mirror of
git://sourceware.org/git/glibc.git
synced 2024-12-21 04:31:04 +08:00
d99609a3eb
And shorten the section/node names a bit, so that the menu
entries become easier to read.
Texinfo 6.5 fails to process the previous structure:
./dynlink.texi:56: warning: node `Dynamic Linker Introspection' is
next for `Dynamic Linker Diagnostics' in sectioning but not in menu
./dynlink.texi:56: warning: node up `Dynamic Linker Diagnostics'
in menu `Dynamic Linker Invocation' and
in sectioning `Dynamic Linker' differ
./dynlink.texi:1: node `Dynamic Linker' lacks menu item for
`Dynamic Linker Diagnostics' despite being its Up target
./dynlink.texi:226: warning: node prev `Dynamic Linker Introspection' in menu `Dynamic Linker Invocation'
and in sectioning `Dynamic Linker Diagnostics' differ
Texinfo 7.0.2 does not report an error.
This fixes commit f21962ddfc
("manual: Document ld.so --list-diagnostics output").
Reviewed-by: Szabolcs Nagy <szabolcs.nagy@arm.com>
431 lines
16 KiB
Plaintext
431 lines
16 KiB
Plaintext
@node Dynamic Linker
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@c @node Dynamic Linker, Internal Probes, Threads, Top
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@c %MENU% Loading programs and shared objects.
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@chapter Dynamic Linker
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@cindex dynamic linker
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@cindex dynamic loader
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The @dfn{dynamic linker} is responsible for loading dynamically linked
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programs and their dependencies (in the form of shared objects). The
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dynamic linker in @theglibc{} also supports loading shared objects (such
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as plugins) later at run time.
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Dynamic linkers are sometimes called @dfn{dynamic loaders}.
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@menu
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* Dynamic Linker Invocation:: Explicit invocation of the dynamic linker.
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* Dynamic Linker Introspection:: Interfaces for querying mapping information.
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@end menu
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@node Dynamic Linker Invocation
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@section Dynamic Linker Invocation
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@cindex program interpreter
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When a dynamically linked program starts, the operating system
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automatically loads the dynamic linker along with the program.
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@Theglibc{} also supports invoking the dynamic linker explicitly to
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launch a program. This command uses the implied dynamic linker
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(also sometimes called the @dfn{program interpreter}):
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@smallexample
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sh -c 'echo "Hello, world!"'
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@end smallexample
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This command specifies the dynamic linker explicitly:
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@smallexample
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ld.so /bin/sh -c 'echo "Hello, world!"'
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@end smallexample
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Note that @command{ld.so} does not search the @env{PATH} environment
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variable, so the full file name of the executable needs to be specified.
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The @command{ld.so} program supports various options. Options start
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@samp{--} and need to come before the program that is being launched.
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Some of the supported options are listed below.
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@table @code
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@item --list-diagnostics
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Print system diagnostic information in a machine-readable format.
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@xref{Dynamic Linker Diagnostics}.
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@end table
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@menu
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* Dynamic Linker Diagnostics:: Obtaining system diagnostic information.
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@end menu
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@node Dynamic Linker Diagnostics
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@subsection Dynamic Linker Diagnostics
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@cindex diagnostics (dynamic linker)
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The @samp{ld.so --list-diagnostics} produces machine-readable
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diagnostics output. This output contains system data that affects the
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behavior of @theglibc{}, and potentially application behavior as well.
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The exact set of diagnostic items can change between releases of
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@theglibc{}. The output format itself is not expected to change
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radically.
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The following table shows some example lines that can be written by the
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diagnostics command.
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@table @code
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@item dl_pagesize=0x1000
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The system page size is 4096 bytes.
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@item env[0x14]="LANG=en_US.UTF-8"
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This item indicates that the 21st environment variable at process
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startup contains a setting for @code{LANG}.
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@item env_filtered[0x22]="DISPLAY"
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The 35th environment variable is @code{DISPLAY}. Its value is not
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included in the output for privacy reasons because it is not recognized
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as harmless by the diagnostics code.
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@item path.prefix="/usr"
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This means that @theglibc{} was configured with @code{--prefix=/usr}.
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@item path.system_dirs[0x0]="/lib64/"
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@itemx path.system_dirs[0x1]="/usr/lib64/"
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The built-in dynamic linker search path contains two directories,
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@code{/lib64} and @code{/usr/lib64}.
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@end table
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@menu
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* Dynamic Linker Diagnostics Format:: Format of ld.so output.
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* Dynamic Linker Diagnostics Values:: Data contain in ld.so output.
