#!/usr/bin/perl
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#
# Copyright (c) 2015-2020, Intel Corporation
#
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# modification, are permitted provided that the following conditions are met:
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#[ICS VERSION STRING: unknown]
use strict;
use File::Basename;
#############################################################################
##
## MPI installation generic functions
# these functions can be used by the MPI specific install functions
# installs PSM based MPI component. also handles reinstall on top of
# existing installation and upgrade.
sub install_generic_mpi
{
my $install_list = $_[0];
my $installing_list = $_[1];
my $mpiname = $_[2];
my $compiler = $_[3];
my $suffix = $_[4];
my $mpifullname = "$mpiname"."_$compiler";
if ( "$suffix" ne "") {
$mpifullname = "$mpifullname" . "_" . "$suffix";
}
my $srcdir = $ComponentInfo{$mpifullname}{'SrcDir'};
my $version = eval "media_version_$mpifullname()";
printf ("Installing $ComponentInfo{$mpifullname}{'Name'} $version...\n");
LogPrint ("Installing $ComponentInfo{$mpifullname}{'Name'} $version for $CUR_OS_VER\n");
# make sure any old potentially custom built versions of mpi are uninstalled
uninstall_comp_rpms($mpifullname, ' --nodeps ', $install_list, $installing_list, 'silent');
# cleanup from older installs just in case
system ("rm -rf /usr/lib/opa/.comp_$mpifullname.pl");
my $rpmfile = rpm_resolve("$srcdir/$mpifullname", "any");
if ( "$rpmfile" ne "" && -e "$rpmfile" ) {
my $mpich_prefix= "/usr/mpi/$compiler/$mpiname-"
. rpm_query_attr($rpmfile, "VERSION");
if ( "$suffix" ne "") {
$mpich_prefix= "$mpich_prefix" . "-" . "$suffix";
}
if ( -d "$mpich_prefix" ) {
if (GetYesNo ("Remove $mpich_prefix directory?", "y")) {
LogPrint "rm -rf $mpich_prefix\n";
system("rm -rf $mpich_prefix");
}
}
}
# enable this code if mpitests is missing for some compilers or MPIs
#my $mpitests_rpmfile = rpm_resolve("$srcdir/OtherMPIs/mpitests_$mpifullname", "any");
#if ( "$mpitests_rpmfile" ne "" && -e "$mpitests_rpmfile" ) {
install_comp_rpms($mpifullname, " -U --nodeps ", $install_list);
#} else {
# rpm_install("$srcdir/OtherMPIs/$mpifullname", "user");
#}
$ComponentWasInstalled{$mpifullname} = 1;
}
sub installed_generic_mpi
{
my $mpiname = $_[0];
my $compiler = $_[1];
my $suffix = $_[2];
my $mpifullname = "$mpiname"."_$compiler";
if ( "$suffix" ne "") {
$mpifullname = "$mpifullname" . "_" . "$suffix";
}
return (rpm_is_installed ($mpifullname, "user") );
}
sub uninstall_generic_mpi
{
my $install_list = $_[0];
my $installing_list = $_[1];
my $mpiname = $_[2];
my $compiler = $_[3];
my $suffix = $_[4];
my $mpifullname = "$mpiname"."_$compiler";
if ( "$suffix" ne "") {
$mpifullname = "$mpifullname" . "_" . "$suffix";
}
my $mpich_prefix= "/usr/mpi/$compiler/$mpiname-"
. rpm_query_attr_pkg("$mpifullname", "VERSION");
if ( "$suffix" ne "") {
$mpich_prefix= "$mpich_prefix" . "-" . "$suffix";
}
my $rc;
my $top;
NormalPrint ("Uninstalling $ComponentInfo{$mpifullname}{'Name'}...\n");
$top = rpm_query_attr_pkg("$mpifullname", "INSTALLPREFIX");
if ($top eq "" || $top =~ /is not installed/) {
$top = undef;
} else {
$top = `dirname $top`;
chomp $top;
}
# uninstall tests in case built by do_build
uninstall_comp_rpms($mpifullname, '', $install_list, $installing_list, 'verbose');
# unfortunately mpi and mpitests can leave empty directories on uninstall
# this can confuse IFS MPI tools because correct MPI to use
# cannot be identified. This remove such empty directories
if ( -d "/$mpich_prefix" ) {
system("cd '/$mpich_prefix'; rmdir -p tests/* >/dev/null 2>&1");
}
if ( -d $top ) {
my @files = glob("$top/*");
my $num = scalar (@files);
if ( $num == 0 ) {
system ("rm -rf $top");
}
}
# cleanup from older installs just in case
system ("rm -rf /usr/lib/opa/.comp_$mpifullname.pl");
system ("rmdir /usr/lib/opa 2>/dev/null"); # remove only if empty
$ComponentWasInstalled{$mpifullname} = 0;
}
#############################################################################
##
## OpenMPI GCC Verbs
# is component X available on the install media (use of this
# allows for optional components in packaging or limited availability if a
# component isn't available on some OS/CPU combos)
sub get_rpms_dir_openmpi_gcc
{
return $ComponentInfo{'openmpi_gcc'}{'SrcDir'};
}
sub available_openmpi_gcc
{
my $srcdir = $ComponentInfo{'openmpi_gcc'}{'SrcDir'};
return rpm_exists ("$srcdir/openmpi_gcc", "user");
}
# is component X presently installed on the system. This is
# a quick check, not a "verify"
sub installed_openmpi_gcc
{
return installed_generic_mpi("openmpi", "gcc", "");
}
# what is the version installed on system. Only
# called if installed_X is true. versions are short strings displayed and
# logged, no operations are done (eg. only compare for equality)
sub installed_version_openmpi_gcc
{
return rpm_query_version_release_pkg ("openmpi_gcc");
