source-spec.ant.xml.ftl - Added change info for the BOM that lists submitted changesets between the baseline ('sf.previous.pdk.tag') and the synced changeset and writes to a changes.txt file in the BOM dir.
# Copyright (c) 2004-2009 Nokia Corporation and/or its subsidiary(-ies).
# All rights reserved.
# This component and the accompanying materials are made available
# under the terms of the License "Symbian Foundation License v1.0"
# which accompanies this distribution, and is available
# at the URL "http://www.symbianfoundation.org/legal/sfl-v10.html".
#
# Initial Contributors:
# Nokia Corporation - initial contribution.
#
# Contributors:
#
# Description:
# SmokeTestSuite.pm
# The SmokeTestSuite package contains subroutines that are needed to build a
# testdriver test suite.
# This script was born on 18/04/2005
#
#
#!/usr/bin/perl -w
package SmokeTest;
use SmokeTestROM;
use SmokeTestSuite;
use FindBin;
use lib "$FindBin::Bin\\..\\..\\..\\..\\os\\buildtools\\bldsystemtools\\commonbldutils\\GenResult\\";
use FileRead; #Need to include a Findbin::path
use strict;
#
# Global Variables
#
our $BuildDir = $ENV{'BuildDir'}; # usually M:
our $serverpool = $ENV{'SmokeTestServerPool'};
our $buildNo = $ENV{'BuildShortName'}; # Eg. 9.1
# The Client is run from the dir where SmokeTestClient.pl is located
# This is to ensure that any ROMs and test packages created are stored there.
our $sourceDir = "$BuildDir\\src\\common\\testtools";
our $TestSuite = "SmokeTest";
our $SmokeTestDir;
our $NandDir;
our $TestDriverLocation = "\\epoc32\\tools\\TDEP"; # location for TD zips
our $TestDriverDrive = "M:";
our $TestDriverCmd = "$TestDriverDrive\\testdriver\\testdriver.cmd";
our $TestDriverXML;
# Publish details
our $PublishServer = $ENV{'PublishLocation'};
our $ProductType = $ENV{'Type'};
our $BuildNum = $ENV{'BuildNumber'};
our $LogsDir = $ENV{'LogsDir'};
# Epocwind.out
my $tempDirLocation = $ENV{'TEMP'};
#
# CheckVars: ensures that the essential environment vars and directories exist
#
sub CheckVars
{
print "\n** Settings **\n";
print "Build Drive = $BuildDir\n";
print "Smoke Test Server Pool = $serverpool\n";
print "Build Product = $buildNo\n";
print "TestDriver Zip Location = $TestDriverLocation\n";
print "TestDriver XML Location = $TestDriverXML\n";
print "TestDriver Source Location = $sourceDir\n";
print "TestDriver Drive = $TestDriverDrive\n";
print "SmokeTest working directory= $SmokeTestDir\n";
print "NAND build directory = $NandDir\n";
print "\n** Publishing Information **\n";
print "Publish server = $PublishServer\n";
print "Product Type = $ProductType\n";
print "Build Number = $BuildNum\n";
DieLog("CheckVars: \"Build Directory\" not defined") if !defined $BuildDir;
DieLog("CheckVars: \"Smoke Test Server Pool\" not defined") if !defined $serverpool;
DieLog("CheckVars: \"Build Product\" not defined") if !defined $buildNo;
