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217 lines
9.3 KiB
217 lines
9.3 KiB
<html>
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<head>
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<title>Dalvik Bytecode Verifier Notes</title>
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</head>
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<body>
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<h1>Dalvik Bytecode Verifier Notes</h1>
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<p>
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The bytecode verifier in the Dalvik VM attempts to provide the same sorts
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of checks and guarantees that other popular virtual machines do. We
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perform generally the same set of checks as are described in _The Java
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Virtual Machine Specification, Second Edition_, including the updates
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planned for the Third Edition.
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<p>
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Verification can be enabled for all classes, disabled for all, or enabled
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only for "remote" (non-bootstrap) classes. It should be performed for any
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class that will be processed with the DEX optimizer, and in fact the
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default VM behavior is to only optimize verified classes.
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<h2>Why Verify?</h2>
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<p>
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The verification process adds additional time to the build and to
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the installation of new applications. It's fairly quick for app-sized
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DEX files, but rather slow for the big "core" and "framework" files.
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Why do it all, when our system relies on UNIX processes for security?
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<p>
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<ol>
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<li>Optimizations. The interpreter can ignore a lot of potential
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error cases because the verifier guarantees that they are impossible.
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Also, we can optimize the DEX file more aggressively if we start
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with a stronger set of assumptions about the bytecode.
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<li>"Precise" GC. The work peformed during verification has significant
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overlap with the work required to compute register use maps for
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type-precise GC.
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<li>Intra-application security. If an app wants to download bits
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of interpreted code over the network and execute them, it can safely
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do so using well-established security mechanisms.
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<li>3rd party app failure analysis. We have no way to control the
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tools and post-processing utilities that external developers employ,
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so when we get bug reports with a weird exception or native crash
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it's very helpful to start with the assumption that the bytecode
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is valid.
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</ol>
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<p>
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It's also a convenient framework to deal with certain situations, notably
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replacement of instructions that access volatile 64-bit fields with
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more rigorous versions that guarantee atomicity.
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<h2>Verifier Differences</h2>
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<p>
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There are a few checks that the Dalvik bytecode verifier does not perform,
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because they're not relevant. For example:
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<ul>
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<li>Type restrictions on constant pool references are not enforced,
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because Dalvik does not have a pool of typed constants. (Dalvik
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uses a simple index into type-specific pools.)
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<li>Verification of the operand stack size is not performed, because
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Dalvik does not have an operand stack.
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<li>Limitations on <code>jsr</code> and <code>ret</code> do not apply,
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because Dalvik doesn't support subroutines.
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</ul>
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In some cases they are implemented differently, e.g.:
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<ul>
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<li>In a conventional VM, backward branches and exceptions are
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forbidden when a local variable holds an uninitialized reference. The
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restriction was changed to mark registers as invalid when they hold
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references to the uninitialized result of a previous invocation of the
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same <code>new-instance</code> instruction.
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This solves the same problem -- trickery potentially allowing
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uninitialized objects to slip past the verifier -- without unduly
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limiting branches.
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</ul>
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There are also some new ones, such as:
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<ul>
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<li>The <code>move-exception</code> instruction can only appear as
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the first instruction in an exception handler.
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<li>The <code>move-result*</code> instructions can only appear
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immediately after an appropriate <code>invoke-*</code>
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or <code>filled-new-array</code> instruction.
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</ul>
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<p>
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The VM is permitted but not required to enforce "structured locking"
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constraints, which are designed to ensure that, when a method returns, all
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monitors locked by the method have been unlocked an equal number of times.
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This is not currently implemented.
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<p>
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The Dalvik verifier is more restrictive than other VMs in one area:
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type safety on sub-32-bit integer widths. These additional restrictions
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should make it impossible to, say, pass a value outside the range
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[-128, 127] to a function that takes a <code>byte</code> as an argument.
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<h2>Monitor Verification</h2>
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<p>
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If a method locks an object with a <code>synchronized</code> statement, the
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object must be unlocked before the method returns. At the bytecode level,
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this means the method must execute a matching <code>monitor-exit</code>
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for every <code>monitor-enter</code> instruction, whether the function
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completes normally or abnormally. The bytecode verifier optionally
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enforces this.