}
# only called if available_X. Indicates version on
# media. Will be compared with installed_version_X to determine if
# present installation is up to date. Should return exact same format for
# version string so comparison of equality is possible.
sub media_version_openmpi_gcc
{
my $srcdir = $ComponentInfo{'openmpi_gcc'}{'SrcDir'};
my $rpm = rpm_resolve ("$srcdir/openmpi_gcc", "user");
return rpm_query_version_release ($rpm);
}
# used to build/rebuild component on local system (if
# supported). We support this for many items in comp_ofed.pl
# Other components (like SM) are
# not available in source and hence do not support this and simply
# implement a noop.
sub build_openmpi_gcc
{
my $osver = $_[0];
my $debug = $_[1];
my $build_temp = $_[2];
my $force = $_[3];
return 0;
}
# does this need to be reinstalled. Mainly used for
# ofed due to subtle changes such as install prefix or kernel options
# which may force a reinstall. You'll find this is a noop in most others.
sub need_reinstall_openmpi_gcc
{
my $install_list = shift ();
my $installing_list = shift ();
return "no";
}
# called for all components before they are installed. Use to verify OS
# has proper dependent rpms installed.
sub check_os_prereqs_openmpi_gcc
{
return rpm_check_os_prereqs("openmpi_gcc", "user");
}
# called for all components before they are installed. Use
# to build things if needed, etc.
sub preinstall_openmpi_gcc
{
my $install_list = $_[0];
my $installing_list = $_[1];
my $full = "";
my $rc;
return 0;
}
# installs component. also handles reinstall on top of
# existing installation and upgrade.
sub install_openmpi_gcc
{
install_generic_mpi("$_[0]", "$_[1]", "openmpi", "gcc", "");
}
# called after all components are installed.
sub postinstall_openmpi_gcc
{
my $install_list = $_[0]; # total that will be installed when done
my $installing_list = $_[1]; # what items are being installed/reinstalled
}
# uninstalls component. May be called even if component is
# partially or not installed at all in which case should do its best to
# get rid or what might remain of component from a previously aborted
# uninstall or failed install
sub uninstall_openmpi_gcc
{
uninstall_generic_mpi("$_[0]", "$_[1]", "openmpi", "gcc", "");
}
#############################################################################
##
## MVAPICH2 GCC Verbs
# is component X available on the install media (use of this
# allows for optional components in packaging or limited availability if a
# component isn't available on some OS/CPU combos)
sub get_rpms_dir_mvapich2_gcc
{
return $ComponentInfo{'mvapich2_gcc'}{'SrcDir'};
}
sub available_mvapich2_gcc
{
my $srcdir = $ComponentInfo{'mvapich2_gcc'}{'SrcDir'};
return rpm_exists ("$srcdir/mvapich2_gcc", "user");
}
# is component X presently installed on the system. This is
# a quick check, not a "verify"
sub installed_mvapich2_gcc
{
return installed_generic_mpi("mvapich2", "gcc", "");
}
# what is the version installed on system. Only
# called if installed_X is true. versions are short strings displayed and
# logged, no operations are done (eg. only compare for equality)
sub installed_version_mvapich2_gcc
{
return rpm_query_version_release_pkg ("mvapich2_gcc");
}
# only called if available_X. Indicates version on
# media. Will be compared with installed_version_X to determine if
# present installation is up to date. Should return exact same format for
# version string so comparison of equality is possible.
sub media_version_mvapich2_gcc
{
my $srcdir = $ComponentInfo{'mvapich2_gcc'}{'SrcDir'};
my $rpm = rpm_resolve ("$srcdir/mvapich2_gcc", "user");
return rpm_query_version_release ($rpm);
}
# used to build/rebuild component on local system (if
# supported). We support this for many items in comp_ofed.pl
# Other components (like SM) are
# not available in source and hence do not support this and simply
# implement a noop.
sub build_mvapich2_gcc
{
my $osver = $_[0];
my $debug = $_[1];
my $build_temp = $_[2];
my $force = $_[3];
return 0;
}
# does this need to be reinstalled. Mainly used for
# ofed due to subtle changes such as install prefix or kernel options
# which may force a reinstall. You'll find this is a noop in most others.
sub need_reinstall_mvapich2_gcc
{
my $install_list = shift ();
my $installing_list = shift ();
return "no";
