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NOTES-NONSTOP.md

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NOTES FOR THE HPE NONSTOP PLATFORM

Requirement details

In addition to the requirements and instructions listed in INSTALL.md, the following are required as well:

  • The TNS/X platform supports hardware randomization. Specify the --with-rand-seed=rdcpu option to the ./Configure script. This is recommended but not required. egd is supported at 3.0 but cannot be used if FIPS is selected.
  • The TNS/E platform does not support hardware randomization, so specify the --with-rand-seed=egd option to the ./Configure script.

About c99 compiler

The c99 compiler is required for building OpenSSL from source. While c11 may work, it has not been broadly tested. c99 is the only compiler prerequisite needed to build OpenSSL 3.0 on this platform.

Threading Models

OpenSSL can be built either using the POSIX User Threads (PUT) threading model, or with threading support disabled. Select the following build configuration for each on the TNS/X (L-Series) platform:

  • nonstop-nsx or default will select an unthreaded 32-bit build.
  • nonstop-nsx_64 selects an unthreaded 64-bit memory and file length build.
  • nonstop-nsx_64_klt selects the 64-bit memory and file length KLT build.
  • nonstop-nsx_put selects the PUT build.
  • nonstop-nsx_64_put selects the 64-bit memory and file length PUT build.

The KLT threading model is a newly released model on NonStop. It implements kernel-level threading. KLT provides much closer threading to what OpenSSL uses for Linux-like threading models. KLT continues to use the pthread library API. There is no supported 32-bit or Guardian builds for KLT. Note: KLT is not currently available but is planned for post-2024.

The SPT threading model is no longer supported as of OpenSSL 3.2.

The PUT model is incompatible with the QUIC capability. This capability should be disabled when building with PUT.

TNS/E Considerations

The TNS/E platform is build using the same set of builds specifying nse instead of nsx in the set above.

You cannot build for TNS/E for FIPS, so you must specify the no-fips option to ./Configure.

Linking and Loading Considerations

Because of how the NonStop Common Runtime Environment (CRE) works, there are restrictions on how programs can link and load with OpenSSL libraries. On current NonStop platforms, programs cannot both statically link OpenSSL libraries and dynamically load OpenSSL shared libraries concurrently. If this is done, there is a high probability of encountering a SIGSEGV condition relating to atexit() processing when a shared library is unloaded and when the program terminates. This limitation applies to all OpenSSL shared library components.

A control has been added as of 3.3.x to disable calls to atexit() within the libcrypto builds (specifically in crypto/init.c). This switch can be controlled using disable-atexit or enable-atexit, and is disabled by default for NonStop builds. If you need to have atexit() functionality, set enabled-atexit when configuring OpenSSL to enable the atexit() call to register OPENSSL_cleanup() automatically. Preferably, you can explicitly call OPENSSL_cleanup() from your application.

About Prefix and OpenSSLDir

Because there are many potential builds that must co-exist on any given NonStop node, managing the location of your build distribution is crucial. Keep each destination separate and distinct. Mixing any mode described in this document can cause application instability. The recommended approach is to specify the OpenSSL version and threading model in your configuration options, and keeping your memory and float options consistent, for example:

  • For 1.1 --prefix=/usr/local-ssl1.1 --openssldir=/usr/local-ssl1.1/ssl
  • For 1.1 PUT --prefix=/usr/local-ssl1.1_put --openssldir=/usr/local-ssl1.1_put/ssl

As of 3.0, the NonStop configurations use the multilib attribute to distinguish between different models:

  • For 3.0 --prefix=/usr/local-ssl3.0 --openssldir=/usr/local-ssl3.0/ssl

The PUT model is placed in ${prefix}/lib-put for 32-bit models and ${prefix}/lib64-put for 64-bit models.

Use the _RLD_LIB_PATH environment variable in OSS to select the appropriate directory containing libcrypto.so and libssl.so. In GUARDIAN, use the =_RLD_LIB_PATH search define to locate the GUARDIAN subvolume where OpenSSL is installed.

Float Considerations

OpenSSL is built using IEEE Float mode by default. If you need a different IEEE mode, create a new configuration specifying tfloat-x86-64 (for Tandem Float) or nfloat-x86-64 (for Neutral Float).

Memory Models

The current OpenSSL default memory model uses the default platform address model. If you need a different address model, you must specify the appropriate c99 options for compile (CFLAGS) and linkers (LDFLAGS).

Cross Compiling on Windows

To configure and compile OpenSSL, you will need to set up a Cygwin environment. The Cygwin tools should include bash, make, and any other normal tools required for building programs.

Your PATH must include the bin directory for the c99 cross-compiler, as in:

export PATH=/cygdrive/c/Program\ Files\ \(x86\)/HPE\ NonStop/L16.05/usr/bin:$PATH

This should be set before Configure is run. For the c99 cross-compiler to work correctly, you also need the COMP_ROOT set, as in:

export COMP_ROOT="C:\Program Files (x86)\HPE NonStop\L16.05"

COMP_ROOT needs to be in Windows form.

