Provided by: abigail-tools_2.8-2_amd64 
NAME
abidiff - compare ABIs of ELF files
abidiff compares the Application Binary Interfaces (ABI) of two shared libraries in ELF format. It emits
a meaningful report describing the differences between the two ABIs.
This tool can also compare the textual representations of the ABI of two ELF binaries (as emitted by
abidw) or an ELF binary against a textual representation of another ELF binary.
For a comprehensive ABI change report between two input shared libraries that includes changes about
function and variable sub-types, abidiff uses by default, debug information in DWARF format, if present,
otherwise it compares interfaces using debug information in CTF or BTF formats, if present. Finally, if
no debug info in these formats is found, it only considers ELF symbols and report about their addition or
removal.
This tool uses the libabigail library to analyze the binary as well as its associated debug information.
Here is its general mode of operation.
When instructed to do so, a binary and its associated debug information is read and analyzed. To that
effect, libabigail analyzes by default the descriptions of the types reachable by the interfaces
(functions and variables) that are visible outside of their translation unit. Once that analysis is
done, an Application Binary Interface Corpus is constructed by only considering the subset of types
reachable from interfaces associated to ELF symbols that are defined and exported by the binary. It’s
that final ABI corpus which libabigail considers as representing the ABI of the analyzed binary.
Libabigail then has capabilities to generate textual representations of ABI Corpora, compare them,
analyze their changes and report about them.
INVOCATION
abidiff [options] <first-shared-library> <second-shared-library>
ENVIRONMENT
abidiff loads two default suppression specifications files, merges their content and use it to filter out
ABI change reports that might be considered as false positives to users.
• Default system-wide suppression specification file
It’s located by the optional environment variable LIBABIGAIL_DEFAULT_SYSTEM_SUPPRESSION_FILE. If that
environment variable is not set, then abidiff tries to load the suppression file
$libdir/libabigail/libabigail-default.abignore. If that file is not present, then no default
system-wide suppression specification file is loaded.
• Default user suppression specification file.
It’s located by the optional environment LIBABIGAIL_DEFAULT_USER_SUPPRESSION_FILE. If that environment
variable is not set, then abidiff tries to load the suppression file $HOME/.abignore. If that file is
not present, then no default user suppression specification is loaded.
OPTIONS
• --add-binaries1 <bin1,bin2,bin3,..>
For each of the comma-separated binaries given in argument to this option, if the binary is found in
the directory specified by the --added-binaries-dir1 option, then abidiff loads the ABI corpus of
the binary and adds it to a set of corpora (called an ABI Corpus Group) that includes the first
argument of abidiff.
That ABI corpus group is then compared against the second corpus group given in argument to abidiff.
• --add-binaries2 <bin1,bin2,bin3,..>
For each of the comma-separated binaries given in argument to this option, if the binary is found in
the directory specified by the --added-binaries-dir2 option, then abidiff loads the ABI corpus of
the binary and adds it to a set of corpora(called an ABI Corpus Group) that includes the second
argument of abidiff.
That ABI corpus group is then compared against the first corpus group given in argument to abidiff.
• --added-binaries-dir1 | --abd1 <added-binaries-directory-1>
This option is to be used in conjunction with the --add-binaries1, --follow-dependencies and
--list-dependencies options. Binaries referred to by these options, if found in the directory
added-binaries-directory-1, are loaded as ABI corpus and are added to the first ABI corpus group
that is to be used in the comparison.
• --added-binaries-dir2 | --abd2 <added-binaries-directory-2>
This option is to be used in conjunction with the --add-binaries2, --follow-dependencies and
--list-dependencies options. Binaries referred to by these options, if found in the directory
added-binaries-directory-2, are loaded as ABI corpus and are added to the second ABI corpus group to
be used in the comparison.
• --added-fns
In the resulting report about the differences between first-shared-library and
second-shared-library, only display the globally defined functions that were added to
second-shared-library.
• --added-vars
In the resulting report about the differences between first-shared-library and
second-shared-library, only display the global variables that were added (defined) to
second-shared-library.