}
# called for all components before they are installed. Use to verify OS
# has proper dependent rpms installed.
sub check_os_prereqs_mvapich2_gcc
{
return rpm_check_os_prereqs("mvapich2_gcc", "user");
}
# called for all components before they are installed. Use
# to build things if needed, etc.
sub preinstall_mvapich2_gcc
{
my $install_list = $_[0];
my $installing_list = $_[1];
my $full = "";
my $rc;
return 0;
}
# installs component. also handles reinstall on top of
# existing installation and upgrade.
sub install_mvapich2_gcc
{
install_generic_mpi("$_[0]", "$_[1]", "mvapich2", "gcc", "");
}
# called after all components are installed.
sub postinstall_mvapich2_gcc
{
my $install_list = $_[0]; # total that will be installed when done
my $installing_list = $_[1]; # what items are being installed/reinstalled
}
# uninstalls component. May be called even if component is
# partially or not installed at all in which case should do its best to
# get rid or what might remain of component from a previously aborted
# uninstall or failed install
sub uninstall_mvapich2_gcc
{
uninstall_generic_mpi("$_[0]", "$_[1]", "mvapich2", "gcc", "");
}
#############################################################################
##
## OpenMPI GCC PSM
# is component X available on the install media (use of this
# allows for optional components in packaging or limited availability if a
# component isn't available on some OS/CPU combos)
sub get_rpms_dir_openmpi_gcc_hfi
{
return $ComponentInfo{'openmpi_gcc_hfi'}{'SrcDir'};
}
sub available_openmpi_gcc_hfi
{
my $srcdir = $ComponentInfo{'openmpi_gcc_hfi'}{'SrcDir'};
return rpm_exists ("$srcdir/openmpi_gcc_hfi", "user");
}
# is component X presently installed on the system. This is
# a quick check, not a "verify"
sub installed_openmpi_gcc_hfi
{
return installed_generic_mpi("openmpi", "gcc", "hfi");
}
# what is the version installed on system. Only
# called if installed_X is true. versions are short strings displayed and
# logged, no operations are done (eg. only compare for equality)
sub installed_version_openmpi_gcc_hfi
{
return rpm_query_version_release_pkg ("openmpi_gcc_hfi");
}
# only called if available_X. Indicates version on
# media. Will be compared with installed_version_X to determine if
# present installation is up to date. Should return exact same format for
# version string so comparison of equality is possible.
sub media_version_openmpi_gcc_hfi
{
my $srcdir = $ComponentInfo{'openmpi_gcc_hfi'}{'SrcDir'};
my $rpm = rpm_resolve ("$srcdir/openmpi_gcc_hfi", "user");
return rpm_query_version_release ($rpm);
}
# used to build/rebuild component on local system (if
# supported). We support this for many items in comp_ofed.pl
# Other components (like SM) are
# not available in source and hence do not support this and simply
# implement a noop.
sub build_openmpi_gcc_hfi
{
my $osver = $_[0];
my $debug = $_[1];
my $build_temp = $_[2];
my $force = $_[3];
return 0;
}
# does this need to be reinstalled. Mainly used for
# ofed due to subtle changes such as install prefix or kernel options
# which may force a reinstall. You'll find this is a noop in most others.
sub need_reinstall_openmpi_gcc_hfi
{
my $install_list = shift ();
my $installing_list = shift ();
return "no";
}
# called for all components before they are installed. Use to verify OS
# has proper dependent rpms installed.
sub check_os_prereqs_openmpi_gcc_hfi
{
return rpm_check_os_prereqs("openmpi_gcc_hfi", "user");
}
# called for all components before they are installed. Use
# to build things if needed, etc.
sub preinstall_openmpi_gcc_hfi
{
my $install_list = $_[0];
my $installing_list = $_[1];
my $full = "";
my $rc;
return 0;
}
# installs component. also handles reinstall on top of
# existing installation and upgrade.
sub install_openmpi_gcc_hfi
{
install_generic_mpi("$_[0]", "$_[1]", "openmpi", "gcc", "hfi");
}
# called after all components are installed.
sub postinstall_openmpi_gcc_hfi
{
my $install_list = $_[0]; # total that will be installed when done
my $installing_list = $_[1]; # what items are being installed/reinstalled
}
# uninstalls component. May be called even if component is
# partially or not installed at all in which case should do its best to
# get rid or what might remain of component from a previously aborted
# uninstall or failed install
sub uninstall_openmpi_gcc_hfi
{
uninstall_generic_mpi("$_[0]", "$_[1]", "openmpi", "gcc", "hfi");
}
#############################################################################
##
## OpenMPI Intel PSM
# is component X available on the install media (use of this
# allows for optional components in packaging or limited availability if a
# component isn't available on some OS/CPU combos)
sub get_rpms_dir_openmpi_intel_hfi
{
return $ComponentInfo{'openmpi_intel_hfi'}{'SrcDir'};
}
sub available_openmpi_intel_hfi
{
my $srcdir = $ComponentInfo{'openmpi_intel_hfi'}{'SrcDir'};
return rpm_exists ("$srcdir/openmpi_intel_hfi", "user");
}
# is component X presently installed on the system. This is
# a quick check, not a "verify"
sub installed_openmpi_intel_hfi
{
return installed_generic_mpi("openmpi", "intel", "hfi");
}
# what is the version installed on system. Only
# called if installed_X is true. versions are short strings displayed and
# logged, no operations are done (eg. only compare for equality)
sub installed_version_openmpi_intel_hfi
{
return rpm_query_version_release_pkg ("openmpi_intel_hfi");
