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e91ef29727
(Logical change 1.139)
138 lines
5.7 KiB
TeX
138 lines
5.7 KiB
TeX
\documentclass{article}
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\usepackage[fancyhdr,pdf]{latex2man}
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\input{common.tex}
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\begin{document}
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\begin{Name}{3}{libunwind-dynamic}{David Mosberger-Tang}{Programming Library}{Introduction to dynamic unwind-info}libunwind-dynamic -- libunwind-support for runtime-generated code
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\end{Name}
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\section{Introduction}
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For \Prog{libunwind} to do its work, it needs to be able to
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reconstruct the \emph{frame state} of each frame in a call-chain. The
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frame state consists of some frame registers (such as the
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instruction-pointer and the stack-pointer) and the locations at which
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the current values of every callee-saved (``preserved'') resides.
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The purpose of the dynamic unwind-info is therefore to provide
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\Prog{libunwind} the minimal information it needs about each
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dynamically generated procedure such that it can reconstruct the
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procedure's frame state.
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For the purpose of the following discussion, a \emph{procedure} is any
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contiguous piece of code. Normally, each procedure directly
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corresponds to a function in the source-language but this is not
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strictly required. For example, a runtime code-generator could
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translate a given function into two separate (discontiguous)
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procedures: one for frequently-executed (hot) code and one for
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rarely-executed (cold) code. Similarly, simple source-language
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functions (usually leaf functions) may get translated into code for
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which the default unwind-conventions apply and for such code, no
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dynamic unwind info needs to be registered.
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Within a procedure, the code can be thought of as being divided into a
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sequence of \emph{regions}. Each region logically consists of an
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optional \emph{prologue}, a \emph{body}, and an optional
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\emph{epilogue}. If present, the prologue sets up the frame state for
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the body, which does the actual work of the procedure. For example,
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the prologue may need to allocate a stack-frame and save some
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callee-saved registers before the body can start executing.
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Correspondingly, the epilogue, if present, restores the previous frame
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state and thereby undoes the effect of the prologue. Regions are
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nested in the sense that the frame state at the end of a region serves
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as the entry-state of the next region. At the end of several nested
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regions, there may be a single epilogue which undoes the effect of all
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the prologues in the nested regions.
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Even though logically we think of the prologue, body, and epilogue as
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separate entities, optimizing code-generators will generally
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interleave instructions from all three entities to achieve higher
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performance. In fact, as far as the dynamic unwind-info is concerned,
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there is no distinction at all between prologue and body. Similarly,
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the exact set of instructions that make up an epilogue is also
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irrelevant. The only point in the epilogue that needs to be described
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explicitly is the point at which the stack-pointer gets restored. The
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reason this point needs to be described is that once the stack-pointer
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is restored, all values saved in the deallocated portion of the stack
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become invalid. All other locations that store the values of
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callee-saved register are assumed to remain valid throughout the end
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of the region.
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Within a region, each instruction that affects the frame state in some
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fashion needs to be described with an operation descriptor. For this
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purpose, each instruction in the region is assigned a unique index.
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Exactly how this index is derived depends on the architecture. For
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example, on RISC and EPIC-style architecture, instructions have a
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fixed size so it's possible to simply number the instructions. In
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contrast, most CISC use variable-length instruction encodings, so it
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is usually necessary to use a byte-offset as the index. Given the
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instruction index, the operation descriptor specifies the effect of
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the instruction in an abstract manner. For example, it might express
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that the instruction stores calle-saved register \Var{r1} at offset 16
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in the stack frame.
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\section{Procedures}
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unw\_dyn\_info\_t
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unw\_dyn\_proc\_info\_t
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unw\_dyn\_table\_info\_t
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unw\_dyn\_remote\_table\_info\_t
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\section{Regions}
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unw\_dyn\_region\_info\_t:
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- insn_count can be negative to indicate that the region is
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at the end of the procedure; in such a case, the negated
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insn_count value specifies the length of the final region
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in number of instructions. There must be at most one region
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with a negative insn_count and only the last region in a
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procedure's region list may be negative. Furthermore, both
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di->start\_ip and di->end\_ip must be valid.
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\section{Operations}
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unw\_dyn\_operation\_t
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unw\_dyn\_op\_t
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\_U\_QP\_TRUE
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unw\_dyn\_info\_format\_t
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- instructions don't have to be sorted in increasing order of ``when''
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values: In general, if you can generate the sorted order easily
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(e.g., without an explicit sorting step), I'd recommend doing so
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because in that case, should some version of libunwind ever require
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sorted order, libunwind can verify in O(N) that the list is sorted
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already. In the particular case of the ia64-version of libunwind, a
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sorted order won't help, since it always scans the instructions up
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to UNW_DYN_STOP.
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\_U\_dyn\_region\_info\_size(opcount);
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\_U\_dyn\_op\_save\_reg();
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\_U\_dyn\_op\_spill\_fp\_rel();
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\_U\_dyn\_op\_spill\_sp\_rel();
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\_U\_dyn\_op\_add();
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\_U\_dyn\_op\_pop\_frames();
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\_U\_dyn\_op\_label\_state();
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\_U\_dyn\_op\_copy\_state();
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\_U\_dyn\_op\_alias();
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\_U\_dyn\_op\_stop();
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\section{See Also}
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\SeeAlso{libunwind(3)},
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\SeeAlso{\_U\_dyn\_register(3)},
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\SeeAlso{\_U\_dyn\_cancel(3)}
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\section{Author}
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\noindent
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David Mosberger-Tang\\
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Hewlett-Packard Labs\\
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Palo-Alto, CA 94304\\
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Email: \Email{davidm@hpl.hp.com}\\
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WWW: \URL{http://www.hpl.hp.com/research/linux/libunwind/}.
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\LatexManEnd
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\end{document}
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