• --allow-non-exported-interfaces
When looking at the debug information accompanying a binary, this tool analyzes the descriptions of
the types reachable by the interfaces (functions and variables) that are visible outside of their
translation unit. Once that analysis is done, an ABI corpus is constructed by only considering the
subset of types reachable from interfaces associated to ELF symbols that are defined and exported by
the binary. It’s those final ABI Corpora that are compared by this tool.
The problem with that approach however is that analyzing all the interfaces that are visible from
outside their translation unit can amount to a lot of data, especially when those binaries are
applications, as opposed to shared libraries. One example of such applications is the Linux Kernel.
Analyzing massive ABI Corpora like these can be extremely slow.
In the presence of an “average sized” binary however one can afford having libabigail analyze all
interfaces that are visible outside of their translation unit, using this option.
Note that this option is turned on by default, unless we are in the presence of the Linux Kernel.
• --btf
When comparing binaries, extract ABI information from BTF debug information, if present.
• --changed-fns
In the resulting report about the differences between first-shared-library and
second-shared-library, only display the changes in sub-types of the global functions defined in
first-shared-library.
• --changed-vars
In the resulting report about the differences between first-shared-library and
second-shared-library, only display the changes in the sub-types of the global variables defined in
first-shared-library
• --ctf
When comparing binaries, extract ABI information from CTF debug information, if present.
• --debug-info-dir1 | --d1 <di-path1>
For cases where the debug information for first-shared-library is split out into a separate file,
tells abidiff where to find that separate debug information file.
Note that di-path must point to the root directory under which the debug information is arranged in
a tree-like manner. Under Red Hat based systems, that directory is usually <root>/usr/lib/debug.
This option can be provided several times with different root directories. In that case, abidiff
will potentially look into all those root directories to find the split debug info for
first-shared-library.
Note also that this option is not mandatory for split debug information installed by your system’s
package manager because then abidiff knows where to find it.
• --debug-info-dir2 | --d2 <di-path2>
Like --debug-info-dir1, this options tells abidiff where to find the split debug information for the
second-shared-library file.
This option can be provided several times with different root directories. In that case, abidiff
will potentially look into all those root directories to find the split debug info for
second-shared-library.
• --debug-self-comparison
In this mode, error messages are emitted for types which fail type canonicalization, in some
circumstances, when comparing a binary against itself.
When comparing a binary against itself, canonical types of the second binary should be equal (as
much as possible) to canonical types of the first binary. When some discrepancies are detected in
this mode, an abort signal is emitted and execution is halted. This option should be used while
executing the tool in a debugger, for troubleshooting purposes.
This is an optional debugging and sanity check option. To enable it the libabigail package needs to
be configured with the –enable-debug-self-comparison configure option.
• --debug-tc
In this mode, the process of type canonicalization is put under heavy scrutiny. Basically, during
type canonicalization, each type comparison is performed twice: once in a structural mode (comparing
every sub-type member-wise), and once using canonical comparison. The two comparisons should yield
the same result. Otherwise, an abort signal is emitted and the process can be debugged to
understand why the two kinds of comparison yield different results.
This is an optional debugging and sanity check option. To enable it the libabigail package needs to
be configured with the –enable-debug-type-canonicalization configure option.
• --deleted-fns
In the resulting report about the differences between first-shared-library and
second-shared-library, only display the globally defined functions that got deleted from
first-shared-library.
• --deleted-vars
In the resulting report about the differences between first-shared-library and
second-shared-library, only display the globally defined variables that were deleted from
first-shared-library.
• --drop <regex>
When reading the first-shared-library and second-shared-library ELF input files, drop the globally
defined functions and variables which name match the regular expression regex. As a result, no
change involving these functions or variables will be emitted in the diff report.
• --drop-fn <regex>
When reading the first-shared-library and second-shared-library ELF input files, drop the globally
defined functions which name match the regular expression regex. As a result, no change involving
these functions will be emitted in the diff report.
• --drop-var <regex>
When reading the first-shared-library and second-shared-library ELF input files, drop the globally
defined variables matching a the regular expression regex.
• --drop-private-types
This option is to be used with the --headers-dir1, header-file1, header-file2 and --headers-dir2
options. With this option, types that are NOT defined in the headers are entirely dropped from the
internal representation build by Libabigail to represent the ABI. They thus don’t have to be
filtered out from the final ABI change report because they are not even present in Libabigail’s
representation.