}
# only called if available_X. Indicates version on
# media. Will be compared with installed_version_X to determine if
# present installation is up to date. Should return exact same format for
# version string so comparison of equality is possible.
sub media_version_openmpi_intel_hfi
{
my $srcdir = $ComponentInfo{'openmpi_intel_hfi'}{'SrcDir'};
my $rpm = rpm_resolve ("$srcdir/openmpi_intel_hfi", "user");
return rpm_query_version_release ($rpm);
}
# used to build/rebuild component on local system (if
# supported). We support this for many items in comp_ofed.pl
# Other components (like SM) are
# not available in source and hence do not support this and simply
# implement a noop.
sub build_openmpi_intel_hfi
{
my $osver = $_[0];
my $debug = $_[1];
my $build_temp = $_[2];
my $force = $_[3];
return 0;
}
# does this need to be reinstalled. Mainly used for
# ofed due to subtle changes such as install prefix or kernel options
# which may force a reinstall. You'll find this is a noop in most others.
sub need_reinstall_openmpi_intel_hfi
{
my $install_list = shift ();
my $installing_list = shift ();
return "no";
}
# called for all components before they are installed. Use to verify OS
# has proper dependent rpms installed.
sub check_os_prereqs_openmpi_intel_hfi
{
return rpm_check_os_prereqs("openmpi_intel_hfi", "user");
}
# called for all components before they are installed. Use
# to build things if needed, etc.
sub preinstall_openmpi_intel_hfi
{
my $install_list = $_[0];
my $installing_list = $_[1];
my $full = "";
my $rc;
return 0;
}
# installs component. also handles reinstall on top of
# existing installation and upgrade.
sub install_openmpi_intel_hfi
{
install_generic_mpi("$_[0]", "$_[1]", "openmpi", "intel", "hfi");
}
# called after all components are installed.
sub postinstall_openmpi_intel_hfi
{
my $install_list = $_[0]; # total that will be installed when done
my $installing_list = $_[1]; # what items are being installed/reinstalled
}
# uninstalls component. May be called even if component is
# partially or not installed at all in which case should do its best to
# get rid or what might remain of component from a previously aborted
# uninstall or failed install
sub uninstall_openmpi_intel_hfi
{
uninstall_generic_mpi("$_[0]", "$_[1]", "openmpi", "intel", "hfi");
}
#############################################################################
##
## OpenMPI PGI PSM
# is component X available on the install media (use of this
# allows for optional components in packaging or limited availability if a
# component isn't available on some OS/CPU combos)
sub get_rpms_dir_openmpi_pgi_hfi
{
return $ComponentInfo{'openmpi_pgi_hfi'}{'SrcDir'};
}
sub available_openmpi_pgi_hfi
{
my $srcdir = $ComponentInfo{'openmpi_pgi_hfi'}{'SrcDir'};
return rpm_exists ("$srcdir/openmpi_pgi_hfi", "user");
}
# is component X presently installed on the system. This is
# a quick check, not a "verify"
sub installed_openmpi_pgi_hfi
{
return installed_generic_mpi("openmpi", "pgi", "hfi");
}
# what is the version installed on system. Only
# called if installed_X is true. versions are short strings displayed and
# logged, no operations are done (eg. only compare for equality)
sub installed_version_openmpi_pgi_hfi
{
return rpm_query_version_release_pkg ("openmpi_pgi_hfi");
}
# only called if available_X. Indicates version on
# media. Will be compared with installed_version_X to determine if
# present installation is up to date. Should return exact same format for
# version string so comparison of equality is possible.
sub media_version_openmpi_pgi_hfi
{
my $srcdir = $ComponentInfo{'openmpi_pgi_hfi'}{'SrcDir'};
my $rpm = rpm_resolve ("$srcdir/openmpi_pgi_hfi", "user");
return rpm_query_version_release ($rpm);
}
# used to build/rebuild component on local system (if
# supported). We support this for many items in comp_ofed.pl
# Other components (like SM) are
# not available in source and hence do not support this and simply
# implement a noop.
sub build_openmpi_pgi_hfi
{
my $osver = $_[0];
my $debug = $_[1];
my $build_temp = $_[2];
my $force = $_[3];
return 0;
}
# does this need to be reinstalled. Mainly used for
# ofed due to subtle changes such as install prefix or kernel options
# which may force a reinstall. You'll find this is a noop in most others.
sub need_reinstall_openmpi_pgi_hfi
{
my $install_list = shift ();
my $installing_list = shift ();
return "no";
}
# called for all components before they are installed. Use to verify OS
# has proper dependent rpms installed.
sub check_os_prereqs_openmpi_pgi_hfi
{
return rpm_check_os_prereqs("openmpi_pgi_hfi", "user");
