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542 lines
18 KiB
Groff
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.\" Manual page created with latex2man on Sat Dec 20 22:00:11 PST 2003
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.\" NOTE: This file is generated, DO NOT EDIT.
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.de Vb
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.ft CW
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.nf
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..
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.de Ve
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.ft R
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.fi
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..
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.TH "LIBUNWIND\-DYNAMIC" "3" "20 December 2003" "Programming Library " "Programming Library "
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.SH NAME
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libunwind\-dynamic
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\-\- libunwind\-support for runtime\-generated code
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.PP
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.SH INTRODUCTION
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.PP
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For libunwind
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to do its job, it needs to be able to reconstruct
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the \fIframe state\fP
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of each frame in a call\-chain. The frame state
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describes the subset of the machine\-state that consists of the
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\fIframe registers\fP
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(typically the instruction\-pointer and the
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stack\-pointer) and all callee\-saved registers (preserved registers).
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The frame state describes each register either by providing its
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current value (for frame registers) or by providing the location at
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which the current value is stored (callee\-saved registers).
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.PP
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For statically generated code, the compiler normally takes care of
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emitting \fIunwind\-info\fP
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which provides the minimum amount of
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information needed to reconstruct the frame\-state for each instruction
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in a procedure. For dynamically generated code, the runtime code
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generator must use the dynamic unwind\-info interface provided by
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libunwind
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to supply the equivalent information. This manual
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page describes the format of this information in detail.
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.PP
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For the purpose of this discussion, a \fIprocedure\fP
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is defined to
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be an arbitrary piece of \fIcontiguous\fP
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code. Normally, each
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procedure directly corresponds to a function in the source\-language
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but this is not strictly required. For example, a runtime
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code\-generator could translate a given function into two separate
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(discontiguous) procedures: one for frequently\-executed (hot) code and
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one for rarely\-executed (cold) code. Similarly, simple
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source\-language functions (usually leaf functions) may get translated
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into code for which the default unwind\-conventions apply and for such
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code, it is not strictly necessary to register dynamic unwind\-info.
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.PP
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A procedure logically consists of a sequence of \fIregions\fP\&.
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Regions are nested in the sense that the frame state at the end of one
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region is, by default, assumed to be the frame state for the next
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region. Each region is thought of as being divided into a
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\fIprologue\fP,
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a \fIbody\fP,
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and an \fIepilogue\fP\&.
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Each of them
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can be empty. If non\-empty, the prologue sets up the frame state for
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the body. For example, the prologue may need to allocate some space
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on the stack and save certain callee\-saved registers. The body
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performs the actual work of the procedure but does not change the
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frame state in any way. If non\-empty, the epilogue restores the
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previous frame state and as such it undoes or cancels the effect of
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the prologue. In fact, a single epilogue may undo the effect of the
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prologues of several (nested) regions.
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.PP
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We should point out that even though the prologue, body, and epilogue
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are logically separate entities, optimizing code\-generators will
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generally interleave instructions from all three entities. For this
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reason, the dynamic unwind\-info interface of libunwind
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makes no
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distinction whatsoever between prologue and body. Similarly, the
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exact set of instructions that make up an epilogue is also irrelevant.
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The only point in the epilogue that needs to be described explicitly
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by the dynamic unwind\-info is the point at which the stack\-pointer
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gets restored. The reason this point needs to be described is that
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once the stack\-pointer is restored, all values saved in the
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deallocated portion of the stack frame become invalid and hence
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libunwind
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needs to know about it. The portion of the frame
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state not saved on the stack is assume to remain valid through the end
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of the region. For this reason, there is usually no need to describe
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instructions which restore the contents of callee\-saved registers.
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.PP
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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 r1
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at offset 16
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in the stack frame.
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.PP
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.SH PROCEDURES
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.PP
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A runtime code\-generator registers the dynamic unwind\-info of a
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procedure by setting up a structure of type unw_dyn_info_t
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and calling _U_dyn_register(),
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passing the address of the
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structure as the sole argument. The members of the
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unw_dyn_info_t
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structure are described below:
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.TP
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void *next
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Private to libunwind\&.
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Must not be used
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by the application.
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.TP
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void *prev
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Private to libunwind\&.
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Must not be used
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by the application.
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.TP
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unw_word_t start_ip
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The start\-address of the
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instructions of the procedure (remember: procedure are defined to be
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contiguous pieces of code, so a single code\-range is sufficient).
