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pyIPCMI.sh
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pyIPCMI.sh
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# EMACS settings: -*- tab-width: 2; indent-tabs-mode: t -*-
# vim: tabstop=2:shiftwidth=2:noexpandtab
# kate: tab-width 2; replace-tabs off; indent-width 2;
#
# ==============================================================================
# Authors: Patrick Lehmann
#
# Bash Script: Wrapper Script to execute a given Python script
#
# Description:
# ------------------------------------
# This is a bash script (callable) which:
# - checks for a minimum installed Python version
# - loads vendor environments before executing the Python programs
#
# License:
# ==============================================================================
# Copyright 2017-2018 Patrick Lehmann - Bötzingen, Germany
# Copyright 2007-2016 Technische Universität Dresden - Germany
# Chair of VLSI-Design, Diagnostics and Architecture
#
# 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.
# ==============================================================================
# script settings
pyIPCMI_RootDirectory="$Library_RootDirectory/$pyIPCMI_Dir"
pyIPCMI_FrontEndPy="$pyIPCMI_RootDirectory/FrontEnd.py"
pyIPCMI_ConfigDir=".pyIPCMI"
pyIPCMI_HookDir="$pyIPCMI_ConfigDir/Hook"
pyIPCMI_HookDirectory="$Library_RootDirectory/$pyIPCMI_HookDir"
pyIPCMI_MinVersion="3.5"
# publish pyIPCMI directories as environment variables
export LibraryRootDirectory="$Library_RootDirectory"
export Library="$Library"
export pyIPCMIRootDirectory="$pyIPCMI_RootDirectory"
export pyIPCMIConfigDirectory="$Library_RootDirectory/.pyIPCMI"
export pyIPCMIFrontEnd="$pyIPCMI_FrontEndPy"
# set default values
pyIPCMI_Debug=0
pyIPCMI_ExitCode=0
# define color escape codes
ANSI_RED='\e[0;31m' # Red
ANSI_YELLOW='\e[1;33m' # Yellow
ANSI_NOCOLOR='\e[0m' # No Color
# Aldec tools
declare -A Env_Aldec=(
["PreHookFile"]="Aldec.pre.sh"
["PostHookFile"]="Aldec.post.sh"
["Tools"]="ActiveHDL RevieraPRO"
)
declare -A Env_Aldec_ActiveHDL=(
["Load"]=0
["Commands"]="asim"
["BashModule"]="Aldec.ActiveHDL.sh"
["PreHookFile"]="Aldec.ActiveHDL.pre.sh"
["PostHookFile"]="Aldec.ActiveHDL.post.sh"
)
declare -A Env_Aldec_RevieraPRO=(
["Load"]=0
["Commands"]="rpro"
["BashModule"]="Aldec.RevieraPRO.sh"
["PreHookFile"]="Aldec.RevieraPRO.pre.sh"
["PostHookFile"]="Aldec.RevieraPRO.post.sh"
)
# Altera tools
declare -A Env_Altera=(
["PreHookFile"]="Altera.pre.sh"
["PostHookFile"]="Altera.post.sh"
["Tools"]="Quartus"
)
declare -A Env_Altera_Quartus=(
["Load"]=0
["Commands"]="quartus"
["BashModule"]="Altera.Quartus.sh"
["PreHookFile"]="Altera.Quartus.pre.sh"
["PostHookFile"]="Altera.Quartus.post.sh"
)
# GHDL + GTKWave
declare -A Env_GHDL=(
["PreHookFile"]=""
["PostHookFile"]=""
["Tools"]="GHDL GTKWave"
)
declare -A Env_GHDL_GHDL=(
["Load"]=0