}
# called for all components before they are installed. Use
# to build things if needed, etc.
sub preinstall_openmpi_pgi_hfi
{
my $install_list = $_[0];
my $installing_list = $_[1];
my $full = "";
my $rc;
return 0;
}
# installs component. also handles reinstall on top of
# existing installation and upgrade.
sub install_openmpi_pgi_hfi
{
install_generic_mpi("$_[0]", "$_[1]", "openmpi", "pgi", "hfi");
}
# called after all components are installed.
sub postinstall_openmpi_pgi_hfi
{
my $install_list = $_[0]; # total that will be installed when done
my $installing_list = $_[1]; # what items are being installed/reinstalled
}
# uninstalls component. May be called even if component is
# partially or not installed at all in which case should do its best to
# get rid or what might remain of component from a previously aborted
# uninstall or failed install
sub uninstall_openmpi_pgi_hfi
{
uninstall_generic_mpi("$_[0]", "$_[1]", "openmpi", "pgi", "hfi");
}
#############################################################################
##
## MVAPICH2 GCC PSM
# is component X available on the install media (use of this
# allows for optional components in packaging or limited availability if a
# component isn't available on some OS/CPU combos)
sub get_rpms_dir_mvapich2_gcc_hfi
{
return $ComponentInfo{'mvapich2_gcc_hfi'}{'SrcDir'};
}
sub available_mvapich2_gcc_hfi
{
my $srcdir = $ComponentInfo{'mvapich2_gcc_hfi'}{'SrcDir'};
return rpm_exists ("$srcdir/mvapich2_gcc_hfi", "user");
}
# is component X presently installed on the system. This is
# a quick check, not a "verify"
sub installed_mvapich2_gcc_hfi
{
return installed_generic_mpi("mvapich2", "gcc", "hfi");
}
# what is the version installed on system. Only
# called if installed_X is true. versions are short strings displayed and
# logged, no operations are done (eg. only compare for equality)
sub installed_version_mvapich2_gcc_hfi
{
return rpm_query_version_release_pkg ("mvapich2_gcc_hfi");
}
# only called if available_X. Indicates version on
# media. Will be compared with installed_version_X to determine if
# present installation is up to date. Should return exact same format for
# version string so comparison of equality is possible.
sub media_version_mvapich2_gcc_hfi
{
my $srcdir = $ComponentInfo{'mvapich2_gcc_hfi'}{'SrcDir'};
my $rpm = rpm_resolve ("$srcdir/mvapich2_gcc_hfi", "user");
return rpm_query_version_release ($rpm);
}
# used to build/rebuild component on local system (if
# supported). We support this for many items in comp_ofed.pl
# Other components (like SM) are
# not available in source and hence do not support this and simply
# implement a noop.
sub build_mvapich2_gcc_hfi
{
my $osver = $_[0];
my $debug = $_[1];
my $build_temp = $_[2];
my $force = $_[3];
return 0;
}
# does this need to be reinstalled. Mainly used for
# ofed due to subtle changes such as install prefix or kernel options
# which may force a reinstall. You'll find this is a noop in most others.
sub need_reinstall_mvapich2_gcc_hfi
{
my $install_list = shift ();
my $installing_list = shift ();
return "no";
}
# called for all components before they are installed. Use to verify OS
# has proper dependent rpms installed.
sub check_os_prereqs_mvapich2_gcc_hfi
{
return rpm_check_os_prereqs("mvapich2_gcc_hfi", "user");
}
# called for all components before they are installed. Use
# to build things if needed, etc.
sub preinstall_mvapich2_gcc_hfi
{
my $install_list = $_[0];
my $installing_list = $_[1];
my $full = "";
my $rc;
return 0;
}
# installs component. also handles reinstall on top of
# existing installation and upgrade.
sub install_mvapich2_gcc_hfi
{
install_generic_mpi("$_[0]", "$_[1]", "mvapich2", "gcc", "hfi");
}
# called after all components are installed.
sub postinstall_mvapich2_gcc_hfi
{
my $install_list = $_[0]; # total that will be installed when done
my $installing_list = $_[1]; # what items are being installed/reinstalled
}
# uninstalls component. May be called even if component is
# partially or not installed at all in which case should do its best to
# get rid or what might remain of component from a previously aborted
# uninstall or failed install
sub uninstall_mvapich2_gcc_hfi
{
uninstall_generic_mpi("$_[0]", "$_[1]", "mvapich2", "gcc", "hfi");
}
#############################################################################
##
## MVAPICH2 Intel PSM
# is component X available on the install media (use of this
# allows for optional components in packaging or limited availability if a
# component isn't available on some OS/CPU combos)
sub get_rpms_dir_mvapich2_intel_hfi
{
return $ComponentInfo{'mvapich2_intel_hfi'}{'SrcDir'};
}
sub available_mvapich2_intel_hfi
{
my $srcdir = $ComponentInfo{'mvapich2_intel_hfi'}{'SrcDir'};
return rpm_exists ("$srcdir/mvapich2_intel_hfi", "user");
}
# is component X presently installed on the system. This is
# a quick check, not a "verify"
sub installed_mvapich2_intel_hfi
{
return installed_generic_mpi("mvapich2", "intel", "hfi");
}
# what is the version installed on system. Only
# called if installed_X is true. versions are short strings displayed and
# logged, no operations are done (eg. only compare for equality)
sub installed_version_mvapich2_intel_hfi
{
return rpm_query_version_release_pkg ("mvapich2_intel_hfi");
