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|
#!/usr/bin/perl
# IBM_PROLOG_BEGIN_TAG
# This is an automatically generated prolog.
#
# $Source: src/build/vpo/VBU_Cacheline.pm $
#
# OpenPOWER HostBoot Project
#
# Contributors Listed Below - COPYRIGHT 2011,2014
# [+] International Business Machines Corp.
#
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
# implied. See the License for the specific language governing
# permissions and limitations under the License.
#
# IBM_PROLOG_END_TAG
#
# Name: src/build/vpo/VBU_Cacheline.pm
#
# Purpose: routines for reading and writing a 64-bit value into L3 in an
# AWAN session. Accepts an address into L3, and 64-bit data hex word
# (write).
# VBU can only read/write to memory in 128-byte cachelines, so if
# we want to write a memory location we must read in the entire
# cacheline, modify the correct byte(s) and then write it back.
# Called from shell script do_p8vbu_script_hbi*
# Written in perl because that is what is being used for the debug
# framework
#
# Author: Mark Wenning
#
package VBU_Cacheline;
require Exporter;
our @ISA = qw( Exporter );
our @EXPORT = qw( CLread CLwrite RunClocks P8_Ins_Start P8_Ins_Start_T0 P8_Ins_Stop P8_Ins_Query SetFlags);
#------------------------------------------------------------------------------
# Specify perl modules to use
#------------------------------------------------------------------------------
use strict;
use warnings;
use POSIX;
use Fcntl;
## 64-bit input
use bigint;
no warnings 'portable';
#------------------------------------------------------------------------------
# Forward declarations
#------------------------------------------------------------------------------
sub CLread;
sub CLwrite;
sub RunClocks;
sub P8_Ins_Start;
sub P8_Ins_Start_T0;
sub P8_Ins_Stop;
sub P8_Ins_Query;
sub P8_Flush_L2;
sub SetFlags;
############################################
## constants
############################################
my $curDir = $ENV{'PWD'};
my $CLfile = "$curDir/istepmodereg.dma";
my $CORE = "-cft";
my $SIM_CLOCKS = $ENV{'HB_SIMCLOCKS'};
if ( ! defined ( $SIM_CLOCKS ) || $SIM_CLOCKS == 0 ) {
$SIM_CLOCKS = "4000000";
}
print "clocks=$SIM_CLOCKS\n";
#############################################
## Internal Globals
#############################################
my $CLdebug = 0;
my $CLtest = 0;
## flushed Flag, if 0, it means the L2 cache has not been flushed.
## It must be flushed once before doing L3 reads
my $L2_Flushed = 0;
my $vbuToolsDir = $ENV{'HB_VBUTOOLS'};
if ( ! defined ( $vbuToolsDir ) || $vbuToolsDir eq "" ) {
$vbuToolsDir = "/gsa/ausgsa/projects/h/hostboot/vbutools/dev";
}
my $vbuProcsRoot = $ENV{'VBU_PROCS_ROOT'};
if ( ! defined ( $vbuProcsRoot ) || $vbuProcsRoot eq "" ) {
my $vbuProcsRoot = $vbuToolsDir;
}
my $DUMPCMD = "$vbuToolsDir/p8_dump_l3";
my $GETMEMCMD = "$vbuToolsDir/proc_pba_getmem_coherent_wrap.x86";
my $PUTMEMCMD = "$vbuToolsDir/proc_pba_putmem_coherent_wrap.x86";
my $LOADCMD = "$vbuToolsDir/p8_load_l3";
my $FLUSHCMD = "$vbuProcsRoot/proc_l2_flush_wrap.x86 $CORE -quiet";
my $FLUSHQUERY = "$vbuToolsDir/p8_check_l3";
my $RUNCLKSCMD = "simclock";