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.TP
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unw_word_t end_ip
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The end\-address of the
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instructions of the procedure (non\-inclusive, that is,
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end_ip\-start_ip
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is the size of the procedure in
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bytes).
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.TP
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unw_word_t gp
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The global\-pointer value in use
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for this procedure. The exact meaing of the global\-pointer is
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architecture\-specific and on some architecture, it is not used at
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all.
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.TP
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int32_t format
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The format of the unwind\-info.
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This member can be one of UNW_INFO_FORMAT_DYNAMIC,
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UNW_INFO_FORMAT_TABLE,
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or
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UNW_INFO_FORMAT_REMOTE_TABLE\&.
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.TP
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union u
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This union contains one sub\-member
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structure for every possible unwind\-info format:
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.RS
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.TP
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unw_dyn_proc_info_t pi
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This member is used
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for format UNW_INFO_FORMAT_DYNAMIC\&.
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.TP
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unw_dyn_table_info_t ti
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This member is used
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for format UNW_INFO_FORMAT_TABLE\&.
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.TP
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unw_dyn_remote_table_info_t rti
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This member
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is used for format UNW_INFO_FORMAT_REMOTE_TABLE\&.
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.RE
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.RS
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.PP
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The format of these sub\-members is described in detail below.
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.RE
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.PP
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.SS PROC\-INFO FORMAT
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.PP
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This is the preferred dynamic unwind\-info format and it is generally
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the one used by full\-blown runtime code\-generators. In this format,
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the details of a procedure are described by a structure of type
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unw_dyn_proc_info_t\&.
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This structure contains the following
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members:
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.PP
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.RE
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.TP
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unw_word_t name_ptr
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The address of a
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(human\-readable) name of the procedure or 0 if no such name is
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available. If non\-zero, The string stored at this address must be
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ASCII NUL terminated. For source languages that use name\-mangling
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(such as C++ or Java) the string stored at this address should be
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the \fIdemangled\fP
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version of the name.
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.PP
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.TP
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unw_word_t handler
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The address of the
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personality\-routine for this procedure. Personality\-routines are
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used in conjunction with exception handling. See the C++ ABI draft
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(http://www.codesourcery.com/cxx\-abi/) for an overview and a
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description of the personality routine. If the procedure has no
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personality routine, handler
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must be set to 0.
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.PP
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.TP
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uint32_t flags
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A bitmask of flags. At the
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moment, no flags have been defined and this member must be
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set to 0.
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.PP
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.TP
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unw_dyn_region_info_t *regions
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A NULL\-terminated
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linked list of region\-descriptors. See section ``Region
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descriptors\&'' below for more details.
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.PP
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.SS TABLE\-INFO FORMAT
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.PP
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This format is generally used when the dynamically generated code was
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derived from static code and the unwind\-info for the dynamic and the
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static versions is identical. For example, this format can be useful
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when loading statically\-generated code into an address\-space in a
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non\-standard fashion (i.e., through some means other than
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dlopen()).
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In this format, the details of a group of procedures
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is described by a structure of type unw_dyn_table_info\&.
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This structure contains the following members:
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.PP
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.TP
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unw_word_t name_ptr
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The address of a
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(human\-readable) name of the procedure or 0 if no such name is
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available. If non\-zero, The string stored at this address must be
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ASCII NUL terminated. For source languages that use name\-mangling
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(such as C++ or Java) the string stored at this address should be
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the \fIdemangled\fP
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version of the name.
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.PP
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.TP
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unw_word_t segbase
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The segment\-base value
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that needs to be added to the segment\-relative values stored in the
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unwind\-info. The exact meaning of this value is
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architecture\-specific.
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.PP
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.TP
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unw_word_t table_len
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The length of the
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unwind\-info (table_data)
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counted in units of words
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(unw_word_t).
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.PP
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.TP
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unw_word_t table_data
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A pointer to the actual
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data encoding the unwind\-info. The exact format is
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architecture\-specific (see architecture\-specific sections below).
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.PP
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.SS REMOTE TABLE\-INFO FORMAT
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.PP
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The remote table\-info format has the same basic purpose as the regular
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table\-info format. The only difference is that when libunwind
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uses the unwind\-info, it will keep the table data in the target
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address\-space (which may be remote). Consequently, the type of the
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table_data
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member is unw_word_t
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rather than a pointer.
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This implies that libunwind
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will have to access the table\-data
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via the address\-space\&'s access_mem()
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call\-back, rather than
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through a direct memory reference.