["Commands"]="ghdl"
["BashModule"]="GHDL.sh"
["PreHookFile"]="GHDL.pre.sh"
["PostHookFile"]="GHDL.post.sh"
)
declare -A Env_GHDL_GTKWave=(
["Load"]=0
["Commands"]="ghdl"
["BashModule"]="GTKWave.sh"
["PreHookFile"]="GTKWave.pre.sh"
["PostHookFile"]="GTKWave.post.sh"
)
# Intel tools
declare -A Env_Intel=(
["PreHookFile"]="Intel.pre.sh"
["PostHookFile"]="Intel.post.sh"
["Tools"]="Quartus"
)
declare -A Env_Intel_Quartus=(
["Load"]=0
["Commands"]="quartus"
["BashModule"]="Intel.Quartus.sh"
["PreHookFile"]="Intel.Quartus.pre.sh"
["PostHookFile"]="Intel.Quartus.post.sh"
)
# Lattice tools
declare -A Env_Lattice=(
["PreHookFile"]="Lattice.pre.sh"
["PostHookFile"]="Lattice.post.sh"
["Tools"]="Diamond ActiveHDL"
)
declare -A Env_Lattice_Diamond=(
["Load"]=0
["Commands"]="lse"
["BashModule"]="Lattice.Diamond.sh"
["PreHookFile"]="Lattice.Diamond.pre.sh"
["PostHookFile"]="Lattice.Diamond.post.sh"
)
declare -A Env_Lattice_ActiveHDL=(
["Load"]=0
["Commands"]="asim"
["BashModule"]="Lattice.ActiveHDL.sh"
["PreHookFile"]="Lattice.ActiveHDL.pre.sh"
["PostHookFile"]="Lattice.ActiveHDL.post.sh"
)
# Mentor Graphics tools
declare -A Env_Mentor=(
["PreHookFile"]="Mentor.pre.sh"
["PostHookFile"]="Mentor.post.sh"
["Tools"]="PrecisionRTL ModelSim QuestaSim"
)
declare -A Env_Mentor_PrecisionRTL=(
["Load"]=0
["Commands"]="prtl"
["BashModule"]="Mentor.PrecisionRTL.sh"
["PreHookFile"]="Mentor.PrecisionRTL.pre.sh"
["PostHookFile"]="Mentor.PrecisionRTL.post.sh"
)
declare -A Env_Mentor_ModelSim=(
["Load"]=0
["Commands"]="vsim msim"
["BashModule"]="Mentor.ModelSim.sh"
["PreHookFile"]="Mentor.ModelSim.pre.sh"
["PostHookFile"]="Mentor.ModelSim.post.sh"
)
declare -A Env_Mentor_QuestaSim=(
["Load"]=0
["Commands"]="qsim"
["BashModule"]="Mentor.QuestaSim.sh"
["PreHookFile"]="Mentor.QuestaSim.pre.sh"
["PostHookFile"]="Mentor.QuestaSim.post.sh"
)
# Sphinx documentation system
declare -A Env_Sphinx=(
["PreHookFile"]=""
["PostHookFile"]=""
["Tools"]="Sphinx"
)
declare -A Env_Sphinx_Sphinx=(
["Load"]=0
["Commands"]="docs"
["BashModule"]="Sphinx.sh"
["PreHookFile"]="Sphinx.pre.sh"
["PostHookFile"]="Sphinx.post.sh"
)
# Xilinx tools
declare -A Env_Xilinx=(
["PreHookFile"]="Xilinx.pre.sh"
["PostHookFile"]="Xilinx.post.sh"
["Tools"]="ISE Vivado"
)
declare -A Env_Xilinx_ISE=(
["Load"]=0
["Commands"]="isim xst coregen ise"
["BashModule"]="Xilinx.ISE.sh"
["PreHookFile"]="Xilinx.ISE.pre.sh"
["PostHookFile"]="Xilinx.ISE.post.sh"
)
declare -A Env_Xilinx_Vivado=(
["Load"]=0
["Commands"]="xsim vivado"
["BashModule"]="Xilinx.Vivado.sh"
["PreHookFile"]="Xilinx.Vivado.pre.sh"
["PostHookFile"]="Xilinx.Vivado.post.sh"
)
# Cocotb
declare -A Env_Cocotb=(
["PreHookFile"]="Cocotb.pre.sh"
["PostHookFile"]="Cocotb.post.sh"
["Tools"]="QuestaSim"
)
declare -A Env_Cocotb_QuestaSim=(
["Load"]=0
["Commands"]="cocotb"
["BashModule"]="Cocotb.QuestaSim.sh"
["PreHookFile"]="Cocotb.QuestaSim.pre.sh"