# Start/Stop/Query tool commands
# Note:
# -----
# Query command output strings:
# Single thread (-t0,1,..) "Running" or "Quiesced"
# All threads (-tall) A formatted table
#
# TODO:
# Needs to resolve the error when using "start -tall". After running a while,
# start -tall may lock up with this error:
# "proc_thread_control: Thread Start failed: RAS Status Run bit is not on"
# Temporary workaround is using only one thread as shown below.
# Lance Karm is still investigating.
my $QUERYCMD = "bash -c \"$vbuProcsRoot/proc_thread_control_wrap.x86 -query $CORE -tall -quiet | sed -n -e '/State/s/ *//gp'\"";
my $STARTCMD = "bash -c \"$vbuProcsRoot/proc_thread_control_wrap.x86 -start $CORE -tall -quiet -warncheck \| sed -e '/ Using deprecated ReturnCode function to assign integer/d'\"";
my $STARTCMD_T0 = "bash -c \"$vbuProcsRoot/proc_thread_control_wrap.x86 -start $CORE -t0 -quiet -warncheck \| sed -e '/ Using deprecated ReturnCode function to assign integer/d'\"";
my $STOPCMD = "bash -c \"$vbuProcsRoot/proc_thread_control_wrap.x86 -stop $CORE -tall -quiet \| sed -e '/ Using deprecated ReturnCode function to assign integer/d'\"";
my $RESETCMD = "$vbuProcsRoot/proc_thread_control_wrap.x86 -sreset $CORE -tall -quiet";
##
#==============================================================================
# SUBROUTINES
#==============================================================================
##
## Read the cacheline at addr from L3 and dump it to a binary file.
## Assumes that the input address is a binary addr on a 128 byte boundary
##
sub readcacheline( $ )
{
my ( $addr ) = @_;
my $cmd;
## my $hexaddr = sprintf( "0x%x", $addr );
my $hexaddr = sprintf( "%x", $addr );
if ( $CLdebug ) { print STDERR __LINE__, "-- Read cacheline at $hexaddr...\n"; }
$cmd = "$GETMEMCMD $hexaddr 1 -f $CLfile -binmode -quiet $CORE";
if ( $CLdebug ) { print STDERR __LINE__, "-- run $cmd ...\n"; }
( system( "bash -c \"$cmd \| sed -e '/ Using deprecated ReturnCode function to assign integer/d'\"" ) == 0)
or die "$cmd failed $? : $! \n";
}
##
## derived from Perl Cookbook, 8.13
## pack/unpack format is unsigned big endian 32-bit hi, lo
## however, the input data from getopts still assumes that perl is compiled
## for 64-bit #s
##
sub modifycacheline( $$ )
{
my ( $offset, $data ) = @_;
my $typedef = 'N N'; # 2 32-bit network order
my $sizeof = length( pack($typedef,() ) );
my $filesize = -s $CLfile;
my $buffer;
open( FH, "+< $CLfile") or die "can't open $CLfile : $!";
binmode FH; ## not really necessary, but....
seek( FH, $offset, SEEK_SET) or die "seek $CLfile failed: $!";
read( FH, $buffer, $sizeof) == $sizeof or die "read failed: $!";
( my $hi, my $lo ) = unpack($typedef, $buffer);
$hi = ($data >> 32) ;
$lo = ($data & 0x00000000ffffffff);
$buffer = pack($typedef, $hi, $lo );
# back up one record
seek( FH, -$sizeof, SEEK_CUR) or die "seek $CLfile failed: $!";
print FH $buffer;
close( FH ) or die "close $CLfile failed: $!";
}
##
## Write modified file back to L3 cacheline.
## This assumes that addr has already been converted to binary addr on a
## 128 byte boundary
##
sub writecacheline( $ )
{
my ( $addr ) = @_;
my $cmd;
## my $hexaddr = sprintf( "0x%x", $addr );
my $hexaddr = sprintf( "%x", $addr );
$cmd = "$LOADCMD -o $hexaddr -f $CLfile -b $CORE";
if ( $CLdebug ) { print STDERR __LINE__, "-- run $cmd ...\n"; }
( system( $cmd ) == 0 )
or die "$cmd failed, $? : $! \n";
