378 lines
12 KiB
ReStructuredText
378 lines
12 KiB
ReStructuredText
=====================================
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Cross Translation Unit (CTU) Analysis
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=====================================
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Normally, static analysis works in the boundary of one translation unit (TU).
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However, with additional steps and configuration we can enable the analysis to inline the definition of a function from
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another TU.
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.. contents::
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:local:
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Overview
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________
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CTU analysis can be used in a variety of ways. The importing of external TU definitions can work with pre-dumped PCH
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files or generating the necessary AST structure on-demand, during the analysis of the main TU. Driving the static
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analysis can also be implemented in multiple ways. The most direct way is to specify the necessary commandline options
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of the Clang frontend manually (and generate the prerequisite dependencies of the specific import method by hand). This
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process can be automated by other tools, like `CodeChecker <https://github.com/Ericsson/codechecker>`_ and scan-build-py
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(preference for the former).
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PCH-based analysis
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__________________
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The analysis needs the PCH dumps of all the translations units used in the project.
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These can be generated by the Clang Frontend itself, and must be arranged in a specific way in the filesystem.
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The index, which maps symbols' USR names to PCH dumps containing them must also be generated by the
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`clang-extdef-mapping`. Entries in the index *must* have an `.ast` suffix if the goal
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is to use PCH-based analysis, as the lack of that extension signals that the entry is to be used as a source-file, and parsed on-demand.
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This tool uses a :doc:`compilation database <../../JSONCompilationDatabase>` to
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determine the compilation flags used.
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The analysis invocation must be provided with the directory which contains the dumps and the mapping files.
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Manual CTU Analysis
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###################
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Let's consider these source files in our minimal example:
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.. code-block:: cpp
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// main.cpp
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int foo();
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int main() {
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return 3 / foo();
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}
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.. code-block:: cpp
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// foo.cpp
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int foo() {
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return 0;
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}
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And a compilation database:
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.. code-block:: bash
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[
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{
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"directory": "/path/to/your/project",
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"command": "clang++ -c foo.cpp -o foo.o",
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"file": "foo.cpp"
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},
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{
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"directory": "/path/to/your/project",
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"command": "clang++ -c main.cpp -o main.o",
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"file": "main.cpp"
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}
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]
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We'd like to analyze `main.cpp` and discover the division by zero bug.
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In order to be able to inline the definition of `foo` from `foo.cpp` first we have to generate the `AST` (or `PCH`) file
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of `foo.cpp`:
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.. code-block:: bash
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$ pwd $ /path/to/your/project
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$ clang++ -emit-ast -o foo.cpp.ast foo.cpp
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$ # Check that the .ast file is generated:
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$ ls
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compile_commands.json foo.cpp.ast foo.cpp main.cpp
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$
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The next step is to create a CTU index file which holds the `USR` name and location of external definitions in the
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source files:
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.. code-block:: bash
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$ clang-extdef-mapping -p . foo.cpp
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c:@F@foo# /path/to/your/project/foo.cpp
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$ clang-extdef-mapping -p . foo.cpp > externalDefMap.txt
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We have to modify `externalDefMap.txt` to contain the name of the `.ast` files instead of the source files:
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.. code-block:: bash
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$ sed -i -e "s/.cpp/.cpp.ast/g" externalDefMap.txt
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We still have to further modify the `externalDefMap.txt` file to contain relative paths:
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.. code-block:: bash
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$ sed -i -e "s|$(pwd)/||g" externalDefMap.txt
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Now everything is available for the CTU analysis.
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We have to feed Clang with CTU specific extra arguments:
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.. code-block:: bash
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$ pwd
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/path/to/your/project
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$ clang++ --analyze \
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-Xclang -analyzer-config -Xclang experimental-enable-naive-ctu-analysis=true \
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-Xclang -analyzer-config -Xclang ctu-dir=. \
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-Xclang -analyzer-output=plist-multi-file \
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main.cpp
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main.cpp:5:12: warning: Division by zero
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return 3 / foo();
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~~^~~~~~~
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1 warning generated.
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$ # The plist file with the result is generated.
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$ ls -F
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compile_commands.json externalDefMap.txt foo.ast foo.cpp foo.cpp.ast main.cpp main.plist
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$
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This manual procedure is error-prone and not scalable, therefore to analyze real projects it is recommended to use
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`CodeChecker` or `scan-build-py`.