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@end menu
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@node Dynamic Linker Diagnostics Format
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@subsubsection Dynamic Linker Diagnostics Format
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As seen above, diagnostic lines assign values (integers or strings) to a
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sequence of labeled subscripts, separated by @samp{.}. Some subscripts
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have integer indices associated with them. The subscript indices are
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not necessarily contiguous or small, so an associative array should be
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used to store them. Currently, all integers fit into the 64-bit
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unsigned integer range. Every access path to a value has a fixed type
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(string or integer) independent of subscript index values. Likewise,
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whether a subscript is indexed does not depend on previous indices (but
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may depend on previous subscript labels).
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A syntax description in ABNF (RFC 5234) follows. Note that
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@code{%x30-39} denotes the range of decimal digits. Diagnostic output
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lines are expected to match the @code{line} production.
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@c ABNF-START
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@smallexample
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HEXDIG = %x30-39 / %x61-6f ; lowercase a-f only
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ALPHA = %x41-5a / %x61-7a / %x7f ; letters and underscore
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ALPHA-NUMERIC = ALPHA / %x30-39 / "_"
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DQUOTE = %x22 ; "
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; Numbers are always hexadecimal and use a 0x prefix.
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hex-value-prefix = %x30 %x78
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hex-value = hex-value-prefix 1*HEXDIG
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; Strings use octal escape sequences and \\, \".
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string-char = %x20-21 / %x23-5c / %x5d-7e ; printable but not "\
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string-quoted-octal = %x30-33 2*2%x30-37
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string-quoted = "\" ("\" / DQUOTE / string-quoted-octal)
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string-value = DQUOTE *(string-char / string-quoted) DQUOTE
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value = hex-value / string-value
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label = ALPHA *ALPHA-NUMERIC
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index = "[" hex-value "]"
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subscript = label [index]
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line = subscript *("." subscript) "=" value
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@end smallexample
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@node Dynamic Linker Diagnostics Values
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@subsubsection Dynamic Linker Diagnostics Values
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As mentioned above, the set of diagnostics may change between
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@theglibc{} releases. Nevertheless, the following table documents a few
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common diagnostic items. All numbers are in hexadecimal, with a
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@samp{0x} prefix.
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@table @code
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@item dl_dst_lib=@var{string}
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The @code{$LIB} dynamic string token expands to @var{string}.
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@cindex HWCAP (diagnostics)
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@item dl_hwcap=@var{integer}
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@itemx dl_hwcap2=@var{integer}
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The HWCAP and HWCAP2 values, as returned for @code{getauxval}, and as
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used in other places depending on the architecture.
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@cindex page size (diagnostics)
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@item dl_pagesize=@var{integer}
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The system page size is @var{integer} bytes.
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@item dl_platform=@var{string}
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The @code{$PLATFORM} dynamic string token expands to @var{string}.
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@item dso.libc=@var{string}
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This is the soname of the shared @code{libc} object that is part of
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@theglibc{}. On most architectures, this is @code{libc.so.6}.
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@item env[@var{index}]=@var{string}
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@itemx env_filtered[@var{index}]=@var{string}
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An environment variable from the process environment. The integer
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@var{index} is the array index in the environment array. Variables
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under @code{env} include the variable value after the @samp{=} (assuming
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that it was present), variables under @code{env_filtered} do not.
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@item path.prefix=@var{string}
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This indicates that @theglibc{} was configured using
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@samp{--prefix=@var{string}}.
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@item path.sysconfdir=@var{string}
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@Theglibc{} was configured (perhaps implicitly) with
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@samp{--sysconfdir=@var{string}} (typically @code{/etc}).
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@item path.system_dirs[@var{index}]=@var{string}
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These items list the elements of the built-in array that describes the
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default library search path. The value @var{string} is a directory file
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name with a trailing @samp{/}.
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@item path.rtld=@var{string}
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This string indicates the application binary interface (ABI) file name
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of the run-time dynamic linker.
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@item version.release="stable"
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@itemx version.release="development"
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The value @code{"stable"} indicates that this build of @theglibc{} is
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from a release branch. Releases labeled as @code{"development"} are
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unreleased development versions.
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@cindex version (diagnostics)
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@item version.version="@var{major}.@var{minor}"
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@itemx version.version="@var{major}.@var{minor}.9000"
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@Theglibc{} version. Development releases end in @samp{.9000}.
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@cindex auxiliary vector (diagnostics)
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@item auxv[@var{index}].a_type=@var{type}
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@itemx auxv[@var{index}].a_val=@var{integer}
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@itemx auxv[@var{index}].a_val_string=@var{string}
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An entry in the auxiliary vector (specific to Linux). The values
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@var{type} (an integer) and @var{integer} correspond to the members of
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@code{struct auxv}. If the value is a string, @code{a_val_string} is
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used instead of @code{a_val}, so that values have consistent types.