["PostHookFile"]="Cocotb.QuestaSim.post.sh"
)
# List all vendors
Env_Vendors="Aldec Altera GHDL Intel Lattice Mentor Sphinx Xilinx Cocotb"
# search script parameters for known commands
BreakIt=0
for param in $Wrapper_Parameters; do
if [ "$param" = "-D" ]; then
pyIPCMI_Debug=1
continue
fi
# compare registered commands from all vendor tools
for VendorName in $Env_Vendors; do
declare -n VendorIndex="Env_$VendorName"
for ToolName in ${VendorIndex["Tools"]}; do
declare -n ToolIndex="Env_${VendorName}_${ToolName}"
for Command in ${ToolIndex["Commands"]}; do
if [ "$param" = "$Command" ]; then
ToolIndex["Load"]=1
BreakIt=1
break
fi
done # Commands
done # ToolNames
done # VendorNames
# break is a known command was detected
if [ $BreakIt -eq 1 ]; then break; fi
done # Parameters
# find suitable python version or abort execution
Python_VersionTest="import sys; sys.exit(not (0x0${pyIPCMI_MinVersion:0:1}0${pyIPCMI_MinVersion:2:1}0000 < sys.hexversion < 0x04000000))"
Python_Message=""
python -c "$Python_VersionTest" 2>/dev/null
if [ $? -eq 0 ]; then
Python_Interpreter=$(which python 2>/dev/null)
test $pyIPCMI_Debug -eq 1 && Python_Message=" (standard interpreter)"
else
# standard python interpreter is not suitable, try to find a suitable version manually
for pyVersion in 3.9 3.8 3.7 3.6 3.5 3.4; do
Python_Interpreter=$(which python$pyVersion 2>/dev/null)
# if ExitCode = 0 => version found
if [ $? -eq 0 ]; then
# redo version test
$Python_Interpreter -c "$Python_VersionTest" 2>/dev/null
if [ $? -eq 0 ]; then break; fi
fi
done
fi
# if no interpreter was found => exit
if [ -z "$Python_Interpreter" ]; then
echo 1>&2 -e "${ANSI_RED}No suitable Python interpreter found.${ANSI_NOCOLOR}"
echo 1>&2 -e "${ANSI_RED}The script requires Python >= $pyIPCMI_MinVersion${ANSI_NOCOLOR}"
pyIPCMI_ExitCode=1
fi
if [[ ($pyIPCMI_ExitCode -eq 0) && ($pyIPCMI_Debug -eq 1) ]]; then
echo -e "${ANSI_YELLOW}This is the pyIPCMI Library script wrapper operating in debug mode.${ANSI_NOCOLOR}"
echo
echo -e "${ANSI_YELLOW}Directories:${ANSI_NOCOLOR}"
echo -e "${ANSI_YELLOW} Library root: $Library_RootDirectory${ANSI_NOCOLOR}"
echo -e "${ANSI_YELLOW} pyIPCMI root: $pyIPCMI_RootDirectory${ANSI_NOCOLOR}"
echo -e "${ANSI_YELLOW} working: $Wrapper_WorkingDirectory${ANSI_NOCOLOR}"
echo -e "${ANSI_YELLOW}Python:${ANSI_NOCOLOR}"
echo -e "${ANSI_YELLOW} Interpreter: $Python_Interpreter$Python_Message${ANSI_NOCOLOR}"
echo -e "${ANSI_YELLOW}Script:${ANSI_NOCOLOR}"
echo -e "${ANSI_YELLOW} Filename: $pyIPCMI_FrontEndPy${ANSI_NOCOLOR}"
echo -e "${ANSI_YELLOW} Library: $Library${ANSI_NOCOLOR}"
echo -e "${ANSI_YELLOW} Solution: $Solution${ANSI_NOCOLOR}"
echo -e "${ANSI_YELLOW} Project: $Project${ANSI_NOCOLOR}"
echo -e "${ANSI_YELLOW} Parameters: $Wrapper_Parameters${ANSI_NOCOLOR}"
echo -e "${ANSI_YELLOW}Load Environment: ${ANSI_NOCOLOR}"