An example of a Configure command to be run from the OpenSSL directory is:

./Configure nonstop-nsx_64 --with-rand-seed=rdcpu

Do not forget to include any OpenSSL cross-compiling prefix and certificate options when creating your libraries.

The OpenSSL test suite will not run on your workstation. In order to verify the build, you will need to perform the build and test steps in OSS in your NonStop server. You can also build under gcc and run the test suite for Windows but that is not equivalent.

Note: In the event that you are attempting a FIPS-compliant cross-compile, be aware that signatures may not match between builds done under OSS and under cross-compiles as the compilers do not necessarily generate identical objects. Anything and everything to do with FIPS is outside the scope of this document. Refer to the FIPS security policy for more information.

The following build configurations have been successfully attempted at one point or another. If you are successful in your cross-compile efforts, please update this list:

  • nonstop-nsx_64
  • nonstop-nsx_64_put

Note: Cross-compile builds for TNS/E have not been attempted, but should follow the same considerations as for TNS/X above.

Also see the NSDEE discussion below for more historical information.

Cross Compiling with NSDEE

Note: None of these builds have been tested by the platform maintainer and are supplied for historical value. Please submit a Pull Request to OpenSSL should these need to be adjusted.

If you are attempting to build OpenSSL with NSDEE, you will need to specify the following variables. The following set of compiler defines are required:

# COMP_ROOT must be a full path for the build system (e.g. windows)
COMP_ROOT=$(cygpath -w /path/to/comp_root)
# CC must be executable by your shell
CC=/path/to/c99

Optional Build Variables

DBGFLAG="--debug"
CIPHENABLES="enable-ssl3 enable-ssl3-method enable-weak-ssl-ciphers enable-rc4"

Internal Known TNS/X to TNS/E Cross Compile Variables

The following definition is required if you are building on TNS/X for TNS/E and have access to a TNS/E machine on your EXPAND network - with an example node named \CS3:

SYSTEMLIBS="-L/E/cs3/usr/local/lib"

Version Procedure (VPROC) Considerations

If you require a VPROC entry for platform version identification, use the following variables:

For Itanium

OPENSSL_VPROC_PREFIX=T0085H06

For x86

OPENSSL_VPROC_PREFIX=T0085L01

Common Definition

export OPENSSL_VPROC=${OPENSSL_VPROC_PREFIX}_$(
    . VERSION.dat
    if [ -n "$PRE_RELEASE_TAG" ]; then
        PRE_RELEASE_TAG="-$PRE_RELEASE_TAG"
    fi
    if [ -n "$BUILD_METADATA" ]; then
        BUILD_METADATA="+$BUILD_METADATA"
    fi
    echo "$MAJOR.$MINOR.$PATCH$PRE_RELEASE_TAG$BUILD_METADATA" |\
        sed -e 's/[-.+]/_/g'
    )

Example Configure Targets

For OSS targets, the main DLL names will be libssl.so and libcrypto.so. The following assumes that your PWD is set according to your installation standards.

./Configure nonstop-nsx           --prefix=${PWD} \
    --openssldir=${PWD}/ssl no-threads \
    --with-rand-seed=rdcpu ${CIPHENABLES} ${DBGFLAG} ${SYSTEMLIBS}
./Configure nonstop-nsx_put       --prefix=${PWD} \
    --openssldir=${PWD}/ssl threads "-D_REENTRANT" \
    --with-rand-seed=rdcpu ${CIPHENABLES} ${DBGFLAG} ${SYSTEMLIBS}
./Configure nonstop-nsx_64        --prefix=${PWD} \
    --openssldir=${PWD}/ssl no-threads \
    --with-rand-seed=rdcpu ${CIPHENABLES} ${DBGFLAG} ${SYSTEMLIBS}
./Configure nonstop-nsx_64_put    --prefix=${PWD} \
    --openssldir=${PWD}/ssl threads "-D_REENTRANT" \
    --with-rand-seed=rdcpu ${CIPHENABLES} ${DBGFLAG} ${SYSTEMLIBS}

./Configure nonstop-nse           --prefix=${PWD} \
    --openssldir=${PWD}/ssl no-threads \
    --with-rand-seed=egd ${CIPHENABLES} ${DBGFLAG} ${SYSTEMLIBS}
./Configure nonstop-nse_g         --prefix=${PWD} \
    --openssldir=${PWD}/ssl no-threads \
    --with-rand-seed=egd ${CIPHENABLES} ${DBGFLAG} ${SYSTEMLIBS}
./Configure nonstop-nse_put       --prefix=${PWD} \
    --openssldir=${PWD}/ssl threads "-D_REENTRANT" \
    --with-rand-seed=egd ${CIPHENABLES} ${DBGFLAG} ${SYSTEMLIBS}
./Configure nonstop-nse_64        --prefix=${PWD} \
    --openssldir=${PWD}/ssl no-threads \
    --with-rand-seed=egd ${CIPHENABLES} ${DBGFLAG} ${SYSTEMLIBS}
./Configure nonstop-nse_64_put    --prefix=${PWD} \
    --openssldir=${PWD}/ssl threads "-D_REENTRANT"
    --with-rand-seed=egd ${CIPHENABLES} ${DBGFLAG} ${SYSTEMLIBS}