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The @code{AT_HWCAP} and @code{AT_HWCAP2} values in this output do not
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reflect adjustment by @theglibc{}.
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@item uname.sysname=@var{string}
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@itemx uname.nodename=@var{string}
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@itemx uname.release=@var{string}
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@itemx uname.version=@var{string}
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@itemx uname.machine=@var{string}
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@itemx uname.domain=@var{string}
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These Linux-specific items show the values of @code{struct utsname}, as
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reported by the @code{uname} function. @xref{Platform Type}.
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@cindex CPUID (diagnostics)
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@item x86.cpu_features.@dots{}
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These items are specific to the i386 and x86-64 architectures. They
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reflect supported CPU features and information on cache geometry, mostly
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collected using the @code{CPUID} instruction.
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@end table
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@node Dynamic Linker Introspection
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@section Dynamic Linker Introspection
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@Theglibc{} provides various functions for querying information from the
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dynamic linker.
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@deftypefun {int} dlinfo (void *@var{handle}, int @var{request}, void *@var{arg})
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@safety{@mtsafe{}@asunsafe{@asucorrupt{}}@acunsafe{@acucorrupt{}}}
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@standards{GNU, dlfcn.h}
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This function returns information about @var{handle} in the memory
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location @var{arg}, based on @var{request}. The @var{handle} argument
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must be a pointer returned by @code{dlopen} or @code{dlmopen}; it must
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not have been closed by @code{dlclose}.
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On success, @code{dlinfo} returns 0 for most request types; exceptions
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are noted below. If there is an error, the function returns @math{-1},
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and @code{dlerror} can be used to obtain a corresponding error message.
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The following operations are defined for use with @var{request}:
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@vtable @code
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@item RTLD_DI_LINKMAP
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The corresponding @code{struct link_map} pointer for @var{handle} is
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written to @code{*@var{arg}}. The @var{arg} argument must be the
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address of an object of type @code{struct link_map *}.
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@item RTLD_DI_LMID
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The namespace identifier of @var{handle} is written to
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@code{*@var{arg}}. The @var{arg} argument must be the address of an
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object of type @code{Lmid_t}.
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@item RTLD_DI_ORIGIN
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The value of the @code{$ORIGIN} dynamic string token for @var{handle} is
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written to the character array starting at @var{arg} as a
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null-terminated string.
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This request type should not be used because it is prone to buffer
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overflows.
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@item RTLD_DI_SERINFO
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@itemx RTLD_DI_SERINFOSIZE
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These requests can be used to obtain search path information for
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@var{handle}. For both requests, @var{arg} must point to a
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@code{Dl_serinfo} object. The @code{RTLD_DI_SERINFOSIZE} request must
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be made first; it updates the @code{dls_size} and @code{dls_cnt} members
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of the @code{Dl_serinfo} object. The caller should then allocate memory
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to store at least @code{dls_size} bytes and pass that buffer to a
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@code{RTLD_DI_SERINFO} request. This second request fills the
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@code{dls_serpath} array. The number of array elements was returned in
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the @code{dls_cnt} member in the initial @code{RTLD_DI_SERINFOSIZE}
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request. The caller is responsible for freeing the allocated buffer.
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This interface is prone to buffer overflows in multi-threaded processes
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because the required size can change between the
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@code{RTLD_DI_SERINFOSIZE} and @code{RTLD_DI_SERINFO} requests.
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@item RTLD_DI_TLS_DATA
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This request writes the address of the TLS block (in the current thread)
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for the shared object identified by @var{handle} to @code{*@var{arg}}.
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The argument @var{arg} must be the address of an object of type
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@code{void *}. A null pointer is written if the object does not have
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any associated TLS block.
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@item RTLD_DI_TLS_MODID
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This request writes the TLS module ID for the shared object @var{handle}
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to @code{*@var{arg}}. The argument @var{arg} must be the address of an
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object of type @code{size_t}. The module ID is zero if the object
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does not have an associated TLS block.
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@item RTLD_DI_PHDR
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This request writes the address of the program header array to
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@code{*@var{arg}}. The argument @var{arg} must be the address of an
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object of type @code{const ElfW(Phdr) *} (that is,
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@code{const Elf32_Phdr *} or @code{const Elf64_Phdr *}, as appropriate
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for the current architecture). For this request, the value returned by
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@code{dlinfo} is the number of program headers in the program header
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array.