}
# only called if available_X. Indicates version on
# media. Will be compared with installed_version_X to determine if
# present installation is up to date. Should return exact same format for
# version string so comparison of equality is possible.
sub media_version_mvapich2_intel_hfi
{
my $srcdir = $ComponentInfo{'mvapich2_intel_hfi'}{'SrcDir'};
my $rpm = rpm_resolve ("$srcdir/mvapich2_intel_hfi", "user");
return rpm_query_version_release ($rpm);
}
# used to build/rebuild component on local system (if
# supported). We support this for many items in comp_ofed.pl
# Other components (like SM) are
# not available in source and hence do not support this and simply
# implement a noop.
sub build_mvapich2_intel_hfi
{
my $osver = $_[0];
my $debug = $_[1];
my $build_temp = $_[2];
my $force = $_[3];
return 0;
}
# does this need to be reinstalled. Mainly used for
# ofed due to subtle changes such as install prefix or kernel options
# which may force a reinstall. You'll find this is a noop in most others.
sub need_reinstall_mvapich2_intel_hfi
{
my $install_list = shift ();
my $installing_list = shift ();
return "no";
}
# called for all components before they are installed. Use to verify OS
# has proper dependent rpms installed.
sub check_os_prereqs_mvapich2_intel_hfi
{
# we allow this to install even if intel compiler runtime not available
return rpm_check_os_prereqs("mvapich2_intel_hfi", "user");
}
# called for all components before they are installed. Use
# to build things if needed, etc.
sub preinstall_mvapich2_intel_hfi
{
my $install_list = $_[0];
my $installing_list = $_[1];
my $full = "";
my $rc;
return 0;
}
# installs component. also handles reinstall on top of
# existing installation and upgrade.
sub install_mvapich2_intel_hfi
{
install_generic_mpi("$_[0]", "$_[1]", "mvapich2", "intel", "hfi");
}
# called after all components are installed.
sub postinstall_mvapich2_intel_hfi
{
my $install_list = $_[0]; # total that will be installed when done
my $installing_list = $_[1]; # what items are being installed/reinstalled
}
# uninstalls component. May be called even if component is
# partially or not installed at all in which case should do its best to
# get rid or what might remain of component from a previously aborted
# uninstall or failed install
sub uninstall_mvapich2_intel_hfi
{
uninstall_generic_mpi("$_[0]", "$_[1]", "mvapich2", "intel", "hfi");
}
#############################################################################
##
## MVAPICH2 PGI PSM
# is component X available on the install media (use of this
# allows for optional components in packaging or limited availability if a
# component isn't available on some OS/CPU combos)
sub get_rpms_dir_mvapich2_pgi_hfi
{
return $ComponentInfo{'mvapich2_pgi_hfi'}{'SrcDir'};
}
sub available_mvapich2_pgi_hfi
{
my $srcdir = $ComponentInfo{'mvapich2_pgi_hfi'}{'SrcDir'};
return rpm_exists ("$srcdir/mvapich2_pgi_hfi", "user");
}
# is component X presently installed on the system. This is
# a quick check, not a "verify"
sub installed_mvapich2_pgi_hfi
{
return installed_generic_mpi("mvapich2", "pgi", "hfi");
}
# what is the version installed on system. Only
# called if installed_X is true. versions are short strings displayed and
# logged, no operations are done (eg. only compare for equality)
sub installed_version_mvapich2_pgi_hfi
{
return rpm_query_version_release_pkg ("mvapich2_pgi_hfi");
}
# only called if available_X. Indicates version on
# media. Will be compared with installed_version_X to determine if
# present installation is up to date. Should return exact same format for
# version string so comparison of equality is possible.
sub media_version_mvapich2_pgi_hfi
{
my $srcdir = $ComponentInfo{'mvapich2_pgi_hfi'}{'SrcDir'};
my $rpm = rpm_resolve ("$srcdir/mvapich2_pgi_hfi", "user");
return rpm_query_version_release ($rpm);
}
# used to build/rebuild component on local system (if
# supported). We support this for many items in comp_ofed.pl
# Other components (like SM) are
# not available in source and hence do not support this and simply
# implement a noop.
sub build_mvapich2_pgi_hfi
{
my $osver = $_[0];
my $debug = $_[1];
my $build_temp = $_[2];
my $force = $_[3];
return 0;
}
# does this need to be reinstalled. Mainly used for
# ofed due to subtle changes such as install prefix or kernel options
# which may force a reinstall. You'll find this is a noop in most others.
sub need_reinstall_mvapich2_pgi_hfi
{
my $install_list = shift ();
my $installing_list = shift ();
return "no";
}
# called for all components before they are installed. Use to verify OS
# has proper dependent rpms installed.
sub check_os_prereqs_mvapich2_pgi_hfi
{
# we allow this to install even if pgi compiler runtime not available
return rpm_check_os_prereqs("mvapich2_pgi_hfi", "user");