DieLog("CheckVars: \"Publish server\" not defined") if !defined $PublishServer;
DieLog("CheckVars: \"Product Type\" not defined") if !defined $ProductType;
DieLog("CheckVars: \"Build Number\" not defined") if !defined $BuildNum;
DieLog("CheckVars: Directory \"SmokeTest working directory\" does not exist") if ! -e $SmokeTestDir;
DieLog("CheckVars: Directory \"TestDriver Zip Location\" does not exist") if ! -e $TestDriverLocation;
}
sub main
{
print "\n\n*** START OF SMOKE TEST ***\n\n";
PrintDateTime();
my ($iSourceDir, $iTestSuite, $iProduct, $iServerPool, $iProductType,
$iPublishLocation, $iBuildNumber, $iXML, $iUnzip, $iBuildDrive, $iTDDrive) = @_;
$TestSuite = $iTestSuite if defined $iTestSuite;
$BuildDir = $iBuildDrive if defined $iBuildDrive;
$sourceDir = $BuildDir.$iSourceDir if defined $iSourceDir;
$buildNo = $iProduct if defined $iProduct;
$serverpool = $iServerPool if defined $iServerPool;
$ProductType = $iProductType if defined $iProductType;
$PublishServer = $iPublishLocation if defined $iPublishLocation;
$BuildNum = $iBuildNumber if defined $iBuildNumber;
$TestDriverDrive = $iTDDrive if defined $iTDDrive;
$SmokeTestDir = "$sourceDir\\$TestSuite";
if (defined $iXML)
{
$TestDriverXML = $iXML;
}
else
{
$TestDriverXML = $SmokeTestDir."\\xml";
}
$NandDir = "$BuildDir\\src\\cedar\\generic\\base\\e32\\rombuild";
CheckVars();
# change dir to Smoketest dir
chdir "$SmokeTestDir" or DieLog("Can't cd to $SmokeTestDir");
# unzip latest version of TD
if (defined $iUnzip)
{
unpackTestDriver2();
}
# configure TD
configureTestDriver2();
#
# Copy the correct configuration.cfg file
# But such source only exists for these products: 8.0a, 8.0b, 8.1a, 8.1b, 9.0, 9.1
#
print "\n#\n# Copy the correct configuration.cfg file\n#\n";
ExecCommand("COPY /Y $SmokeTestDir\\Group\\$buildNo\\configuration.cfg $SmokeTestDir\\Group\\configuration.cfg");
#Read in hash of smoketests to be run for each product.
my ($iCfgFileLocation) = "$FindBin::Bin\\..\\..\\..\\..\\os\\buildtools\\bldsystemtools\\commonbldutils\\GenResult";
#Read in the smoketest list from a cfg file
my $text = &FileRead::file_read ("$iCfgFileLocation\\Product.cfg");
#Search for an entry matching (At the beginning of line there should be 1 or more alphanumberic chars
#Followed by a "."(optional to allow codenames) followed by more alphanumberic chars followed by 0 or more spaces then an = then 0
#or more spaces then any amount of chars till the end of the line.
#8.1b = EMULATOR_WINSCW ARM4_LUBBOCK ARMV5_LUBBOCK
my %iProducts = $text =~ /^\s*(\w+\.?\w+)\s*=\s*(.+)$/mg ;
#Get the list of platforms to be smoketested for the product.
#Need to turn the hash value into an array using split
my @iPlatforms = split (/ /,$iProducts{$buildNo});
#Build and Execute Test package for each platform as read from configuration file and create and zip rom.