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<p>
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The verifier uses a fairly simple-minded model. If you enter a monitor
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held in register N, you can exit the monitor using register N or any
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subsequently-made copies of register N. The verifier does not attempt
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to identify previously-made copies, track loads and stores through
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fields, or recognize identical constant values (for example, the result
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values from two <code>const-class</code> instructions on the same class
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will be the same reference, but the verifier doesn't recognize this).
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<p>
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Further, you may only exit the monitor most recently entered. "Hand
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over hand" locking techniques, e.g. "lock A; lock B; unlock A; unlock B",
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are not allowed.
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<p>
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This means that there are a number of situations in which the verifier
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will throw an exception on code that would execute correctly at run time.
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This is not expected to be an issue for compiler-generated bytecode.
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<p>
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For implementation convenience, the maximum nesting depth of
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<code>synchronized</code> statements has been set to 32. This is not
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a limitation on the recursion count. The only way to trip this would be
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to have a single method with more than 32 nested <code>synchronized</code>
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statements, something that is unlikely to occur.
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<h2>Verification Failures</h2>
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<p>
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The verifier may reject a class immediately, or it may defer throwing
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an exception until the code is actually used. For example, if a class
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attempts to perform an illegal access on a field, the VM should throw
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an IllegalAccessError the first time the instruction is encountered.
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On the other hand, if a class contains an invalid bytecode, it should be
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rejected immediately with a VerifyError.
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<p>
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Immediate VerifyErrors are accompanied by detailed, if somewhat cryptic,
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information in the log file. From this it's possible to determine the
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exact instruction that failed, and the reason for the failure.
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<p>
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It's a bit tricky to implement deferred verification errors in Dalvik.
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A few approaches were considered:
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<ol>
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<li>We could replace the invalid field access instruction with a special
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instruction that generates an illegal access error, and allow class
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verification to complete successfully. This type of verification must
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be deferred to first class load, rather than be performed ahead of time
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during DEX optimization, because some failures will depend on the current
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execution environment (e.g. not all classes are available at dexopt time).
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At that point the bytecode instructions are mapped read-only during
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verification, so rewriting them isn't possible.
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</li>
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<li>We can perform the access checks when the field/method/class is
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resolved. In a typical VM implementation we would do the check when the
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entry is resolved in the context of the current classfile, but our DEX
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files combine multiple classfiles together, merging the field/method/class
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resolution results into a single large table. Once one class successfully
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resolves the field, every other class in the same DEX file would be able
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to access the field. This is incorrect.
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</li>
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<li>Perform the access checks on every field/method/class access.
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This adds significant overhead. This is mitigated somewhat by the DEX
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optimizer, which will convert many field/method/class accesses into a
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simpler form after performing the access check. However, not all accesses
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can be optimized (e.g. accesses to classes unknown at dexopt time),
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and we don't currently have an optimized form of certain instructions
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(notably static field operations).
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</li>
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</ol>
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<p>
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In early versions of Dalvik (as found in Android 1.6 and earlier), the verifier
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simply regarded all problems as immediately fatal. This generally worked,
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but in some cases the VM was rejecting classes because of bits of code
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that were never used. The VerifyError itself was sometimes difficult to
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decipher, because it was thrown during verification rather than at the
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point where the problem was first noticed during execution.
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<p>
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The current version uses a variation of approach #1. The dexopt
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command works the way it did before, leaving the code untouched and
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flagging fully-correct classes as "pre-verified". When the VM loads a
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class that didn't pass pre-verification, the verifier is invoked. If a
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"deferrable" problem is detected, a modifiable copy of the instructions
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in the problematic method is made. In that copy, the troubled instruction
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is replaced with an "always throw" opcode, and verification continues.
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<p>
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In the example used earlier, an attempt to read from an inaccessible
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field would result in the "field get" instruction being replaced by
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"always throw IllegalAccessError on field X". Creating copies of method
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bodies requires additional heap space, but since this affects very few
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methods overall the memory impact should be minor.
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<p>
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<address>Copyright © 2008 The Android Open Source Project</address>
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</body>
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</html>
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