echo -e "${ANSI_YELLOW} Lattice Diamond: ${Env_Lattice_Diamond["Load"]}${ANSI_NOCOLOR}"
echo -e "${ANSI_YELLOW} Xilinx ISE: ${Env_Xilinx_ISE["Load"]}${ANSI_NOCOLOR}"
echo -e "${ANSI_YELLOW} Xilinx VIVADO: ${Env_Xilinx_Vivado["Load"]}${ANSI_NOCOLOR}"
echo
fi
# execute vendor and tool pre-hook files if present
if [ $pyIPCMI_ExitCode -eq 0 ]; then
for VendorName in $Env_Vendors; do
declare -n VendorIndex="Env_$VendorName"
for ToolName in ${VendorIndex["Tools"]}; do
declare -n ToolIndex="Env_${VendorName}_${ToolName}"
if [ ${ToolIndex["Load"]} -eq 1 ]; then
# if exists, source the vendor pre-hook file
VendorPreHookFile=$pyIPCMIRootDirectory/$pyIPCMI_HookDirectory/${VendorIndex["PreHookFile"]}
test -f $VendorPreHookFile && source $VendorPreHookFile
# if exists, source the tool pre-hook file
ToolPreHookFile=$pyIPCMIRootDirectory/$pyIPCMI_HookDirectory/${ToolIndex["PreHookFile"]}
test -f $ToolPreHookFile && source $ToolPreHookFile
# if exists, source the BashModule file
ModuleFile=$pyIPCMIRootDirectory/$pyIPCMI_WrapperDirectory/${ToolIndex["BashModule"]}
if [ -f $ModuleFile ]; then
source $ModuleFile
OpenEnvironment $Python_Interpreter $pyIPCMI_FrontEnd
pyIPCMI_ExitCode=$?
fi
break 2
fi
done # ToolNames
done # VendorNames
fi
# execute script with appropriate python interpreter and all given parameters
if [ $pyIPCMI_ExitCode -eq 0 ]; then
if [ -z $Wrapper_Solution ]; then
Python_ScriptParameters=$Wrapper_Parameters
else
Python_ScriptParameters="--sln=$Wrapper_Solution $Wrapper_Parameters"
fi
if [ $pyIPCMI_Debug -eq 1 ]; then
echo -e "${ANSI_YELLOW}Launching: '$Python_Interpreter $pyIPCMI_FrontEndPy $Python_ScriptParameters'${ANSI_NOCOLOR}"
echo -e "${ANSI_YELLOW}------------------------------------------------------------${ANSI_NOCOLOR}"
fi
# launching python script
set -f
"$Python_Interpreter" $pyIPCMI_FrontEndPy $Python_ScriptParameters
pyIPCMI_ExitCode=$?
fi
# execute vendor and tool post-hook files if present
for VendorName in $Env_Vendors; do
declare -n VendorIndex="Env_$VendorName"
for ToolName in ${VendorIndex["Tools"]}; do
declare -n ToolIndex="Env_${VendorName}_${ToolName}"
if [ ${ToolIndex["Load"]} -eq 1 ]; then
# if exists, source the tool Post-hook file
ToolPostHookFile=$pyIPCMI_RootDir/$pyIPCMI_HookDirectory/${ToolIndex["PostHookFile"]}
test -f $ToolPostHookFile && source $ToolPostHookFile
# if exists, source the vendor post-hook file
VendorPostHookFile=$pyIPCMI_RootDir/$pyIPCMI_HookDirectory/${VendorIndex["PostHookFile"]}
test -f $VendorPostHookFile && source $VendorPostHookFile
# if exists, source the BashModule file
ModuleFile=$pyIPCMI_RootDir/$pyIPCMI_WrapperDirectory/${ToolIndex["BashModule"]}
if [ -f $ModuleFile ]; then
# source $ModuleFile
CloseEnvironment $Python_Interpreter $pyIPCMI_FrontEnd
pyIPCMI_ExitCode=$?
fi
break 2
fi
done # ToolNames
done # VendorNames
# clean up environment variables
unset pyIPCMIRootDirectory
unset pyIPCMIWorkingDirectory