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Automated CTU Analysis with CodeChecker
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#######################################
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The `CodeChecker <https://github.com/Ericsson/codechecker>`_ project fully supports automated CTU analysis with Clang.
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Once we have set up the `PATH` environment variable and we activated the python `venv` then it is all it takes:
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.. code-block:: bash
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$ CodeChecker analyze --ctu compile_commands.json -o reports
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$ ls -F
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compile_commands.json foo.cpp foo.cpp.ast main.cpp reports/
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$ tree reports
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reports
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├── compile_cmd.json
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├── compiler_info.json
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├── foo.cpp_53f6fbf7ab7ec9931301524b551959e2.plist
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├── main.cpp_23db3d8df52ff0812e6e5a03071c8337.plist
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├── metadata.json
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└── unique_compile_commands.json
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0 directories, 6 files
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$
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The `plist` files contain the results of the analysis, which may be viewed with the regular analysis tools.
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E.g. one may use `CodeChecker parse` to view the results in command line:
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.. code-block:: bash
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$ CodeChecker parse reports
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[HIGH] /home/egbomrt/ctu_mini_raw_project/main.cpp:5:12: Division by zero [core.DivideZero]
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return 3 / foo();
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^
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Found 1 defect(s) in main.cpp
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----==== Summary ====----
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-----------------------
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Filename | Report count
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-----------------------
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main.cpp | 1
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-----------------------
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-----------------------
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Severity | Report count
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-----------------------
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HIGH | 1
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-----------------------
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----=================----
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Total number of reports: 1
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----=================----
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Or we can use `CodeChecker parse -e html` to export the results into HTML format:
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.. code-block:: bash
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$ CodeChecker parse -e html -o html_out reports
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$ firefox html_out/index.html
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Automated CTU Analysis with scan-build-py (don't do it)
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#############################################################
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We actively develop CTU with CodeChecker as the driver for this feature, `scan-build-py` is not actively developed for CTU.
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`scan-build-py` has various errors and issues, expect it to work only with the very basic projects only.
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Example usage of scan-build-py:
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.. code-block:: bash
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$ /your/path/to/llvm-project/clang/tools/scan-build-py/bin/analyze-build --ctu
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analyze-build: Run 'scan-view /tmp/scan-build-2019-07-17-17-53-33-810365-7fqgWk' to examine bug reports.
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$ /your/path/to/llvm-project/clang/tools/scan-view/bin/scan-view /tmp/scan-build-2019-07-17-17-53-33-810365-7fqgWk
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Starting scan-view at: http://127.0.0.1:8181
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Use Ctrl-C to exit.
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[6336:6431:0717/175357.633914:ERROR:browser_process_sub_thread.cc(209)] Waited 5 ms for network service
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Opening in existing browser session.
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^C
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$
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.. _ctu-on-demand:
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On-demand analysis
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__________________
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The analysis produces the necessary AST structure of external TUs during analysis. This requires the
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exact compiler invocations for each TU, which can be generated by hand, or by tools driving the analyzer.
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The compiler invocation is a shell command that could be used to compile the TU-s main source file.
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The mapping from absolute source file paths of a TU to lists of compilation command segments used to
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compile said TU are given in YAML format referred to as `invocation list`, and must be passed as an
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analyer-config argument.
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The index, which maps function USR names to source files containing them must also be generated by the
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`clang-extdef-mapping`. Entries in the index must *not* have an `.ast` suffix if the goal
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is to use On-demand analysis, as that extension signals that the entry is to be used as an PCH-dump.
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The mapping of external definitions implicitly uses a
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:doc:`compilation database <../../JSONCompilationDatabase>` to determine the compilation flags used.
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The analysis invocation must be provided with the directory which contains the mapping
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files, and the `invocation list` which is used to determine compiler flags.