ProcessPlatforms (@iPlatforms);
#
# Build Test Package for ROMs
#
if ($buildNo eq '8.1a' || $buildNo eq '8.1b')
{
&SmokeTestSuite::BuildAndPackage("ARM4");
}
if ($buildNo ne '8.1a')
{
&SmokeTestSuite::BuildAndPackage("ARMv5");
}
#
# Find out which server to use
#
print "\n#\n# Find out which server to use\n#\n";
ProcessPlatformsforSmoketest(@iPlatforms);
#
# End of Smoke Test
#
print "\n\n*** END OF SMOKE TEST ***\n\n";
}
#
# DieLog: Exits script and inserts a Remark in the build log, which will be picked up by htmlscanlog
#
sub DieLog
{
die "\nREMARK: $_[0]\n $!\n\n\n";
}
#
# Build and publish based on entries in the Product.cfg file
#
sub ProcessPlatforms
{
my $i = 0;
my @temp;
my @iPlatforms = @_;
foreach my $platform (@iPlatforms)
{
undef @temp;
@temp = split (/_/,$iPlatforms[$i]);
$i++;
if( $temp[0] eq "EMULATOR")
{
&SmokeTestSuite::BuildAndPublish("$temp[1]");
CheckPlatsecErrors("$temp[1]");
}
else
{
if(3 == scalar(@temp)) # there are 3 arguments, so this will be a NAND ROM
{
if((lc($temp[1]) eq "h4hrp") && (lc($temp[2]) eq "nand\(dp\)" )) # H4HRP Demand Paging ROM options is -D_NAND2
{
&SmokeTestROM::CreateAndZipROM("$temp[0]", "$temp[1]", "pagedrom", "PlatSec", "$buildNo", "-D_NAND2" );
}
elsif((lc($temp[1]) eq "h4hrp") && (lc($temp[2]) eq "nand" )) # H4 options is -D_NAND2
{
&SmokeTestROM::CreateAndZipROM("$temp[0]", "$temp[1]", "-DRVCT", "PlatSec", "$buildNo", "-D_NAND2");
}
elsif(lc($temp[1]) eq "h2") # H2 options is -D_NAND# H2 option is NAND2 due to CR 0844 (Both H2 and H4 use -D_NAND2)
{
&SmokeTestROM::CreateAndZipROM("$temp[0]", "$temp[1]", "-DRVCT", "PlatSec", "$buildNo", "-D_NAND2");
}
else # Bad option entered
{
die "SmokeTest::ProcessPlatforms error: invalid board type entered: $temp[1]. Check that Product.cfg is correct.\n";
}
}
else # This is the NOR ROM.
{
&SmokeTestROM::CreateAndZipROM("$temp[0]", "$temp[1]", "-DRVCT", "PlatSec", "$buildNo");
}
}
}
}
#
# Build and publish based on entries in the Product.cfg file
#
sub ProcessPlatformsforSmoketest
{
my $i = 0;
my @temp;
my @iPlatforms = @_;
foreach my $platform (@iPlatforms)
{
undef @temp;
@temp = split (/_/,$iPlatforms[$i]);
$i++;
if( $temp[0] eq "EMULATOR")
{
next;
}
my $mServ = &SmokeTestSuite::PollServers("$temp[1]");
unless (defined $mServ)
{
next;
}
if(3 == scalar(@temp))
{
if(lc($temp[2]) eq "nand\(dp\)" )
{
&SmokeTestSuite::RunRemote("$temp[0]", "$temp[1]", $mServ, "NAND\(DP\)\\");
}
elsif(lc($temp[2]) eq "nand")
{
&SmokeTestSuite::RunRemote("$temp[0]", "$temp[1]", $mServ, "NAND\\");
}
}
else
{
&SmokeTestSuite::RunRemote("$temp[0]", "$temp[1]", $mServ);
}
}
}
#
# Check for platsec errors - checks the epocwind.out on build machine
#
sub CheckPlatsecErrors
{
print "\n";
print "#\n# Check for platsec errors\n#\n";
print "\n";
PrintDateTime();
# open epocwind.out and parse for both errors and warnings
open EPOCWIND, "$tempDirLocation\\epocwind.out" or print "\nERROR: Cannot open EPOCWIND.OUT\n";
my @epocWind = <EPOCWIND>;
close EPOCWIND;
foreach my $tempEW (@epocWind)
{
if ($tempEW =~ m/(\*PlatSec\* ERROR)(.*)/i)
{
print "\nERROR: $_[0] - $1$2";
}
elsif ($tempEW =~ m/(\*PlatSec\* WARNING)(.*)/i)
{
print "\nWARNING: $_[0] - $1$2";