Without this option however, those private types are kept in the internal representation and later
filtered out from the report.
This options thus potentially makes Libabigail consume less memory. It’s meant to be mainly used to
optimize the memory consumption of the tool on binaries with a lot of publicly defined and exported
types.
• --dump-diff-tree
After the diff report, emit a textual representation of the diff nodes tree used by the comparison
engine to represent the changed functions and variables. That representation is emitted to the
error output for debugging purposes. Note that this diff tree is relevant only to functions and
variables that have some sub-type changes. Added or removed functions and variables do not have
any diff nodes tree associated to them.
• --exported-interfaces-only
By default, when looking at the debug information accompanying a binary, this tool analyzes the
descriptions of the types reachable by the interfaces (functions and variables) that are visible
outside of their translation unit. Once that analysis is done, an ABI corpus is constructed by only
considering the subset of types reachable from interfaces associated to ELF symbols that are defined
and exported by the binary. It’s those final ABI Corpora that are compared by this tool.
The problem with that approach however is that analyzing all the interfaces that are visible from
outside their translation unit can amount to a lot of data, especially when those binaries are
applications, as opposed to shared libraries. One example of such applications is the Linux Kernel.
Analyzing massive ABI corpora like these can be extremely slow.
To mitigate that performance issue, this option allows libabigail to only analyze types that are
reachable from interfaces associated with defined and exported ELF symbols.
Note that this option is turned on by default when analyzing the Linux Kernel. Otherwise, it’s
turned off by default.
• --fail-no-debug-info
If no debug info was found, then this option makes the program to fail. Otherwise, without this
option, the program will attempt to compare properties of the binaries that are not related to debug
info, like pure ELF properties.
• --follow-dependencies | --fdeps
For each dependency of the first argument of abidiff, if it’s found in the directory specified by
the --added-binaries-dir1 option, then construct an ABI corpus out of the dependency, add it to a
set of corpora (called an ABI Corpus Group) that includes the first argument of abidiff.
Similarly, for each dependency of the second argument of abidiff, if it’s found in the directory
specified by the --added-binaries-dir2 option, then construct an ABI corpus out of the dependency,
add it to an ABI corpus group that includes the second argument of abidiff.
These two ABI corpus groups are then compared against each other.
Said otherwise, this makes abidiff compare the set of its first input and its dependencies against
the set of its second input and its dependencies.
• --harmless
In the diff report, display only the harmless changes. By default, the harmless changes are
filtered out of the diff report keep the clutter to a minimum and have a greater chance to spot real
ABI issues.
• --headers-dir1 | --hd1 <headers-directory-path-1>
Specifies where to find the public headers of the first shared library (or binary in general) that
the tool has to consider. The tool will thus filter out ABI changes on types that are not defined
in public headers.
Note that several public header directories can be specified for the first shared library. In that
case the --headers-dir1 option should be present several times on the command line, like in the
following example:
$ abidiff --headers-dir1 /some/path \
--headers-dir1 /some/other/path \
binary-version-1 binary-version-2
• --headers-dir2 | --hd2 <headers-directory-path-2>
Specifies where to find the public headers of the second shared library that the tool has to
consider. The tool will thus filter out ABI changes on types that are not defined in public
headers.
Note that several public header directories can be specified for the second shared library. In that
case the --headers-dir2 option should be present several times like in the following example:
$ abidiff --headers-dir2 /some/path \
--headers-dir2 /some/other/path \
binary-version-1 binary-version-2
• --header-file1 | --hf1 <header-file-path-1>
Specifies where to find one public header of the first shared library that the tool has to consider.
The tool will thus filter out ABI changes on types that are not defined in public headers.
• --header-file2 | --hf2 <header-file-path-2>
Specifies where to find one public header of the second shared library that the tool has to
consider. The tool will thus filter out ABI changes on types that are not defined in public
headers.
• --help | -h
Display a short help about the command and exit.
• --ignore-soname
Ignore differences in the SONAME when doing a comparison
• --impacted-interfaces
When showing leaf changes, this option instructs abidiff to show the list of impacted interfaces.
This option is thus to be used in addition the --leaf-changes-only option, otherwise, it’s ignored.