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|
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Manual CTU Analysis
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###################
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|
|
Let's consider these source files in our minimal example:
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|
|
.. code-block:: cpp
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|
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// main.cpp
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int foo();
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int main() {
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return 3 / foo();
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}
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.. code-block:: cpp
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// foo.cpp
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int foo() {
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return 0;
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}
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The compilation database:
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.. code-block:: bash
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[
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{
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"directory": "/path/to/your/project",
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"command": "clang++ -c foo.cpp -o foo.o",
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"file": "foo.cpp"
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},
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{
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"directory": "/path/to/your/project",
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"command": "clang++ -c main.cpp -o main.o",
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"file": "main.cpp"
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}
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]
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The `invocation list`:
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.. code-block:: bash
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"/path/to/your/project/foo.cpp":
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- "clang++"
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- "-c"
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- "/path/to/your/project/foo.cpp"
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- "-o"
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- "/path/to/your/project/foo.o"
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"/path/to/your/project/main.cpp":
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- "clang++"
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- "-c"
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- "/path/to/your/project/main.cpp"
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- "-o"
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- "/path/to/your/project/main.o"
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We'd like to analyze `main.cpp` and discover the division by zero bug.
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As we are using On-demand mode, we only need to create a CTU index file which holds the `USR` name and location of
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external definitions in the source files:
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|
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.. code-block:: bash
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$ clang-extdef-mapping -p . foo.cpp
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c:@F@foo# /path/to/your/project/foo.cpp
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$ clang-extdef-mapping -p . foo.cpp > externalDefMap.txt
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Now everything is available for the CTU analysis.
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We have to feed Clang with CTU specific extra arguments:
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.. code-block:: bash
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$ pwd
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/path/to/your/project
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$ clang++ --analyze \
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-Xclang -analyzer-config -Xclang experimental-enable-naive-ctu-analysis=true \
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-Xclang -analyzer-config -Xclang ctu-dir=. \
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-Xclang -analyzer-config -Xclang ctu-invocation-list=invocations.yaml \
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-Xclang -analyzer-output=plist-multi-file \
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main.cpp
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main.cpp:5:12: warning: Division by zero
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return 3 / foo();
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~~^~~~~~~
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1 warning generated.
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$ # The plist file with the result is generated.
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$ ls -F
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compile_commands.json externalDefMap.txt foo.cpp main.cpp main.plist
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$
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This manual procedure is error-prone and not scalable, therefore to analyze real projects it is recommended to use
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`CodeChecker` or `scan-build-py`.
|
|
|
|
Automated CTU Analysis with CodeChecker
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|
#######################################
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The `CodeChecker <https://github.com/Ericsson/codechecker>`_ project fully supports automated CTU analysis with Clang.
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Once we have set up the `PATH` environment variable and we activated the python `venv` then it is all it takes:
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|
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.. code-block:: bash
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$ CodeChecker analyze --ctu --ctu-ast-loading-mode on-demand compile_commands.json -o reports
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$ ls -F
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compile_commands.json foo.cpp main.cpp reports/
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$ tree reports
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reports
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├── compile_cmd.json
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├── compiler_info.json
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├── foo.cpp_53f6fbf7ab7ec9931301524b551959e2.plist
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├── main.cpp_23db3d8df52ff0812e6e5a03071c8337.plist
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├── metadata.json
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└── unique_compile_commands.json
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0 directories, 6 files
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$
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The `plist` files contain the results of the analysis, which may be viewed with the regular analysis tools.
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|
E.g. one may use `CodeChecker parse` to view the results in command line:
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|
|
|
.. code-block:: bash
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|
|
$ CodeChecker parse reports
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[HIGH] /home/egbomrt/ctu_mini_raw_project/main.cpp:5:12: Division by zero [core.DivideZero]
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return 3 / foo();
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^
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Found 1 defect(s) in main.cpp
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----==== Summary ====----
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-----------------------
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Filename | Report count
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-----------------------
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main.cpp | 1
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-----------------------
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-----------------------
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Severity | Report count
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-----------------------
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HIGH | 1
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-----------------------
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----=================----
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Total number of reports: 1
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----=================----
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|
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Or we can use `CodeChecker parse -e html` to export the results into HTML format:
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|
|
.. code-block:: bash
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|
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$ CodeChecker parse -e html -o html_out reports
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$ firefox html_out/index.html
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|
|
Automated CTU Analysis with scan-build-py (don't do it)
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|
#######################################################
|
|
We actively develop CTU with CodeChecker as the driver for feature, `scan-build-py` is not actively developed for CTU.
|
|
`scan-build-py` has various errors and issues, expect it to work only with the very basic projects only.
|
|
|
|
Currently On-demand analysis is not supported with `scan-build-py`.
|
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|