}
}
}
#
# Take TestDriver and unpack into a given location.
#
sub unpackTestDriver2()
{
#
# Unzip TestDriver
#
print "\n#\n# Unzip TestDriver\n#\n";
PrintDateTime();
# first remove the "old" version of test driver
print "\n";
ExecCommand("RMDIR $TestDriverDrive\\testdriver\\ /Q /S");
# now unzip the latest version of testdriver which has been synced down
ExecCommand("%EPOCROOT%epoc32\\tools\\unzip.exe $TestDriverLocation\\TestDriver2.zip -d $TestDriverDrive\\testdriver\\");
# now copy the latest version of testdriver_new.cmd which has been obtained
ExecCommand("COPY \\\\builds01\\devbuilds\\buildteam\\testdriverv2\\testdriver_new.cmd $TestDriverCmd");
# now copy the latest version of logging.properties which has been obtained
ExecCommand("COPY \\\\builds01\\devbuilds\\buildteam\\testdriverv2\\logging.properties $TestDriverDrive\\testdriver\\");
# 11-08-08 - additional steps required for SITK1.2 version of TD2
ExecCommand("MKDIR $TestDriverDrive\\testdriver\\eclipse\\links\\");
ExecCommand("COPY \\\\builds01\\devbuilds\\buildteam\\testdriverv2\\testdriver.link $TestDriverDrive\\testdriver\\eclipse\\links\\");
#
# Unzip JRE v1.5
#
print "\n";
print "#\n# Unzip JRE 1.5 required by TestDriver v2\n#\n";
print "\n";
ExecCommand("%EPOCROOT%epoc32\\tools\\unzip.exe \\\\builds01\\devbuilds\\BuildPCs\\Software\\JDK1.5.0_13\\jre1.5.zip -d $TestDriverDrive\\testdriver\\");
}
sub configureTestDriver2()
{
#
# Configure TestDriver
#
print "\n";
print "#\n# Configure TestDriver\n#\n";
print "\n";
my $localtimes = localtime;
PrintDateTime();
ExecCommand("$TestDriverDrive\\testdriver\\testdriver.cmd config -e $BuildDir\\
-x $TestDriverXML
-l $TestDriverDrive\\TestDriver\\Results
--source $sourceDir
-s smoketest
-r $TestDriverDrive\\TestDriver\\Repos
-c $TestDriverDrive\\TestDriver\\Results");
ExecCommand("$TestDriverDrive\\testdriver\\testdriver.cmd config --commdb overwrite");
ExecCommand("$TestDriverDrive\\testdriver\\testdriver.cmd config --bldclean off");
# platsec for > 9.x only
if ($buildNo ne "8.1a" && $buildNo ne "8.1b")
{
ExecCommand("$TestDriverDrive\\testdriver\\testdriver.cmd config -p ON");
}
# Setup commdb for WINSCW smoketest
print "\n*** Setup commdb for WINSCW to use WinTAP ***\n";
# export smoketest_commdb.xml to a place that ced.exe can see it
ExecCommand("copy $SmokeTestDir\\smoketest_commdb.xml $BuildDir\\epoc32\\WINSCW\\c\\");
ExecCommand("$BuildDir\\epoc32\\release\\WINSCW\\udeb\\ced.exe c:\\smoketest_commdb.xml");
print "\n*** Confirm TestDriver Config ***\n";
ExecCommand("$TestDriverDrive\\testdriver\\testdriver.cmd config");
print "\n";
}
# ExecCommand
#
# Execute a system command, having first echoed it. Display and return the output of the command.
#
# Input: Command string (without final newline)
#
# Output: Command output (including STDERR) to STDOUT
#
# Return: Command output (including STDERR)
#
sub ExecCommand
{
my $iCmd = shift;
print "\n================================================================\n";
print "Command: $iCmd\n";
print "----------------------------------------------------------------\n";
my $iRet = `$iCmd 2>&1`;
chomp $iRet;
print "Return: $iRet\n";
print "================================================================\n";
return $iRet;
}
# PrintDateTime
#
# Print to STDOUT, Current Date and Time
#
# Input: none
#
# Output: text to STDOUT
#
sub PrintDateTime
{
my ($sec,$min,$hour,$mday,$mon,$year,$wday,$yday,$isdst) = localtime(time);
#### my ($sec,$min,$hour,$mday,$mon,$year,$wday,$yday) = gmtime(time);
$year += 1900;
$mon += 1;
printf "\n*** Current Time: %04d/%02d/%02d %02d:%02d:%02d ***\n", $year,$mon,$mday,$hour,$min,$sec;
}
1;