}
##
## Query the state of the simulator, "RUNNING" or "STOPPED".
##
sub P8_Ins_Query()
{
my $cmd = "$QUERYCMD";
my $retstr = "";
if ( $CLdebug ) { print STDERR __LINE__, "-- run $cmd ...\n"; }
## execute it with backticks so we can get the output.
$retstr = `$cmd`;
if ( $? != 0 ) { die "$cmd failed $? : $! \n"; }
chomp($retstr);
if ( $CLdebug ) { print STDERR __LINE__, "-- P8_Ins_Query: $retstr\n"; }
# Return STOPPED only if all threads are quiesced (including POR state)
$retstr =~ s/\(POR\)//g;
if ( "$retstr" eq "State|Quiesced|Quiesced|Quiesced|Quiesced|Quiesced|Quiesced|Quiesced|Quiesced|" )
{
return "STOPPED";
}
elsif ( "$retstr" eq "State|Running|Quiesced|Quiesced|Quiesced|Quiesced|Quiesced|Quiesced|Quiesced|" )
{
return "RUNNING_T0";
}
# Return RUNNING if one or more threads are Running and the rest are Quiesced
$retstr =~ s/Quiesced/Running/g;
if ( "$retstr" eq "State|Running|Running|Running|Running|Running|Running|Running|Running|" )
{
return "RUNNING";
}
else
{
die "invalid string \"$retstr\" from P8_Ins_Query\n";
}
}
##
## Start the simulation.
##
sub P8_Ins_Start()
{
my $cmd = "$STARTCMD";
if ( !$CLdebug )
{ $cmd .= " -quiet"; }
else
{ print STDERR __LINE__, "-- run $cmd ...\n"; }
( system( $cmd ) == 0 )
or die "$cmd failed $? : $! \n";
## reset the flushFlag, need to flush again before a read.
$L2_Flushed = 0;
}
##
## Start master thread 0
##
sub P8_Ins_Start_T0()
{
my $cmd = "$STARTCMD_T0";
if ( !$CLdebug )
{ $cmd .= " -quiet"; }
else
{ print STDERR __LINE__, "-- run $cmd ...\n"; }
( system( $cmd ) == 0 )
or die "$cmd failed $? : $! \n";
## reset the flushFlag, need to flush again before a read.
$L2_Flushed = 0;
}
##
## Stop the simulation.
##
sub P8_Ins_Stop()
{
my $cmd = "$STOPCMD";
if ( P8_Ins_Query() ne "STOPPED" )
{
if ( ! $CLdebug )
{ $cmd .= " -quiet"; }
else
{ print STDERR __LINE__, "-- run $cmd ...\n"; }
( system( $cmd ) == 0 )
or die "$cmd failed $? : $! \n";
}
else
{
if ($CLdebug) { print STDERR __LINE__, "-- P8_Ins_Stop: already STOPPED\n"; }
}
}
##
## Check if cache is flushed.
## $TODO
## p8_check_L3 will scan the L3 directory for unfilled cachelines and
## return a string:
## $ p8_check_l3 100 4 -c3 -f $labhome/foo -x -o
## p8_check_l3 - address (0x100) not found in L3 directory.
##
## $ p8_check_l3 100 4 -c3 -f $labhome/foo -x -o
## p8_check_l3 - all addresses found in L3 directory.
##
sub P8_Check_Flushed
{
my ( $addr, $lines ) = @_;
my $tmpfile = "./tmpflush";
my $cmd = "$FLUSHQUERY";
my $rc = 0;
## execute it with backticks so we can get the output.
my $retstr = `$cmd $CORE -f $tmpfile -x -o`;
if ( $? != 0 ) { die "$cmd failed $? : $! \n"; }
chomp( $retstr );
if ( $retstr =~ /^.*.all addresses.*/ )
{
$rc = 1;
}
return $rc;
}
##
## Flush L2 Cache
## This only needs to be done once after the clock is stopped,
## thus the toggle flag
##
sub P8_Flush_L2()
{
my $cmd = "$FLUSHCMD";
## if ( !$L2_Flushed )
##{
if ( $CLdebug ) { print STDERR __LINE__, "-- run $cmd ...\n"; }
( system( $cmd ) == 0 )
or die "$cmd failed $? : $! \n";
