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jianglk.darker
7ee447c011
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4 months ago | |
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arm | 4 months ago | |
arm64 | 4 months ago | |
arm64ng | 4 months ago | |
armng | 4 months ago | |
common | 4 months ago | |
x86 | 4 months ago | |
x86_64 | 4 months ago | |
x86_64ng | 4 months ago | |
README.txt | 4 months ago | |
gen_mterp.py | 4 months ago | |
mterp.cc | 4 months ago | |
mterp.h | 4 months ago | |
mterp_stub.cc | 4 months ago | |
nterp.cc | 4 months ago | |
nterp.h | 4 months ago | |
nterp_stub.cc | 4 months ago |
README.txt
==== Overview ==== The assembly source code is produced from custom python-based templates. All the architecture-specific template files are concatenated to create one big python script. This generated python script is then executed to produced the final assembly file. The template syntax is: * Lines starting with % are python code. They will be copied as-is to the script (without the %) and thus executed during the generation. * Other lines are text, and they are essentially syntax sugar for out.write('''(line text)''') and thus they write the main output. * Within a text line, $ can be used insert variables from code. The final assembly sources are written into the "out" directory, where they are picked up by the Android build system. The best way to become familiar with the interpreter is to look at the generated files in the "out" directory. ==== Instruction file format ==== The assembly instruction files are simply fragments of assembly sources. The starting label will be provided by the generation tool, as will declarations for the segment type and alignment. The following global variables are generally available: $opcode - opcode name, e.g. "OP_NOP" $opnum - opcode number, e.g. 0 for OP_NOP $handler_size_bytes - max size of an instruction handler, in bytes $handler_size_bits - max size of an instruction handler, log 2 Both C and assembly sources will be passed through the C pre-processor, so you can take advantage of C-style comments and preprocessor directives like "#define". The generation tool does *not* print a warning if your instructions exceed "handler-size", but the VM will abort on startup if it detects an oversized handler. On architectures with fixed-width instructions this is easy to work with, on others this you will need to count bytes. ==== Using C constants from assembly sources ==== The file "art/runtime/asm_support.h" has some definitions for constant values, structure sizes, and struct member offsets. The format is fairly restricted, as simple macros are used to massage it for use with both C (where it is verified) and assembly (where the definitions are used). If a constant in the file becomes out of sync, the VM will log an error message and abort during startup. ==== Rebuilding ==== If you change any of the source file fragments, you need to rebuild the combined source files in the "out" directory. Make sure the files in "out" are editable, then: $ cd mterp $ ./gen_mterp.py The ultimate goal is to have the build system generate the necessary output files without requiring this separate step, but we're not yet ready to require Python in the build. ==== Interpreter Control ==== The mterp fast interpreter achieves much of its performance advantage over the C++ interpreter through its efficient mechanism of transitioning from one Dalvik bytecode to the next. Mterp for ARM targets uses a computed-goto mechanism, in which the handler entrypoints are located at the base of the handler table + (opcode * 128). In normal operation, the dedicated register rIBASE (r8 for ARM, edx for x86) holds a mainHandlerTable. If we need to switch to a mode that requires inter-instruction checking, rIBASE is changed to altHandlerTable. Note that this change is not immediate. What is actually changed is the value of curHandlerTable - which is part of the interpBreak structure. Rather than explicitly check for changes, each thread will unconditionally refresh rIBASE at backward branches, exception throws and returns.