}
# called for all components before they are installed. Use
# to build things if needed, etc.
sub preinstall_mvapich2_pgi_hfi
{
my $install_list = $_[0];
my $installing_list = $_[1];
my $full = "";
my $rc;
return 0;
}
# installs component. also handles reinstall on top of
# existing installation and upgrade.
sub install_mvapich2_pgi_hfi
{
install_generic_mpi("$_[0]", "$_[1]", "mvapich2", "pgi", "hfi");
}
# called after all components are installed.
sub postinstall_mvapich2_pgi_hfi
{
my $install_list = $_[0]; # total that will be installed when done
my $installing_list = $_[1]; # what items are being installed/reinstalled
}
# uninstalls component. May be called even if component is
# partially or not installed at all in which case should do its best to
# get rid or what might remain of component from a previously aborted
# uninstall or failed install
sub uninstall_mvapich2_pgi_hfi
{
uninstall_generic_mpi("$_[0]", "$_[1]", "mvapich2", "pgi", "hfi");
}
#############################################################################
###
### OpenMPI GCC CUDA
#
# is component X available on the install media (use of this
# allows for optional components in packaging or limited availability if a
# component isn't available on some OS/CPU combos)
sub get_rpms_dir_openmpi_gcc_cuda_hfi
{
return $ComponentInfo{'openmpi_gcc_cuda_hfi'}{'SrcDir'};
}
sub available_openmpi_gcc_cuda_hfi
{
my $srcdir = $ComponentInfo{'openmpi_gcc_cuda_hfi'}{'SrcDir'};
return rpm_exists ("$srcdir/openmpi_gcc_cuda_hfi", "user");
}
# is component X presently installed on the system. This is
# a quick check, not a "verify"
sub installed_openmpi_gcc_cuda_hfi
{
return installed_generic_mpi("openmpi", "gcc_cuda", "hfi");
}
# what is the version installed on system. Only
# called if installed_X is true. versions are short strings displayed and
# logged, no operations are done (eg. only compare for equality)
sub installed_version_openmpi_gcc_cuda_hfi
{
return rpm_query_version_release_pkg ("openmpi_gcc_cuda_hfi");
}
# only called if available_X. Indicates version on
# media. Will be compared with installed_version_X to determine if
# present installation is up to date. Should return exact same format for
# version string so comparison of equality is possible.
sub media_version_openmpi_gcc_cuda_hfi
{
my $srcdir = $ComponentInfo{'openmpi_gcc_cuda_hfi'}{'SrcDir'};
my $rpm = rpm_resolve ("$srcdir/openmpi_gcc_cuda_hfi", "user");
return rpm_query_version_release ($rpm);
}
# used to build/rebuild component on local system (if
# supported). We support this for many items in comp_ofed.pl
# Other components (like SM) are
# not available in source and hence do not support this and simply
# implement a noop.
sub build_openmpi_gcc_cuda_hfi
{
my $osver = $_[0];
my $debug = $_[1];
my $build_temp = $_[2];
my $force = $_[3];
return 0;
}
# does this need to be reinstalled. Mainly used for
# ofed due to subtle changes such as install prefix or kernel options
# which may force a reinstall. You'll find this is a noop in most others.
sub need_reinstall_openmpi_gcc_cuda_hfi
{
my $install_list = shift ();
my $installing_list = shift ();
return "no";
}
# called for all components before they are installed. Use to verify OS
# has proper dependent rpms installed.
sub check_os_prereqs_openmpi_gcc_cuda_hfi
{
return rpm_check_os_prereqs("openmpi_gcc_cuda_hfi", "user");
}
# called for all components before they are installed. Use
# to build things if needed, etc.
sub preinstall_openmpi_gcc_cuda_hfi
{
my $install_list = $_[0];
my $installing_list = $_[1];
my $full = "";
my $rc;
return 0;
}
# installs component. also handles reinstall on top of
# existing installation and upgrade.
sub install_openmpi_gcc_cuda_hfi
{
install_generic_mpi("$_[0]", "$_[1]", "openmpi", "gcc_cuda", "hfi");