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@end vtable
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The @code{dlinfo} function is a GNU extension.
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@end deftypefun
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The remainder of this section documents the @code{_dl_find_object}
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function and supporting types and constants.
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@deftp {Data Type} {struct dl_find_object}
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@standards{GNU, dlfcn.h}
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This structure contains information about a main program or loaded
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object. The @code{_dl_find_object} function uses it to return
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result data to the caller.
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@table @code
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@item unsigned long long int dlfo_flags
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Currently unused and always 0.
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@item void *dlfo_map_start
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The start address of the inspected mapping. This information comes from
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the program header, so it follows its convention, and the address is not
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necessarily page-aligned.
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@item void *dlfo_map_end
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The end address of the mapping.
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@item struct link_map *dlfo_link_map
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This member contains a pointer to the link map of the object.
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@item void *dlfo_eh_frame
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This member contains a pointer to the exception handling data of the
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object. See @code{DLFO_EH_SEGMENT_TYPE} below.
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@end table
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This structure is a GNU extension.
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@end deftp
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@deftypevr Macro int DLFO_STRUCT_HAS_EH_DBASE
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@standards{GNU, dlfcn.h}
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On most targets, this macro is defined as @code{0}. If it is defined to
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@code{1}, @code{struct dl_find_object} contains an additional member
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@code{dlfo_eh_dbase} of type @code{void *}. It is the base address for
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@code{DW_EH_PE_datarel} DWARF encodings to this location.
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This macro is a GNU extension.
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@end deftypevr
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@deftypevr Macro int DLFO_STRUCT_HAS_EH_COUNT
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@standards{GNU, dlfcn.h}
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On most targets, this macro is defined as @code{0}. If it is defined to
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@code{1}, @code{struct dl_find_object} contains an additional member
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@code{dlfo_eh_count} of type @code{int}. It is the number of exception
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handling entries in the EH frame segment identified by the
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@code{dlfo_eh_frame} member.
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This macro is a GNU extension.
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@end deftypevr
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@deftypevr Macro int DLFO_EH_SEGMENT_TYPE
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@standards{GNU, dlfcn.h}
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On targets using DWARF-based exception unwinding, this macro expands to
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@code{PT_GNU_EH_FRAME}. This indicates that @code{dlfo_eh_frame} in
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@code{struct dl_find_object} points to the @code{PT_GNU_EH_FRAME}
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segment of the object. On targets that use other unwinding formats, the
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macro expands to the program header type for the unwinding data.
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This macro is a GNU extension.
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@end deftypevr
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@deftypefun {int} _dl_find_object (void *@var{address}, struct dl_find_object *@var{result})
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@standards{GNU, dlfcn.h}
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@safety{@mtsafe{}@assafe{}@acsafe{}}
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On success, this function returns 0 and writes about the object
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surrounding the address to @code{*@var{result}}. On failure, -1 is
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returned.
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The @var{address} can be a code address or data address. On
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architectures using function descriptors, no attempt is made to decode
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the function descriptor. Depending on how these descriptors are
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implemented, @code{_dl_find_object} may return the object that defines
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the function descriptor (and not the object that contains the code
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implementing the function), or fail to find any object at all.
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On success @var{address} is greater than or equal to
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@code{@var{result}->dlfo_map_start} and less than
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@code{@var{result}->dlfo_map_end}, that is, the supplied code address is
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located within the reported mapping.
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This function returns a pointer to the unwinding information for the
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object that contains the program code @var{address} in
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@code{@var{result}->dlfo_eh_frame}. If the platform uses DWARF
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unwinding information, this is the in-memory address of the
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@code{PT_GNU_EH_FRAME} segment. See @code{DLFO_EH_SEGMENT_TYPE} above.
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In case @var{address} resides in an object that lacks unwinding information,
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the function still returns 0, but sets @code{@var{result}->dlfo_eh_frame}
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to a null pointer.
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@code{_dl_find_object} itself is thread-safe. However, if the
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application invokes @code{dlclose} for the object that contains
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@var{address} concurrently with @code{_dl_find_object} or after the call
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returns, accessing the unwinding data for that object or the link map
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(through @code{@var{result}->dlfo_link_map}) is not safe. Therefore, the
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application needs to ensure by other means (e.g., by convention) that
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@var{address} remains a valid code address while the unwinding
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information is processed.
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This function is a GNU extension.
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@end deftypefun
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@c FIXME these are undocumented:
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@c dladdr
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@c dladdr1
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@c dlclose
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@c dlerror
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@c dlmopen
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@c dlopen
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@c dlsym
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@c dlvsym
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