116. Exercise Log.d("Heap", "max=" + toMB(runtime.maxMemory())); Log.d("Heap", String.format("heap: %.2f/%.2f", toMB(runtime.freeMemory()), toMB(runtime.totalMemory())));

117. Exercise Log.d("Heap", "max=" + toMB(runtime.maxMemory())); Log.d("Heap", String.format("heap: %.2f/%.2f", toMB(runtime.freeMemory()), toMB(runtime.totalMemory())));

     # < 1 MB of free memory D/Heap(13055): max=192.0 D/Heap(13055): heap: 0.84/191.99

118. Exercise // Remove half the chunks mTransientChunks.clear(); // Force a

     GC to free up memory System.gc();

119. Exercise // Remove half the chunks mTransientChunks.clear(); // Force a

     GC to free up memory System.gc(); # < 87 MB of free memory D/Heap(13055): heap: 87.86/191.99

120. Exercise // Allocate ~2MB Bitmap b = Bitmap.createBitmap(1024, 512, Bitmap.Config.ARGB_8888);

121. Exercise // Allocate ~2MB Bitmap b = Bitmap.createBitmap(1024, 512, Bitmap.Config.ARGB_8888);

     D/dalvikvm: GC_BEFORE_OOM freed 0K, 46% free 106633K/196600K, … E/dalvikvm-heap: Out of memory on a 2097168-byte allocation.

122. Dalvik Heap Management • Single virtual memory range • Non-compacting

     - The heap will fragment! • Can shrink if unused space at end of range • madvise used to free individual pages inside of the range - returns memory to kernel • even if the heap size does not shrink

123. Dalvik Heap Analysis • Zygote allocations are generally not of

     concern for an app • Convert data prior to heap analysis: hprof-conv

124. Collect Heap Data • Run your app • Select your

     app in DDMS • Press "Dump HPROF File" button • Save file

125. Analyze with [jh|m]at • localhost:7000 in browser • or load

     into mat $ hprof-conv ~/systemui.hprof ~/systemui-conv.hprof $ jhat ~/systemui-conv.hprof

126. Finding Leaks • Simple way: - 1. Run app for

     a while - 2. Look at heap - 3. Profit! • Caveats: - Use “adb shell dumpsys meminfo <app>” for initial overview - Finding large leaks is easy (sort by size) - finding systemic memory problems is often hard

127. Dalvik Allocation Tracker • Allocations over a set period of

     time • DDMS allocation tracker: - Select app - “Start tracking” - Interact with app - “Get allocations” - Click to see stack • Good tool for jank, too!

128. Dalvik Allocation Tracker • Allocations over a set period of

     time • DDMS allocation tracker: - Select app - “Start tracking” - Interact with app - “Get allocations” - Click to see stack • Good tool for jank, too! Great

129. Processes • Every process has overhead - Empty, do-nothing process:

     1.5 MB USS - Ready to show UI: 4 MB USS - Showing UI: much more • Avoid multiple processes in general • Possible to run multiple apps in one process - Activity’s android:process attribute

130. procstats: UI

131. procstats: command line $ adb shell dumpsys procstats com.google.android.apps.maps COMMITTED

     STATS FROM 2013-11-05-18-04-58: * com.google.android.apps.maps / u0a60: TOTAL: 1.1% Service: 1.1% (Cached): 99% (98MB-98MB-99MB/96MB-97MB-97MB over 7) Run time Stats: Screen Off / Norm / +1h19m25s22ms Screen On / Norm / +10m43s963ms TOTAL: +1h30m8s985ms Start time: 2013-11-05 18:04:58 Total elapsed time: +5h9m53s44ms (complete) libdvm.so chromeview

132. For More Information • Managing Your App’s Memory - http://developer.android.com/training/articles/memory.html