}
# called after all components are installed.
sub postinstall_openmpi_gcc_cuda_hfi
{
my $install_list = $_[0]; # total that will be installed when done
my $installing_list = $_[1]; # what items are being installed/reinstalled
}
# uninstalls component. May be called even if component is
# partially or not installed at all in which case should do its best to
# get rid or what might remain of component from a previously aborted
# uninstall or failed install
sub uninstall_openmpi_gcc_cuda_hfi
{
uninstall_generic_mpi("$_[0]", "$_[1]", "openmpi", "gcc_cuda", "hfi");
}
#############################################################################
###
### MPI Source
sub available_mpisrc()
{
my $srcdir=$ComponentInfo{'mpisrc'}{'SrcDir'};
return has_mpisrc($srcdir);
#return ( (-d "$srcdir/SRPMS" || -d "$srcdir/RPMS" ) );
}
sub installed_mpisrc()
{
my $srcdir = $ExtraMpisrcInfo{'Dest'};
my $old_srcdir = "/usr/lib/opa/src/MPI";
return (has_mpisrc($srcdir) || has_mpisrc($old_srcdir));
}
sub has_mpisrc($)
{
my $srcdir = shift();
foreach my $srpm (@{$ExtraMpisrcInfo{'SrcRpms'}}) {
if (file_glob("$srcdir/${srpm}*.src.rpm") eq "") {
return 0;
}
}
return 1;
}
# only called if installed_mpisrc is true
sub installed_version_mpisrc()
{
return `cat $ExtraMpisrcInfo{'Dest'}/.version`;
}
# only called if available_mpisrc is true
sub media_version_mpisrc()
{
my $srcdir=$ComponentInfo{'mpisrc'}{'SrcDir'};
return `cat "$srcdir/version"`;
}
sub build_mpisrc($$$$)
{
my $osver = shift();
my $debug = shift(); # enable extra debug of build itself
my $build_temp = shift(); # temp area for use by build
my $force = shift(); # force a rebuild
return 0; # success
}
sub need_reinstall_mpisrc($$)
{
my $install_list = shift(); # total that will be installed when done
my $installing_list = shift(); # what items are being installed/reinstalled
return "no";
}
sub check_os_prereqs_mpisrc
{
return rpm_check_os_prereqs("mpisrc", "any");
}
sub preinstall_mpisrc($$)
{
my $install_list = shift(); # total that will be installed when done
my $installing_list = shift(); # what items are being installed/reinstalled
return 0;
}
sub install_mpisrc($$)
{
my $install_list = shift(); # total that will be installed when done
my $installing_list = shift(); # what items are being installed/reinstalled
my $srcdir=$ComponentInfo{'mpisrc'}{'SrcDir'};
my $version = media_version_mpisrc();
chomp $version;
printf ("Installing $ComponentInfo{'mpisrc'}{'Name'} $version...\n");
LogPrint ("Installing $ComponentInfo{'mpisrc'}{'Name'} $version for $CUR_OS_VER\n");
my $destdir = $ExtraMpisrcInfo{'Dest'};
check_dir($destdir);
# remove old versions (.src.rpm and built .rpm files too)
system "rm -f $destdir/mvapich[-_]*.rpm 2>/dev/null";
foreach my $srpm (@{$ExtraMpisrcInfo{'SrcRpms'}})
{
system "rm -f $destdir/$srpm-*.rpm 2>/dev/null";
}
foreach my $file (@{$ExtraMpisrcInfo{'DirtyFiles'}})
{
system "rm -f $destdir/$file 2>/dev/null";
}
# install new versions
foreach my $srpm (@{$ExtraMpisrcInfo{'SrcRpms'}}) {
my $srpmfile = file_glob("$srcdir/${srpm}-*.src.rpm");
if ( "$srpmfile" ne "" ) {
my $file = my_basename($srpmfile);
copy_data_file($srpmfile, "$destdir/$file");
}
}
foreach my $script (@{$ExtraMpisrcInfo{'BuildScripts'}}) {
copy_systool_file("$srcdir/$script", "$destdir/$script");
}
foreach my $file (@{$ExtraMpisrcInfo{'MiscFiles'}}) {
my $src = ${$file}{'Src'};
my $dest = ${$file}{'Dest'};
copy_data_file("$srcdir/$src", "$destdir/$dest");
}
$ComponentWasInstalled{'mpisrc'}=1;
}
sub postinstall_mpisrc($$)
{
my $install_list = shift(); # total that will be installed when done
my $installing_list = shift(); # what items are being installed/reinstalled
}
sub uninstall_mpisrc($$)
{
my $install_list = shift(); # total that will be left installed when done
my $uninstalling_list = shift(); # what items are being uninstalled
NormalPrint ("Uninstalling $ComponentInfo{'mpisrc'}{'Name'}...\n");
# try to uninstall meta pkg if it exists
if (rpm_is_installed("opameta_mpisrc", "any") ||
rpm_is_installed("opameta_mpisrc_userspace", "any")) {
rpm_uninstall_matches("opameta_mpisrc", "opameta_mpisrc", "", "");
} else {
my $destdir = $ExtraMpisrcInfo{'Dest'};
# remove old versions (.src.rpm and built .rpm files too)
foreach my $srpm (@{$ExtraMpisrcInfo{'SrcRpms'}}) {
system "rm -f $destdir/$srpm-*.rpm 2>/dev/null";
}
foreach my $script (@{$ExtraMpisrcInfo{'BuildScripts'}}) {
system "rm -f $destdir/$script 2>/dev/null";
}
foreach my $file (@{$ExtraMpisrcInfo{'MiscFiles'}}) {
my $destfile = ${$file}{'Dest'};
system "rm -f $destdir/$destfile 2>/dev/null";
}
foreach my $file (@{$ExtraMpisrcInfo{'DirtyFiles'}}) {
system "rm -f $destdir/$file 2>/dev/null";
}
system "rmdir $destdir 2>/dev/null"; # remove only if empty
system "rmdir /usr/src/opa 2>/dev/null"; # remove only if empty
}
$ComponentWasInstalled{'mpisrc'}=0;
}