4

We use Coverity's Scan Build service for free and open source projects. I am working through two Coverity findings on tainted parameters (TAINTED_SCALAR). The taint is a false positive, so I am trying to instrument the code with Coverity's __coverity_tainted_data_sanitize__ to clear the issue.

I want to guard the code that needs to use __coverity_tainted_data_sanitize__ because the function is only used with analysis builds using Coverity's cov-build tool. That is, I want to do something like:

void Foo(std::istream& is, ...)
{
    std::string name;
    is >> name;

#if <SOME_COVERITY_PREPROCESSOR_MACRO>
    __coverity_tainted_data_sanitize__(name);
#endif

    ...
}

Coverity has a couple of examples on using __coverity_tainted_data_sanitize__, but they don't show how to guard it. See for example, Function model example for Tainted Scalar and Explicitly document parameter passing mechanisms. I also could not find it when asking the preprocessor (see below).

What preprocessor macros does Coverity define to determine an analysis build?


Preprocessor Output

$ cov-build --dir ~/temp cpp -x c++ -dM </dev/null 2>&1 | egrep -i "(cov|anal)"
Coverity Build Capture (64-bit) version 7.7.0.4 on Linux 3.13.0-68-generic x86_64

Environmental Variables

I did find some environmental variables, but I prefer to avoid mapping environmental variables to preprocessor defines.

$ cov-build --dir ~/temp printenv 2>&1 | egrep -i "(cov|anal)"
Coverity Build Capture (64-bit) version 7.7.0.4 on Linux 3.13.0-68-generic x86_64
LD_LIBRARY_PATH=/home/cov-analysis/jars
LD_PRELOAD=/home/cov-analysis/bin/libcapture-linux64-${PLATFORM}.so
COVERITY_TEMP=/tmp/cov-98db841699284e11e33be37fe7061776
COVERITY_LD_LIBRARY_PATH=/home/cov-analysis/jars
COVERITY_JAVA14_WARNING_FILE=/home/temp/warn_about_java14_compilations
COVERITY_ENABLE_CEJ_PER_CLASS_ERROR_RECOVERY=1
COVERITY_IS_COMPILER_DESCENDANT=0
COVERITY_CONFIG_FILE=/home/cov-analysis/config/coverity_config.xml
COVERITY_COMMON_TEMP=/tmp
COVERITY_JAVA_CONFIG=javac#TEMPLATE##java#TEMPLATE##apt#TEMPLATE##javaw#TEMPLATE###
COVERITY_PREV_XML_CATALOG_FILES=
COVERITY_OUTPUT_ENCODING=UTF-8
COVERITY_COMPILER_PATH_MISMATCH_FILE=/home/temp/has_path_mismatches
COVERITY_ENABLE_CECS_WATCHDOG=1
COVERITY_PATHLESS_CONFIGS_FILE=/home/temp/has_pathless_configs
COVERITY_LD_PRELOAD=/home/cov-analysis/bin/libcapture-linux64-${PLATFORM}.so
COVERITY_BUILD_INVOCATION_ID=1
PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/home/cov-analysis/bin
COVERITY_BIN=/home/cov-analysis/bin
COVERITY_IDIR=/home/temp
COVERITY_TOP_PROCESS=0
COVERITY_OUTPUT=/home/temp/build-log.txt
COVERITY_EMIT=/home/temp/emit
PWD=/home/cov-analysis
COVERITY_SITE_CC=VBCSCompiler;apt;c++;cc;cl;clang;clang++;csc;csc2;devenv;g++;g++-4.8;g++-4.9;g++-5.1.0;gcc;gcc-4.8;gcc-4.9;gcc-5.1.0;java;javac;javaw;ld;msbuild;xgcc
COVERITY_LOG=/home/temp/build-log.txt
COVERITY_SYSTEM_ENCODING=UTF-8
COVERITY_TOP_CONFIG=/tmp/cov-98db841699284e11e33be37fe7061776/cov-configure/coverity_config.xml
COVERITY_IS_COMPILER=0

Just in case its discussed... the library does read what appears to be a tainted value. However, its a datafile used for self tests, its located in /usr/share, and its not arbitrary user input. The library does not expose this particular functions to users, so I dont believe it can be abused in unexpected ways.

6

Both cov-emit and cov-internal-emit-clang predefine the __COVERITY__ macro, which is probably what you want.

That said, I think you should be able to mark the defect as a false positive in the Coverity Scan web UI, and it won't show up anymore.

$ cov-build --dir ~/temp cpp -x c++ -dM &1 | egrep -i "(cov|anal)" Coverity Build Capture (64-bit) version 7.7.0.4 on Linux 3.13.0-68-generic x86_64

As an aside, this is looking at the macros predefined by cpp, not cov-translate. As far as I know, there is currently no straightforward way to dump all the macros predefined by cov-build/cov-translate.

  • Unfortunately, I don't think Coverity Scan provides complete documentation on the command line build tools. You can find the documentation on modeling here, which might help you get rid of these false positives. – fifty nine Nov 15 '15 at 22:54
  • Sorry about that... I had to perform a cross check... Yeah, that's a drag there is little to no documentation. When I started reading the blog posts, I got confused quickly. I wanted to read a formal treatment of modelling but I could not find it. Eventually I gave up and started looking for the instrumentation, like __coverity_tainted_data_sanitize__, to suppress them. – jww Nov 15 '15 at 22:57

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.