• --keep <regex>
When reading the first-shared-library and second-shared-library ELF input files, keep the globally
defined functions and variables which names match the regular expression regex. All other functions
and variables are dropped on the floor and will thus not appear in the resulting diff report.
• --keep-fn <regex>
When reading the first-shared-library and second-shared-library ELF input files, keep the globally
defined functions which name match the regular expression regex. All other functions are dropped on
the floor and will thus not appear in the resulting diff report.
• --keep-var <regex>
When reading the first-shared-library and second-shared-library ELF input files, keep the globally
defined which names match the regular expression regex. All other variables are dropped on the
floor and will thus not appear in the resulting diff report.
• --kmi-whitelist | -w <path-to-whitelist>
When analyzing a Linux kernel binary, this option points to the white list of names of ELF symbols
of functions and variables which ABI must be considered. That white list is called a “Kernel Module
Interface white list”. This is because for the Kernel, we don’t talk about ABI; we rather talk
about the interface between the Kernel and its module. Hence the term KMI rather than ABI.
Any other function or variable which ELF symbol are not present in that white list will not be
considered by this tool.
If this option is not provided – thus if no white list is provided – then the entire KMI, that is,
the set of all publicly defined and exported functions and global variables by the Linux Kernel
binaries, is considered.
• --leaf-changes-only|-l only show leaf changes, so don’t show impact analysis report. This option
implies --redundant.
The typical output of abidiff when comparing two binaries looks like this
$ abidiff libtest-v0.so libtest-v1.so
Functions changes summary: 0 Removed, 1 Changed, 0 Added function
Variables changes summary: 0 Removed, 0 Changed, 0 Added variable
1 function with some indirect sub-type change:
[C]'function void fn(C&)' at test-v1.cc:13:1 has some indirect sub-type changes:
parameter 1 of type 'C&' has sub-type changes:
in referenced type 'struct C' at test-v1.cc:7:1:
type size hasn't changed
1 data member change:
type of 'leaf* C::m0' changed:
in pointed to type 'struct leaf' at test-v1.cc:1:1:
type size changed from 32 to 64 bits
1 data member insertion:
'char leaf::m1', at offset 32 (in bits) at test-v1.cc:4:1
$
So in that example the report emits information about how the data member insertion change of
“struct leaf” is reachable from function “void fn(C&)”. In other words, the report not only shows
the data member change on “struct leaf”, but it also shows the impact of that change on the function
“void fn(C&)”.
In abidiff parlance, the change on “struct leaf” is called a leaf change. So the
--leaf-changes-only --impacted-interfaces options show, well, only the leaf change. And it goes
like this:
$ abidiff -l libtest-v0.so libtest-v1.so
'struct leaf' changed:
type size changed from 32 to 64 bits
1 data member insertion:
'char leaf::m1', at offset 32 (in bits) at test-v1.cc:4:1
one impacted interface:
function void fn(C&)
$
Note how the report ends by showing the list of interfaces impacted by the leaf change.
Now if you don’t want to see that list of impacted interfaces, then you can just avoid using the
--impacted-interface option. You can learn about that option below, in any case.
• --list-dependencies | --ldeps
This option lists all the dependencies of the input arguments of abidiff that are found in the
directories specified by the options --added-binaries-dir1 and --added-binaries-dir2
• --no-added-syms
In the resulting report about the differences between first-shared-library and
second-shared-library, do not display added functions or variables. Do not display added functions
or variables ELF symbols either. All other kinds of changes are displayed unless they are
explicitely forbidden by other options on the command line.
• --no-assume-odr-for-cplusplus
When analyzing a binary originating from C++ code using DWARF debug information, libabigail assumes
the One Definition Rule to speed-up the analysis. In that case, when several types have the same
name in the binary, they are assumed to all be equal.
This option disables that assumption and instructs libabigail to actually actually compare the types
to determine if they are equal.
• --no-architecture
Do not take architecture in account when comparing ABIs.
• --no-change-categorization | -x
This option disables the categorization of changes into harmless and harmful changes. Note that
this categorization is a pre-requisite for the filtering of changes so this option disables that
filtering. The goal of this option is to speed-up the execution of the program for cases where the
graph of changes is huge and where the user is just interested in looking at, for instance, leaf
node changes without caring about their possible impact on interfaces. In that case, this option
would be used along with the --leaf-changes-only one.