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.PP
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From the point of view of a runtime\-code generator, the remote
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table\-info format offers no advantage and it is expected that such
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generators will describe their procedures either with the proc\-info
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format or the normal table\-info format. The main reason that the
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remote table\-info format exists is to enable the
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address\-space\-specific find_proc_info()
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callback (see
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unw_create_addr_space(3))
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to return unwind tables whose
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data remains in remote memory. This can speed up unwinding (e.g., for
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a debugger) because it reduces the amount of data that needs to be
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loaded from remote memory.
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.PP
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.SH REGIONS DESCRIPTORS
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.PP
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A region descriptor is a variable length structure that describes how
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each instruction in the region affects the frame state. Of course,
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most instructions in a region usualy do not change the frame state and
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for those, nothing needs to be recorded in the region descriptor. A
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region descriptor is a structure of type
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unw_dyn_region_info_t
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and has the following members:
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.TP
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unw_dyn_region_info_t *next
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A pointer to the
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next region. If this is the last region, next
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is NULL\&.
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.TP
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int32_t insn_count
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The length of the region in
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instructions. Each instruction is assumed to have a fixed size (see
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architecture\-specific sections for details). The value of
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insn_count
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may be negative in the last region of a procedure
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(i.e., it may be negative only if next
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is NULL).
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A
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negative value indicates that the region covers the last \fIN\fP
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instructions of the procedure, where \fIN\fP
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is the absolute value
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of insn_count\&.
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.TP
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uint32_t op_count
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The (allocated) length of
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the op_count
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array.
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.TP
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unw_dyn_op_t op
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An array of dynamic unwind
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directives. See Section ``Dynamic unwind directives\&'' for a
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description of the directives.
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.PP
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A region descriptor with an insn_count
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of zero is an
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\fIempty region\fP
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and such regions are perfectly legal. In fact,
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empty regions can be useful to establish a particular frame state
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before the start of another region.
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.PP
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A single region list can be shared across multiple procedures provided
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those procedures share a common prologue and epilogue (their bodies
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may differ, of course). Normally, such procedures consist of a canned
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prologue, the body, and a canned epilogue. This could be described by
|
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two regions: one covering the prologue and one covering the epilogue.
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Since the body length is variable, the latter region would need to
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specify a negative value in insn_count
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such that
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libunwind
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knows that the region covers the end of the procedure
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(up to the address specified by end_ip).
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.PP
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The region descriptor is a variable length structure to make it
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possible to allocate all the necessary memory with a single
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memory\-allocation request. To facilitate the allocation of a region
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descriptors libunwind
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provides a helper routine with the
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following synopsis:
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.PP
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size_t
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_U_dyn_region_size(int
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op_count);
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.PP
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This routine returns the number of bytes needed to hold a region
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descriptor with space for op_count
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unwind directives. Note
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that the length of the op
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array does not have to match exactly
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with the number of directives in a region. Instead, it is sufficient
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if the op
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array contains at least as many entries as there are
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directives, since the end of the directives can always be indicated
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with the UNW_DYN_STOP
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directive.
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.PP
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.SH DYNAMIC UNWIND DIRECTIVES
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.PP
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A dynamic unwind directive describes how the frame state changes
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at a particular point within a region. The description is in
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the form of a structure of type unw_dyn_op_t\&.
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This
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structure has the following members:
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.TP
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int8_t tag
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The operation tag. Must be one
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of the unw_dyn_operation_t
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values described below.
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.TP
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int8_t qp
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The qualifying predicate that controls
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whether or not this directive is active. This is useful for
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predicated architecturs such as IA\-64 or ARM, where the contents of
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another (callee\-saved) register determines whether or not an
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instruction is executed (takes effect). If the directive is always
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active, this member should be set to the manifest constant
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_U_QP_TRUE
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(this constant is defined for all
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architectures, predicated or not).
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.TP
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int16_t reg
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The number of the register affected
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by the instruction.
|
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.TP
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int32_t when
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The region\-relative number of
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the instruction to which this directive applies. For example,
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a value of 0 means that the effect described by this directive
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has taken place once the first instruction in the region has
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executed.
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.TP
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unw_word_t val
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The value to be applied by the
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operation tag. The exact meaning of this value varies by tag. See
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Section ``Operation tags\&'' below.
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.PP
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It is perfectly legitimate to specify multiple dynamic unwind
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directives with the same when
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value, if a particular instruction
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has a complex effect on the frame state.