## ## mark the CPU as flushed.
## $L2_Flushed = 1;
## }
##
##if ($CLdebug) { print STDERR __LINE__, "-- P8_FLush_L2 : $L2_Flushed\n"; }
}
##
## tell the simulator to run for so many clock cycles.
## If simulator is stopped, then start it up first.
##
sub RunClocks()
{
my $cmd = 0;
if ( $CLdebug ) { printf STDERR __LINE__, "-- RunClocks()\n"; }
$cmd = "$RUNCLKSCMD $SIM_CLOCKS -quiet";
if ( $CLdebug ) { print STDERR __LINE__, "-- run $cmd ...\n"; }
( system( $cmd ) == 0 )
or die "$cmd failed, $? : $! \n";
}
##
## Read a 64-bit value from L3 at hex addr.
## Input is expected to be a hex ascii string
##
sub CLread( $ )
{
my ( $addr ) = @_;
my $cmd;
my $CLbase = ( hex($addr) & 0xffffff80);
my $CLoffset = ( hex($addr) & (~0xffffff80) );
my $result = 0; ## 64-bit hex
if ( $CLdebug ) { printf STDERR __LINE__, "-- CLread( %s ) : CLbase=0x%x, CLoffset=0x%x\n", $addr, $CLbase, $CLoffset }
system( "rm -f $CLfile" );
readcacheline( $CLbase );
## extract quadword from cacheline file
my $typedef = 'N N'; # QuadWord
my $sizeof = length( pack($typedef,() ) );
my $filesize = -s $CLfile;
my $buffer;
open( FH, "+< $CLfile") or die "can't open $CLfile : $!";
binmode FH; ## not really necessary, but....
seek( FH, $CLoffset, SEEK_SET) or die "seek $CLfile failed: $!";
read( FH, $buffer, $sizeof) == $sizeof or die "read failed: $!";
close( FH ) or die "close $CLfile failed: $!";
## unpack and reassemble as big-endian
( my $hi, my $lo ) = unpack($typedef, $buffer);
$result = ( ( ( $hi << 32 ) & 0xffffffff00000000 ) | $lo );
if ( $CLdebug )
{
printf STDERR __LINE__, "-- CLread( %s ) = 0x%lx ", $addr, $result;
dumpcacheline(" " );
}
return ( $result );
}
##
## Write command byte to cacheline
## Inputs are expected to be hex ascii strings
##
sub CLwrite( $$ )
{
my ( $addr, $data ) = @_;
my $CLbase = ( hex($addr) & 0xffffff80 );
my $CLoffset = ( hex($addr) & (~0xffffff80) );
my $CLdata = hex($data);
my $result = 0;
if ( $CLdebug ) { printf STDERR __LINE__, "-- CLwrite( %s, %s ) : CLbase=0x%x, CLoffset=0x%x, CLdata=0x%lx\n",
$addr, $data, $CLbase, $CLoffset, $CLdata; }
## clear the cacheline file
system( "rm -f $CLfile" );
## issue the command to dump the cacheline to a file
readcacheline( $CLbase );
## dumpcacheline( "after read", $CLfile );
## modify the cacheline file
modifycacheline( $CLoffset, $data );
## dumpcacheline( "after modify", $CLfile );
## write the cacheline back to L3
writecacheline( $CLbase );
if ( $CLdebug )
{
## check, clear the cacheline file and read again
system( "rm -f $CLfile" );
readcacheline( $CLbase );
dumpcacheline( "Readback", $CLfile );
}
}
sub dumpcacheline()
{
my ( $comment ) = @_;
if ( $CLdebug )
{
print STDERR __LINE__, "-- $comment, dump cache file :\n";
system( "xxd $CLfile" );
}
}
sub SetFlags( $$ )
{
my ( $debug, $test ) = @_;
$CLdebug = $debug;
$CLtest = $test;
if ( $CLdebug )
{
print STDERR __LINE__, "-- CLdebug=$CLdebug, CLtest=$CLtest\n";
}
}
## required at the end of perl modules
1;
__END__
|