• --no-corpus-path
Do not emit the path attribute for the ABI corpus.
• --no-default-suppression
Do not load the default suppression specification files.
• --no-harmful
In the diff report, do not display the harmful changes. By default, only the harmful changes are
displayed in diff report.
• --no-leverage-dwarf-factorization
When analyzing a binary which DWARF debug information was processed with the DWZ tool, the type
information is supposed to be already factorized. That context is used by libabigail to perform
some speed optimizations.
This option disables those optimizations.
• --no-linkage-name
In the resulting report, do not display the linkage names of the added, removed, or changed
functions or variables.
• --no-linux-kernel-mode
Without this option, if abidiff detects that the binaries it is looking at are Linux Kernel binaries
(either vmlinux or modules) then it only considers functions and variables which ELF symbols are
listed in the __ksymtab and __ksymtab_gpl sections.
With this option, abidiff considers the binary as a non-special ELF binary. It thus considers
functions and variables which are defined and exported in the ELF sense.
• --no-redundant
In the diff report, do NOT display redundant changes. A redundant change is a change that has been
displayed elsewhere in the report. This option is switched on by default.
• --no-show-locs
Do not show information about where in the second shared library the respective type was changed.
• --no-show-relative-offset-changes
Without this option, when the offset of a data member changes, the change report not only mentions
the older and newer offset, but it also mentions by how many bits the data member changes. With
this option, the latter is not shown.
• --no-unreferenced-symbols
In the resulting report, do not display change information about function and variable symbols that
are not referenced by any debug information. Note that for these symbols not referenced by any
debug information, the change information displayed is either added or removed symbols.
• --non-reachable-types|-t
Analyze and emit change reports for all the types of the binary, including those that are not
reachable from global functions and variables.
This option might incur some serious performance degradation as the number of types analyzed can be
huge. However, if paired with the --headers-dir{1,2} and/or header-file{1,2} options, the
additional non-reachable types analyzed are restricted to those defined in public headers files,
thus hopefully making the performance hit acceptable.
Also, using this option alongside suppression specifications (by also using the --suppressions
option) might help keep the number of analyzed types (and the potential performance degradation) in
control.
Note that without this option, only types that are reachable from global functions and variables are
analyzed, so the tool detects and reports changes on these reachable types only.
• --redundant
In the diff report, do display redundant changes. A redundant change is a change that has been
displayed elsewhere in the report.
• --show-bits
Show sizes and offsets in bits, not bytes. This option is activated by default.
• --show-bytes
Show sizes and offsets in bytes, not bits. By default, sizes and offsets are shown in bits.
• --show-dec
Show sizes and offsets in decimal base. This option is activated by default.
• --show-hex
Show sizes and offsets in hexadecimal base.
• --stat
Rather than displaying the detailed ABI differences between first-shared-library and
second-shared-library, just display some summary statistics about these differences.
• --stats
Emit statistics about various internal things.
• --suppressions | --suppr <path-to-suppressions>
Use a suppression specification file located at path-to-suppressions. Note that this option can
appear multiple times on the command line. In that case, all of the provided suppression
specification files are taken into account.
Please note that, by default, if this option is not provided, then the default suppression
specification files are loaded .
• --symtabs
Only display the symbol tables of the first-shared-library and second-shared-library.
• --verbose
Emit verbose logs about the progress of miscellaneous internal things.
• --version | -v
Display the version of the program and exit.
RETURN VALUES
The exit code of the abidiff command is either 0 if the ABI of the binaries being compared are equal, or
non-zero if they differ or if the tool encountered an error.
In the later case, the exit code is a 8-bits-wide bit field in which each bit has a specific meaning.
The first bit, of value 1, named ABIDIFF_ERROR means there was an error.
The second bit, of value 2, named ABIDIFF_USAGE_ERROR means there was an error in the way the user
invoked the tool. It might be set, for instance, if the user invoked the tool with an unknown command
line switch, with a wrong number or argument, etc. If this bit is set, then the ABIDIFF_ERROR bit must
be set as well.
The third bit, of value 4, named ABIDIFF_ABI_CHANGE means the ABI of the binaries being compared are
different.