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.PP
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Empty regions by definition contain no actual instructions and as such
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the directives are not tied to a particular instruction. By
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convention, the when
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member should be set to 0, however.
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.PP
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There is no need for the dynamic unwind directives to appear
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in order of increasing when
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values. If the directives happen to
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be sorted in that order, it may result in slightly faster execution,
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but a runtime code\-generator should not go to extra lengths just to
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ensure that the directives are sorted.
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.PP
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IMPLEMENTATION NOTE: should libunwind
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implementations for
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certain architectures prefer the list of unwind directives to be
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sorted, it is recommended that such implementations first check
|
|
whether the list happens to be sorted already and, if not, sort the
|
|
directives explicitly before the first use. With this approach, the
|
|
overhead of explicit sorting is only paid when there is a real benefit
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and if the runtime code\-generator happens to generated sorted lists
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naturally, the performance penalty is limited to a simple O(N) check.
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.PP
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|
.SS OPERATIONS TAGS
|
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.PP
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|
The possible operation tags are defined by enumeration type
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unw_dyn_operation_t
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which defines the following
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values:
|
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.PP
|
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.TP
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|
UNW_DYN_STOP
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Marks the end of the dynamic unwind
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directive list. All remaining entries in the op
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array of the
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region\-descriptor are ignored. This tag is guaranteed to have a
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value of 0.
|
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.PP
|
|
.TP
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|
UNW_DYN_SAVE_REG
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|
Marks an instruction which saves
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register reg
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to register val\&.
|
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.PP
|
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.TP
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|
UNW_DYN_SPILL_FP_REL
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|
Marks an instruction which
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|
spills register reg
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|
to a frame\-pointer\-relative location. The
|
|
frame\-pointer\-relative offset is given by the value stored in member
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|
val\&.
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|
See the architecture\-specific sections for a description
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|
of the stack frame layout.
|
|
.PP
|
|
.TP
|
|
UNW_DYN_SPILL_SP_REL
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|
Marks an instruction which
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|
spills register reg
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|
to a stack\-pointer\-relative location. The
|
|
stack\-pointer\-relative offset is given by the value stored in member
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|
val\&.
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|
See the architecture\-specific sections for a description
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|
of the stack frame layout.
|
|
.PP
|
|
.TP
|
|
UNW_DYN_ADD
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|
Marks an instruction which adds
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the constant value val
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to register reg\&.
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To add subtract
|
|
a constant value, store the two\&'s\-complement of the value in
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val\&.
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|
The set of registers that can be specified for this tag
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|
is described in the architecture\-specific sections below.
|
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.PP
|
|
.TP
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|
UNW_DYN_POP_FRAMES
|
|
.PP
|
|
.TP
|
|
UNW_DYN_LABEL_STATE
|
|
.PP
|
|
.TP
|
|
UNW_DYN_COPY_STATE
|
|
.PP
|
|
.TP
|
|
UNW_DYN_ALIAS
|
|
.PP
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|
unw_dyn_op_t
|
|
.PP
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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();
|
|
_U_dyn_op_copy_state();
|
|
_U_dyn_op_alias();
|
|
_U_dyn_op_stop();
|
|
.PP
|
|
.SH IA\-64 SPECIFICS
|
|
|
|
.PP
|
|
\- meaning of segbase member in table\-info/table\-remote\-info format
|
|
\- format of table_data in table\-info/table\-remote\-info format
|
|
\- instruction size: each bundle is counted as 3 instructions, regardless
|
|
of template (MLX)
|
|
\- describe stack\-frame layout, especially with regards to sp\-relative
|
|
and fp\-relative addressing
|
|
\- UNW_DYN_ADD can only add to ``sp\&'' (always a negative value); use
|
|
POP_FRAMES otherwise
|
|
.PP
|
|
.SH SEE ALSO
|
|
|
|
.PP
|
|
libunwind(3),
|
|
_U_dyn_register(3),
|
|
_U_dyn_cancel(3)
|
|
.PP
|
|
.SH AUTHOR
|
|
|
|
.PP
|
|
David Mosberger\-Tang
|
|
.br
|
|
Hewlett\-Packard Labs
|
|
.br
|
|
Palo\-Alto, CA 94304
|
|
.br
|
|
Email: \fBdavidm@hpl.hp.com\fP
|
|
.br
|
|
WWW: \fBhttp://www.hpl.hp.com/research/linux/libunwind/\fP\&.
|
|
.\" NOTE: This file is generated, DO NOT EDIT.
|