The fourth bit, of value 8, named ABIDIFF_ABI_INCOMPATIBLE_CHANGE means the ABI of the binaries compared
are different in an incompatible way. If this bit is set, then the ABIDIFF_ABI_CHANGE bit must be set as
well. If the ABIDIFF_ABI_CHANGE is set and the ABIDIFF_INCOMPATIBLE_CHANGE is NOT set, then it means
that the ABIs being compared might or might not be compatible. In that case, a human being needs to
review the ABI changes to decide if they are compatible or not.
Note that, at the moment, there are only a few kinds of ABI changes that would result in setting the flag
ABIDIFF_ABI_INCOMPATIBLE_CHANGE. Those ABI changes are either:
• the removal of the symbol of a function or variable that has been defined and exported.
• the modification of the index of a member of a virtual function table (for C++ programs and
libraries).
With time, when more ABI change patterns are found to always constitute incompatible ABI changes, we will
adapt the code to recognize those cases and set the ABIDIFF_ABI_INCOMPATIBLE_CHANGE accordingly. So, if
you find such patterns, please let us know.
The remaining bits are not used for the moment.
USAGE EXAMPLES
1. Detecting an ABI change in a sub-type of a function:
$ cat -n test-v0.cc
1 // Compile this with:
2 // g++ -g -Wall -shared -o libtest-v0.so test-v0.cc
3
4 struct S0
5 {
6 int m0;
7 };
8
9 void
10 foo(S0* /*parameter_name*/)
11 {
12 // do something with parameter_name.
13 }
$
$ cat -n test-v1.cc
1 // Compile this with:
2 // g++ -g -Wall -shared -o libtest-v1.so test-v1.cc
3
4 struct type_base
5 {
6 int inserted;
7 };
8
9 struct S0 : public type_base
10 {
11 int m0;
12 };
13
14 void
15 foo(S0* /*parameter_name*/)
16 {
17 // do something with parameter_name.
18 }
$
$ g++ -g -Wall -shared -o libtest-v0.so test-v0.cc
$ g++ -g -Wall -shared -o libtest-v1.so test-v1.cc
$
$ abidiff libtest-v0.so libtest-v1.so; echo "exit code: $?"
Functions changes summary: 0 Removed, 1 Changed, 0 Added function
Variables changes summary: 0 Removed, 0 Changed, 0 Added variable
1 function with some indirect sub-type change:
[C]'function void foo(S0*)' has some indirect sub-type changes:
parameter 0 of type 'S0*' has sub-type changes:
in pointed to type 'struct S0':
size changed from 32 to 64 bits
1 base class insertion:
struct type_base
1 data member change:
'int S0::m0' offset changed from 0 to 32
exit code: 4
$
Note how the exit code is 4, meaning the third bit ABIDIFF_ABI_CHANGE of value 4 is set to 1. This means
the tool categorizes the ABI change as harmful and thus requires a user review.
2. Detecting an incompatible ABI change in the type of a function:
$ cat -n test-v0.cc
1 // Compile this with:
2 // g++ -g -Wall -shared -o libtest-v0.so test-v0.cc
3
4 struct S0
5 {
6 int m0;
7 };
8
9 S0
10 foo()
11 {
12 S0 s = {};
13 return s;
14 }
$
$ cat -n test-v1.cc
1 // Compile this with:
2 // g++ -g -Wall -shared -o libtest-v1.so test-v1.cc
3
4 struct type_base
5 {
6 int inserted;
7 };
8
9 struct S0 : public type_base
10 {
11 int m0;
12 };
13
14 S0
15 foo()
16 {
17 S0 s = {};
18 return s;
19 }
$
$ g++ -g -Wall -shared -o libtest-v0.so test-v0.cc
$ g++ -g -Wall -shared -o libtest-v1.so test-v1.cc
$
$ abidiff libtest-v0.so libtest-v1.so; echo "exit code: $?"
Functions changes summary: 0 Removed, 1 Changed, 0 Added function
Variables changes summary: 0 Removed, 0 Changed, 0 Added variable
1 function with incompatible sub-type changes:
[C] 'function S0 foo(void)' at test-v0.cc:10:1 has some sub-type changes:
return type changed:
type size changed from 32 to 64 (in bits)
1 base class insertion:
struct type_base at test-v1.cc:4:1
1 data member change:
'int m0' offset changed from 0 to 32 (in bits) (by +32 bits)
exit code: 12
$
Note how the exit code is 12, meaning both the third bit ABIDIFF_ABI_CHANGE of value 4 and the fourth bit
ABIDIFF_ABI_INCOMPATIBLE_CHANGE of value 8 are set to 1. This means the tool categorizes the ABI change
as incompatible. It’s an ABI break.
3. Detecting another change in a sub-type of a function:
$ cat -n test-v0.cc
1 // Compile this with:
2 // g++ -g -Wall -shared -o libtest-v0.so test-v0.cc
3
4 struct S0
5 {
6 int m0;
7 };
8
9 void
10 foo(S0& /*parameter_name*/)
11 {
12 // do something with parameter_name.
13 }
$
$ cat -n test-v1.cc
1 // Compile this with:
2 // g++ -g -Wall -shared -o libtest-v1.so test-v1.cc
3
4 struct S0
5 {
6 char inserted_member;
7 int m0;
8 };
9
10 void
11 foo(S0& /*parameter_name*/)
12 {
13 // do something with parameter_name.
14 }
$
$ g++ -g -Wall -shared -o libtest-v0.so test-v0.cc
$ g++ -g -Wall -shared -o libtest-v1.so test-v1.cc
$
$ abidiff libtest-v0.so libtest-v1.so; echo "exit code: $?"
Functions changes summary: 0 Removed, 1 Changed, 0 Added function
Variables changes summary: 0 Removed, 0 Changed, 0 Added variable
1 function with some indirect sub-type change:
[C]'function void foo(S0&)' has some indirect sub-type changes:
parameter 0 of type 'S0&' has sub-type changes:
in referenced type 'struct S0':
size changed from 32 to 64 bits
1 data member insertion:
'char S0::inserted_member', at offset 0 (in bits)
1 data member change:
'int S0::m0' offset changed from 0 to 32
exit code: 4
$
4. Detecting that functions got removed or added to a library:
$ cat -n test-v0.cc
1 // Compile this with:
2 // g++ -g -Wall -shared -o libtest-v0.so test-v0.cc
3
4 struct S0
5 {
6 int m0;
7 };
8
9 void
10 foo(S0& /*parameter_name*/)
11 {
12 // do something with parameter_name.
13 }
$
$ cat -n test-v1.cc
1 // Compile this with:
2 // g++ -g -Wall -shared -o libtest-v1.so test-v1.cc
3
4 struct S0
5 {
6 char inserted_member;
7 int m0;
8 };
9
10 void
11 bar(S0& /*parameter_name*/)
12 {
13 // do something with parameter_name.
14 }
$
$ g++ -g -Wall -shared -o libtest-v0.so test-v0.cc
$ g++ -g -Wall -shared -o libtest-v1.so test-v1.cc
$
$ abidiff libtest-v0.so libtest-v1.so; echo "exit code: $?"
Functions changes summary: 1 Removed, 0 Changed, 1 Added functions
Variables changes summary: 0 Removed, 0 Changed, 0 Added variable
1 Removed function:
'function void foo(S0&)' {_Z3fooR2S0}
1 Added function:
'function void bar(S0&)' {_Z3barR2S0}
exit code: 12
$
5. Comparing two sets of binaries that are passed on the command line:
$ abidiff --add-binaries1=file2-v1 \
--add-binaries2=file2-v2,file2-v1 \
--added-binaries-dir1 dir1 \
--added-binaries-dir2 dir2 \
file1-v1 file1-v2
Note that the files file2-v1, and file2-v2 are to be found in dir1 and dir2 or in the current
directory.
6. Compare two libraries and their dependencies:
$ abidiff --follow-dependencies \
--added-binaries-dir1 /some/where \
--added-binaries-dir2 /some/where/else \
foo bar
This compares the set of binaries comprised by foo and its dependencies against the set of binaries
comprised by bar and its dependencies.
AUTHOR
Dodji Seketeli
COPYRIGHT
2014-2025, Red Hat, Inc.
Jul 31, 2025 ABIDIFF(1)